diff --git a/bbl/i18n/OrcaSlicer.pot b/bbl/i18n/OrcaSlicer.pot index 0c5a0cbdb6..14d31487bd 100644 --- a/bbl/i18n/OrcaSlicer.pot +++ b/bbl/i18n/OrcaSlicer.pot @@ -8,7 +8,7 @@ msgid "" msgstr "" "Project-Id-Version: PACKAGE VERSION\n" "Report-Msgid-Bugs-To: \n" -"POT-Creation-Date: 2023-07-07 00:05+0800\n" +"POT-Creation-Date: 2023-07-07 00:37+0800\n" "PO-Revision-Date: YEAR-MO-DA HO:MI+ZONE\n" "Last-Translator: FULL NAME \n" "Language-Team: LANGUAGE \n" @@ -1838,7 +1838,10 @@ msgstr "" msgid "You need to select the material type and color first." msgstr "" -msgid "Other color" +msgid "Other Color" +msgstr "" + +msgid "Custom Color" msgstr "" msgid "Dynamic flow calibration" @@ -8768,103 +8771,3 @@ msgstr "" msgid "Connection to printers connected via the print host failed." msgstr "" - -#: resources/data/hints.ini: [hint:3D Scene Operations] -msgid "3D Scene Operations\nDid you know how to control view and object/part selection with mouse and touchpanel in the 3D scene?" -msgstr "" - -#: resources/data/hints.ini: [hint:Cut Tool] -msgid "Cut Tool\nDid you know that you can cut a model at any angle and position with the cutting tool?" -msgstr "" - -#: resources/data/hints.ini: [hint:Fix Model] -msgid "Fix Model\nDid you know that you can fix a corrupted 3D model to avoid a lot of slicing problems?" -msgstr "" - -#: resources/data/hints.ini: [hint:Timelapse] -msgid "Timelapse\nDid you know that you can generate a timelapse video during each print?" -msgstr "" - -#: resources/data/hints.ini: [hint:Auto-Arrange] -msgid "Auto-Arrange\nDid you know that you can auto-arrange all objects in your project?" -msgstr "" - -#: resources/data/hints.ini: [hint:Auto-Orient] -msgid "Auto-Orient\nDid you know that you can rotate objects to an optimal orientation for printing by a simple click?" -msgstr "" - -#: resources/data/hints.ini: [hint:Lay on Face] -msgid "Lay on Face\nDid you know that you can quickly orient a model so that one of its faces sits on the print bed? Select the \"Place on face\" function or press the F key." -msgstr "" - -#: resources/data/hints.ini: [hint:Object List] -msgid "Object List\nDid you know that you can view all objects/parts in a list and change settings for each object/part?" -msgstr "" - -#: resources/data/hints.ini: [hint:Simplify Model] -msgid "Simplify Model\nDid you know that you can reduce the number of triangles in a mesh using the Simplify mesh feature? Right-click the model and select Simplify model. Read more in the documentation." -msgstr "" - -#: resources/data/hints.ini: [hint:Slicing Parameter Table] -msgid "Slicing Parameter Table\nDid you know that you can view all objects/parts on a table and change settings for each object/part?" -msgstr "" - -#: resources/data/hints.ini: [hint:Split to Objects/Parts] -msgid "Split to Objects/Parts\nDid you know that you can split a big object into small ones for easy colorizing or printing?" -msgstr "" - -#: resources/data/hints.ini: [hint:Subtract a Part] -msgid "Subtract a Part\nDid you know that you can subtract one mesh from another using the Negative part modifier? That way you can, for example, create easily resizable holes directly in Orca Slicer. Read more in the documentation." -msgstr "" - -#: resources/data/hints.ini: [hint:STEP] -msgid "STEP\nDid you know that you can improve your print quality by slicing a STEP file instead of an STL?\nOrca Slicer supports slicing STEP files, providing smoother results than a lower resolution STL. Give it a try!" -msgstr "" - -#: resources/data/hints.ini: [hint:Z seam location] -msgid "Z seam location\nDid you know that you can customize the location of the Z seam, and even paint it on your print, to have it in a less visible location? This improves the overall look of your model. Check it out!" -msgstr "" - -#: resources/data/hints.ini: [hint:Fine-tuning for flow rate] -msgid "Fine-tuning for flow rate\nDid you know that flow rate can be fine-tuned for even better-looking prints? Depending on the material, you can improve the overall finish of the printed model by doing some fine-tuning." -msgstr "" - -#: resources/data/hints.ini: [hint:Split your prints into plates] -msgid "Split your prints into plates\nDid you know that you can split a model that has a lot of parts into individual plates ready to print? This will simplify the process of keeping track of all the parts." -msgstr "" - -#: resources/data/hints.ini: [hint:Speed up your print with Adaptive Layer Height] -msgid "Speed up your print with Adaptive Layer Height\nDid you know that you can print a model even faster, by using the Adaptive Layer Height option? Check it out!" -msgstr "" - -#: resources/data/hints.ini: [hint:Support painting] -msgid "Support painting\nDid you know that you can paint the location of your supports? This feature makes it easy to place the support material only on the sections of the model that actually need it." -msgstr "" - -#: resources/data/hints.ini: [hint:Different types of supports] -msgid "Different types of supports\nDid you know that you can choose from multiple types of supports? Tree supports work great for organic models, while saving filament and improving print speed. Check them out!" -msgstr "" - -#: resources/data/hints.ini: [hint:Printing Silk Filament] -msgid "Printing Silk Filament\nDid you know that Silk filament needs special consideration to print it successfully? Higher temperature and lower speed are always recommended for the best results." -msgstr "" - -#: resources/data/hints.ini: [hint:Brim for better adhesion] -msgid "Brim for better adhesion\nDid you know that when printing models have a small contact interface with the printing surface, it's recommended to use a brim?" -msgstr "" - -#: resources/data/hints.ini: [hint:Set parameters for multiple objects] -msgid "Set parameters for multiple objects\nDid you know that you can set slicing parameters for all selected objects at one time?" -msgstr "" - -#: resources/data/hints.ini: [hint:Stack objects] -msgid "Stack objects\nDid you know that you can stack objects as a whole one?" -msgstr "" - -#: resources/data/hints.ini: [hint:Flush into support/objects/infill] -msgid "Flush into support/objects/infill\nDid you know that you can save the wasted filament by flushing them into support/objects/infill during filament change?" -msgstr "" - -#: resources/data/hints.ini: [hint:Improve strength] -msgid "Improve strength\nDid you know that you can use more wall loops and higher sparse infill density to improve the strength of the model?" -msgstr "" diff --git a/bbl/i18n/cs/OrcaSlicer_cs.po b/bbl/i18n/cs/OrcaSlicer_cs.po index 4a5298de73..165527af1a 100755 --- a/bbl/i18n/cs/OrcaSlicer_cs.po +++ b/bbl/i18n/cs/OrcaSlicer_cs.po @@ -7,7 +7,7 @@ msgid "" msgstr "" "Project-Id-Version: \n" "Report-Msgid-Bugs-To: \n" -"POT-Creation-Date: 2023-07-07 00:05+0800\n" +"POT-Creation-Date: 2023-07-07 00:37+0800\n" "PO-Revision-Date: 2023-03-31 22:48+0200\n" "Last-Translator: Momo \n" "Language-Team: \n" @@ -1909,7 +1909,10 @@ msgstr "Zadejte platnou hodnotu (K v 0~0,5, N v 0,6~2,0)" msgid "You need to select the material type and color first." msgstr "" -msgid "Other color" +msgid "Other Color" +msgstr "" + +msgid "Custom Color" msgstr "" msgid "Dynamic flow calibration" @@ -9547,270 +9550,246 @@ msgstr "" msgid "Connection to printers connected via the print host failed." msgstr "" -#: resources/data/hints.ini: [hint:3D Scene Operations] -msgid "" -"3D Scene Operations\n" -"Did you know how to control view and object/part selection with mouse and " -"touchpanel in the 3D scene?" -msgstr "" -"Operace 3D scény\n" -"Did jste, jak ovládat pohled a výběr objektů/dílů pomocí myši a dotykového " -"panelu ve 3D scéně?" +#~ msgid "" +#~ "3D Scene Operations\n" +#~ "Did you know how to control view and object/part selection with mouse and " +#~ "touchpanel in the 3D scene?" +#~ msgstr "" +#~ "Operace 3D scény\n" +#~ "Did jste, jak ovládat pohled a výběr objektů/dílů pomocí myši a " +#~ "dotykového panelu ve 3D scéně?" -#: resources/data/hints.ini: [hint:Cut Tool] -msgid "" -"Cut Tool\n" -"Did you know that you can cut a model at any angle and position with the " -"cutting tool?" -msgstr "" -"Nástroj pro řezání\n" -"Did jste, že pomocí řezného nástroje můžete řezat model v libovolném úhlu a " -"poloze?" +#~ msgid "" +#~ "Cut Tool\n" +#~ "Did you know that you can cut a model at any angle and position with the " +#~ "cutting tool?" +#~ msgstr "" +#~ "Nástroj pro řezání\n" +#~ "Did jste, že pomocí řezného nástroje můžete řezat model v libovolném úhlu " +#~ "a poloze?" -#: resources/data/hints.ini: [hint:Fix Model] -msgid "" -"Fix Model\n" -"Did you know that you can fix a corrupted 3D model to avoid a lot of slicing " -"problems?" -msgstr "" -"Opravit model\n" -"Did jste, že můžete opravit poškozený 3D model, abyste se vyhnuli mnoha " -"problémům s krájením?" +#~ msgid "" +#~ "Fix Model\n" +#~ "Did you know that you can fix a corrupted 3D model to avoid a lot of " +#~ "slicing problems?" +#~ msgstr "" +#~ "Opravit model\n" +#~ "Did jste, že můžete opravit poškozený 3D model, abyste se vyhnuli mnoha " +#~ "problémům s krájením?" -#: resources/data/hints.ini: [hint:Timelapse] -msgid "" -"Timelapse\n" -"Did you know that you can generate a timelapse video during each print?" -msgstr "" -"Časosběr\n" -"Did jste, že můžete generovat časosběrné video během každého tisku?" +#~ msgid "" +#~ "Timelapse\n" +#~ "Did you know that you can generate a timelapse video during each print?" +#~ msgstr "" +#~ "Časosběr\n" +#~ "Did jste, že můžete generovat časosběrné video během každého tisku?" -#: resources/data/hints.ini: [hint:Auto-Arrange] -msgid "" -"Auto-Arrange\n" -"Did you know that you can auto-arrange all objects in your project?" -msgstr "" -"Automatické uspořádání\n" -"Did jste, že můžete automaticky uspořádat všechny objekty ve svém projektu?" +#~ msgid "" +#~ "Auto-Arrange\n" +#~ "Did you know that you can auto-arrange all objects in your project?" +#~ msgstr "" +#~ "Automatické uspořádání\n" +#~ "Did jste, že můžete automaticky uspořádat všechny objekty ve svém " +#~ "projektu?" -#: resources/data/hints.ini: [hint:Auto-Orient] -msgid "" -"Auto-Orient\n" -"Did you know that you can rotate objects to an optimal orientation for " -"printing by a simple click?" -msgstr "" -"Auto-Orient\n" -"Did jste, že můžete otočit objekty do optimální orientace pro tisk " -"jednoduchým kliknutím?" +#~ msgid "" +#~ "Auto-Orient\n" +#~ "Did you know that you can rotate objects to an optimal orientation for " +#~ "printing by a simple click?" +#~ msgstr "" +#~ "Auto-Orient\n" +#~ "Did jste, že můžete otočit objekty do optimální orientace pro tisk " +#~ "jednoduchým kliknutím?" -#: resources/data/hints.ini: [hint:Lay on Face] -msgid "" -"Lay on Face\n" -"Did you know that you can quickly orient a model so that one of its faces " -"sits on the print bed? Select the \"Place on face\" function or press the " -"F key." -msgstr "" -"Plochou na podložku\n" -"Did jste, že můžete rychle orientovat model tak, aby jedna z jeho tváří " -"seděla na tiskové podložce? Vyberte funkci \"Umístit na obličej\" nebo " -"stiskněte klávesu F ." +#~ msgid "" +#~ "Lay on Face\n" +#~ "Did you know that you can quickly orient a model so that one of its faces " +#~ "sits on the print bed? Select the \"Place on face\" function or press the " +#~ "F key." +#~ msgstr "" +#~ "Plochou na podložku\n" +#~ "Did jste, že můžete rychle orientovat model tak, aby jedna z jeho tváří " +#~ "seděla na tiskové podložce? Vyberte funkci \"Umístit na obličej\" nebo " +#~ "stiskněte klávesu F ." -#: resources/data/hints.ini: [hint:Object List] -msgid "" -"Object List\n" -"Did you know that you can view all objects/parts in a list and change " -"settings for each object/part?" -msgstr "" -"Seznam objektů\n" -"Did jste, že můžete zobrazit všechny objekty/části v seznamu a změnit " -"nastavení pro každý objekt/část?" +#~ msgid "" +#~ "Object List\n" +#~ "Did you know that you can view all objects/parts in a list and change " +#~ "settings for each object/part?" +#~ msgstr "" +#~ "Seznam objektů\n" +#~ "Did jste, že můžete zobrazit všechny objekty/části v seznamu a změnit " +#~ "nastavení pro každý objekt/část?" -#: resources/data/hints.ini: [hint:Simplify Model] -msgid "" -"Simplify Model\n" -"Did you know that you can reduce the number of triangles in a mesh using the " -"Simplify mesh feature? Right-click the model and select Simplify model. Read " -"more in the documentation." -msgstr "" -"Zjednodušte model\n" -"Did jste, že můžete snížit počet trojúhelníků v síti pomocí funkce " -"Zjednodušit síť? Klikněte pravým tlačítkem na model a vyberte Zjednodušit " -"model. Více v dokumentaci." +#~ msgid "" +#~ "Simplify Model\n" +#~ "Did you know that you can reduce the number of triangles in a mesh using " +#~ "the Simplify mesh feature? Right-click the model and select Simplify " +#~ "model. Read more in the documentation." +#~ msgstr "" +#~ "Zjednodušte model\n" +#~ "Did jste, že můžete snížit počet trojúhelníků v síti pomocí funkce " +#~ "Zjednodušit síť? Klikněte pravým tlačítkem na model a vyberte Zjednodušit " +#~ "model. Více v dokumentaci." -#: resources/data/hints.ini: [hint:Slicing Parameter Table] -msgid "" -"Slicing Parameter Table\n" -"Did you know that you can view all objects/parts on a table and change " -"settings for each object/part?" -msgstr "" -"Tabulka parametrů dělení\n" -"Did jste, že můžete zobrazit všechny objekty/části v tabulce a změnit " -"nastavení pro každý objekt/část?" +#~ msgid "" +#~ "Slicing Parameter Table\n" +#~ "Did you know that you can view all objects/parts on a table and change " +#~ "settings for each object/part?" +#~ msgstr "" +#~ "Tabulka parametrů dělení\n" +#~ "Did jste, že můžete zobrazit všechny objekty/části v tabulce a změnit " +#~ "nastavení pro každý objekt/část?" -#: resources/data/hints.ini: [hint:Split to Objects/Parts] -msgid "" -"Split to Objects/Parts\n" -"Did you know that you can split a big object into small ones for easy " -"colorizing or printing?" -msgstr "" -"Rozdělit na objekty/části\n" -"Didi jste, že velký objekt můžete rozdělit na malé pro snadné obarvení nebo " -"tisk?" +#~ msgid "" +#~ "Split to Objects/Parts\n" +#~ "Did you know that you can split a big object into small ones for easy " +#~ "colorizing or printing?" +#~ msgstr "" +#~ "Rozdělit na objekty/části\n" +#~ "Didi jste, že velký objekt můžete rozdělit na malé pro snadné obarvení " +#~ "nebo tisk?" -#: resources/data/hints.ini: [hint:Subtract a Part] -msgid "" -"Subtract a Part\n" -"Did you know that you can subtract one mesh from another using the Negative " -"part modifier? That way you can, for example, create easily resizable holes " -"directly in Orca Slicer. Read more in the documentation." -msgstr "" -"Odečtení dílu\n" -"Did jste, že můžete odečíst jednu síť od druhé pomocí modifikátoru záporné " -"části? Tímto způsobem můžete například vytvářet snadno měnitelné otvory " -"přímo v Orca Slicer. Přečtěte si více v dokumentaci." +#~ msgid "" +#~ "Subtract a Part\n" +#~ "Did you know that you can subtract one mesh from another using the " +#~ "Negative part modifier? That way you can, for example, create easily " +#~ "resizable holes directly in Orca Slicer. Read more in the documentation." +#~ msgstr "" +#~ "Odečtení dílu\n" +#~ "Did jste, že můžete odečíst jednu síť od druhé pomocí modifikátoru " +#~ "záporné části? Tímto způsobem můžete například vytvářet snadno měnitelné " +#~ "otvory přímo v Orca Slicer. Přečtěte si více v dokumentaci." -#: resources/data/hints.ini: [hint:STEP] -msgid "" -"STEP\n" -"Did you know that you can improve your print quality by slicing a STEP file " -"instead of an STL?\n" -"Orca Slicer supports slicing STEP files, providing smoother results than a " -"lower resolution STL. Give it a try!" -msgstr "" -"STEP\n" -"Did jste, že kvalitu tisku můžete zlepšit krájením souboru STEP místo STL?\n" -"Orca Slicer podporuje krájení souborů STEP a poskytuje hladší výsledky než " -"STL s nižším rozlišením. Vyzkoušejte to!" +#~ msgid "" +#~ "STEP\n" +#~ "Did you know that you can improve your print quality by slicing a STEP " +#~ "file instead of an STL?\n" +#~ "Orca Slicer supports slicing STEP files, providing smoother results than " +#~ "a lower resolution STL. Give it a try!" +#~ msgstr "" +#~ "STEP\n" +#~ "Did jste, že kvalitu tisku můžete zlepšit krájením souboru STEP místo " +#~ "STL?\n" +#~ "Orca Slicer podporuje krájení souborů STEP a poskytuje hladší výsledky " +#~ "než STL s nižším rozlišením. Vyzkoušejte to!" -#: resources/data/hints.ini: [hint:Z seam location] -msgid "" -"Z seam location\n" -"Did you know that you can customize the location of the Z seam, and even " -"paint it on your print, to have it in a less visible location? This improves " -"the overall look of your model. Check it out!" -msgstr "" -"Umístění Z švu\n" -"Did jste, že si můžete přizpůsobit umístění Z švu a dokonce jej namalovat na " -"tisk, abyste jej měli na méně viditelném místě? To zlepšuje celkový vzhled " -"vašeho modelu. Vyzkoušejte to!" +#~ msgid "" +#~ "Z seam location\n" +#~ "Did you know that you can customize the location of the Z seam, and even " +#~ "paint it on your print, to have it in a less visible location? This " +#~ "improves the overall look of your model. Check it out!" +#~ msgstr "" +#~ "Umístění Z švu\n" +#~ "Did jste, že si můžete přizpůsobit umístění Z švu a dokonce jej namalovat " +#~ "na tisk, abyste jej měli na méně viditelném místě? To zlepšuje celkový " +#~ "vzhled vašeho modelu. Vyzkoušejte to!" -#: resources/data/hints.ini: [hint:Fine-tuning for flow rate] -msgid "" -"Fine-tuning for flow rate\n" -"Did you know that flow rate can be fine-tuned for even better-looking " -"prints? Depending on the material, you can improve the overall finish of the " -"printed model by doing some fine-tuning." -msgstr "" -"Jemné doladění průtoku\n" -"Did jste, že průtok lze vyladit pro ještě lépe vypadající výtisky? V " -"závislosti na materiálu můžete vylepšit celkovou povrchovou úpravu tištěného " -"modelu provedením nějakého jemného doladění." +#~ msgid "" +#~ "Fine-tuning for flow rate\n" +#~ "Did you know that flow rate can be fine-tuned for even better-looking " +#~ "prints? Depending on the material, you can improve the overall finish of " +#~ "the printed model by doing some fine-tuning." +#~ msgstr "" +#~ "Jemné doladění průtoku\n" +#~ "Did jste, že průtok lze vyladit pro ještě lépe vypadající výtisky? V " +#~ "závislosti na materiálu můžete vylepšit celkovou povrchovou úpravu " +#~ "tištěného modelu provedením nějakého jemného doladění." -#: resources/data/hints.ini: [hint:Split your prints into plates] -msgid "" -"Split your prints into plates\n" -"Did you know that you can split a model that has a lot of parts into " -"individual plates ready to print? This will simplify the process of keeping " -"track of all the parts." -msgstr "" -"Rozdělit výtisky na desky\n" -"Did jste, že můžete rozdělit model, který má mnoho dílů, na jednotlivé desky " -"připravené k tisku? To zjednoduší proces sledování všech dílů." +#~ msgid "" +#~ "Split your prints into plates\n" +#~ "Did you know that you can split a model that has a lot of parts into " +#~ "individual plates ready to print? This will simplify the process of " +#~ "keeping track of all the parts." +#~ msgstr "" +#~ "Rozdělit výtisky na desky\n" +#~ "Did jste, že můžete rozdělit model, který má mnoho dílů, na jednotlivé " +#~ "desky připravené k tisku? To zjednoduší proces sledování všech dílů." -#: resources/data/hints.ini: [hint:Speed up your print with Adaptive Layer -#: Height] -msgid "" -"Speed up your print with Adaptive Layer Height\n" -"Did you know that you can print a model even faster, by using the Adaptive " -"Layer Height option? Check it out!" -msgstr "" -"Urychlete svůj tisk pomocí Adaptivní výšky vrstvy\n" -"Did jste, že můžete tisknout model ještě rychleji pomocí možnosti Adaptivní " -"výška vrstvy? Vyzkoušejte to!" +#~ msgid "" +#~ "Speed up your print with Adaptive Layer Height\n" +#~ "Did you know that you can print a model even faster, by using the " +#~ "Adaptive Layer Height option? Check it out!" +#~ msgstr "" +#~ "Urychlete svůj tisk pomocí Adaptivní výšky vrstvy\n" +#~ "Did jste, že můžete tisknout model ještě rychleji pomocí možnosti " +#~ "Adaptivní výška vrstvy? Vyzkoušejte to!" -#: resources/data/hints.ini: [hint:Support painting] -msgid "" -"Support painting\n" -"Did you know that you can paint the location of your supports? This feature " -"makes it easy to place the support material only on the sections of the " -"model that actually need it." -msgstr "" -"Malování podpěry\n" -"Did jste, že můžete namalovat umístění svých podpěr? Tato funkce usnadňuje " -"umístění podpěrného materiálu pouze na části modelu, které to skutečně " -"potřebují." +#~ msgid "" +#~ "Support painting\n" +#~ "Did you know that you can paint the location of your supports? This " +#~ "feature makes it easy to place the support material only on the sections " +#~ "of the model that actually need it." +#~ msgstr "" +#~ "Malování podpěry\n" +#~ "Did jste, že můžete namalovat umístění svých podpěr? Tato funkce " +#~ "usnadňuje umístění podpěrného materiálu pouze na části modelu, které to " +#~ "skutečně potřebují." -#: resources/data/hints.ini: [hint:Different types of supports] -msgid "" -"Different types of supports\n" -"Did you know that you can choose from multiple types of supports? Tree " -"supports work great for organic models, while saving filament and improving " -"print speed. Check them out!" -msgstr "" -"Různé typy podpěr\n" -"Did jste, že si můžete vybrat z více typů podpěr? Podpěry stromu fungují " -"skvěle pro organické modely, přičemž šetří vlákno a zlepšují rychlost tisku. " -"Vyzkoušejte je!" +#~ msgid "" +#~ "Different types of supports\n" +#~ "Did you know that you can choose from multiple types of supports? Tree " +#~ "supports work great for organic models, while saving filament and " +#~ "improving print speed. Check them out!" +#~ msgstr "" +#~ "Různé typy podpěr\n" +#~ "Did jste, že si můžete vybrat z více typů podpěr? Podpěry stromu fungují " +#~ "skvěle pro organické modely, přičemž šetří vlákno a zlepšují rychlost " +#~ "tisku. Vyzkoušejte je!" -#: resources/data/hints.ini: [hint:Printing Silk Filament] -msgid "" -"Printing Silk Filament\n" -"Did you know that Silk filament needs special consideration to print it " -"successfully? Higher temperature and lower speed are always recommended for " -"the best results." -msgstr "" -"Tisk hedvábného vlákna\n" -"Did jste, že hedvábný filament vyžaduje zvláštní pozornost, aby byl úspěšný? " -"Pro dosažení nejlepších výsledků se vždy doporučuje vyšší teplota a nižší " -"rychlost." +#~ msgid "" +#~ "Printing Silk Filament\n" +#~ "Did you know that Silk filament needs special consideration to print it " +#~ "successfully? Higher temperature and lower speed are always recommended " +#~ "for the best results." +#~ msgstr "" +#~ "Tisk hedvábného vlákna\n" +#~ "Did jste, že hedvábný filament vyžaduje zvláštní pozornost, aby byl " +#~ "úspěšný? Pro dosažení nejlepších výsledků se vždy doporučuje vyšší " +#~ "teplota a nižší rychlost." -#: resources/data/hints.ini: [hint:Brim for better adhesion] -msgid "" -"Brim for better adhesion\n" -"Did you know that when printing models have a small contact interface with " -"the printing surface, it's recommended to use a brim?" -msgstr "" -"Okraj pro lepší přilnavost\n" -"Did jste, že když tiskové modely mají malé kontaktní rozhraní s tiskovou " -"plochou, doporučuje se použít okraj?" +#~ msgid "" +#~ "Brim for better adhesion\n" +#~ "Did you know that when printing models have a small contact interface " +#~ "with the printing surface, it's recommended to use a brim?" +#~ msgstr "" +#~ "Okraj pro lepší přilnavost\n" +#~ "Did jste, že když tiskové modely mají malé kontaktní rozhraní s tiskovou " +#~ "plochou, doporučuje se použít okraj?" -#: resources/data/hints.ini: [hint:Set parameters for multiple objects] -msgid "" -"Set parameters for multiple objects\n" -"Did you know that you can set slicing parameters for all selected objects at " -"one time?" -msgstr "" -"Nastavit parametry pro více objektů\n" -"Did jste, že můžete nastavit parametry krájení pro všechny vybrané objekty " -"najednou?" +#~ msgid "" +#~ "Set parameters for multiple objects\n" +#~ "Did you know that you can set slicing parameters for all selected objects " +#~ "at one time?" +#~ msgstr "" +#~ "Nastavit parametry pro více objektů\n" +#~ "Did jste, že můžete nastavit parametry krájení pro všechny vybrané " +#~ "objekty najednou?" -#: resources/data/hints.ini: [hint:Stack objects] -msgid "" -"Stack objects\n" -"Did you know that you can stack objects as a whole one?" -msgstr "" -"Skládat objekty\n" -"Did jste, že můžete skládat objekty jako jeden celek?" +#~ msgid "" +#~ "Stack objects\n" +#~ "Did you know that you can stack objects as a whole one?" +#~ msgstr "" +#~ "Skládat objekty\n" +#~ "Did jste, že můžete skládat objekty jako jeden celek?" -#: resources/data/hints.ini: [hint:Flush into support/objects/infill] -msgid "" -"Flush into support/objects/infill\n" -"Did you know that you can save the wasted filament by flushing them into " -"support/objects/infill during filament change?" -msgstr "" -"Vypláchnout do support/objects/infill\n" -"Did jste, že můžete zachránit ztracené vlákno jejich vypláchnutím do support/" -"objects/infill během výměny vlákna?" +#~ msgid "" +#~ "Flush into support/objects/infill\n" +#~ "Did you know that you can save the wasted filament by flushing them into " +#~ "support/objects/infill during filament change?" +#~ msgstr "" +#~ "Vypláchnout do support/objects/infill\n" +#~ "Did jste, že můžete zachránit ztracené vlákno jejich vypláchnutím do " +#~ "support/objects/infill během výměny vlákna?" -#: resources/data/hints.ini: [hint:Improve strength] -msgid "" -"Improve strength\n" -"Did you know that you can use more wall loops and higher sparse infill " -"density to improve the strength of the model?" -msgstr "" -"Zlepšete pevnost\n" -"Did jste, že ke zlepšení pevnosti modelu můžete použít více smyček na stěně " -"a vyšší hustotu výplně?" +#~ msgid "" +#~ "Improve strength\n" +#~ "Did you know that you can use more wall loops and higher sparse infill " +#~ "density to improve the strength of the model?" +#~ msgstr "" +#~ "Zlepšete pevnost\n" +#~ "Did jste, že ke zlepšení pevnosti modelu můžete použít více smyček na " +#~ "stěně a vyšší hustotu výplně?" #~ msgid "" #~ "If enabled, support loops will be generated under the contours of " diff --git a/bbl/i18n/de/OrcaSlicer_de.po b/bbl/i18n/de/OrcaSlicer_de.po index 3796cc4423..d10115a393 100644 --- a/bbl/i18n/de/OrcaSlicer_de.po +++ b/bbl/i18n/de/OrcaSlicer_de.po @@ -2,7 +2,7 @@ msgid "" msgstr "" "Project-Id-Version: Orca Slicer\n" "Report-Msgid-Bugs-To: \n" -"POT-Creation-Date: 2023-07-07 00:05+0800\n" +"POT-Creation-Date: 2023-07-07 00:37+0800\n" "PO-Revision-Date: \n" "Last-Translator: Heiko Liebscher \n" "Language-Team: \n" @@ -1949,8 +1949,11 @@ msgstr "" msgid "You need to select the material type and color first." msgstr "Sie müssen zuerst den Materialtyp und die Farbe auswählen." -msgid "Other color" -msgstr "Andere Farbe" +msgid "Other Color" +msgstr "" + +msgid "Custom Color" +msgstr "" msgid "Dynamic flow calibration" msgstr "Dynamische Flusskalibrierung" @@ -9963,278 +9966,257 @@ msgstr "" "Die Verbindung zu den über den Druck-Host verbundenen Druckern ist " "fehlgeschlagen." -#: resources/data/hints.ini: [hint:3D Scene Operations] -msgid "" -"3D Scene Operations\n" -"Did you know how to control view and object/part selection with mouse and " -"touchpanel in the 3D scene?" -msgstr "" -"3D-Szenenbedienung\n" -"Wissen Sie, wie Sie die Ansicht und die Auswahl von Objekten/Teilen in der " -"3D-Szene mit der Maus und dem Touchpad steuern können?" +#~ msgid "Other color" +#~ msgstr "Andere Farbe" -#: resources/data/hints.ini: [hint:Cut Tool] -msgid "" -"Cut Tool\n" -"Did you know that you can cut a model at any angle and position with the " -"cutting tool?" -msgstr "" -"Schnittwerkzeug\n" -"Wussten Sie, dass Sie mit dem Schnittwerkzeug ein Modell in jedem beliebigen " -"Winkel und jeder beliebigen Position zerschneiden können?" +#~ msgid "" +#~ "3D Scene Operations\n" +#~ "Did you know how to control view and object/part selection with mouse and " +#~ "touchpanel in the 3D scene?" +#~ msgstr "" +#~ "3D-Szenenbedienung\n" +#~ "Wissen Sie, wie Sie die Ansicht und die Auswahl von Objekten/Teilen in " +#~ "der 3D-Szene mit der Maus und dem Touchpad steuern können?" -#: resources/data/hints.ini: [hint:Fix Model] -msgid "" -"Fix Model\n" -"Did you know that you can fix a corrupted 3D model to avoid a lot of slicing " -"problems?" -msgstr "" -"Modell reparieren\n" -"Wussten Sie, dass Sie ein beschädigtes 3D-Modell reparieren können, um viele " -"Probleme beim Slicen zu vermeiden?" +#~ msgid "" +#~ "Cut Tool\n" +#~ "Did you know that you can cut a model at any angle and position with the " +#~ "cutting tool?" +#~ msgstr "" +#~ "Schnittwerkzeug\n" +#~ "Wussten Sie, dass Sie mit dem Schnittwerkzeug ein Modell in jedem " +#~ "beliebigen Winkel und jeder beliebigen Position zerschneiden können?" -#: resources/data/hints.ini: [hint:Timelapse] -msgid "" -"Timelapse\n" -"Did you know that you can generate a timelapse video during each print?" -msgstr "" -"Zeitraffer\n" -"Wussten Sie, dass Sie bei jedem Druck ein Zeitraffervideo erstellen können?" +#~ msgid "" +#~ "Fix Model\n" +#~ "Did you know that you can fix a corrupted 3D model to avoid a lot of " +#~ "slicing problems?" +#~ msgstr "" +#~ "Modell reparieren\n" +#~ "Wussten Sie, dass Sie ein beschädigtes 3D-Modell reparieren können, um " +#~ "viele Probleme beim Slicen zu vermeiden?" -#: resources/data/hints.ini: [hint:Auto-Arrange] -msgid "" -"Auto-Arrange\n" -"Did you know that you can auto-arrange all objects in your project?" -msgstr "" -"Automatisch anordnen\n" -"Wussten Sie, dass Sie alle Objekte in Ihrem Projekt automatisch anordnen " -"können?" +#~ msgid "" +#~ "Timelapse\n" +#~ "Did you know that you can generate a timelapse video during each print?" +#~ msgstr "" +#~ "Zeitraffer\n" +#~ "Wussten Sie, dass Sie bei jedem Druck ein Zeitraffervideo erstellen " +#~ "können?" -#: resources/data/hints.ini: [hint:Auto-Orient] -msgid "" -"Auto-Orient\n" -"Did you know that you can rotate objects to an optimal orientation for " -"printing by a simple click?" -msgstr "" -"Automatische Ausrichtung\n" -"Wussten Sie schon, dass Sie Objekte mit einem einfachen Klick in eine für " -"den Druck optimale Ausrichtung drehen können?" +#~ msgid "" +#~ "Auto-Arrange\n" +#~ "Did you know that you can auto-arrange all objects in your project?" +#~ msgstr "" +#~ "Automatisch anordnen\n" +#~ "Wussten Sie, dass Sie alle Objekte in Ihrem Projekt automatisch anordnen " +#~ "können?" -#: resources/data/hints.ini: [hint:Lay on Face] -msgid "" -"Lay on Face\n" -"Did you know that you can quickly orient a model so that one of its faces " -"sits on the print bed? Select the \"Place on face\" function or press the " -"F key." -msgstr "" -"Auf Fläche legen\n" -"Wussten Sie, dass Sie ein Modell schnell so ausrichten können, dass eine " -"seiner Flächen auf dem Druckbett liegt? Wählen Sie die Funktion \"Auf Fläche " -"legen\" oder drücken Sie die Taste F." +#~ msgid "" +#~ "Auto-Orient\n" +#~ "Did you know that you can rotate objects to an optimal orientation for " +#~ "printing by a simple click?" +#~ msgstr "" +#~ "Automatische Ausrichtung\n" +#~ "Wussten Sie schon, dass Sie Objekte mit einem einfachen Klick in eine für " +#~ "den Druck optimale Ausrichtung drehen können?" -#: resources/data/hints.ini: [hint:Object List] -msgid "" -"Object List\n" -"Did you know that you can view all objects/parts in a list and change " -"settings for each object/part?" -msgstr "" -"Objekt-Liste\n" -"Wussten Sie, dass Sie alle Objekte/Teile in einer Liste anzeigen und die " -"Einstellungen für jedes Objekt/Teil ändern können?" +#~ msgid "" +#~ "Lay on Face\n" +#~ "Did you know that you can quickly orient a model so that one of its faces " +#~ "sits on the print bed? Select the \"Place on face\" function or press the " +#~ "F key." +#~ msgstr "" +#~ "Auf Fläche legen\n" +#~ "Wussten Sie, dass Sie ein Modell schnell so ausrichten können, dass eine " +#~ "seiner Flächen auf dem Druckbett liegt? Wählen Sie die Funktion \"Auf " +#~ "Fläche legen\" oder drücken Sie die Taste F." -#: resources/data/hints.ini: [hint:Simplify Model] -msgid "" -"Simplify Model\n" -"Did you know that you can reduce the number of triangles in a mesh using the " -"Simplify mesh feature? Right-click the model and select Simplify model. Read " -"more in the documentation." -msgstr "" -"Modell vereinfachen\n" -"Wussten Sie schon, dass Sie die Anzahl der Dreiecke in einem Netz mit der " -"Funktion \"Netz vereinfachen\" reduzieren können? Klicken Sie mit der " -"rechten Maustaste auf das Modell und wählen Sie \"Modell vereinfachen\". " -"Weitere Informationen finden Sie in der Dokumentation." +#~ msgid "" +#~ "Object List\n" +#~ "Did you know that you can view all objects/parts in a list and change " +#~ "settings for each object/part?" +#~ msgstr "" +#~ "Objekt-Liste\n" +#~ "Wussten Sie, dass Sie alle Objekte/Teile in einer Liste anzeigen und die " +#~ "Einstellungen für jedes Objekt/Teil ändern können?" -#: resources/data/hints.ini: [hint:Slicing Parameter Table] -msgid "" -"Slicing Parameter Table\n" -"Did you know that you can view all objects/parts on a table and change " -"settings for each object/part?" -msgstr "" -"Parametertabelle für das Slicen\n" -"Wussten Sie, dass Sie alle Objekte/Teile in einer Tabelle anzeigen und die " -"Einstellungen für jedes Objekt/Teil ändern können?" +#~ msgid "" +#~ "Simplify Model\n" +#~ "Did you know that you can reduce the number of triangles in a mesh using " +#~ "the Simplify mesh feature? Right-click the model and select Simplify " +#~ "model. Read more in the documentation." +#~ msgstr "" +#~ "Modell vereinfachen\n" +#~ "Wussten Sie schon, dass Sie die Anzahl der Dreiecke in einem Netz mit der " +#~ "Funktion \"Netz vereinfachen\" reduzieren können? Klicken Sie mit der " +#~ "rechten Maustaste auf das Modell und wählen Sie \"Modell vereinfachen\". " +#~ "Weitere Informationen finden Sie in der Dokumentation." -#: resources/data/hints.ini: [hint:Split to Objects/Parts] -msgid "" -"Split to Objects/Parts\n" -"Did you know that you can split a big object into small ones for easy " -"colorizing or printing?" -msgstr "" -"In Objekte/Teile aufteilen\n" -"Wussten Sie, dass Sie ein großes Objekt in kleine Teile aufteilen können, um " -"es leichter einzufärben oder drucken zu können?" +#~ msgid "" +#~ "Slicing Parameter Table\n" +#~ "Did you know that you can view all objects/parts on a table and change " +#~ "settings for each object/part?" +#~ msgstr "" +#~ "Parametertabelle für das Slicen\n" +#~ "Wussten Sie, dass Sie alle Objekte/Teile in einer Tabelle anzeigen und " +#~ "die Einstellungen für jedes Objekt/Teil ändern können?" -#: resources/data/hints.ini: [hint:Subtract a Part] -msgid "" -"Subtract a Part\n" -"Did you know that you can subtract one mesh from another using the Negative " -"part modifier? That way you can, for example, create easily resizable holes " -"directly in Orca Slicer. Read more in the documentation." -msgstr "" -"Ein Teil subtrahieren\n" -"Wussten Sie, dass Sie mit dem \"negatives Teil Modifikator\" ein Netz von " -"einem anderen subtrahieren können? Auf diese Weise können Sie z.B. leicht " -"veränderbare Löcher direkt in Bambu Studio erstellen. Lesen Sie mehr dazu in " -"der Dokumentation." +#~ msgid "" +#~ "Split to Objects/Parts\n" +#~ "Did you know that you can split a big object into small ones for easy " +#~ "colorizing or printing?" +#~ msgstr "" +#~ "In Objekte/Teile aufteilen\n" +#~ "Wussten Sie, dass Sie ein großes Objekt in kleine Teile aufteilen können, " +#~ "um es leichter einzufärben oder drucken zu können?" -#: resources/data/hints.ini: [hint:STEP] -msgid "" -"STEP\n" -"Did you know that you can improve your print quality by slicing a STEP file " -"instead of an STL?\n" -"Orca Slicer supports slicing STEP files, providing smoother results than a " -"lower resolution STL. Give it a try!" -msgstr "" -"STEP\n" -"Wussten Sie, dass Sie Ihre Druckqualität verbessern können, indem Sie eine " -"STEP-Datei anstelle einer STL-Datei slicen?\n" -"Bambu Studio unterstützt das Slicen von STEP-Dateien und liefert glattere " -"Ergebnisse als eine STL mit geringerer Auflösung. Probiere es aus!" +#~ msgid "" +#~ "Subtract a Part\n" +#~ "Did you know that you can subtract one mesh from another using the " +#~ "Negative part modifier? That way you can, for example, create easily " +#~ "resizable holes directly in Orca Slicer. Read more in the documentation." +#~ msgstr "" +#~ "Ein Teil subtrahieren\n" +#~ "Wussten Sie, dass Sie mit dem \"negatives Teil Modifikator\" ein Netz von " +#~ "einem anderen subtrahieren können? Auf diese Weise können Sie z.B. leicht " +#~ "veränderbare Löcher direkt in Bambu Studio erstellen. Lesen Sie mehr dazu " +#~ "in der Dokumentation." -#: resources/data/hints.ini: [hint:Z seam location] -msgid "" -"Z seam location\n" -"Did you know that you can customize the location of the Z seam, and even " -"paint it on your print, to have it in a less visible location? This improves " -"the overall look of your model. Check it out!" -msgstr "" -"Position der Z-Naht\n" -"Wussten Sie, dass Sie die Position der Z-Naht anpassen und sie sogar auf " -"Ihren Druck malen können, um sie an einer weniger sichtbaren Stelle " -"anzubringen? Dadurch wird das Gesamtbild Ihres Modells verbessert. Probiere " -"es aus!" +#~ msgid "" +#~ "STEP\n" +#~ "Did you know that you can improve your print quality by slicing a STEP " +#~ "file instead of an STL?\n" +#~ "Orca Slicer supports slicing STEP files, providing smoother results than " +#~ "a lower resolution STL. Give it a try!" +#~ msgstr "" +#~ "STEP\n" +#~ "Wussten Sie, dass Sie Ihre Druckqualität verbessern können, indem Sie " +#~ "eine STEP-Datei anstelle einer STL-Datei slicen?\n" +#~ "Bambu Studio unterstützt das Slicen von STEP-Dateien und liefert glattere " +#~ "Ergebnisse als eine STL mit geringerer Auflösung. Probiere es aus!" -#: resources/data/hints.ini: [hint:Fine-tuning for flow rate] -msgid "" -"Fine-tuning for flow rate\n" -"Did you know that flow rate can be fine-tuned for even better-looking " -"prints? Depending on the material, you can improve the overall finish of the " -"printed model by doing some fine-tuning." -msgstr "" -"Feineinstellung der Flussrate\n" -"Wussten Sie, dass die Flussgeschwindigkeit des Filament fein eingestellt " -"werden kann, um noch besser aussehende Drucke zu erhalten? Je nach Material " -"können Sie das Gesamtergebnis des gedruckten Modells verbessern, indem Sie " -"eine Feineinstellung vornehmen." +#~ msgid "" +#~ "Z seam location\n" +#~ "Did you know that you can customize the location of the Z seam, and even " +#~ "paint it on your print, to have it in a less visible location? This " +#~ "improves the overall look of your model. Check it out!" +#~ msgstr "" +#~ "Position der Z-Naht\n" +#~ "Wussten Sie, dass Sie die Position der Z-Naht anpassen und sie sogar auf " +#~ "Ihren Druck malen können, um sie an einer weniger sichtbaren Stelle " +#~ "anzubringen? Dadurch wird das Gesamtbild Ihres Modells verbessert. " +#~ "Probiere es aus!" -#: resources/data/hints.ini: [hint:Split your prints into plates] -msgid "" -"Split your prints into plates\n" -"Did you know that you can split a model that has a lot of parts into " -"individual plates ready to print? This will simplify the process of keeping " -"track of all the parts." -msgstr "" -"Drucke in mehrere Druckplatten aufteilen\n" -"Wussten Sie, dass Sie ein Modell, das aus vielen Teilen besteht, in einzelne " -"Druckplatten aufteilen können? Dadurch wird es einfacher, den Überblick über " -"alle Teile zu behalten." +#~ msgid "" +#~ "Fine-tuning for flow rate\n" +#~ "Did you know that flow rate can be fine-tuned for even better-looking " +#~ "prints? Depending on the material, you can improve the overall finish of " +#~ "the printed model by doing some fine-tuning." +#~ msgstr "" +#~ "Feineinstellung der Flussrate\n" +#~ "Wussten Sie, dass die Flussgeschwindigkeit des Filament fein eingestellt " +#~ "werden kann, um noch besser aussehende Drucke zu erhalten? Je nach " +#~ "Material können Sie das Gesamtergebnis des gedruckten Modells verbessern, " +#~ "indem Sie eine Feineinstellung vornehmen." -#: resources/data/hints.ini: [hint:Speed up your print with Adaptive Layer -#: Height] -msgid "" -"Speed up your print with Adaptive Layer Height\n" -"Did you know that you can print a model even faster, by using the Adaptive " -"Layer Height option? Check it out!" -msgstr "" -"Beschleunigen Sie Ihren Druck mit adaptiven Schichthöhe\n" -"Wussten Sie, dass Sie ein Modell noch schneller drucken können, wenn Sie die " -"Option \"Adaptive Schichthöhe\" verwenden? Probiere es aus!" +#~ msgid "" +#~ "Split your prints into plates\n" +#~ "Did you know that you can split a model that has a lot of parts into " +#~ "individual plates ready to print? This will simplify the process of " +#~ "keeping track of all the parts." +#~ msgstr "" +#~ "Drucke in mehrere Druckplatten aufteilen\n" +#~ "Wussten Sie, dass Sie ein Modell, das aus vielen Teilen besteht, in " +#~ "einzelne Druckplatten aufteilen können? Dadurch wird es einfacher, den " +#~ "Überblick über alle Teile zu behalten." -#: resources/data/hints.ini: [hint:Support painting] -msgid "" -"Support painting\n" -"Did you know that you can paint the location of your supports? This feature " -"makes it easy to place the support material only on the sections of the " -"model that actually need it." -msgstr "" -"Stützen malen\n" -"Wussten Sie, dass Sie die Position der Stützen aufmalen können? Diese " -"Funktion macht es möglich, das Stützmaterial nur auf die Bereiche des " -"Modells zu platzieren, die es tatsächlich benötigen." +#~ msgid "" +#~ "Speed up your print with Adaptive Layer Height\n" +#~ "Did you know that you can print a model even faster, by using the " +#~ "Adaptive Layer Height option? Check it out!" +#~ msgstr "" +#~ "Beschleunigen Sie Ihren Druck mit adaptiven Schichthöhe\n" +#~ "Wussten Sie, dass Sie ein Modell noch schneller drucken können, wenn Sie " +#~ "die Option \"Adaptive Schichthöhe\" verwenden? Probiere es aus!" -#: resources/data/hints.ini: [hint:Different types of supports] -msgid "" -"Different types of supports\n" -"Did you know that you can choose from multiple types of supports? Tree " -"supports work great for organic models, while saving filament and improving " -"print speed. Check them out!" -msgstr "" -"Verschiedene Arten von Stützstrukturen\n" -"Wussten Sie, dass Sie zwischen verschiedenen Arten von Stützen wählen " -"können? Baumstützen eignet sich hervorragend für organische Modelle, sparen " -"Filament und erhöhen die Druckgeschwindigkeit. Probiere sie aus!" +#~ msgid "" +#~ "Support painting\n" +#~ "Did you know that you can paint the location of your supports? This " +#~ "feature makes it easy to place the support material only on the sections " +#~ "of the model that actually need it." +#~ msgstr "" +#~ "Stützen malen\n" +#~ "Wussten Sie, dass Sie die Position der Stützen aufmalen können? Diese " +#~ "Funktion macht es möglich, das Stützmaterial nur auf die Bereiche des " +#~ "Modells zu platzieren, die es tatsächlich benötigen." -#: resources/data/hints.ini: [hint:Printing Silk Filament] -msgid "" -"Printing Silk Filament\n" -"Did you know that Silk filament needs special consideration to print it " -"successfully? Higher temperature and lower speed are always recommended for " -"the best results." -msgstr "" -"Drucken von Silkfilamenten\n" -"Wussten Sie, dass Silkfilamente besondere Bedingungen erfordern, um " -"erfolgreich gedruckt zu werden? Eine höhere Temperatur und eine niedrigere " -"Geschwindigkeit werden immer empfohlen, um die besten Ergebnisse zu erzielen." +#~ msgid "" +#~ "Different types of supports\n" +#~ "Did you know that you can choose from multiple types of supports? Tree " +#~ "supports work great for organic models, while saving filament and " +#~ "improving print speed. Check them out!" +#~ msgstr "" +#~ "Verschiedene Arten von Stützstrukturen\n" +#~ "Wussten Sie, dass Sie zwischen verschiedenen Arten von Stützen wählen " +#~ "können? Baumstützen eignet sich hervorragend für organische Modelle, " +#~ "sparen Filament und erhöhen die Druckgeschwindigkeit. Probiere sie aus!" -#: resources/data/hints.ini: [hint:Brim for better adhesion] -msgid "" -"Brim for better adhesion\n" -"Did you know that when printing models have a small contact interface with " -"the printing surface, it's recommended to use a brim?" -msgstr "" -"Rand für bessere Haftung\n" -"Wussten Sie, dass bei gedruckten Modellen, die eine kleine Kontaktfläche mit " -"der Druckoberfläche haben, die Verwendung eines Randes empfohlen wird?" +#~ msgid "" +#~ "Printing Silk Filament\n" +#~ "Did you know that Silk filament needs special consideration to print it " +#~ "successfully? Higher temperature and lower speed are always recommended " +#~ "for the best results." +#~ msgstr "" +#~ "Drucken von Silkfilamenten\n" +#~ "Wussten Sie, dass Silkfilamente besondere Bedingungen erfordern, um " +#~ "erfolgreich gedruckt zu werden? Eine höhere Temperatur und eine " +#~ "niedrigere Geschwindigkeit werden immer empfohlen, um die besten " +#~ "Ergebnisse zu erzielen." -#: resources/data/hints.ini: [hint:Set parameters for multiple objects] -msgid "" -"Set parameters for multiple objects\n" -"Did you know that you can set slicing parameters for all selected objects at " -"one time?" -msgstr "" -"Parameter für mehrere Objekte festlegen\n" -"Wussten Sie schon, dass Sie die Slicingparameter für alle ausgewählten " -"Objekte gleichzeitig festlegen können?" +#~ msgid "" +#~ "Brim for better adhesion\n" +#~ "Did you know that when printing models have a small contact interface " +#~ "with the printing surface, it's recommended to use a brim?" +#~ msgstr "" +#~ "Rand für bessere Haftung\n" +#~ "Wussten Sie, dass bei gedruckten Modellen, die eine kleine Kontaktfläche " +#~ "mit der Druckoberfläche haben, die Verwendung eines Randes empfohlen wird?" -#: resources/data/hints.ini: [hint:Stack objects] -msgid "" -"Stack objects\n" -"Did you know that you can stack objects as a whole one?" -msgstr "" -"Objekte stapeln\n" -"Wussten Sie, dass Sie Objekte als Ganzes stapeln können?" +#~ msgid "" +#~ "Set parameters for multiple objects\n" +#~ "Did you know that you can set slicing parameters for all selected objects " +#~ "at one time?" +#~ msgstr "" +#~ "Parameter für mehrere Objekte festlegen\n" +#~ "Wussten Sie schon, dass Sie die Slicingparameter für alle ausgewählten " +#~ "Objekte gleichzeitig festlegen können?" -#: resources/data/hints.ini: [hint:Flush into support/objects/infill] -msgid "" -"Flush into support/objects/infill\n" -"Did you know that you can save the wasted filament by flushing them into " -"support/objects/infill during filament change?" -msgstr "" -"Reinigen in Stützstrukturen/Objekten/Füllungen\n" -"Wussten Sie schon, dass Sie die Menge an verschwendetem Filament reduzieren " -"können, indem Sie es während des Filamentwechsels in Stützstrukturen/" -"Objekten/Füllungen reinigen?" +#~ msgid "" +#~ "Stack objects\n" +#~ "Did you know that you can stack objects as a whole one?" +#~ msgstr "" +#~ "Objekte stapeln\n" +#~ "Wussten Sie, dass Sie Objekte als Ganzes stapeln können?" -#: resources/data/hints.ini: [hint:Improve strength] -msgid "" -"Improve strength\n" -"Did you know that you can use more wall loops and higher sparse infill " -"density to improve the strength of the model?" -msgstr "" -"Festigkeit verbessern\n" -"Wussten Sie, dass Sie die Festigkeit des Modells durch mehr Wandschleifen " -"und eine höhere Dichte der Füllung verbessern können?" +#~ msgid "" +#~ "Flush into support/objects/infill\n" +#~ "Did you know that you can save the wasted filament by flushing them into " +#~ "support/objects/infill during filament change?" +#~ msgstr "" +#~ "Reinigen in Stützstrukturen/Objekten/Füllungen\n" +#~ "Wussten Sie schon, dass Sie die Menge an verschwendetem Filament " +#~ "reduzieren können, indem Sie es während des Filamentwechsels in " +#~ "Stützstrukturen/Objekten/Füllungen reinigen?" + +#~ msgid "" +#~ "Improve strength\n" +#~ "Did you know that you can use more wall loops and higher sparse infill " +#~ "density to improve the strength of the model?" +#~ msgstr "" +#~ "Festigkeit verbessern\n" +#~ "Wussten Sie, dass Sie die Festigkeit des Modells durch mehr Wandschleifen " +#~ "und eine höhere Dichte der Füllung verbessern können?" #~ msgid "" #~ "If enabled, support loops will be generated under the contours of " diff --git a/bbl/i18n/en/OrcaSlicer_en.po b/bbl/i18n/en/OrcaSlicer_en.po index a0f376a185..ca9ca93093 100644 --- a/bbl/i18n/en/OrcaSlicer_en.po +++ b/bbl/i18n/en/OrcaSlicer_en.po @@ -2,7 +2,7 @@ msgid "" msgstr "" "Project-Id-Version: Orca Slicer\n" "Report-Msgid-Bugs-To: \n" -"POT-Creation-Date: 2023-07-07 00:05+0800\n" +"POT-Creation-Date: 2023-07-07 00:37+0800\n" "PO-Revision-Date: \n" "Last-Translator: \n" "Language-Team: \n" @@ -1872,7 +1872,10 @@ msgstr "" msgid "You need to select the material type and color first." msgstr "" -msgid "Other color" +msgid "Other Color" +msgstr "" + +msgid "Custom Color" msgstr "" msgid "Dynamic flow calibration" @@ -9172,190 +9175,6 @@ msgstr "" msgid "Connection to printers connected via the print host failed." msgstr "" -#: resources/data/hints.ini: [hint:3D Scene Operations] -msgid "" -"3D Scene Operations\n" -"Did you know how to control view and object/part selection with mouse and " -"touchpanel in the 3D scene?" -msgstr "" - -#: resources/data/hints.ini: [hint:Cut Tool] -msgid "" -"Cut Tool\n" -"Did you know that you can cut a model at any angle and position with the " -"cutting tool?" -msgstr "" - -#: resources/data/hints.ini: [hint:Fix Model] -msgid "" -"Fix Model\n" -"Did you know that you can fix a corrupted 3D model to avoid a lot of slicing " -"problems?" -msgstr "" - -#: resources/data/hints.ini: [hint:Timelapse] -msgid "" -"Timelapse\n" -"Did you know that you can generate a timelapse video during each print?" -msgstr "" - -#: resources/data/hints.ini: [hint:Auto-Arrange] -msgid "" -"Auto-Arrange\n" -"Did you know that you can auto-arrange all objects in your project?" -msgstr "" - -#: resources/data/hints.ini: [hint:Auto-Orient] -msgid "" -"Auto-Orient\n" -"Did you know that you can rotate objects to an optimal orientation for " -"printing by a simple click?" -msgstr "" - -#: resources/data/hints.ini: [hint:Lay on Face] -msgid "" -"Lay on Face\n" -"Did you know that you can quickly orient a model so that one of its faces " -"sits on the print bed? Select the \"Place on face\" function or press the " -"F key." -msgstr "" - -#: resources/data/hints.ini: [hint:Object List] -msgid "" -"Object List\n" -"Did you know that you can view all objects/parts in a list and change " -"settings for each object/part?" -msgstr "" - -#: resources/data/hints.ini: [hint:Simplify Model] -msgid "" -"Simplify Model\n" -"Did you know that you can reduce the number of triangles in a mesh using the " -"Simplify mesh feature? Right-click the model and select Simplify model. Read " -"more in the documentation." -msgstr "" - -#: resources/data/hints.ini: [hint:Slicing Parameter Table] -msgid "" -"Slicing Parameter Table\n" -"Did you know that you can view all objects/parts on a table and change " -"settings for each object/part?" -msgstr "" - -#: resources/data/hints.ini: [hint:Split to Objects/Parts] -msgid "" -"Split to Objects/Parts\n" -"Did you know that you can split a big object into small ones for easy " -"colorizing or printing?" -msgstr "" - -#: resources/data/hints.ini: [hint:Subtract a Part] -msgid "" -"Subtract a Part\n" -"Did you know that you can subtract one mesh from another using the Negative " -"part modifier? That way you can, for example, create easily resizable holes " -"directly in Orca Slicer. Read more in the documentation." -msgstr "" - -#: resources/data/hints.ini: [hint:STEP] -msgid "" -"STEP\n" -"Did you know that you can improve your print quality by slicing a STEP file " -"instead of an STL?\n" -"Orca Slicer supports slicing STEP files, providing smoother results than a " -"lower resolution STL. Give it a try!" -msgstr "" - -#: resources/data/hints.ini: [hint:Z seam location] -msgid "" -"Z seam location\n" -"Did you know that you can customize the location of the Z seam, and even " -"paint it on your print, to have it in a less visible location? This improves " -"the overall look of your model. Check it out!" -msgstr "" - -#: resources/data/hints.ini: [hint:Fine-tuning for flow rate] -msgid "" -"Fine-tuning for flow rate\n" -"Did you know that flow rate can be fine-tuned for even better-looking " -"prints? Depending on the material, you can improve the overall finish of the " -"printed model by doing some fine-tuning." -msgstr "" - -#: resources/data/hints.ini: [hint:Split your prints into plates] -msgid "" -"Split your prints into plates\n" -"Did you know that you can split a model that has a lot of parts into " -"individual plates ready to print? This will simplify the process of keeping " -"track of all the parts." -msgstr "" - -#: resources/data/hints.ini: [hint:Speed up your print with Adaptive Layer -#: Height] -msgid "" -"Speed up your print with Adaptive Layer Height\n" -"Did you know that you can print a model even faster, by using the Adaptive " -"Layer Height option? Check it out!" -msgstr "" - -#: resources/data/hints.ini: [hint:Support painting] -msgid "" -"Support painting\n" -"Did you know that you can paint the location of your supports? This feature " -"makes it easy to place the support material only on the sections of the " -"model that actually need it." -msgstr "" - -#: resources/data/hints.ini: [hint:Different types of supports] -msgid "" -"Different types of supports\n" -"Did you know that you can choose from multiple types of supports? Tree " -"supports work great for organic models, while saving filament and improving " -"print speed. Check them out!" -msgstr "" - -#: resources/data/hints.ini: [hint:Printing Silk Filament] -msgid "" -"Printing Silk Filament\n" -"Did you know that Silk filament needs special consideration to print it " -"successfully? Higher temperature and lower speed are always recommended for " -"the best results." -msgstr "" - -#: resources/data/hints.ini: [hint:Brim for better adhesion] -msgid "" -"Brim for better adhesion\n" -"Did you know that when printing models have a small contact interface with " -"the printing surface, it's recommended to use a brim?" -msgstr "" - -#: resources/data/hints.ini: [hint:Set parameters for multiple objects] -msgid "" -"Set parameters for multiple objects\n" -"Did you know that you can set slicing parameters for all selected objects at " -"one time?" -msgstr "" - -#: resources/data/hints.ini: [hint:Stack objects] -msgid "" -"Stack objects\n" -"Did you know that you can stack objects as a whole one?" -msgstr "" - -#: resources/data/hints.ini: [hint:Flush into support/objects/infill] -msgid "" -"Flush into support/objects/infill\n" -"Did you know that you can save the wasted filament by flushing them into " -"support/objects/infill during filament change?" -msgstr "" - -#: resources/data/hints.ini: [hint:Improve strength] -msgid "" -"Improve strength\n" -"Did you know that you can use more wall loops and higher sparse infill " -"density to improve the strength of the model?" -msgstr "" - #, fuzzy #~ msgid "Send to print" #~ msgstr "Send to printer" diff --git a/bbl/i18n/fr/OrcaSlicer_fr.po b/bbl/i18n/fr/OrcaSlicer_fr.po index 63aa1ffe04..5cb5d140ad 100644 --- a/bbl/i18n/fr/OrcaSlicer_fr.po +++ b/bbl/i18n/fr/OrcaSlicer_fr.po @@ -6,7 +6,7 @@ msgid "" msgstr "" "Project-Id-Version: Orca Slicer\n" "Report-Msgid-Bugs-To: \n" -"POT-Creation-Date: 2023-07-07 00:05+0800\n" +"POT-Creation-Date: 2023-07-07 00:37+0800\n" "PO-Revision-Date: \n" "Last-Translator: \n" "Language-Team: Guislain Cyril\n" @@ -1939,8 +1939,11 @@ msgstr "" msgid "You need to select the material type and color first." msgstr "Vous devez d’abord sélectionner le type de matériau et la couleur." -msgid "Other color" -msgstr "Autres couleurs" +msgid "Other Color" +msgstr "" + +msgid "Custom Color" +msgstr "" msgid "Dynamic flow calibration" msgstr "Calibration dynamique du débit" @@ -9957,277 +9960,257 @@ msgid "Connection to printers connected via the print host failed." msgstr "" "La connexion aux imprimantes connectées via l’hôte d’impression a échoué." -#: resources/data/hints.ini: [hint:3D Scene Operations] -msgid "" -"3D Scene Operations\n" -"Did you know how to control view and object/part selection with mouse and " -"touchpanel in the 3D scene?" -msgstr "" -"Opérations de scène 3D\n" -"Savez-vous comment contrôler la vue et la sélection d'objets/pièces avec la " -"souris et l'écran tactile dans la scène 3D ?" +#~ msgid "Other color" +#~ msgstr "Autres couleurs" -#: resources/data/hints.ini: [hint:Cut Tool] -msgid "" -"Cut Tool\n" -"Did you know that you can cut a model at any angle and position with the " -"cutting tool?" -msgstr "" -"Outil de coupe\n" -"Saviez-vous que vous pouvez couper un modèle à n'importe quel angle et " -"position avec l'outil de coupe ?" +#~ msgid "" +#~ "3D Scene Operations\n" +#~ "Did you know how to control view and object/part selection with mouse and " +#~ "touchpanel in the 3D scene?" +#~ msgstr "" +#~ "Opérations de scène 3D\n" +#~ "Savez-vous comment contrôler la vue et la sélection d'objets/pièces avec " +#~ "la souris et l'écran tactile dans la scène 3D ?" -#: resources/data/hints.ini: [hint:Fix Model] -msgid "" -"Fix Model\n" -"Did you know that you can fix a corrupted 3D model to avoid a lot of slicing " -"problems?" -msgstr "" -"Réparer le modèle\n" -"Saviez-vous que vous pouvez réparer un modèle 3D corrompu pour éviter de " -"nombreux problèmes de découpage ?" +#~ msgid "" +#~ "Cut Tool\n" +#~ "Did you know that you can cut a model at any angle and position with the " +#~ "cutting tool?" +#~ msgstr "" +#~ "Outil de coupe\n" +#~ "Saviez-vous que vous pouvez couper un modèle à n'importe quel angle et " +#~ "position avec l'outil de coupe ?" -#: resources/data/hints.ini: [hint:Timelapse] -msgid "" -"Timelapse\n" -"Did you know that you can generate a timelapse video during each print?" -msgstr "" -"Timelapse\n" -"Saviez-vous que vous pouvez générer une vidéo Timelapse lors de chaque " -"impression ?" +#~ msgid "" +#~ "Fix Model\n" +#~ "Did you know that you can fix a corrupted 3D model to avoid a lot of " +#~ "slicing problems?" +#~ msgstr "" +#~ "Réparer le modèle\n" +#~ "Saviez-vous que vous pouvez réparer un modèle 3D corrompu pour éviter de " +#~ "nombreux problèmes de découpage ?" -#: resources/data/hints.ini: [hint:Auto-Arrange] -msgid "" -"Auto-Arrange\n" -"Did you know that you can auto-arrange all objects in your project?" -msgstr "" -"Organisation automatique\n" -"Saviez-vous que vous pouvez organiser automatiquement tous les objets de " -"votre projet ?" +#~ msgid "" +#~ "Timelapse\n" +#~ "Did you know that you can generate a timelapse video during each print?" +#~ msgstr "" +#~ "Timelapse\n" +#~ "Saviez-vous que vous pouvez générer une vidéo Timelapse lors de chaque " +#~ "impression ?" -#: resources/data/hints.ini: [hint:Auto-Orient] -msgid "" -"Auto-Orient\n" -"Did you know that you can rotate objects to an optimal orientation for " -"printing by a simple click?" -msgstr "" -"Orientation automatique\n" -"Saviez-vous que vous pouvez faire pivoter des objets dans une orientation " -"optimale pour l'impression d'un simple clic ?" +#~ msgid "" +#~ "Auto-Arrange\n" +#~ "Did you know that you can auto-arrange all objects in your project?" +#~ msgstr "" +#~ "Organisation automatique\n" +#~ "Saviez-vous que vous pouvez organiser automatiquement tous les objets de " +#~ "votre projet ?" -#: resources/data/hints.ini: [hint:Lay on Face] -msgid "" -"Lay on Face\n" -"Did you know that you can quickly orient a model so that one of its faces " -"sits on the print bed? Select the \"Place on face\" function or press the " -"F key." -msgstr "" -"Poser sur la face\n" -"Saviez-vous que vous pouvez orienter rapidement un modèle de manière à ce " -"que l'une de ses faces repose sur le plateau d'impression ? Sélectionnez la " -"fonction \"Poser sur la face\" ou appuyez sur la touche F." +#~ msgid "" +#~ "Auto-Orient\n" +#~ "Did you know that you can rotate objects to an optimal orientation for " +#~ "printing by a simple click?" +#~ msgstr "" +#~ "Orientation automatique\n" +#~ "Saviez-vous que vous pouvez faire pivoter des objets dans une orientation " +#~ "optimale pour l'impression d'un simple clic ?" -#: resources/data/hints.ini: [hint:Object List] -msgid "" -"Object List\n" -"Did you know that you can view all objects/parts in a list and change " -"settings for each object/part?" -msgstr "" -"Liste d'objets\n" -"Saviez-vous que vous pouvez afficher tous les objets/pièces dans une liste " -"et modifier les paramètres de chaque objet/pièce ?" +#~ msgid "" +#~ "Lay on Face\n" +#~ "Did you know that you can quickly orient a model so that one of its faces " +#~ "sits on the print bed? Select the \"Place on face\" function or press the " +#~ "F key." +#~ msgstr "" +#~ "Poser sur la face\n" +#~ "Saviez-vous que vous pouvez orienter rapidement un modèle de manière à ce " +#~ "que l'une de ses faces repose sur le plateau d'impression ? Sélectionnez " +#~ "la fonction \"Poser sur la face\" ou appuyez sur la touche F." -#: resources/data/hints.ini: [hint:Simplify Model] -msgid "" -"Simplify Model\n" -"Did you know that you can reduce the number of triangles in a mesh using the " -"Simplify mesh feature? Right-click the model and select Simplify model. Read " -"more in the documentation." -msgstr "" -"Simplifier le modèle\n" -"Saviez-vous que vous pouvez réduire le nombre de triangles dans un maillage " -"à l'aide de la fonction Simplifier le maillage ? Cliquez avec le bouton " -"droit sur le modèle et sélectionnez Simplifier le modèle. Plus " -"d'informations dans la documentation." +#~ msgid "" +#~ "Object List\n" +#~ "Did you know that you can view all objects/parts in a list and change " +#~ "settings for each object/part?" +#~ msgstr "" +#~ "Liste d'objets\n" +#~ "Saviez-vous que vous pouvez afficher tous les objets/pièces dans une " +#~ "liste et modifier les paramètres de chaque objet/pièce ?" -#: resources/data/hints.ini: [hint:Slicing Parameter Table] -msgid "" -"Slicing Parameter Table\n" -"Did you know that you can view all objects/parts on a table and change " -"settings for each object/part?" -msgstr "" -"Tableau des paramètres de découpage\n" -"Saviez-vous que vous pouvez afficher tous les objets/pièces d'un tableau et " -"modifier les paramètres de chaque objet/pièce ?" +#~ msgid "" +#~ "Simplify Model\n" +#~ "Did you know that you can reduce the number of triangles in a mesh using " +#~ "the Simplify mesh feature? Right-click the model and select Simplify " +#~ "model. Read more in the documentation." +#~ msgstr "" +#~ "Simplifier le modèle\n" +#~ "Saviez-vous que vous pouvez réduire le nombre de triangles dans un " +#~ "maillage à l'aide de la fonction Simplifier le maillage ? Cliquez avec le " +#~ "bouton droit sur le modèle et sélectionnez Simplifier le modèle. Plus " +#~ "d'informations dans la documentation." -#: resources/data/hints.ini: [hint:Split to Objects/Parts] -msgid "" -"Split to Objects/Parts\n" -"Did you know that you can split a big object into small ones for easy " -"colorizing or printing?" -msgstr "" -"Fractionner en objets/pièces\n" -"Saviez-vous que vous pouvez diviser un gros objet en petits objets pour " -"faciliter la coloration ou l'impression ?" +#~ msgid "" +#~ "Slicing Parameter Table\n" +#~ "Did you know that you can view all objects/parts on a table and change " +#~ "settings for each object/part?" +#~ msgstr "" +#~ "Tableau des paramètres de découpage\n" +#~ "Saviez-vous que vous pouvez afficher tous les objets/pièces d'un tableau " +#~ "et modifier les paramètres de chaque objet/pièce ?" -#: resources/data/hints.ini: [hint:Subtract a Part] -msgid "" -"Subtract a Part\n" -"Did you know that you can subtract one mesh from another using the Negative " -"part modifier? That way you can, for example, create easily resizable holes " -"directly in Orca Slicer. Read more in the documentation." -msgstr "" -"Soustraire une partie\n" -"Saviez-vous que vous pouvez soustraire un maillage d'un autre à l'aide du " -"modificateur de partie négative ? De cette façon, vous pouvez, par exemple, " -"créer des trous facilement redimensionnables directement dans Orca Slicer. " -"Plus d'informations dans la documentation." +#~ msgid "" +#~ "Split to Objects/Parts\n" +#~ "Did you know that you can split a big object into small ones for easy " +#~ "colorizing or printing?" +#~ msgstr "" +#~ "Fractionner en objets/pièces\n" +#~ "Saviez-vous que vous pouvez diviser un gros objet en petits objets pour " +#~ "faciliter la coloration ou l'impression ?" -#: resources/data/hints.ini: [hint:STEP] -msgid "" -"STEP\n" -"Did you know that you can improve your print quality by slicing a STEP file " -"instead of an STL?\n" -"Orca Slicer supports slicing STEP files, providing smoother results than a " -"lower resolution STL. Give it a try!" -msgstr "" -"STEP\n" -"Saviez-vous que vous pouvez améliorer votre qualité d'impression en " -"découpant un fichier .step au lieu d'un .stl ?\n" -"Orca Slicer prend en charge le découpage des fichiers .step, offrant des " -"résultats plus fluides qu'un .stl de résolution inférieure. Essayez !" +#~ msgid "" +#~ "Subtract a Part\n" +#~ "Did you know that you can subtract one mesh from another using the " +#~ "Negative part modifier? That way you can, for example, create easily " +#~ "resizable holes directly in Orca Slicer. Read more in the documentation." +#~ msgstr "" +#~ "Soustraire une partie\n" +#~ "Saviez-vous que vous pouvez soustraire un maillage d'un autre à l'aide du " +#~ "modificateur de partie négative ? De cette façon, vous pouvez, par " +#~ "exemple, créer des trous facilement redimensionnables directement dans " +#~ "Orca Slicer. Plus d'informations dans la documentation." -#: resources/data/hints.ini: [hint:Z seam location] -msgid "" -"Z seam location\n" -"Did you know that you can customize the location of the Z seam, and even " -"paint it on your print, to have it in a less visible location? This improves " -"the overall look of your model. Check it out!" -msgstr "" -"Emplacement de la couture en Z\n" -"Saviez-vous que vous pouvez personnaliser l'emplacement de la couture Z, et " -"même la peindre sur votre impression, pour l'avoir dans un endroit moins " -"visible ? Cela améliore l'aspect général de votre impression. Essayez !" +#~ msgid "" +#~ "STEP\n" +#~ "Did you know that you can improve your print quality by slicing a STEP " +#~ "file instead of an STL?\n" +#~ "Orca Slicer supports slicing STEP files, providing smoother results than " +#~ "a lower resolution STL. Give it a try!" +#~ msgstr "" +#~ "STEP\n" +#~ "Saviez-vous que vous pouvez améliorer votre qualité d'impression en " +#~ "découpant un fichier .step au lieu d'un .stl ?\n" +#~ "Orca Slicer prend en charge le découpage des fichiers .step, offrant des " +#~ "résultats plus fluides qu'un .stl de résolution inférieure. Essayez !" -#: resources/data/hints.ini: [hint:Fine-tuning for flow rate] -msgid "" -"Fine-tuning for flow rate\n" -"Did you know that flow rate can be fine-tuned for even better-looking " -"prints? Depending on the material, you can improve the overall finish of the " -"printed model by doing some fine-tuning." -msgstr "" -"Réglage précis du débit\n" -"Saviez-vous que le débit peut être ajusté pour des impressions encore plus " -"belles ? Selon le matériau, vous pouvez améliorer la finition globale du " -"modèle imprimé en effectuant quelques ajustements." +#~ msgid "" +#~ "Z seam location\n" +#~ "Did you know that you can customize the location of the Z seam, and even " +#~ "paint it on your print, to have it in a less visible location? This " +#~ "improves the overall look of your model. Check it out!" +#~ msgstr "" +#~ "Emplacement de la couture en Z\n" +#~ "Saviez-vous que vous pouvez personnaliser l'emplacement de la couture Z, " +#~ "et même la peindre sur votre impression, pour l'avoir dans un endroit " +#~ "moins visible ? Cela améliore l'aspect général de votre impression. " +#~ "Essayez !" -#: resources/data/hints.ini: [hint:Split your prints into plates] -msgid "" -"Split your prints into plates\n" -"Did you know that you can split a model that has a lot of parts into " -"individual plates ready to print? This will simplify the process of keeping " -"track of all the parts." -msgstr "" -"Divisez vos impressions en plateaux\n" -"Saviez-vous que vous pouvez diviser un modèle comportant de nombreuses " -"pièces en plateaux individuels prêts à imprimer ? Cela simplifiera le " -"processus de suivi de toutes les pièces." +#~ msgid "" +#~ "Fine-tuning for flow rate\n" +#~ "Did you know that flow rate can be fine-tuned for even better-looking " +#~ "prints? Depending on the material, you can improve the overall finish of " +#~ "the printed model by doing some fine-tuning." +#~ msgstr "" +#~ "Réglage précis du débit\n" +#~ "Saviez-vous que le débit peut être ajusté pour des impressions encore " +#~ "plus belles ? Selon le matériau, vous pouvez améliorer la finition " +#~ "globale du modèle imprimé en effectuant quelques ajustements." -#: resources/data/hints.ini: [hint:Speed up your print with Adaptive Layer -#: Height] -msgid "" -"Speed up your print with Adaptive Layer Height\n" -"Did you know that you can print a model even faster, by using the Adaptive " -"Layer Height option? Check it out!" -msgstr "" -"Accélérez votre impression avec la hauteur de couche adaptative\n" -"Saviez-vous que vous pouvez imprimer un modèle encore plus rapidement en " -"utilisant l'option Hauteur de couche adaptative ? Essayez !" +#~ msgid "" +#~ "Split your prints into plates\n" +#~ "Did you know that you can split a model that has a lot of parts into " +#~ "individual plates ready to print? This will simplify the process of " +#~ "keeping track of all the parts." +#~ msgstr "" +#~ "Divisez vos impressions en plateaux\n" +#~ "Saviez-vous que vous pouvez diviser un modèle comportant de nombreuses " +#~ "pièces en plateaux individuels prêts à imprimer ? Cela simplifiera le " +#~ "processus de suivi de toutes les pièces." -#: resources/data/hints.ini: [hint:Support painting] -msgid "" -"Support painting\n" -"Did you know that you can paint the location of your supports? This feature " -"makes it easy to place the support material only on the sections of the " -"model that actually need it." -msgstr "" -"Peindre les supports\n" -"Saviez-vous que vous pouvez peindre l'emplacement de vos supports ? Cette " -"fonctionnalité permet de placer facilement les supports uniquement sur les " -"sections du modèle qui en ont réellement besoin." +#~ msgid "" +#~ "Speed up your print with Adaptive Layer Height\n" +#~ "Did you know that you can print a model even faster, by using the " +#~ "Adaptive Layer Height option? Check it out!" +#~ msgstr "" +#~ "Accélérez votre impression avec la hauteur de couche adaptative\n" +#~ "Saviez-vous que vous pouvez imprimer un modèle encore plus rapidement en " +#~ "utilisant l'option Hauteur de couche adaptative ? Essayez !" -#: resources/data/hints.ini: [hint:Different types of supports] -msgid "" -"Different types of supports\n" -"Did you know that you can choose from multiple types of supports? Tree " -"supports work great for organic models, while saving filament and improving " -"print speed. Check them out!" -msgstr "" -"Différents types de supports\n" -"Saviez-vous que vous pouvez choisir parmi plusieurs types de supports ? Les " -"supports arborescents fonctionnent parfaitement pour les modèles organiques, " -"tout en économisant du filament et en améliorant la vitesse d'impression. . " -"Essayez-les !" +#~ msgid "" +#~ "Support painting\n" +#~ "Did you know that you can paint the location of your supports? This " +#~ "feature makes it easy to place the support material only on the sections " +#~ "of the model that actually need it." +#~ msgstr "" +#~ "Peindre les supports\n" +#~ "Saviez-vous que vous pouvez peindre l'emplacement de vos supports ? Cette " +#~ "fonctionnalité permet de placer facilement les supports uniquement sur " +#~ "les sections du modèle qui en ont réellement besoin." -#: resources/data/hints.ini: [hint:Printing Silk Filament] -msgid "" -"Printing Silk Filament\n" -"Did you know that Silk filament needs special consideration to print it " -"successfully? Higher temperature and lower speed are always recommended for " -"the best results." -msgstr "" -"Impression de filament Silk\n" -"Saviez-vous que le filament Silk nécessite une attention particulière pour " -"être imprimé avec succès ? Une température plus élevée et une vitesse plus " -"faible sont toujours recommandées pour obtenir les meilleurs résultats." +#~ msgid "" +#~ "Different types of supports\n" +#~ "Did you know that you can choose from multiple types of supports? Tree " +#~ "supports work great for organic models, while saving filament and " +#~ "improving print speed. Check them out!" +#~ msgstr "" +#~ "Différents types de supports\n" +#~ "Saviez-vous que vous pouvez choisir parmi plusieurs types de supports ? " +#~ "Les supports arborescents fonctionnent parfaitement pour les modèles " +#~ "organiques, tout en économisant du filament et en améliorant la vitesse " +#~ "d'impression. . Essayez-les !" -#: resources/data/hints.ini: [hint:Brim for better adhesion] -msgid "" -"Brim for better adhesion\n" -"Did you know that when printing models have a small contact interface with " -"the printing surface, it's recommended to use a brim?" -msgstr "" -"Bordure pour une meilleure adhérence\n" -"Saviez-vous que lorsque les modèles d'impression ont une petite surface de " -"contact sur le plateau, il est recommandé d'utiliser une bordure ?" +#~ msgid "" +#~ "Printing Silk Filament\n" +#~ "Did you know that Silk filament needs special consideration to print it " +#~ "successfully? Higher temperature and lower speed are always recommended " +#~ "for the best results." +#~ msgstr "" +#~ "Impression de filament Silk\n" +#~ "Saviez-vous que le filament Silk nécessite une attention particulière " +#~ "pour être imprimé avec succès ? Une température plus élevée et une " +#~ "vitesse plus faible sont toujours recommandées pour obtenir les meilleurs " +#~ "résultats." -#: resources/data/hints.ini: [hint:Set parameters for multiple objects] -msgid "" -"Set parameters for multiple objects\n" -"Did you know that you can set slicing parameters for all selected objects at " -"one time?" -msgstr "" -"Définir les paramètres de plusieurs objets\n" -"Saviez-vous que vous pouvez définir des paramètres de découpage pour tous " -"les objets sélectionnés en même temps ?" +#~ msgid "" +#~ "Brim for better adhesion\n" +#~ "Did you know that when printing models have a small contact interface " +#~ "with the printing surface, it's recommended to use a brim?" +#~ msgstr "" +#~ "Bordure pour une meilleure adhérence\n" +#~ "Saviez-vous que lorsque les modèles d'impression ont une petite surface " +#~ "de contact sur le plateau, il est recommandé d'utiliser une bordure ?" -#: resources/data/hints.ini: [hint:Stack objects] -msgid "" -"Stack objects\n" -"Did you know that you can stack objects as a whole one?" -msgstr "" -"Empiler des objets\n" -"Saviez-vous que vous pouvez assembler des objets en un seul ?" +#~ msgid "" +#~ "Set parameters for multiple objects\n" +#~ "Did you know that you can set slicing parameters for all selected objects " +#~ "at one time?" +#~ msgstr "" +#~ "Définir les paramètres de plusieurs objets\n" +#~ "Saviez-vous que vous pouvez définir des paramètres de découpage pour tous " +#~ "les objets sélectionnés en même temps ?" -#: resources/data/hints.ini: [hint:Flush into support/objects/infill] -msgid "" -"Flush into support/objects/infill\n" -"Did you know that you can save the wasted filament by flushing them into " -"support/objects/infill during filament change?" -msgstr "" -"Purge dans les supports / les objets / le remplissage\n" -"Saviez-vous que vous pouvez économiser du filament en le purgeant dans les " -"supports / les objets / le remplissage lors du changement de filament ?" +#~ msgid "" +#~ "Stack objects\n" +#~ "Did you know that you can stack objects as a whole one?" +#~ msgstr "" +#~ "Empiler des objets\n" +#~ "Saviez-vous que vous pouvez assembler des objets en un seul ?" -#: resources/data/hints.ini: [hint:Improve strength] -msgid "" -"Improve strength\n" -"Did you know that you can use more wall loops and higher sparse infill " -"density to improve the strength of the model?" -msgstr "" -"Améliorer la résistance\n" -"Saviez-vous que vous pouvez utiliser plus de parois et une densité de " -"remplissage plus élevée pour améliorer la résistance du modèle ?" +#~ msgid "" +#~ "Flush into support/objects/infill\n" +#~ "Did you know that you can save the wasted filament by flushing them into " +#~ "support/objects/infill during filament change?" +#~ msgstr "" +#~ "Purge dans les supports / les objets / le remplissage\n" +#~ "Saviez-vous que vous pouvez économiser du filament en le purgeant dans " +#~ "les supports / les objets / le remplissage lors du changement de " +#~ "filament ?" + +#~ msgid "" +#~ "Improve strength\n" +#~ "Did you know that you can use more wall loops and higher sparse infill " +#~ "density to improve the strength of the model?" +#~ msgstr "" +#~ "Améliorer la résistance\n" +#~ "Saviez-vous que vous pouvez utiliser plus de parois et une densité de " +#~ "remplissage plus élevée pour améliorer la résistance du modèle ?" #~ msgid "" #~ "If enabled, support loops will be generated under the contours of " diff --git a/bbl/i18n/hu/OrcaSlicer_hu.po b/bbl/i18n/hu/OrcaSlicer_hu.po index 836844e263..efbd5e26ed 100644 --- a/bbl/i18n/hu/OrcaSlicer_hu.po +++ b/bbl/i18n/hu/OrcaSlicer_hu.po @@ -2,7 +2,7 @@ msgid "" msgstr "" "Project-Id-Version: Orca Slicer\n" "Report-Msgid-Bugs-To: \n" -"POT-Creation-Date: 2023-07-07 00:05+0800\n" +"POT-Creation-Date: 2023-07-07 00:37+0800\n" "Language: hu\n" "MIME-Version: 1.0\n" "Content-Type: text/plain; charset=UTF-8\n" @@ -1894,7 +1894,10 @@ msgstr "" msgid "You need to select the material type and color first." msgstr "" -msgid "Other color" +msgid "Other Color" +msgstr "" + +msgid "Custom Color" msgstr "" msgid "Dynamic flow calibration" @@ -9252,190 +9255,6 @@ msgstr "" msgid "Connection to printers connected via the print host failed." msgstr "" -#: resources/data/hints.ini: [hint:3D Scene Operations] -msgid "" -"3D Scene Operations\n" -"Did you know how to control view and object/part selection with mouse and " -"touchpanel in the 3D scene?" -msgstr "" - -#: resources/data/hints.ini: [hint:Cut Tool] -msgid "" -"Cut Tool\n" -"Did you know that you can cut a model at any angle and position with the " -"cutting tool?" -msgstr "" - -#: resources/data/hints.ini: [hint:Fix Model] -msgid "" -"Fix Model\n" -"Did you know that you can fix a corrupted 3D model to avoid a lot of slicing " -"problems?" -msgstr "" - -#: resources/data/hints.ini: [hint:Timelapse] -msgid "" -"Timelapse\n" -"Did you know that you can generate a timelapse video during each print?" -msgstr "" - -#: resources/data/hints.ini: [hint:Auto-Arrange] -msgid "" -"Auto-Arrange\n" -"Did you know that you can auto-arrange all objects in your project?" -msgstr "" - -#: resources/data/hints.ini: [hint:Auto-Orient] -msgid "" -"Auto-Orient\n" -"Did you know that you can rotate objects to an optimal orientation for " -"printing by a simple click?" -msgstr "" - -#: resources/data/hints.ini: [hint:Lay on Face] -msgid "" -"Lay on Face\n" -"Did you know that you can quickly orient a model so that one of its faces " -"sits on the print bed? Select the \"Place on face\" function or press the " -"F key." -msgstr "" - -#: resources/data/hints.ini: [hint:Object List] -msgid "" -"Object List\n" -"Did you know that you can view all objects/parts in a list and change " -"settings for each object/part?" -msgstr "" - -#: resources/data/hints.ini: [hint:Simplify Model] -msgid "" -"Simplify Model\n" -"Did you know that you can reduce the number of triangles in a mesh using the " -"Simplify mesh feature? Right-click the model and select Simplify model. Read " -"more in the documentation." -msgstr "" - -#: resources/data/hints.ini: [hint:Slicing Parameter Table] -msgid "" -"Slicing Parameter Table\n" -"Did you know that you can view all objects/parts on a table and change " -"settings for each object/part?" -msgstr "" - -#: resources/data/hints.ini: [hint:Split to Objects/Parts] -msgid "" -"Split to Objects/Parts\n" -"Did you know that you can split a big object into small ones for easy " -"colorizing or printing?" -msgstr "" - -#: resources/data/hints.ini: [hint:Subtract a Part] -msgid "" -"Subtract a Part\n" -"Did you know that you can subtract one mesh from another using the Negative " -"part modifier? That way you can, for example, create easily resizable holes " -"directly in Orca Slicer. Read more in the documentation." -msgstr "" - -#: resources/data/hints.ini: [hint:STEP] -msgid "" -"STEP\n" -"Did you know that you can improve your print quality by slicing a STEP file " -"instead of an STL?\n" -"Orca Slicer supports slicing STEP files, providing smoother results than a " -"lower resolution STL. Give it a try!" -msgstr "" - -#: resources/data/hints.ini: [hint:Z seam location] -msgid "" -"Z seam location\n" -"Did you know that you can customize the location of the Z seam, and even " -"paint it on your print, to have it in a less visible location? This improves " -"the overall look of your model. Check it out!" -msgstr "" - -#: resources/data/hints.ini: [hint:Fine-tuning for flow rate] -msgid "" -"Fine-tuning for flow rate\n" -"Did you know that flow rate can be fine-tuned for even better-looking " -"prints? Depending on the material, you can improve the overall finish of the " -"printed model by doing some fine-tuning." -msgstr "" - -#: resources/data/hints.ini: [hint:Split your prints into plates] -msgid "" -"Split your prints into plates\n" -"Did you know that you can split a model that has a lot of parts into " -"individual plates ready to print? This will simplify the process of keeping " -"track of all the parts." -msgstr "" - -#: resources/data/hints.ini: [hint:Speed up your print with Adaptive Layer -#: Height] -msgid "" -"Speed up your print with Adaptive Layer Height\n" -"Did you know that you can print a model even faster, by using the Adaptive " -"Layer Height option? Check it out!" -msgstr "" - -#: resources/data/hints.ini: [hint:Support painting] -msgid "" -"Support painting\n" -"Did you know that you can paint the location of your supports? This feature " -"makes it easy to place the support material only on the sections of the " -"model that actually need it." -msgstr "" - -#: resources/data/hints.ini: [hint:Different types of supports] -msgid "" -"Different types of supports\n" -"Did you know that you can choose from multiple types of supports? Tree " -"supports work great for organic models, while saving filament and improving " -"print speed. Check them out!" -msgstr "" - -#: resources/data/hints.ini: [hint:Printing Silk Filament] -msgid "" -"Printing Silk Filament\n" -"Did you know that Silk filament needs special consideration to print it " -"successfully? Higher temperature and lower speed are always recommended for " -"the best results." -msgstr "" - -#: resources/data/hints.ini: [hint:Brim for better adhesion] -msgid "" -"Brim for better adhesion\n" -"Did you know that when printing models have a small contact interface with " -"the printing surface, it's recommended to use a brim?" -msgstr "" - -#: resources/data/hints.ini: [hint:Set parameters for multiple objects] -msgid "" -"Set parameters for multiple objects\n" -"Did you know that you can set slicing parameters for all selected objects at " -"one time?" -msgstr "" - -#: resources/data/hints.ini: [hint:Stack objects] -msgid "" -"Stack objects\n" -"Did you know that you can stack objects as a whole one?" -msgstr "" - -#: resources/data/hints.ini: [hint:Flush into support/objects/infill] -msgid "" -"Flush into support/objects/infill\n" -"Did you know that you can save the wasted filament by flushing them into " -"support/objects/infill during filament change?" -msgstr "" - -#: resources/data/hints.ini: [hint:Improve strength] -msgid "" -"Improve strength\n" -"Did you know that you can use more wall loops and higher sparse infill " -"density to improve the strength of the model?" -msgstr "" - #~ msgid "Keep upper part" #~ msgstr "Felső rész megtartása" diff --git a/bbl/i18n/it/OrcaSlicer_it.po b/bbl/i18n/it/OrcaSlicer_it.po index 600b07989a..ab8fcbaaea 100644 --- a/bbl/i18n/it/OrcaSlicer_it.po +++ b/bbl/i18n/it/OrcaSlicer_it.po @@ -2,7 +2,7 @@ msgid "" msgstr "" "Project-Id-Version: Orca Slicer\n" "Report-Msgid-Bugs-To: \n" -"POT-Creation-Date: 2023-07-07 00:05+0800\n" +"POT-Creation-Date: 2023-07-07 00:37+0800\n" "Language: it\n" "MIME-Version: 1.0\n" "Content-Type: text/plain; charset=UTF-8\n" @@ -1870,7 +1870,10 @@ msgstr "" msgid "You need to select the material type and color first." msgstr "" -msgid "Other color" +msgid "Other Color" +msgstr "" + +msgid "Custom Color" msgstr "" msgid "Dynamic flow calibration" @@ -9170,190 +9173,6 @@ msgstr "" msgid "Connection to printers connected via the print host failed." msgstr "" -#: resources/data/hints.ini: [hint:3D Scene Operations] -msgid "" -"3D Scene Operations\n" -"Did you know how to control view and object/part selection with mouse and " -"touchpanel in the 3D scene?" -msgstr "" - -#: resources/data/hints.ini: [hint:Cut Tool] -msgid "" -"Cut Tool\n" -"Did you know that you can cut a model at any angle and position with the " -"cutting tool?" -msgstr "" - -#: resources/data/hints.ini: [hint:Fix Model] -msgid "" -"Fix Model\n" -"Did you know that you can fix a corrupted 3D model to avoid a lot of slicing " -"problems?" -msgstr "" - -#: resources/data/hints.ini: [hint:Timelapse] -msgid "" -"Timelapse\n" -"Did you know that you can generate a timelapse video during each print?" -msgstr "" - -#: resources/data/hints.ini: [hint:Auto-Arrange] -msgid "" -"Auto-Arrange\n" -"Did you know that you can auto-arrange all objects in your project?" -msgstr "" - -#: resources/data/hints.ini: [hint:Auto-Orient] -msgid "" -"Auto-Orient\n" -"Did you know that you can rotate objects to an optimal orientation for " -"printing by a simple click?" -msgstr "" - -#: resources/data/hints.ini: [hint:Lay on Face] -msgid "" -"Lay on Face\n" -"Did you know that you can quickly orient a model so that one of its faces " -"sits on the print bed? Select the \"Place on face\" function or press the " -"F key." -msgstr "" - -#: resources/data/hints.ini: [hint:Object List] -msgid "" -"Object List\n" -"Did you know that you can view all objects/parts in a list and change " -"settings for each object/part?" -msgstr "" - -#: resources/data/hints.ini: [hint:Simplify Model] -msgid "" -"Simplify Model\n" -"Did you know that you can reduce the number of triangles in a mesh using the " -"Simplify mesh feature? Right-click the model and select Simplify model. Read " -"more in the documentation." -msgstr "" - -#: resources/data/hints.ini: [hint:Slicing Parameter Table] -msgid "" -"Slicing Parameter Table\n" -"Did you know that you can view all objects/parts on a table and change " -"settings for each object/part?" -msgstr "" - -#: resources/data/hints.ini: [hint:Split to Objects/Parts] -msgid "" -"Split to Objects/Parts\n" -"Did you know that you can split a big object into small ones for easy " -"colorizing or printing?" -msgstr "" - -#: resources/data/hints.ini: [hint:Subtract a Part] -msgid "" -"Subtract a Part\n" -"Did you know that you can subtract one mesh from another using the Negative " -"part modifier? That way you can, for example, create easily resizable holes " -"directly in Orca Slicer. Read more in the documentation." -msgstr "" - -#: resources/data/hints.ini: [hint:STEP] -msgid "" -"STEP\n" -"Did you know that you can improve your print quality by slicing a STEP file " -"instead of an STL?\n" -"Orca Slicer supports slicing STEP files, providing smoother results than a " -"lower resolution STL. Give it a try!" -msgstr "" - -#: resources/data/hints.ini: [hint:Z seam location] -msgid "" -"Z seam location\n" -"Did you know that you can customize the location of the Z seam, and even " -"paint it on your print, to have it in a less visible location? This improves " -"the overall look of your model. Check it out!" -msgstr "" - -#: resources/data/hints.ini: [hint:Fine-tuning for flow rate] -msgid "" -"Fine-tuning for flow rate\n" -"Did you know that flow rate can be fine-tuned for even better-looking " -"prints? Depending on the material, you can improve the overall finish of the " -"printed model by doing some fine-tuning." -msgstr "" - -#: resources/data/hints.ini: [hint:Split your prints into plates] -msgid "" -"Split your prints into plates\n" -"Did you know that you can split a model that has a lot of parts into " -"individual plates ready to print? This will simplify the process of keeping " -"track of all the parts." -msgstr "" - -#: resources/data/hints.ini: [hint:Speed up your print with Adaptive Layer -#: Height] -msgid "" -"Speed up your print with Adaptive Layer Height\n" -"Did you know that you can print a model even faster, by using the Adaptive " -"Layer Height option? Check it out!" -msgstr "" - -#: resources/data/hints.ini: [hint:Support painting] -msgid "" -"Support painting\n" -"Did you know that you can paint the location of your supports? This feature " -"makes it easy to place the support material only on the sections of the " -"model that actually need it." -msgstr "" - -#: resources/data/hints.ini: [hint:Different types of supports] -msgid "" -"Different types of supports\n" -"Did you know that you can choose from multiple types of supports? Tree " -"supports work great for organic models, while saving filament and improving " -"print speed. Check them out!" -msgstr "" - -#: resources/data/hints.ini: [hint:Printing Silk Filament] -msgid "" -"Printing Silk Filament\n" -"Did you know that Silk filament needs special consideration to print it " -"successfully? Higher temperature and lower speed are always recommended for " -"the best results." -msgstr "" - -#: resources/data/hints.ini: [hint:Brim for better adhesion] -msgid "" -"Brim for better adhesion\n" -"Did you know that when printing models have a small contact interface with " -"the printing surface, it's recommended to use a brim?" -msgstr "" - -#: resources/data/hints.ini: [hint:Set parameters for multiple objects] -msgid "" -"Set parameters for multiple objects\n" -"Did you know that you can set slicing parameters for all selected objects at " -"one time?" -msgstr "" - -#: resources/data/hints.ini: [hint:Stack objects] -msgid "" -"Stack objects\n" -"Did you know that you can stack objects as a whole one?" -msgstr "" - -#: resources/data/hints.ini: [hint:Flush into support/objects/infill] -msgid "" -"Flush into support/objects/infill\n" -"Did you know that you can save the wasted filament by flushing them into " -"support/objects/infill during filament change?" -msgstr "" - -#: resources/data/hints.ini: [hint:Improve strength] -msgid "" -"Improve strength\n" -"Did you know that you can use more wall loops and higher sparse infill " -"density to improve the strength of the model?" -msgstr "" - #~ msgid "Keep upper part" #~ msgstr "Mantieni parte superiore" diff --git a/bbl/i18n/ja/OrcaSlicer_ja.po b/bbl/i18n/ja/OrcaSlicer_ja.po index 3f35a19b9e..10287eb5a5 100644 --- a/bbl/i18n/ja/OrcaSlicer_ja.po +++ b/bbl/i18n/ja/OrcaSlicer_ja.po @@ -2,7 +2,7 @@ msgid "" msgstr "" "Project-Id-Version: Orca Slicer\n" "Report-Msgid-Bugs-To: \n" -"POT-Creation-Date: 2023-07-07 00:05+0800\n" +"POT-Creation-Date: 2023-07-07 00:37+0800\n" "PO-Revision-Date: \n" "Last-Translator: \n" "Language-Team: \n" @@ -1861,7 +1861,10 @@ msgstr "有効な値を入力してください (K: 0 ~ 0.5, N: 0.6 ~ 2.0)" msgid "You need to select the material type and color first." msgstr "" -msgid "Other color" +msgid "Other Color" +msgstr "" + +msgid "Custom Color" msgstr "" msgid "Dynamic flow calibration" @@ -9151,244 +9154,218 @@ msgstr "" msgid "Connection to printers connected via the print host failed." msgstr "" -#: resources/data/hints.ini: [hint:3D Scene Operations] -msgid "" -"3D Scene Operations\n" -"Did you know how to control view and object/part selection with mouse and " -"touchpanel in the 3D scene?" -msgstr "" -"3Dシーンの操作\n" -"マウスとタッチパネルで、オブジェクト/パーツの操作方法を確認しましょう" +#~ msgid "" +#~ "3D Scene Operations\n" +#~ "Did you know how to control view and object/part selection with mouse and " +#~ "touchpanel in the 3D scene?" +#~ msgstr "" +#~ "3Dシーンの操作\n" +#~ "マウスとタッチパネルで、オブジェクト/パーツの操作方法を確認しましょう" -#: resources/data/hints.ini: [hint:Cut Tool] -msgid "" -"Cut Tool\n" -"Did you know that you can cut a model at any angle and position with the " -"cutting tool?" -msgstr "" -"カットツール\n" -"カットツールでモデルを自由な角度で修正することができます。" +#~ msgid "" +#~ "Cut Tool\n" +#~ "Did you know that you can cut a model at any angle and position with the " +#~ "cutting tool?" +#~ msgstr "" +#~ "カットツール\n" +#~ "カットツールでモデルを自由な角度で修正することができます。" -#: resources/data/hints.ini: [hint:Fix Model] -msgid "" -"Fix Model\n" -"Did you know that you can fix a corrupted 3D model to avoid a lot of slicing " -"problems?" -msgstr "" -"モデル修復\n" -"破損したモデルでも修復してスライスできます。" +#~ msgid "" +#~ "Fix Model\n" +#~ "Did you know that you can fix a corrupted 3D model to avoid a lot of " +#~ "slicing problems?" +#~ msgstr "" +#~ "モデル修復\n" +#~ "破損したモデルでも修復してスライスできます。" -#: resources/data/hints.ini: [hint:Timelapse] -msgid "" -"Timelapse\n" -"Did you know that you can generate a timelapse video during each print?" -msgstr "" -"タイムラプス\n" -"カメラの活用は、モニタリングだけでなく、自慢のタイムラプスビデオも生成できま" -"す。" +#~ msgid "" +#~ "Timelapse\n" +#~ "Did you know that you can generate a timelapse video during each print?" +#~ msgstr "" +#~ "タイムラプス\n" +#~ "カメラの活用は、モニタリングだけでなく、自慢のタイムラプスビデオも生成でき" +#~ "ます。" -#: resources/data/hints.ini: [hint:Auto-Arrange] -msgid "" -"Auto-Arrange\n" -"Did you know that you can auto-arrange all objects in your project?" -msgstr "" -"自動レイアウト\n" -"自動レイアウトでプレートを最大限利用できます。" +#~ msgid "" +#~ "Auto-Arrange\n" +#~ "Did you know that you can auto-arrange all objects in your project?" +#~ msgstr "" +#~ "自動レイアウト\n" +#~ "自動レイアウトでプレートを最大限利用できます。" -#: resources/data/hints.ini: [hint:Auto-Orient] -msgid "" -"Auto-Orient\n" -"Did you know that you can rotate objects to an optimal orientation for " -"printing by a simple click?" -msgstr "" -"自動向き調整\n" -"自動向き調整で最適な向きをワンクリックで実現できます。" +#~ msgid "" +#~ "Auto-Orient\n" +#~ "Did you know that you can rotate objects to an optimal orientation for " +#~ "printing by a simple click?" +#~ msgstr "" +#~ "自動向き調整\n" +#~ "自動向き調整で最適な向きをワンクリックで実現できます。" -#: resources/data/hints.ini: [hint:Lay on Face] -msgid "" -"Lay on Face\n" -"Did you know that you can quickly orient a model so that one of its faces " -"sits on the print bed? Select the \"Place on face\" function or press the " -"F key." -msgstr "" -"底面を選択\n" -"プレートと接触する面を指定し、オブジェクトの向きを簡単に調整できます。" +#~ msgid "" +#~ "Lay on Face\n" +#~ "Did you know that you can quickly orient a model so that one of its faces " +#~ "sits on the print bed? Select the \"Place on face\" function or press the " +#~ "F key." +#~ msgstr "" +#~ "底面を選択\n" +#~ "プレートと接触する面を指定し、オブジェクトの向きを簡単に調整できます。" -#: resources/data/hints.ini: [hint:Object List] -msgid "" -"Object List\n" -"Did you know that you can view all objects/parts in a list and change " -"settings for each object/part?" -msgstr "" -"オブジェクト一覧\n" -"全てのオブジェクトを確認でき、造形パラメータもオブジェクト別で設定できます" +#~ msgid "" +#~ "Object List\n" +#~ "Did you know that you can view all objects/parts in a list and change " +#~ "settings for each object/part?" +#~ msgstr "" +#~ "オブジェクト一覧\n" +#~ "全てのオブジェクトを確認でき、造形パラメータもオブジェクト別で設定できます" -#: resources/data/hints.ini: [hint:Simplify Model] -msgid "" -"Simplify Model\n" -"Did you know that you can reduce the number of triangles in a mesh using the " -"Simplify mesh feature? Right-click the model and select Simplify model. Read " -"more in the documentation." -msgstr "" -"モデルを簡略化\n" -"オブジェクトのメッシュを簡略化して、スライスの速度を上げられます。モデルを右" -"クリックし、メニューで選択できます。" +#~ msgid "" +#~ "Simplify Model\n" +#~ "Did you know that you can reduce the number of triangles in a mesh using " +#~ "the Simplify mesh feature? Right-click the model and select Simplify " +#~ "model. Read more in the documentation." +#~ msgstr "" +#~ "モデルを簡略化\n" +#~ "オブジェクトのメッシュを簡略化して、スライスの速度を上げられます。モデルを" +#~ "右クリックし、メニューで選択できます。" -#: resources/data/hints.ini: [hint:Slicing Parameter Table] -msgid "" -"Slicing Parameter Table\n" -"Did you know that you can view all objects/parts on a table and change " -"settings for each object/part?" -msgstr "" -"スライシングパラメータ\n" -"オブジェクト/パーツごとのパラメータを設定できます。" +#~ msgid "" +#~ "Slicing Parameter Table\n" +#~ "Did you know that you can view all objects/parts on a table and change " +#~ "settings for each object/part?" +#~ msgstr "" +#~ "スライシングパラメータ\n" +#~ "オブジェクト/パーツごとのパラメータを設定できます。" -#: resources/data/hints.ini: [hint:Split to Objects/Parts] -msgid "" -"Split to Objects/Parts\n" -"Did you know that you can split a big object into small ones for easy " -"colorizing or printing?" -msgstr "" -"オブジェクト/パーツに分割\n" -"一つのオブジェクトを複数のオブジェクト/パーツに分割して色を簡単につけましょ" -"う。" +#~ msgid "" +#~ "Split to Objects/Parts\n" +#~ "Did you know that you can split a big object into small ones for easy " +#~ "colorizing or printing?" +#~ msgstr "" +#~ "オブジェクト/パーツに分割\n" +#~ "一つのオブジェクトを複数のオブジェクト/パーツに分割して色を簡単につけま" +#~ "しょう。" -#: resources/data/hints.ini: [hint:Subtract a Part] -msgid "" -"Subtract a Part\n" -"Did you know that you can subtract one mesh from another using the Negative " -"part modifier? That way you can, for example, create easily resizable holes " -"directly in Orca Slicer. Read more in the documentation." -msgstr "" -"パーツをサブストラクト\n" -"マイナスパーツでモデルからメッシュを引くことができます。" +#~ msgid "" +#~ "Subtract a Part\n" +#~ "Did you know that you can subtract one mesh from another using the " +#~ "Negative part modifier? That way you can, for example, create easily " +#~ "resizable holes directly in Orca Slicer. Read more in the documentation." +#~ msgstr "" +#~ "パーツをサブストラクト\n" +#~ "マイナスパーツでモデルからメッシュを引くことができます。" -#: resources/data/hints.ini: [hint:STEP] -msgid "" -"STEP\n" -"Did you know that you can improve your print quality by slicing a STEP file " -"instead of an STL?\n" -"Orca Slicer supports slicing STEP files, providing smoother results than a " -"lower resolution STL. Give it a try!" -msgstr "" -"STEP\n" -"STEP形式で、STL形式よりもっと高品質なスライス結果を得られます、是非お試しくだ" -"さい。" +#~ msgid "" +#~ "STEP\n" +#~ "Did you know that you can improve your print quality by slicing a STEP " +#~ "file instead of an STL?\n" +#~ "Orca Slicer supports slicing STEP files, providing smoother results than " +#~ "a lower resolution STL. Give it a try!" +#~ msgstr "" +#~ "STEP\n" +#~ "STEP形式で、STL形式よりもっと高品質なスライス結果を得られます、是非お試し" +#~ "ください。" -#: resources/data/hints.ini: [hint:Z seam location] -msgid "" -"Z seam location\n" -"Did you know that you can customize the location of the Z seam, and even " -"paint it on your print, to have it in a less visible location? This improves " -"the overall look of your model. Check it out!" -msgstr "" -"継ぎ目位置\n" -"継ぎ目の位置を描き、見えにくい場所に指定して仕上がりを向上させます。" +#~ msgid "" +#~ "Z seam location\n" +#~ "Did you know that you can customize the location of the Z seam, and even " +#~ "paint it on your print, to have it in a less visible location? This " +#~ "improves the overall look of your model. Check it out!" +#~ msgstr "" +#~ "継ぎ目位置\n" +#~ "継ぎ目の位置を描き、見えにくい場所に指定して仕上がりを向上させます。" -#: resources/data/hints.ini: [hint:Fine-tuning for flow rate] -msgid "" -"Fine-tuning for flow rate\n" -"Did you know that flow rate can be fine-tuned for even better-looking " -"prints? Depending on the material, you can improve the overall finish of the " -"printed model by doing some fine-tuning." -msgstr "" -"流量を微調整\n" -"流量を材料、温度により微調整し、更に良い仕上がりが得られます。" +#~ msgid "" +#~ "Fine-tuning for flow rate\n" +#~ "Did you know that flow rate can be fine-tuned for even better-looking " +#~ "prints? Depending on the material, you can improve the overall finish of " +#~ "the printed model by doing some fine-tuning." +#~ msgstr "" +#~ "流量を微調整\n" +#~ "流量を材料、温度により微調整し、更に良い仕上がりが得られます。" -#: resources/data/hints.ini: [hint:Split your prints into plates] -msgid "" -"Split your prints into plates\n" -"Did you know that you can split a model that has a lot of parts into " -"individual plates ready to print? This will simplify the process of keeping " -"track of all the parts." -msgstr "" -"複数のプレートに分割\n" -"一つのモデルを分割し、複数のプレートで造形することもできます。" +#~ msgid "" +#~ "Split your prints into plates\n" +#~ "Did you know that you can split a model that has a lot of parts into " +#~ "individual plates ready to print? This will simplify the process of " +#~ "keeping track of all the parts." +#~ msgstr "" +#~ "複数のプレートに分割\n" +#~ "一つのモデルを分割し、複数のプレートで造形することもできます。" -#: resources/data/hints.ini: [hint:Speed up your print with Adaptive Layer -#: Height] -msgid "" -"Speed up your print with Adaptive Layer Height\n" -"Did you know that you can print a model even faster, by using the Adaptive " -"Layer Height option? Check it out!" -msgstr "「アダプティブ積層ピッチ」で造形速度アップ!" +#~ msgid "" +#~ "Speed up your print with Adaptive Layer Height\n" +#~ "Did you know that you can print a model even faster, by using the " +#~ "Adaptive Layer Height option? Check it out!" +#~ msgstr "「アダプティブ積層ピッチ」で造形速度アップ!" -#: resources/data/hints.ini: [hint:Support painting] -msgid "" -"Support painting\n" -"Did you know that you can paint the location of your supports? This feature " -"makes it easy to place the support material only on the sections of the " -"model that actually need it." -msgstr "" -"サポートペイント\n" -"サポートは塗り絵のように生成することができます。" +#~ msgid "" +#~ "Support painting\n" +#~ "Did you know that you can paint the location of your supports? This " +#~ "feature makes it easy to place the support material only on the sections " +#~ "of the model that actually need it." +#~ msgstr "" +#~ "サポートペイント\n" +#~ "サポートは塗り絵のように生成することができます。" -#: resources/data/hints.ini: [hint:Different types of supports] -msgid "" -"Different types of supports\n" -"Did you know that you can choose from multiple types of supports? Tree " -"supports work great for organic models, while saving filament and improving " -"print speed. Check them out!" -msgstr "" -"さまざまなサポートタイプ\n" -"いろんなサポートタイプをつかえます、ツリータイプではフィラメントも節約できる" -"し、造形時間も短縮できます。" +#~ msgid "" +#~ "Different types of supports\n" +#~ "Did you know that you can choose from multiple types of supports? Tree " +#~ "supports work great for organic models, while saving filament and " +#~ "improving print speed. Check them out!" +#~ msgstr "" +#~ "さまざまなサポートタイプ\n" +#~ "いろんなサポートタイプをつかえます、ツリータイプではフィラメントも節約でき" +#~ "るし、造形時間も短縮できます。" -#: resources/data/hints.ini: [hint:Printing Silk Filament] -msgid "" -"Printing Silk Filament\n" -"Did you know that Silk filament needs special consideration to print it " -"successfully? Higher temperature and lower speed are always recommended for " -"the best results." -msgstr "" -"シルク質感のフィラメント\n" -"光沢がある美しい造形物をできるフィラメントは、プロセスに特別なケアが必要で" -"す。" +#~ msgid "" +#~ "Printing Silk Filament\n" +#~ "Did you know that Silk filament needs special consideration to print it " +#~ "successfully? Higher temperature and lower speed are always recommended " +#~ "for the best results." +#~ msgstr "" +#~ "シルク質感のフィラメント\n" +#~ "光沢がある美しい造形物をできるフィラメントは、プロセスに特別なケアが必要で" +#~ "す。" -#: resources/data/hints.ini: [hint:Brim for better adhesion] -msgid "" -"Brim for better adhesion\n" -"Did you know that when printing models have a small contact interface with " -"the printing surface, it's recommended to use a brim?" -msgstr "" -"接着力を高めるには?\n" -"ブリムを活用してください。" +#~ msgid "" +#~ "Brim for better adhesion\n" +#~ "Did you know that when printing models have a small contact interface " +#~ "with the printing surface, it's recommended to use a brim?" +#~ msgstr "" +#~ "接着力を高めるには?\n" +#~ "ブリムを活用してください。" -#: resources/data/hints.ini: [hint:Set parameters for multiple objects] -msgid "" -"Set parameters for multiple objects\n" -"Did you know that you can set slicing parameters for all selected objects at " -"one time?" -msgstr "" -"オブジェクトのパラメータを設定\n" -"複数のオブジェクトを一回で設定できます" +#~ msgid "" +#~ "Set parameters for multiple objects\n" +#~ "Did you know that you can set slicing parameters for all selected objects " +#~ "at one time?" +#~ msgstr "" +#~ "オブジェクトのパラメータを設定\n" +#~ "複数のオブジェクトを一回で設定できます" -#: resources/data/hints.ini: [hint:Stack objects] -msgid "" -"Stack objects\n" -"Did you know that you can stack objects as a whole one?" -msgstr "" -"オブジェクトを積み重ね\n" -"複数のオブジェクトを積み重ねて造形できます。" +#~ msgid "" +#~ "Stack objects\n" +#~ "Did you know that you can stack objects as a whole one?" +#~ msgstr "" +#~ "オブジェクトを積み重ね\n" +#~ "複数のオブジェクトを積み重ねて造形できます。" -#: resources/data/hints.ini: [hint:Flush into support/objects/infill] -msgid "" -"Flush into support/objects/infill\n" -"Did you know that you can save the wasted filament by flushing them into " -"support/objects/infill during filament change?" -msgstr "" -"サポート/オブジェクト/インフィルにフラッシュ\n" -"サポート、オブジェクトやインフィルどちらにもフラッシュでき、廃料の節約や、造" -"形時間短縮も有効的です。" +#~ msgid "" +#~ "Flush into support/objects/infill\n" +#~ "Did you know that you can save the wasted filament by flushing them into " +#~ "support/objects/infill during filament change?" +#~ msgstr "" +#~ "サポート/オブジェクト/インフィルにフラッシュ\n" +#~ "サポート、オブジェクトやインフィルどちらにもフラッシュでき、廃料の節約や、" +#~ "造形時間短縮も有効的です。" -#: resources/data/hints.ini: [hint:Improve strength] -msgid "" -"Improve strength\n" -"Did you know that you can use more wall loops and higher sparse infill " -"density to improve the strength of the model?" -msgstr "" -"強度の向上\n" -"壁面層数やインフィルの充填密度を増やして造形強度を向上できます。" +#~ msgid "" +#~ "Improve strength\n" +#~ "Did you know that you can use more wall loops and higher sparse infill " +#~ "density to improve the strength of the model?" +#~ msgstr "" +#~ "強度の向上\n" +#~ "壁面層数やインフィルの充填密度を増やして造形強度を向上できます。" #~ msgid "Bridge direction" #~ msgstr "ブリッジ方向" diff --git a/bbl/i18n/nl/OrcaSlicer_nl.po b/bbl/i18n/nl/OrcaSlicer_nl.po index a84b54d145..68e276f534 100644 --- a/bbl/i18n/nl/OrcaSlicer_nl.po +++ b/bbl/i18n/nl/OrcaSlicer_nl.po @@ -2,7 +2,7 @@ msgid "" msgstr "" "Project-Id-Version: Orca Slicer\n" "Report-Msgid-Bugs-To: \n" -"POT-Creation-Date: 2023-07-07 00:05+0800\n" +"POT-Creation-Date: 2023-07-07 00:37+0800\n" "Language: nl\n" "MIME-Version: 1.0\n" "Content-Type: text/plain; charset=UTF-8\n" @@ -1899,7 +1899,10 @@ msgstr "" msgid "You need to select the material type and color first." msgstr "" -msgid "Other color" +msgid "Other Color" +msgstr "" + +msgid "Custom Color" msgstr "" msgid "Dynamic flow calibration" @@ -9305,190 +9308,6 @@ msgstr "" msgid "Connection to printers connected via the print host failed." msgstr "" -#: resources/data/hints.ini: [hint:3D Scene Operations] -msgid "" -"3D Scene Operations\n" -"Did you know how to control view and object/part selection with mouse and " -"touchpanel in the 3D scene?" -msgstr "" - -#: resources/data/hints.ini: [hint:Cut Tool] -msgid "" -"Cut Tool\n" -"Did you know that you can cut a model at any angle and position with the " -"cutting tool?" -msgstr "" - -#: resources/data/hints.ini: [hint:Fix Model] -msgid "" -"Fix Model\n" -"Did you know that you can fix a corrupted 3D model to avoid a lot of slicing " -"problems?" -msgstr "" - -#: resources/data/hints.ini: [hint:Timelapse] -msgid "" -"Timelapse\n" -"Did you know that you can generate a timelapse video during each print?" -msgstr "" - -#: resources/data/hints.ini: [hint:Auto-Arrange] -msgid "" -"Auto-Arrange\n" -"Did you know that you can auto-arrange all objects in your project?" -msgstr "" - -#: resources/data/hints.ini: [hint:Auto-Orient] -msgid "" -"Auto-Orient\n" -"Did you know that you can rotate objects to an optimal orientation for " -"printing by a simple click?" -msgstr "" - -#: resources/data/hints.ini: [hint:Lay on Face] -msgid "" -"Lay on Face\n" -"Did you know that you can quickly orient a model so that one of its faces " -"sits on the print bed? Select the \"Place on face\" function or press the " -"F key." -msgstr "" - -#: resources/data/hints.ini: [hint:Object List] -msgid "" -"Object List\n" -"Did you know that you can view all objects/parts in a list and change " -"settings for each object/part?" -msgstr "" - -#: resources/data/hints.ini: [hint:Simplify Model] -msgid "" -"Simplify Model\n" -"Did you know that you can reduce the number of triangles in a mesh using the " -"Simplify mesh feature? Right-click the model and select Simplify model. Read " -"more in the documentation." -msgstr "" - -#: resources/data/hints.ini: [hint:Slicing Parameter Table] -msgid "" -"Slicing Parameter Table\n" -"Did you know that you can view all objects/parts on a table and change " -"settings for each object/part?" -msgstr "" - -#: resources/data/hints.ini: [hint:Split to Objects/Parts] -msgid "" -"Split to Objects/Parts\n" -"Did you know that you can split a big object into small ones for easy " -"colorizing or printing?" -msgstr "" - -#: resources/data/hints.ini: [hint:Subtract a Part] -msgid "" -"Subtract a Part\n" -"Did you know that you can subtract one mesh from another using the Negative " -"part modifier? That way you can, for example, create easily resizable holes " -"directly in Orca Slicer. Read more in the documentation." -msgstr "" - -#: resources/data/hints.ini: [hint:STEP] -msgid "" -"STEP\n" -"Did you know that you can improve your print quality by slicing a STEP file " -"instead of an STL?\n" -"Orca Slicer supports slicing STEP files, providing smoother results than a " -"lower resolution STL. Give it a try!" -msgstr "" - -#: resources/data/hints.ini: [hint:Z seam location] -msgid "" -"Z seam location\n" -"Did you know that you can customize the location of the Z seam, and even " -"paint it on your print, to have it in a less visible location? This improves " -"the overall look of your model. Check it out!" -msgstr "" - -#: resources/data/hints.ini: [hint:Fine-tuning for flow rate] -msgid "" -"Fine-tuning for flow rate\n" -"Did you know that flow rate can be fine-tuned for even better-looking " -"prints? Depending on the material, you can improve the overall finish of the " -"printed model by doing some fine-tuning." -msgstr "" - -#: resources/data/hints.ini: [hint:Split your prints into plates] -msgid "" -"Split your prints into plates\n" -"Did you know that you can split a model that has a lot of parts into " -"individual plates ready to print? This will simplify the process of keeping " -"track of all the parts." -msgstr "" - -#: resources/data/hints.ini: [hint:Speed up your print with Adaptive Layer -#: Height] -msgid "" -"Speed up your print with Adaptive Layer Height\n" -"Did you know that you can print a model even faster, by using the Adaptive " -"Layer Height option? Check it out!" -msgstr "" - -#: resources/data/hints.ini: [hint:Support painting] -msgid "" -"Support painting\n" -"Did you know that you can paint the location of your supports? This feature " -"makes it easy to place the support material only on the sections of the " -"model that actually need it." -msgstr "" - -#: resources/data/hints.ini: [hint:Different types of supports] -msgid "" -"Different types of supports\n" -"Did you know that you can choose from multiple types of supports? Tree " -"supports work great for organic models, while saving filament and improving " -"print speed. Check them out!" -msgstr "" - -#: resources/data/hints.ini: [hint:Printing Silk Filament] -msgid "" -"Printing Silk Filament\n" -"Did you know that Silk filament needs special consideration to print it " -"successfully? Higher temperature and lower speed are always recommended for " -"the best results." -msgstr "" - -#: resources/data/hints.ini: [hint:Brim for better adhesion] -msgid "" -"Brim for better adhesion\n" -"Did you know that when printing models have a small contact interface with " -"the printing surface, it's recommended to use a brim?" -msgstr "" - -#: resources/data/hints.ini: [hint:Set parameters for multiple objects] -msgid "" -"Set parameters for multiple objects\n" -"Did you know that you can set slicing parameters for all selected objects at " -"one time?" -msgstr "" - -#: resources/data/hints.ini: [hint:Stack objects] -msgid "" -"Stack objects\n" -"Did you know that you can stack objects as a whole one?" -msgstr "" - -#: resources/data/hints.ini: [hint:Flush into support/objects/infill] -msgid "" -"Flush into support/objects/infill\n" -"Did you know that you can save the wasted filament by flushing them into " -"support/objects/infill during filament change?" -msgstr "" - -#: resources/data/hints.ini: [hint:Improve strength] -msgid "" -"Improve strength\n" -"Did you know that you can use more wall loops and higher sparse infill " -"density to improve the strength of the model?" -msgstr "" - #~ msgid "Keep upper part" #~ msgstr "Bewaar het bovenstee deel" diff --git a/bbl/i18n/sv/OrcaSlicer_sv.po b/bbl/i18n/sv/OrcaSlicer_sv.po index 8e193f34da..462cc78d31 100644 --- a/bbl/i18n/sv/OrcaSlicer_sv.po +++ b/bbl/i18n/sv/OrcaSlicer_sv.po @@ -2,7 +2,7 @@ msgid "" msgstr "" "Project-Id-Version: Orca Slicer\n" "Report-Msgid-Bugs-To: \n" -"POT-Creation-Date: 2023-07-07 00:05+0800\n" +"POT-Creation-Date: 2023-07-07 00:37+0800\n" "Language: sv\n" "MIME-Version: 1.0\n" "Content-Type: text/plain; charset=UTF-8\n" @@ -1878,7 +1878,10 @@ msgstr "" msgid "You need to select the material type and color first." msgstr "" -msgid "Other color" +msgid "Other Color" +msgstr "" + +msgid "Custom Color" msgstr "" msgid "Dynamic flow calibration" @@ -9162,190 +9165,6 @@ msgstr "" msgid "Connection to printers connected via the print host failed." msgstr "" -#: resources/data/hints.ini: [hint:3D Scene Operations] -msgid "" -"3D Scene Operations\n" -"Did you know how to control view and object/part selection with mouse and " -"touchpanel in the 3D scene?" -msgstr "" - -#: resources/data/hints.ini: [hint:Cut Tool] -msgid "" -"Cut Tool\n" -"Did you know that you can cut a model at any angle and position with the " -"cutting tool?" -msgstr "" - -#: resources/data/hints.ini: [hint:Fix Model] -msgid "" -"Fix Model\n" -"Did you know that you can fix a corrupted 3D model to avoid a lot of slicing " -"problems?" -msgstr "" - -#: resources/data/hints.ini: [hint:Timelapse] -msgid "" -"Timelapse\n" -"Did you know that you can generate a timelapse video during each print?" -msgstr "" - -#: resources/data/hints.ini: [hint:Auto-Arrange] -msgid "" -"Auto-Arrange\n" -"Did you know that you can auto-arrange all objects in your project?" -msgstr "" - -#: resources/data/hints.ini: [hint:Auto-Orient] -msgid "" -"Auto-Orient\n" -"Did you know that you can rotate objects to an optimal orientation for " -"printing by a simple click?" -msgstr "" - -#: resources/data/hints.ini: [hint:Lay on Face] -msgid "" -"Lay on Face\n" -"Did you know that you can quickly orient a model so that one of its faces " -"sits on the print bed? Select the \"Place on face\" function or press the " -"F key." -msgstr "" - -#: resources/data/hints.ini: [hint:Object List] -msgid "" -"Object List\n" -"Did you know that you can view all objects/parts in a list and change " -"settings for each object/part?" -msgstr "" - -#: resources/data/hints.ini: [hint:Simplify Model] -msgid "" -"Simplify Model\n" -"Did you know that you can reduce the number of triangles in a mesh using the " -"Simplify mesh feature? Right-click the model and select Simplify model. Read " -"more in the documentation." -msgstr "" - -#: resources/data/hints.ini: [hint:Slicing Parameter Table] -msgid "" -"Slicing Parameter Table\n" -"Did you know that you can view all objects/parts on a table and change " -"settings for each object/part?" -msgstr "" - -#: resources/data/hints.ini: [hint:Split to Objects/Parts] -msgid "" -"Split to Objects/Parts\n" -"Did you know that you can split a big object into small ones for easy " -"colorizing or printing?" -msgstr "" - -#: resources/data/hints.ini: [hint:Subtract a Part] -msgid "" -"Subtract a Part\n" -"Did you know that you can subtract one mesh from another using the Negative " -"part modifier? That way you can, for example, create easily resizable holes " -"directly in Orca Slicer. Read more in the documentation." -msgstr "" - -#: resources/data/hints.ini: [hint:STEP] -msgid "" -"STEP\n" -"Did you know that you can improve your print quality by slicing a STEP file " -"instead of an STL?\n" -"Orca Slicer supports slicing STEP files, providing smoother results than a " -"lower resolution STL. Give it a try!" -msgstr "" - -#: resources/data/hints.ini: [hint:Z seam location] -msgid "" -"Z seam location\n" -"Did you know that you can customize the location of the Z seam, and even " -"paint it on your print, to have it in a less visible location? This improves " -"the overall look of your model. Check it out!" -msgstr "" - -#: resources/data/hints.ini: [hint:Fine-tuning for flow rate] -msgid "" -"Fine-tuning for flow rate\n" -"Did you know that flow rate can be fine-tuned for even better-looking " -"prints? Depending on the material, you can improve the overall finish of the " -"printed model by doing some fine-tuning." -msgstr "" - -#: resources/data/hints.ini: [hint:Split your prints into plates] -msgid "" -"Split your prints into plates\n" -"Did you know that you can split a model that has a lot of parts into " -"individual plates ready to print? This will simplify the process of keeping " -"track of all the parts." -msgstr "" - -#: resources/data/hints.ini: [hint:Speed up your print with Adaptive Layer -#: Height] -msgid "" -"Speed up your print with Adaptive Layer Height\n" -"Did you know that you can print a model even faster, by using the Adaptive " -"Layer Height option? Check it out!" -msgstr "" - -#: resources/data/hints.ini: [hint:Support painting] -msgid "" -"Support painting\n" -"Did you know that you can paint the location of your supports? This feature " -"makes it easy to place the support material only on the sections of the " -"model that actually need it." -msgstr "" - -#: resources/data/hints.ini: [hint:Different types of supports] -msgid "" -"Different types of supports\n" -"Did you know that you can choose from multiple types of supports? Tree " -"supports work great for organic models, while saving filament and improving " -"print speed. Check them out!" -msgstr "" - -#: resources/data/hints.ini: [hint:Printing Silk Filament] -msgid "" -"Printing Silk Filament\n" -"Did you know that Silk filament needs special consideration to print it " -"successfully? Higher temperature and lower speed are always recommended for " -"the best results." -msgstr "" - -#: resources/data/hints.ini: [hint:Brim for better adhesion] -msgid "" -"Brim for better adhesion\n" -"Did you know that when printing models have a small contact interface with " -"the printing surface, it's recommended to use a brim?" -msgstr "" - -#: resources/data/hints.ini: [hint:Set parameters for multiple objects] -msgid "" -"Set parameters for multiple objects\n" -"Did you know that you can set slicing parameters for all selected objects at " -"one time?" -msgstr "" - -#: resources/data/hints.ini: [hint:Stack objects] -msgid "" -"Stack objects\n" -"Did you know that you can stack objects as a whole one?" -msgstr "" - -#: resources/data/hints.ini: [hint:Flush into support/objects/infill] -msgid "" -"Flush into support/objects/infill\n" -"Did you know that you can save the wasted filament by flushing them into " -"support/objects/infill during filament change?" -msgstr "" - -#: resources/data/hints.ini: [hint:Improve strength] -msgid "" -"Improve strength\n" -"Did you know that you can use more wall loops and higher sparse infill " -"density to improve the strength of the model?" -msgstr "" - #~ msgid "Keep upper part" #~ msgstr "Behåll övre del" diff --git a/bbl/i18n/zh_cn/OrcaSlicer_zh_CN.po b/bbl/i18n/zh_cn/OrcaSlicer_zh_CN.po index 4c4a3c486c..52d6ba64ff 100644 --- a/bbl/i18n/zh_cn/OrcaSlicer_zh_CN.po +++ b/bbl/i18n/zh_cn/OrcaSlicer_zh_CN.po @@ -6,7 +6,7 @@ msgid "" msgstr "" "Project-Id-Version: Slic3rPE\n" "Report-Msgid-Bugs-To: \n" -"POT-Creation-Date: 2023-07-07 00:05+0800\n" +"POT-Creation-Date: 2023-07-07 00:37+0800\n" "PO-Revision-Date: 2023-04-01 13:21+0800\n" "Last-Translator: Jiang Yue \n" "Language-Team: \n" @@ -1841,7 +1841,10 @@ msgstr "请输入有效的数值 (K的范围为0~0.5, N的范围为0.6~2.0)" msgid "You need to select the material type and color first." msgstr "" -msgid "Other color" +msgid "Other Color" +msgstr "" + +msgid "Custom Color" msgstr "" msgid "Dynamic flow calibration" @@ -6754,9 +6757,9 @@ msgid "" "infill density is low.This value determines the thickness of the support " "loops. 0 means disable this feature" msgstr "" -"如果开启,逆戟鲸切片会沿着内部桥接的边沿在其下方生成支撑轮廓。这些支撑轮廓可以防" -"止悬空地打印内部桥接并提高顶面质量,特别是在填充密度较低的情况下。这个设置用" -"于调整支撑轮廓的厚度,0表示关闭此特性。" +"如果开启,逆戟鲸切片会沿着内部桥接的边沿在其下方生成支撑轮廓。这些支撑轮廓可" +"以防止悬空地打印内部桥接并提高顶面质量,特别是在填充密度较低的情况下。这个设" +"置用于调整支撑轮廓的厚度,0表示关闭此特性。" msgid "Top surface pattern" msgstr "顶面图案" @@ -9024,250 +9027,224 @@ msgstr "" msgid "Connection to printers connected via the print host failed." msgstr "" -#: resources/data/hints.ini: [hint:3D Scene Operations] -msgid "" -"3D Scene Operations\n" -"Did you know how to control view and object/part selection with mouse and " -"touchpanel in the 3D scene?" -msgstr "" -"3D场景操作\n" -"如何在3D场景中使用鼠标和触摸面板进行视角控制和对象/部件选择" +#~ msgid "" +#~ "3D Scene Operations\n" +#~ "Did you know how to control view and object/part selection with mouse and " +#~ "touchpanel in the 3D scene?" +#~ msgstr "" +#~ "3D场景操作\n" +#~ "如何在3D场景中使用鼠标和触摸面板进行视角控制和对象/部件选择" -#: resources/data/hints.ini: [hint:Cut Tool] -msgid "" -"Cut Tool\n" -"Did you know that you can cut a model at any angle and position with the " -"cutting tool?" -msgstr "" -"切割工具\n" -"您知道吗?您可以使用切割工具以任何角度和位置切割模型。" +#~ msgid "" +#~ "Cut Tool\n" +#~ "Did you know that you can cut a model at any angle and position with the " +#~ "cutting tool?" +#~ msgstr "" +#~ "切割工具\n" +#~ "您知道吗?您可以使用切割工具以任何角度和位置切割模型。" -#: resources/data/hints.ini: [hint:Fix Model] -msgid "" -"Fix Model\n" -"Did you know that you can fix a corrupted 3D model to avoid a lot of slicing " -"problems?" -msgstr "" -"修复模型\n" -"您知道吗?您可以修复一个损坏的3D模型以避免诸多切片问题。" +#~ msgid "" +#~ "Fix Model\n" +#~ "Did you know that you can fix a corrupted 3D model to avoid a lot of " +#~ "slicing problems?" +#~ msgstr "" +#~ "修复模型\n" +#~ "您知道吗?您可以修复一个损坏的3D模型以避免诸多切片问题。" -#: resources/data/hints.ini: [hint:Timelapse] -msgid "" -"Timelapse\n" -"Did you know that you can generate a timelapse video during each print?" -msgstr "" -"延时摄影\n" -"您知道吗?您可以每次打印时生成一段延时摄影。" +#~ msgid "" +#~ "Timelapse\n" +#~ "Did you know that you can generate a timelapse video during each print?" +#~ msgstr "" +#~ "延时摄影\n" +#~ "您知道吗?您可以每次打印时生成一段延时摄影。" -#: resources/data/hints.ini: [hint:Auto-Arrange] -msgid "" -"Auto-Arrange\n" -"Did you know that you can auto-arrange all objects in your project?" -msgstr "" -"自动摆盘\n" -"您知道吗?您可以自动排列项目中的所有对象。" +#~ msgid "" +#~ "Auto-Arrange\n" +#~ "Did you know that you can auto-arrange all objects in your project?" +#~ msgstr "" +#~ "自动摆盘\n" +#~ "您知道吗?您可以自动排列项目中的所有对象。" -#: resources/data/hints.ini: [hint:Auto-Orient] -msgid "" -"Auto-Orient\n" -"Did you know that you can rotate objects to an optimal orientation for " -"printing by a simple click?" -msgstr "" -"自动朝向\n" -"您知道吗,您只需单击鼠标,即可将对象旋转到适合的打印方向。" +#~ msgid "" +#~ "Auto-Orient\n" +#~ "Did you know that you can rotate objects to an optimal orientation for " +#~ "printing by a simple click?" +#~ msgstr "" +#~ "自动朝向\n" +#~ "您知道吗,您只需单击鼠标,即可将对象旋转到适合的打印方向。" -#: resources/data/hints.ini: [hint:Lay on Face] -msgid "" -"Lay on Face\n" -"Did you know that you can quickly orient a model so that one of its faces " -"sits on the print bed? Select the \"Place on face\" function or press the " -"F key." -msgstr "" -"放置在面部\n" -"您知道吗,您可以快速指定模型的底面,使其位于打印床上。选择“放置在面部”功能或" -"按F键。" +#~ msgid "" +#~ "Lay on Face\n" +#~ "Did you know that you can quickly orient a model so that one of its faces " +#~ "sits on the print bed? Select the \"Place on face\" function or press the " +#~ "F key." +#~ msgstr "" +#~ "放置在面部\n" +#~ "您知道吗,您可以快速指定模型的底面,使其位于打印床上。选择“放置在面部”功能" +#~ "或按F键。" -#: resources/data/hints.ini: [hint:Object List] -msgid "" -"Object List\n" -"Did you know that you can view all objects/parts in a list and change " -"settings for each object/part?" -msgstr "" -"对象列表\n" -"您知道对象列表吗?您可以在其中的查看所有对象/部件,并更改每个对象/部件的设" -"置。" +#~ msgid "" +#~ "Object List\n" +#~ "Did you know that you can view all objects/parts in a list and change " +#~ "settings for each object/part?" +#~ msgstr "" +#~ "对象列表\n" +#~ "您知道对象列表吗?您可以在其中的查看所有对象/部件,并更改每个对象/部件的设" +#~ "置。" -#: resources/data/hints.ini: [hint:Simplify Model] -msgid "" -"Simplify Model\n" -"Did you know that you can reduce the number of triangles in a mesh using the " -"Simplify mesh feature? Right-click the model and select Simplify model. Read " -"more in the documentation." -msgstr "" -"简化模型\n" -"您知道吗,您可以使用“简化模型”功能减少模型的三角形数。在模型上单击鼠标右键," -"然后选择“简化模型”。" +#~ msgid "" +#~ "Simplify Model\n" +#~ "Did you know that you can reduce the number of triangles in a mesh using " +#~ "the Simplify mesh feature? Right-click the model and select Simplify " +#~ "model. Read more in the documentation." +#~ msgstr "" +#~ "简化模型\n" +#~ "您知道吗,您可以使用“简化模型”功能减少模型的三角形数。在模型上单击鼠标右" +#~ "键,然后选择“简化模型”。" -#: resources/data/hints.ini: [hint:Slicing Parameter Table] -msgid "" -"Slicing Parameter Table\n" -"Did you know that you can view all objects/parts on a table and change " -"settings for each object/part?" -msgstr "" -"参数表格\n" -"您知道吗?您可以参数表格上的所有对象/部件,并更改每个对象/部件的设置。" +#~ msgid "" +#~ "Slicing Parameter Table\n" +#~ "Did you know that you can view all objects/parts on a table and change " +#~ "settings for each object/part?" +#~ msgstr "" +#~ "参数表格\n" +#~ "您知道吗?您可以参数表格上的所有对象/部件,并更改每个对象/部件的设置。" -#: resources/data/hints.ini: [hint:Split to Objects/Parts] -msgid "" -"Split to Objects/Parts\n" -"Did you know that you can split a big object into small ones for easy " -"colorizing or printing?" -msgstr "" -"分割成对象/零件\n" -"您知道吗,您可以把一个大对象分割成多个小对象/零件以便着色或打印。" +#~ msgid "" +#~ "Split to Objects/Parts\n" +#~ "Did you know that you can split a big object into small ones for easy " +#~ "colorizing or printing?" +#~ msgstr "" +#~ "分割成对象/零件\n" +#~ "您知道吗,您可以把一个大对象分割成多个小对象/零件以便着色或打印。" -#: resources/data/hints.ini: [hint:Subtract a Part] -msgid "" -"Subtract a Part\n" -"Did you know that you can subtract one mesh from another using the Negative " -"part modifier? That way you can, for example, create easily resizable holes " -"directly in Orca Slicer. Read more in the documentation." -msgstr "" -"减去部分几何体\n" -"您知道吗,您可以使用负零件从另一个几何体中减去另一个几何体。例如,可以直接在" -"逆戟鲸中创建可轻松调整大小的孔。" +#~ msgid "" +#~ "Subtract a Part\n" +#~ "Did you know that you can subtract one mesh from another using the " +#~ "Negative part modifier? That way you can, for example, create easily " +#~ "resizable holes directly in Orca Slicer. Read more in the documentation." +#~ msgstr "" +#~ "减去部分几何体\n" +#~ "您知道吗,您可以使用负零件从另一个几何体中减去另一个几何体。例如,可以直接" +#~ "在逆戟鲸中创建可轻松调整大小的孔。" -#: resources/data/hints.ini: [hint:STEP] -msgid "" -"STEP\n" -"Did you know that you can improve your print quality by slicing a STEP file " -"instead of an STL?\n" -"Orca Slicer supports slicing STEP files, providing smoother results than a " -"lower resolution STL. Give it a try!" -msgstr "" -"STEP文件\n" -"您知道吗,通过切片STEP文件而不是STL文件可以提高打印质量。\n" -"逆戟鲸支持切片STEP文件,提供比低分辨率STL更平滑的结果。试试看!" +#~ msgid "" +#~ "STEP\n" +#~ "Did you know that you can improve your print quality by slicing a STEP " +#~ "file instead of an STL?\n" +#~ "Orca Slicer supports slicing STEP files, providing smoother results than " +#~ "a lower resolution STL. Give it a try!" +#~ msgstr "" +#~ "STEP文件\n" +#~ "您知道吗,通过切片STEP文件而不是STL文件可以提高打印质量。\n" +#~ "逆戟鲸支持切片STEP文件,提供比低分辨率STL更平滑的结果。试试看!" -#: resources/data/hints.ini: [hint:Z seam location] -msgid "" -"Z seam location\n" -"Did you know that you can customize the location of the Z seam, and even " -"paint it on your print, to have it in a less visible location? This improves " -"the overall look of your model. Check it out!" -msgstr "" -"Z接缝位置\n" -"您知道吗,您可以自定义Z接缝的位置,甚至可以将其绘制在打印上,使其位于不太可见" -"的位置。这样可以改善模型的整体外观。试试看!" +#~ msgid "" +#~ "Z seam location\n" +#~ "Did you know that you can customize the location of the Z seam, and even " +#~ "paint it on your print, to have it in a less visible location? This " +#~ "improves the overall look of your model. Check it out!" +#~ msgstr "" +#~ "Z接缝位置\n" +#~ "您知道吗,您可以自定义Z接缝的位置,甚至可以将其绘制在打印上,使其位于不太" +#~ "可见的位置。这样可以改善模型的整体外观。试试看!" -#: resources/data/hints.ini: [hint:Fine-tuning for flow rate] -msgid "" -"Fine-tuning for flow rate\n" -"Did you know that flow rate can be fine-tuned for even better-looking " -"prints? Depending on the material, you can improve the overall finish of the " -"printed model by doing some fine-tuning." -msgstr "" -"流量微调\n" -"你知道吗,您可以微调流量,以获得更好看的打印效果。根据材料的不同,可以通过进" -"行一些微调来提高打印模型的整体光洁度。" +#~ msgid "" +#~ "Fine-tuning for flow rate\n" +#~ "Did you know that flow rate can be fine-tuned for even better-looking " +#~ "prints? Depending on the material, you can improve the overall finish of " +#~ "the printed model by doing some fine-tuning." +#~ msgstr "" +#~ "流量微调\n" +#~ "你知道吗,您可以微调流量,以获得更好看的打印效果。根据材料的不同,可以通过" +#~ "进行一些微调来提高打印模型的整体光洁度。" -#: resources/data/hints.ini: [hint:Split your prints into plates] -msgid "" -"Split your prints into plates\n" -"Did you know that you can split a model that has a lot of parts into " -"individual plates ready to print? This will simplify the process of keeping " -"track of all the parts." -msgstr "" -"分盘打印\n" -"您知道吗,您可以把一个有很多零件的模型安排到多个独立的分盘,然后打印出来,这" -"将简化对所有零件的管理。" +#~ msgid "" +#~ "Split your prints into plates\n" +#~ "Did you know that you can split a model that has a lot of parts into " +#~ "individual plates ready to print? This will simplify the process of " +#~ "keeping track of all the parts." +#~ msgstr "" +#~ "分盘打印\n" +#~ "您知道吗,您可以把一个有很多零件的模型安排到多个独立的分盘,然后打印出来," +#~ "这将简化对所有零件的管理。" -#: resources/data/hints.ini: [hint:Speed up your print with Adaptive Layer -#: Height] -msgid "" -"Speed up your print with Adaptive Layer Height\n" -"Did you know that you can print a model even faster, by using the Adaptive " -"Layer Height option? Check it out!" -msgstr "" -"自适应层高度加速打印\n" -"您知道吗,您可以使用“自适应层高度”选项可以更快地打印模型。试试看!" +#~ msgid "" +#~ "Speed up your print with Adaptive Layer Height\n" +#~ "Did you know that you can print a model even faster, by using the " +#~ "Adaptive Layer Height option? Check it out!" +#~ msgstr "" +#~ "自适应层高度加速打印\n" +#~ "您知道吗,您可以使用“自适应层高度”选项可以更快地打印模型。试试看!" -#: resources/data/hints.ini: [hint:Support painting] -msgid "" -"Support painting\n" -"Did you know that you can paint the location of your supports? This feature " -"makes it easy to place the support material only on the sections of the " -"model that actually need it." -msgstr "" -"绘制支撑\n" -"您知道吗,您可以手动绘制添加/屏蔽支撑的位置,此功能使仅将支撑材料放置在实际需" -"要的模型截面上变得容易。" +#~ msgid "" +#~ "Support painting\n" +#~ "Did you know that you can paint the location of your supports? This " +#~ "feature makes it easy to place the support material only on the sections " +#~ "of the model that actually need it." +#~ msgstr "" +#~ "绘制支撑\n" +#~ "您知道吗,您可以手动绘制添加/屏蔽支撑的位置,此功能使仅将支撑材料放置在实" +#~ "际需要的模型截面上变得容易。" -#: resources/data/hints.ini: [hint:Different types of supports] -msgid "" -"Different types of supports\n" -"Did you know that you can choose from multiple types of supports? Tree " -"supports work great for organic models, while saving filament and improving " -"print speed. Check them out!" -msgstr "" -"支撑类型\n" -"您知道吗,有多种可选的支撑类型,树状支撑非常适合人物/动物模型,同时可以节耗材" -"并提高打印速度。试试看!" +#~ msgid "" +#~ "Different types of supports\n" +#~ "Did you know that you can choose from multiple types of supports? Tree " +#~ "supports work great for organic models, while saving filament and " +#~ "improving print speed. Check them out!" +#~ msgstr "" +#~ "支撑类型\n" +#~ "您知道吗,有多种可选的支撑类型,树状支撑非常适合人物/动物模型,同时可以节" +#~ "耗材并提高打印速度。试试看!" -#: resources/data/hints.ini: [hint:Printing Silk Filament] -msgid "" -"Printing Silk Filament\n" -"Did you know that Silk filament needs special consideration to print it " -"successfully? Higher temperature and lower speed are always recommended for " -"the best results." -msgstr "" -"打印丝绸耗材\n" -"你知道吗,丝绸耗材需要特别考虑才能成功打印。为了获得最佳效果,通常建议使用较" -"高的温度和较低的速度。" +#~ msgid "" +#~ "Printing Silk Filament\n" +#~ "Did you know that Silk filament needs special consideration to print it " +#~ "successfully? Higher temperature and lower speed are always recommended " +#~ "for the best results." +#~ msgstr "" +#~ "打印丝绸耗材\n" +#~ "你知道吗,丝绸耗材需要特别考虑才能成功打印。为了获得最佳效果,通常建议使用" +#~ "较高的温度和较低的速度。" -#: resources/data/hints.ini: [hint:Brim for better adhesion] -msgid "" -"Brim for better adhesion\n" -"Did you know that when printing models have a small contact interface with " -"the printing surface, it's recommended to use a brim?" -msgstr "" -"使用Brim\n" -"您知道吗?当模型与热床表面的接触面积较小时,建议使用brim以提高打印成功率。" +#~ msgid "" +#~ "Brim for better adhesion\n" +#~ "Did you know that when printing models have a small contact interface " +#~ "with the printing surface, it's recommended to use a brim?" +#~ msgstr "" +#~ "使用Brim\n" +#~ "您知道吗?当模型与热床表面的接触面积较小时,建议使用brim以提高打印成功率。" -#: resources/data/hints.ini: [hint:Set parameters for multiple objects] -msgid "" -"Set parameters for multiple objects\n" -"Did you know that you can set slicing parameters for all selected objects at " -"one time?" -msgstr "" -"为多个对象设置参数\n" -"您知道吗,可以同时为所有选定对象设置切片参数。" +#~ msgid "" +#~ "Set parameters for multiple objects\n" +#~ "Did you know that you can set slicing parameters for all selected objects " +#~ "at one time?" +#~ msgstr "" +#~ "为多个对象设置参数\n" +#~ "您知道吗,可以同时为所有选定对象设置切片参数。" -#: resources/data/hints.ini: [hint:Stack objects] -msgid "" -"Stack objects\n" -"Did you know that you can stack objects as a whole one?" -msgstr "" -"组合物体\n" -"你知道吗?你可以把多个对象组合为一个整体。" +#~ msgid "" +#~ "Stack objects\n" +#~ "Did you know that you can stack objects as a whole one?" +#~ msgstr "" +#~ "组合物体\n" +#~ "你知道吗?你可以把多个对象组合为一个整体。" -#: resources/data/hints.ini: [hint:Flush into support/objects/infill] -msgid "" -"Flush into support/objects/infill\n" -"Did you know that you can save the wasted filament by flushing them into " -"support/objects/infill during filament change?" -msgstr "" -"冲刷到支持/对象/填充中\n" -"你知道吗?你可以在换料时将它们冲入支撑/对象/填充,以节省浪费的料丝。" +#~ msgid "" +#~ "Flush into support/objects/infill\n" +#~ "Did you know that you can save the wasted filament by flushing them into " +#~ "support/objects/infill during filament change?" +#~ msgstr "" +#~ "冲刷到支持/对象/填充中\n" +#~ "你知道吗?你可以在换料时将它们冲入支撑/对象/填充,以节省浪费的料丝。" -#: resources/data/hints.ini: [hint:Improve strength] -msgid "" -"Improve strength\n" -"Did you know that you can use more wall loops and higher sparse infill " -"density to improve the strength of the model?" -msgstr "" -"提高强度\n" -"你知道吗?你可以使用更多的墙层数和更高的疏散填充密度来提高模型的强度。" +#~ msgid "" +#~ "Improve strength\n" +#~ "Did you know that you can use more wall loops and higher sparse infill " +#~ "density to improve the strength of the model?" +#~ msgstr "" +#~ "提高强度\n" +#~ "你知道吗?你可以使用更多的墙层数和更高的疏散填充密度来提高模型的强度。" #~ msgid "" #~ "If enabled, support loops will be generated under the contours of " diff --git a/resources/i18n/cs/OrcaSlicer.mo b/resources/i18n/cs/OrcaSlicer.mo index e3711d910b..475e3029b5 100644 Binary files a/resources/i18n/cs/OrcaSlicer.mo and b/resources/i18n/cs/OrcaSlicer.mo differ diff --git a/resources/i18n/de/OrcaSlicer.mo b/resources/i18n/de/OrcaSlicer.mo index 39eaee470a..aabe1a8780 100644 Binary files a/resources/i18n/de/OrcaSlicer.mo and b/resources/i18n/de/OrcaSlicer.mo differ diff --git a/resources/i18n/fr/OrcaSlicer.mo b/resources/i18n/fr/OrcaSlicer.mo index f75b83cb26..fac5c113ab 100644 Binary files a/resources/i18n/fr/OrcaSlicer.mo and b/resources/i18n/fr/OrcaSlicer.mo differ diff --git a/resources/i18n/ja/OrcaSlicer.mo b/resources/i18n/ja/OrcaSlicer.mo index e6f112de09..0a7a1b2a62 100644 Binary files a/resources/i18n/ja/OrcaSlicer.mo and b/resources/i18n/ja/OrcaSlicer.mo differ diff --git a/resources/i18n/zh_cn/OrcaSlicer.mo b/resources/i18n/zh_cn/OrcaSlicer.mo index a41bb40e82..809985a652 100644 Binary files a/resources/i18n/zh_cn/OrcaSlicer.mo and b/resources/i18n/zh_cn/OrcaSlicer.mo differ diff --git a/resources/profiles/BBL.json b/resources/profiles/BBL.json index fbfbf38e0b..017470de67 100644 --- a/resources/profiles/BBL.json +++ b/resources/profiles/BBL.json @@ -868,6 +868,38 @@ { "name": "Bambu PET-CF @BBL P1P", "sub_path": "filament/P1P/Bambu PET-CF @BBL P1P.json" + }, + { + "name":"Bambu Support For PLA @base", + "sub_path":"filament/Bambu Support For PLA @base.json" + }, + { + "name":"Bambu Support For PLA @BBL X1C 0.2 nozzle", + "sub_path":"filament/Bambu Support For PLA @BBL X1C 0.2 nozzle.json" + }, + { + "name":"Bambu Support For PLA @BBL X1C", + "sub_path":"filament/Bambu Support For PLA @BBL X1C.json" + }, + { + "name":"Bambu Support For PLA @BBL P1P 0.2 nozzle", + "sub_path":"filament/P1P/Bambu Support For PLA @BBL P1P 0.2 nozzle.json" + }, + { + "name":"Bambu Support For PLA @BBL P1P", + "sub_path":"filament/P1P/Bambu Support For PLA @BBL P1P.json" + }, + { + "name":"Bambu Support For PA/PET @base", + "sub_path":"filament/Bambu Support For PA PET @base.json" + }, + { + "name":"Bambu Support For PA/PET @BBL P1P", + "sub_path":"filament/P1P/Bambu Support For PA PET @BBL P1P.json" + }, + { + "name":"Bambu Support For PA/PET @BBL X1C", + "sub_path":"filament/Bambu Support For PA PET @BBL X1C.json" } ], "machine_list": [ diff --git a/resources/profiles/BBL/filament/Bambu Support For PA PET @BBL X1C.json b/resources/profiles/BBL/filament/Bambu Support For PA PET @BBL X1C.json new file mode 100644 index 0000000000..bbf5d836ac --- /dev/null +++ b/resources/profiles/BBL/filament/Bambu Support For PA PET @BBL X1C.json @@ -0,0 +1,16 @@ +{ + "type": "filament", + "setting_id": "GFSS03_00", + "name": "Bambu Support For PA/PET @BBL X1C", + "from": "system", + "instantiation": "true", + "inherits": "Bambu Support For PA/PET @base", + "compatible_printers": [ + "Bambu Lab X1 Carbon 0.4 nozzle", + "Bambu Lab X1 Carbon 0.6 nozzle", + "Bambu Lab X1 Carbon 0.8 nozzle", + "Bambu Lab X1 0.4 nozzle", + "Bambu Lab X1 0.6 nozzle", + "Bambu Lab X1 0.8 nozzle" + ] +} diff --git a/resources/profiles/BBL/filament/Bambu Support For PA PET @base.json b/resources/profiles/BBL/filament/Bambu Support For PA PET @base.json new file mode 100644 index 0000000000..5ba24bd8d3 --- /dev/null +++ b/resources/profiles/BBL/filament/Bambu Support For PA PET @base.json @@ -0,0 +1,35 @@ +{ + "type": "filament", + "filament_id": "GFS03", + "name": "Bambu Support For PA/PET @base", + "from": "system", + "instantiation": "false", + "inherits": "fdm_filament_pa", + "required_nozzle_HRC": [ + "3" + ], + "filament_vendor": [ + "Bambu Lab" + ], + "filament_density": [ + "1.22" + ], + "filament_is_support": [ + "1" + ], + "nozzle_temperature_initial_layer": [ + "280" + ], + "nozzle_temperature": [ + "280" + ], + "fan_cooling_layer_time": [ + "10" + ], + "filament_cost": [ + "34.99" + ], + "slow_down_layer_time":[ + "6" + ] +} diff --git a/resources/profiles/BBL/filament/Bambu Support For PLA @BBL X1C 0.2 nozzle.json b/resources/profiles/BBL/filament/Bambu Support For PLA @BBL X1C 0.2 nozzle.json new file mode 100644 index 0000000000..7903c25650 --- /dev/null +++ b/resources/profiles/BBL/filament/Bambu Support For PLA @BBL X1C 0.2 nozzle.json @@ -0,0 +1,21 @@ +{ + "type": "filament", + "setting_id": "GFSS02_01", + "name": "Bambu Support For PLA @BBL X1C 0.2 nozzle", + "from": "system", + "instantiation": "true", + "inherits": "Bambu Support For PLA @base", + "filament_max_volumetric_speed": [ + "0.5" + ], + "nozzle_temperature_initial_layer": [ + "240" + ], + "nozzle_temperature": [ + "240" + ], + "compatible_printers": [ + "Bambu Lab X1 Carbon 0.2 nozzle", + "Bambu Lab X1 0.2 nozzle" + ] +} \ No newline at end of file diff --git a/resources/profiles/BBL/filament/Bambu Support For PLA @BBL X1C.json b/resources/profiles/BBL/filament/Bambu Support For PLA @BBL X1C.json new file mode 100644 index 0000000000..61cf0a8ab6 --- /dev/null +++ b/resources/profiles/BBL/filament/Bambu Support For PLA @BBL X1C.json @@ -0,0 +1,16 @@ +{ + "type": "filament", + "setting_id": "GFSS02_02", + "name": "Bambu Support For PLA @BBL X1C", + "from": "system", + "instantiation": "true", + "inherits": "Bambu Support For PLA @base", + "compatible_printers": [ + "Bambu Lab X1 Carbon 0.4 nozzle", + "Bambu Lab X1 Carbon 0.6 nozzle", + "Bambu Lab X1 Carbon 0.8 nozzle", + "Bambu Lab X1 0.4 nozzle", + "Bambu Lab X1 0.6 nozzle", + "Bambu Lab X1 0.8 nozzle" + ] +} diff --git a/resources/profiles/BBL/filament/Bambu Support For PLA @base.json b/resources/profiles/BBL/filament/Bambu Support For PLA @base.json new file mode 100644 index 0000000000..5a49fef271 --- /dev/null +++ b/resources/profiles/BBL/filament/Bambu Support For PLA @base.json @@ -0,0 +1,29 @@ +{ + "type": "filament", + "filament_id": "GFS02", + "name": "Bambu Support For PLA @base", + "from": "system", + "instantiation": "false", + "inherits": "fdm_filament_pla", + "filament_vendor": [ + "Bambu Lab" + ], + "filament_density": [ + "1.30" + ], + "filament_is_support": [ + "1" + ], + "cool_plate_temp": [ + "40" + ], + "cool_plate_temp_initial_layer": [ + "40" + ], + "filament_cost": [ + "69.98" + ], + "slow_down_layer_time": [ + "8" + ] +} diff --git a/resources/profiles/BBL/filament/P1P/Bambu Support For PA PET @BBL P1P.json b/resources/profiles/BBL/filament/P1P/Bambu Support For PA PET @BBL P1P.json new file mode 100644 index 0000000000..e59d77e2dc --- /dev/null +++ b/resources/profiles/BBL/filament/P1P/Bambu Support For PA PET @BBL P1P.json @@ -0,0 +1,13 @@ +{ + "type": "filament", + "setting_id": "GFSS03_01", + "name": "Bambu Support For PA/PET @BBL P1P", + "from": "system", + "instantiation": "true", + "inherits": "Bambu Support For PA/PET @base", + "compatible_printers": [ + "Bambu Lab P1P 0.4 nozzle", + "Bambu Lab P1P 0.6 nozzle", + "Bambu Lab P1P 0.8 nozzle" + ] +} diff --git a/resources/profiles/BBL/filament/P1P/Bambu Support For PLA @BBL P1P 0.2 nozzle.json b/resources/profiles/BBL/filament/P1P/Bambu Support For PLA @BBL P1P 0.2 nozzle.json new file mode 100644 index 0000000000..0b73e5f494 --- /dev/null +++ b/resources/profiles/BBL/filament/P1P/Bambu Support For PLA @BBL P1P 0.2 nozzle.json @@ -0,0 +1,38 @@ +{ + "type": "filament", + "setting_id": "GFSS02_11", + "name": "Bambu Support For PLA @BBL P1P 0.2 nozzle", + "from": "system", + "instantiation": "true", + "inherits": "Bambu Support For PLA @base", + "filament_max_volumetric_speed": [ + "0.5" + ], + "nozzle_temperature_initial_layer": [ + "240" + ], + "nozzle_temperature": [ + "240" + ], + "hot_plate_temp" : [ + "65" + ], + "hot_plate_temp_initial_layer" : [ + "65" + ], + "textured_plate_temp" : [ + "65" + ], + "textured_plate_temp_initial_layer" : [ + "65" + ], + "fan_min_speed": [ + "50" + ], + "fan_cooling_layer_time": [ + "80" + ], + "compatible_printers": [ + "Bambu Lab P1P 0.2 nozzle" + ] +} \ No newline at end of file diff --git a/resources/profiles/BBL/filament/P1P/Bambu Support For PLA @BBL P1P.json b/resources/profiles/BBL/filament/P1P/Bambu Support For PLA @BBL P1P.json new file mode 100644 index 0000000000..19ebe7afc1 --- /dev/null +++ b/resources/profiles/BBL/filament/P1P/Bambu Support For PLA @BBL P1P.json @@ -0,0 +1,31 @@ +{ + "type": "filament", + "setting_id": "GFSS02_12", + "name": "Bambu Support For PLA @BBL P1P", + "from": "system", + "instantiation": "true", + "inherits": "Bambu Support For PLA @base", + "hot_plate_temp" : [ + "65" + ], + "hot_plate_temp_initial_layer" : [ + "65" + ], + "textured_plate_temp" : [ + "65" + ], + "textured_plate_temp_initial_layer" : [ + "65" + ], + "fan_min_speed": [ + "50" + ], + "fan_cooling_layer_time": [ + "80" + ], + "compatible_printers": [ + "Bambu Lab P1P 0.4 nozzle", + "Bambu Lab P1P 0.6 nozzle", + "Bambu Lab P1P 0.8 nozzle" + ] +} diff --git a/resources/profiles/BBL/machine/Bambu Lab P1P 0.2 nozzle.json b/resources/profiles/BBL/machine/Bambu Lab P1P 0.2 nozzle.json index 380f00d7f5..07c26c7236 100644 --- a/resources/profiles/BBL/machine/Bambu Lab P1P 0.2 nozzle.json +++ b/resources/profiles/BBL/machine/Bambu Lab P1P 0.2 nozzle.json @@ -26,7 +26,7 @@ "retraction_minimum_travel": [ "5" ], - "machine_start_gcode": ";===== machine: P1P ========================\n;===== date: 20230323 =====================\n;===== turn on the HB fan =================\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp to turn on the HB fan\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG0 Z12 F300 ; lower the hotbed , to prevent the nozzle is below the hotbed\nG0 Z-6;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_extruder] >50)||(bed_temperature_initial_layer[initial_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X230 Y15\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_extruder] >50)||(bed_temperature_initial_layer[initial_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n\nM104 S{nozzle_temperature_initial_layer[initial_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== fmech mode fast check============================\n\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature_initial_layer[initial_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y11 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E0.700\nG0 X18 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z-0.04 ; for Textured PEI Plate\n{endif}\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression", + "machine_start_gcode": ";===== machine: P1P ========================\n;===== date: 20230425 =====================\n;===== turn on the HB fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG0 Z12 F300 ; lower the hotbed , to prevent the nozzle is below the hotbed\nG0 Z-6;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_extruder] >50)||(bed_temperature_initial_layer[initial_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X230 Y15\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_extruder] >50)||(bed_temperature_initial_layer[initial_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n\nM104 S{nozzle_temperature_initial_layer[initial_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== fmech mode fast check============================\n\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature_initial_layer[initial_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y11 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E0.700\nG0 X18 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z-0.04 ; for Textured PEI Plate\n{endif}\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression", "upward_compatible_machine":[ "Bambu Lab X1 0.2 nozzle", "Bambu Lab X1 Carbon 0.2 nozzle" diff --git a/resources/profiles/BBL/machine/Bambu Lab P1P 0.4 nozzle.json b/resources/profiles/BBL/machine/Bambu Lab P1P 0.4 nozzle.json index be49085835..b90157cf3f 100644 --- a/resources/profiles/BBL/machine/Bambu Lab P1P 0.4 nozzle.json +++ b/resources/profiles/BBL/machine/Bambu Lab P1P 0.4 nozzle.json @@ -23,7 +23,7 @@ "0x28" ], "extruder_clearance_max_radius": "56", - "machine_start_gcode": ";===== machine: P1P ========================\n;===== date: 20230323 =====================\n;===== turn on the HB fan =================\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp to turn on the HB fan\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG0 Z12 F300 ; lower the hotbed , to prevent the nozzle is below the hotbed\nG0 Z-6;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_extruder] >50)||(bed_temperature_initial_layer[initial_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X230 Y15\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_extruder] >50)||(bed_temperature_initial_layer[initial_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n\nM104 S{nozzle_temperature_initial_layer[initial_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== fmech mode fast check============================\n\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature_initial_layer[initial_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y11 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E0.700\nG0 X18 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression", + "machine_start_gcode": ";===== machine: P1P ========================\n;===== date: 20230425 =====================\n;===== turn on the HB fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG0 Z12 F300 ; lower the hotbed , to prevent the nozzle is below the hotbed\nG0 Z-6;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_extruder] >50)||(bed_temperature_initial_layer[initial_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X230 Y15\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_extruder] >50)||(bed_temperature_initial_layer[initial_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n\nM104 S{nozzle_temperature_initial_layer[initial_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== fmech mode fast check============================\n\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature_initial_layer[initial_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y11 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E0.700\nG0 X18 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression", "scan_first_layer": "0", "machine_load_filament_time": "29", "machine_unload_filament_time": "28", diff --git a/resources/profiles/BBL/machine/Bambu Lab P1P 0.6 nozzle.json b/resources/profiles/BBL/machine/Bambu Lab P1P 0.6 nozzle.json index d5e2180d11..5c55f9e45b 100644 --- a/resources/profiles/BBL/machine/Bambu Lab P1P 0.6 nozzle.json +++ b/resources/profiles/BBL/machine/Bambu Lab P1P 0.6 nozzle.json @@ -26,7 +26,7 @@ "retraction_minimum_travel": [ "3" ], - "machine_start_gcode": ";===== machine: P1P ========================\n;===== date: 20230323 =====================\n;===== turn on the HB fan =================\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp to turn on the HB fan\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG0 Z12 F300 ; lower the hotbed , to prevent the nozzle is below the hotbed\nG0 Z-6;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_extruder] >50)||(bed_temperature_initial_layer[initial_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X230 Y15\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_extruder] >50)||(bed_temperature_initial_layer[initial_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n\nM104 S{nozzle_temperature_initial_layer[initial_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== fmech mode fast check============================\n\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature_initial_layer[initial_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E25 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y15 E1.166 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E1.166\nG0 X18 E25 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression", + "machine_start_gcode": ";===== machine: P1P ========================\n;===== date: 20230425 =====================\n;===== turn on the HB fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG0 Z12 F300 ; lower the hotbed , to prevent the nozzle is below the hotbed\nG0 Z-6;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_extruder] >50)||(bed_temperature_initial_layer[initial_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X230 Y15\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_extruder] >50)||(bed_temperature_initial_layer[initial_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n\nM104 S{nozzle_temperature_initial_layer[initial_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== fmech mode fast check============================\n\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature_initial_layer[initial_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E25 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y15 E1.166 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E1.166\nG0 X18 E25 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression", "nozzle_type": "hardened_steel", "nozzle_hrc": "55", "upward_compatible_machine":[ diff --git a/resources/profiles/BBL/machine/Bambu Lab P1P 0.8 nozzle.json b/resources/profiles/BBL/machine/Bambu Lab P1P 0.8 nozzle.json index cb10e3e27a..92867bd3cf 100644 --- a/resources/profiles/BBL/machine/Bambu Lab P1P 0.8 nozzle.json +++ b/resources/profiles/BBL/machine/Bambu Lab P1P 0.8 nozzle.json @@ -29,7 +29,7 @@ "retract_length_toolchange": [ "3" ], - "machine_start_gcode": ";===== machine: P1P ========================\n;===== date: 20230323 =====================\n;===== turn on the HB fan =================\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp to turn on the HB fan\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG0 Z12 F300 ; lower the hotbed , to prevent the nozzle is below the hotbed\nG0 Z-6;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_extruder] >50)||(bed_temperature_initial_layer[initial_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X230 Y15\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_extruder] >50)||(bed_temperature_initial_layer[initial_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n\nM104 S{nozzle_temperature_initial_layer[initial_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== fmech mode fast check============================\n\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y0.5 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature_initial_layer[initial_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X129 E15 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\nG0 X240 E15\nG0 Y15 E1.500 F{outer_wall_volumetric_speed/(0.3*1.0)/ 4 * 60}\nG0 X239.5\nG0 E0.3\nG0 Y1.5 E1.500\nG0 X129 E15 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\nG0 X18 E15\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression", + "machine_start_gcode": ";===== machine: P1P ========================\n;===== date: 20230425 =====================\n;===== turn on the HB fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG0 Z12 F300 ; lower the hotbed , to prevent the nozzle is below the hotbed\nG0 Z-6;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_extruder] >50)||(bed_temperature_initial_layer[initial_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X230 Y15\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_extruder] >50)||(bed_temperature_initial_layer[initial_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n\nM104 S{nozzle_temperature_initial_layer[initial_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== fmech mode fast check============================\n\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y0.5 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature_initial_layer[initial_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X129 E15 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\nG0 X240 E15\nG0 Y15 E1.500 F{outer_wall_volumetric_speed/(0.3*1.0)/ 4 * 60}\nG0 X239.5\nG0 E0.3\nG0 Y1.5 E1.500\nG0 X129 E15 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\nG0 X18 E15\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression", "nozzle_type": "hardened_steel", "nozzle_hrc": "55", "upward_compatible_machine":[ diff --git a/resources/profiles/BBL/machine/Bambu Lab X1 0.2 nozzle.json b/resources/profiles/BBL/machine/Bambu Lab X1 0.2 nozzle.json index d727b43d07..5f9ff32645 100644 --- a/resources/profiles/BBL/machine/Bambu Lab X1 0.2 nozzle.json +++ b/resources/profiles/BBL/machine/Bambu Lab X1 0.2 nozzle.json @@ -26,7 +26,7 @@ "retraction_minimum_travel": [ "5" ], - "machine_start_gcode": ";===== machine: X1 =========================\n;===== date: 20230322 =====================\n;===== turn on the HB fan =================\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp to turn on the HB fan\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG0 Z12 F300 ; lower the hotbed , to prevent the nozzle is below the hotbed\nG0 Z-6;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n{if scan_first_layer}\n;=========register first layer scan=====\nM977 S1 P60\n{endif}\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_no_support_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_no_support_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_no_support_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_no_support_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_no_support_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X128 Y128\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n;===== check scanner clarity ===========================\nG1 X128 Y128 F24000\nG28 Z P0\nM972 S5 P0\nG1 X230 Y15 F24000\n;===== check scanner clarity end =======================\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\nM104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== mech mode fast check============================\n\n{if scan_first_layer}\n;start heatbed scan====================================\nM976 S2 P1\nG90\nG1 X128 Y128 F20000\nM976 S3 P2 ;register void printing detection\n{endif}\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature[initial_no_support_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y11 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E0.700\nG0 X18 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n\n;===== draw extrinsic para cali paint =================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M1002 gcode_claim_action : 8\n\n T1000\n G0 F3000 X28.000 Y19.500 Z0.200\n G1 F1200.0 X28.000 Y45.000 Z0.200 E0.933\n G1 F1200.0 X28.500 Y45.000 Z0.200 E0.018\n G1 F1200.0 X28.500 Y19.500 Z0.200 E0.933\n G1 F1200.0 X31.000 Y19.500 Z0.200 E0.091\n G1 F1200.0 X31.000 Y49.000 Z0.200 E1.080\n G1 F1200.0 X37.500 Y49.000 Z0.200 E0.238\n G1 F1200.0 X37.500 Y60.000 Z0.200 E0.403\n G1 F1200.0 X42.500 Y60.000 Z0.200 E0.183\n G1 F1200.0 X42.500 Y49.000 Z0.200 E0.403\n G1 F1200.0 X48.000 Y49.000 Z0.200 E0.201\n G1 F1200.0 X48.000 Y20.000 Z0.200 E1.061\n G1 F1200.0 X30.000 Y20.000 Z0.200 E0.659\n G1 F1200.0 X30.000 Y41.000 Z0.200 E0.769\n G1 F1200.0 X50.000 Y41.000 Z0.200 E0.732\n G1 F1200.0 X50.000 Y34.000 Z0.200 E0.256\n G1 F1200.0 X30.000 Y34.000 Z0.200 E0.732\n G1 F1500.000 E-0.800\n\n ;=========== extruder cali extrusion ==================\n T1000\n M83\n\t{if default_acceleration > 0}\n {if outer_wall_acceleration > 0}\n M204 S[outer_wall_acceleration]\n {else}\n M204 S[default_acceleration]\n {endif}\n {endif}\n G0 X35.000 Y18.000 Z0.300 F30000 E0\n G1 F1500.000 E0.800\n M106 S0 ; turn off fan\n G0 X185.000 E9.35441 F4800\n G0 X187 Z0\n G1 F1500.000 E-0.800\n G0 Z1\n G0 X180 Z0.3 F18000\n\n M900 L1000.0 M1.0\n M900 K0.160\n G0 X45.000 F30000\n G0 Y20.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.080\n G0 X45.000 F30000\n G0 Y22.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.000\n G0 X45.000 F30000\n G0 Y24.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n\n G0 X45.000 F30000 ; move to start point\n\nM623 ; end of \"draw extrinsic para cali paint\"\n\nM104 S140\n\n\n;=========== laser and rgb calibration ===========\nM400\nM18 E\nM500 R\n\nM973 S3 P14\n\nG1 X120 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nT1100\nG1 X235.0 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nM400 P100\nM960 S1 P1\nM400 P100\nM973 S6 P0; use auto exposure for horizontal laser by xcam\nM960 S0 P0\n\nG1 X240.0 Y6.0 Z0.3 F18000.0;Move to vertical extrude line pos\nM960 S2 P1\nM400 P100\nM973 S6 P1; use auto exposure for vertical laser by xcam\nM960 S0 P0\n\n;=========== handeye calibration ======================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M973 S3 P1 ; camera start stream\n M400 P500\n M973 S1\n G0 F6000 X40.000 Y54.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P16000\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P1\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P2\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P500\n M971 S5 P4\n M963 S1\n M400 P1500\n M964\n T1100\n G0 F6000 X40.000 Y54.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P16000\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P1\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P2\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P500\n M971 S5 P4\n M963 S1\n M400 P1500\n M964\n T1100\n G1 Z3 F3000\n\n M400\n M500 ; save cali data\n\n M104 S{nozzle_temperature[initial_no_support_extruder]} ; rise nozzle temp now ,to reduce temp waiting time.\n\n T1100\n M400 P400\n M960 S0 P0\n G0 F30000.000 Y22.000 X65.000 Z0.000\n M400 P400\n M960 S1 P1\n M400 P50\n\n M969 S1 N3 A2000\n G0 F360.000 X181.000 Z0.000\n M980.3 A70.000 B{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60/4} C5.000 D{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60} E5.000 F175.000 H1.000 I0.000 J0.080 K0.160\n M400 P100\n G0 F20000\n G0 Z1 ; rise nozzle up\n T1000 ; change to nozzle space\n G0 X45.000 Y16.000 F30000 ; move to test line pos\n M969 S0 ; turn off scanning\n M960 S0 P0\n\n\n G1 Z2 F20000\n T1000\n G0 X45.000 Y16.000 F30000 E0\n M109 S{nozzle_temperature[initial_no_support_extruder]}\n G0 Z0.3\n G1 F1500.000 E3.600\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n\n ; see if extrude cali success, if not ,use default value\n M1002 judge_last_extrude_cali_success\n M622 J0\n M400\n M900 K0.08 M{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*0.08}\n M623\n\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X185.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X190.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X195.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X200.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X205.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X210.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X215.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X220.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X225.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n M973 S4\n\nM623\n\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM973 S4 ; turn off scanner\nM400 ; wait all motion done before implement the emprical L parameters\n;M900 L500.0 ; Empirical parameters\nM109 S[nozzle_temperature_initial_layer]\nM960 S1 P0 ; turn off laser\nM960 S2 P0 ; turn off laser\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\nG90\nM83\nT1000\nG1 E{-retraction_length[initial_no_support_extruder]} F1800\nG1 X128.0 Y253.0 Z0.2 F24000.0;Move to start position\nG1 E{retraction_length[initial_no_support_extruder]} F1800\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\nG0 X253 E6.4 F{outer_wall_volumetric_speed/(0.3*0.6) * 60}\nG0 Y128 E6.4\nG0 X252.5\nG0 Y252.5 E6.4\nG0 X128 E6.4", + "machine_start_gcode": ";===== machine: X1 =========================\n;===== date: 20230425 =====================\n;===== turn on the HB fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG0 Z12 F300 ; lower the hotbed , to prevent the nozzle is below the hotbed\nG0 Z-6;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n{if scan_first_layer}\n;=========register first layer scan=====\nM977 S1 P60\n{endif}\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_no_support_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_no_support_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_no_support_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_no_support_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_no_support_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X128 Y128\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n;===== check scanner clarity ===========================\nG1 X128 Y128 F24000\nG28 Z P0\nM972 S5 P0\nG1 X230 Y15 F24000\n;===== check scanner clarity end =======================\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\nM104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== mech mode fast check============================\n\n{if scan_first_layer}\n;start heatbed scan====================================\nM976 S2 P1\nG90\nG1 X128 Y128 F20000\nM976 S3 P2 ;register void printing detection\n{endif}\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature[initial_no_support_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y11 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E0.700\nG0 X18 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n\n;===== draw extrinsic para cali paint =================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M1002 gcode_claim_action : 8\n\n T1000\n G0 F3000 X28.000 Y19.500 Z0.200\n G1 F1200.0 X28.000 Y45.000 Z0.200 E0.933\n G1 F1200.0 X28.500 Y45.000 Z0.200 E0.018\n G1 F1200.0 X28.500 Y19.500 Z0.200 E0.933\n G1 F1200.0 X31.000 Y19.500 Z0.200 E0.091\n G1 F1200.0 X31.000 Y49.000 Z0.200 E1.080\n G1 F1200.0 X37.500 Y49.000 Z0.200 E0.238\n G1 F1200.0 X37.500 Y60.000 Z0.200 E0.403\n G1 F1200.0 X42.500 Y60.000 Z0.200 E0.183\n G1 F1200.0 X42.500 Y49.000 Z0.200 E0.403\n G1 F1200.0 X48.000 Y49.000 Z0.200 E0.201\n G1 F1200.0 X48.000 Y20.000 Z0.200 E1.061\n G1 F1200.0 X30.000 Y20.000 Z0.200 E0.659\n G1 F1200.0 X30.000 Y41.000 Z0.200 E0.769\n G1 F1200.0 X50.000 Y41.000 Z0.200 E0.732\n G1 F1200.0 X50.000 Y34.000 Z0.200 E0.256\n G1 F1200.0 X30.000 Y34.000 Z0.200 E0.732\n G1 F1500.000 E-0.800\n\n ;=========== extruder cali extrusion ==================\n T1000\n M83\n\t{if default_acceleration > 0}\n {if outer_wall_acceleration > 0}\n M204 S[outer_wall_acceleration]\n {else}\n M204 S[default_acceleration]\n {endif}\n {endif}\n G0 X35.000 Y18.000 Z0.300 F30000 E0\n G1 F1500.000 E0.800\n M106 S0 ; turn off fan\n G0 X185.000 E9.35441 F4800\n G0 X187 Z0\n G1 F1500.000 E-0.800\n G0 Z1\n G0 X180 Z0.3 F18000\n\n M900 L1000.0 M1.0\n M900 K0.160\n G0 X45.000 F30000\n G0 Y20.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.080\n G0 X45.000 F30000\n G0 Y22.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.000\n G0 X45.000 F30000\n G0 Y24.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n\n G0 X45.000 F30000 ; move to start point\n\nM623 ; end of \"draw extrinsic para cali paint\"\n\nM104 S140\n\n\n;=========== laser and rgb calibration ===========\nM400\nM18 E\nM500 R\n\nM973 S3 P14\n\nG1 X120 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nT1100\nG1 X235.0 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nM400 P100\nM960 S1 P1\nM400 P100\nM973 S6 P0; use auto exposure for horizontal laser by xcam\nM960 S0 P0\n\nG1 X240.0 Y6.0 Z0.3 F18000.0;Move to vertical extrude line pos\nM960 S2 P1\nM400 P100\nM973 S6 P1; use auto exposure for vertical laser by xcam\nM960 S0 P0\n\n;=========== handeye calibration ======================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M973 S3 P1 ; camera start stream\n M400 P500\n M973 S1\n G0 F6000 X40.000 Y54.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P16000\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P1\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P2\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P500\n M971 S5 P4\n M963 S1\n M400 P1500\n M964\n T1100\n G0 F6000 X40.000 Y54.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P16000\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P1\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P2\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P500\n M971 S5 P4\n M963 S1\n M400 P1500\n M964\n T1100\n G1 Z3 F3000\n\n M400\n M500 ; save cali data\n\n M104 S{nozzle_temperature[initial_no_support_extruder]} ; rise nozzle temp now ,to reduce temp waiting time.\n\n T1100\n M400 P400\n M960 S0 P0\n G0 F30000.000 Y22.000 X65.000 Z0.000\n M400 P400\n M960 S1 P1\n M400 P50\n\n M969 S1 N3 A2000\n G0 F360.000 X181.000 Z0.000\n M980.3 A70.000 B{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60/4} C5.000 D{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60} E5.000 F175.000 H1.000 I0.000 J0.080 K0.160\n M400 P100\n G0 F20000\n G0 Z1 ; rise nozzle up\n T1000 ; change to nozzle space\n G0 X45.000 Y16.000 F30000 ; move to test line pos\n M969 S0 ; turn off scanning\n M960 S0 P0\n\n\n G1 Z2 F20000\n T1000\n G0 X45.000 Y16.000 F30000 E0\n M109 S{nozzle_temperature[initial_no_support_extruder]}\n G0 Z0.3\n G1 F1500.000 E3.600\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n\n ; see if extrude cali success, if not ,use default value\n M1002 judge_last_extrude_cali_success\n M622 J0\n M400\n M900 K0.08 M{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*0.08}\n M623\n\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X185.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X190.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X195.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X200.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X205.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X210.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X215.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X220.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X225.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n M973 S4\n\nM623\n\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM973 S4 ; turn off scanner\nM400 ; wait all motion done before implement the emprical L parameters\n;M900 L500.0 ; Empirical parameters\nM109 S[nozzle_temperature_initial_layer]\nM960 S1 P0 ; turn off laser\nM960 S2 P0 ; turn off laser\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\nG90\nM83\nT1000\nG1 E{-retraction_length[initial_no_support_extruder]} F1800\nG1 X128.0 Y253.0 Z0.2 F24000.0;Move to start position\nG1 E{retraction_length[initial_no_support_extruder]} F1800\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\nG0 X253 E6.4 F{outer_wall_volumetric_speed/(0.3*0.6) * 60}\nG0 Y128 E6.4\nG0 X252.5\nG0 Y252.5 E6.4\nG0 X128 E6.4", "nozzle_type": "stainless_steel", "upward_compatible_machine":[ "Bambu Lab P1P 0.2 nozzle", diff --git a/resources/profiles/BBL/machine/Bambu Lab X1 0.4 nozzle.json b/resources/profiles/BBL/machine/Bambu Lab X1 0.4 nozzle.json index e77c8c8566..d504610c0f 100644 --- a/resources/profiles/BBL/machine/Bambu Lab X1 0.4 nozzle.json +++ b/resources/profiles/BBL/machine/Bambu Lab X1 0.4 nozzle.json @@ -26,7 +26,7 @@ "20", "20" ], - "machine_start_gcode": ";===== machine: X1 =========================\n;===== date: 20230322 =====================\n;===== turn on the HB fan =================\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp to turn on the HB fan\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG0 Z12 F300 ; lower the hotbed , to prevent the nozzle is below the hotbed\nG0 Z-6;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n{if scan_first_layer}\n;=========register first layer scan=====\nM977 S1 P60\n{endif}\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on \nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_no_support_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_no_support_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_no_support_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_no_support_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_no_support_extruder]}\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X128 Y128\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n;===== check scanner clarity ===========================\nG1 X128 Y128 F24000\nG28 Z P0\nM972 S5 P0\nG1 X230 Y15 F24000\n;===== check scanner clarity end =======================\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\nM104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY \n;===== mech mode fast check============================\n\n{if scan_first_layer}\n;start heatbed scan====================================\nM976 S2 P1 \nG90\nG1 X128 Y128 F20000\nM976 S3 P2 ;register void printing detection\n{endif}\n\n;===== noozle load line ===============================\nM975 S1\nG90 \nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature[initial_no_support_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \nG0 Y11 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E0.700\nG0 X18 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n\n;===== draw extrinsic para cali paint =================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M1002 gcode_claim_action : 8\n\n T1000 \n G0 F3000 X28.000 Y19.500 Z0.200\n G1 F1200.0 X28.000 Y45.000 Z0.200 E0.933 \n G1 F1200.0 X28.500 Y45.000 Z0.200 E0.018 \n G1 F1200.0 X28.500 Y19.500 Z0.200 E0.933 \n G1 F1200.0 X31.000 Y19.500 Z0.200 E0.091 \n G1 F1200.0 X31.000 Y49.000 Z0.200 E1.080 \n G1 F1200.0 X37.500 Y49.000 Z0.200 E0.238 \n G1 F1200.0 X37.500 Y60.000 Z0.200 E0.403 \n G1 F1200.0 X42.500 Y60.000 Z0.200 E0.183 \n G1 F1200.0 X42.500 Y49.000 Z0.200 E0.403 \n G1 F1200.0 X48.000 Y49.000 Z0.200 E0.201 \n G1 F1200.0 X48.000 Y20.000 Z0.200 E1.061 \n G1 F1200.0 X30.000 Y20.000 Z0.200 E0.659 \n G1 F1200.0 X30.000 Y41.000 Z0.200 E0.769 \n G1 F1200.0 X50.000 Y41.000 Z0.200 E0.732 \n G1 F1200.0 X50.000 Y34.000 Z0.200 E0.256 \n G1 F1200.0 X30.000 Y34.000 Z0.200 E0.732 \n G1 F1500.000 E-0.800 \n\n ;=========== extruder cali extrusion ================== \n T1000 \n M83 \n {if default_acceleration > 0}\n {if outer_wall_acceleration > 0}\n M204 S[outer_wall_acceleration]\n {else}\n M204 S[default_acceleration]\n {endif}\n {endif}\n G0 X35.000 Y18.000 Z0.300 F30000 E0\n G1 F1500.000 E0.800 \n M106 S0 ; turn off fan\n G0 X185.000 E9.35441 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G0 X187 Z0\n G1 F1500.000 E-0.800 \n G0 Z1\n G0 X180 Z0.3 F18000\n \n M900 L1000.0 M1.0\n M900 K0.040 \n G0 X45.000 F30000 \n G0 Y20.000 F30000 \n G1 F1500.000 E0.800 \n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 F1500.000 E-0.800 \n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos \n G1 Z0.3\n M400\n\n G0 X45.000 F30000 \n M900 K0.020 \n G0 X45.000 F30000 \n G0 Y22.000 F30000 \n G1 F1500.000 E0.800 \n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 F1500.000 E-0.800 \n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos \n G1 Z0.3\n M400\n\n G0 X45.000 F30000 \n M900 K0.000 \n G0 X45.000 F30000 \n G0 Y24.000 F30000 \n G1 F1500.000 E0.800 \n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos \n G1 Z0.3\n\n G0 X45.000 F30000 ; move to start point\n\nM623 ; end of \"draw extrinsic para cali paint\"\n\nM104 S140\n\n\n;=========== laser and rgb calibration =========== \nM400\nM18 E\nM500 R\n\nM973 S3 P14\n\nG1 X120 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nT1100\nG1 X235.0 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nM400 P100\nM960 S1 P1\nM400 P100\nM973 S6 P0; use auto exposure for horizontal laser by xcam\nM960 S0 P0\n\nG1 X240.0 Y6.0 Z0.3 F18000.0;Move to vertical extrude line pos\nM960 S2 P1\nM400 P100\nM973 S6 P1; use auto exposure for vertical laser by xcam\nM960 S0 P0\n\n;=========== handeye calibration ======================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M973 S3 P1 ; camera start stream\n M400 P500\n M973 S1 \n G0 F6000 X40.000 Y54.500 Z0.000 \n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P16000\n M400 P500 \n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1 \n G0 Y37.50 \n M400 P200\n M971 S5 P1 \n M960 S0 P0\n M960 S2 P1 \n G0 Y54.50 \n M400 P200 \n M971 S5 P3 \n G0 Z0.500 F12000\n M960 S0 P0\n M960 S1 P1 \n G0 Y37.50 \n M400 P200\n M971 S5 P2 \n M960 S0 P0\n M960 S2 P1 \n G0 Y54.50 \n M400 P500 \n M971 S5 P4 \n M963 S1 \n M400 P1500 \n M964 \n T1100 \n G0 F6000 X40.000 Y54.500 Z0.000 \n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P16000\n M400 P500 \n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1 \n G0 Y37.50 \n M400 P200\n M971 S5 P1 \n M960 S0 P0\n M960 S2 P1 \n G0 Y54.50 \n M400 P200 \n M971 S5 P3 \n G0 Z0.500 F12000\n M960 S0 P0\n M960 S1 P1 \n G0 Y37.50 \n M400 P200\n M971 S5 P2 \n M960 S0 P0\n M960 S2 P1 \n G0 Y54.50 \n M400 P500 \n M971 S5 P4 \n M963 S1 \n M400 P1500 \n M964 \n T1100 \n G1 Z3 F3000 \n\n M400\n M500 ; save cali data\n\n M104 S{nozzle_temperature[initial_no_support_extruder]} ; rise nozzle temp now ,to reduce temp waiting time.\n\n T1100 \n M400 P400 \n M960 S0 P0\n G0 F30000.000 Y22.000 X65.000 Z0.000\n M400 P400 \n M960 S1 P1 \n M400 P50 \n\n M969 S1 N3 A2000 \n G0 F360.000 X181.000 Z0.000\n M980.3 A70.000 B{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60/4} C5.000 D{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60} E5.000 F175.000 H1.000 I0.000 J0.020 K0.040\n M400 P100 \n G0 F20000\n G0 Z1 ; rise nozzle up\n T1000 ; change to nozzle space\n G0 X45.000 Y16.000 F30000 ; move to test line pos\n M969 S0 ; turn off scanning\n M960 S0 P0\n\n\n G1 Z2 F20000 \n T1000 \n G0 X45.000 Y16.000 F30000 E0\n M109 S{nozzle_temperature[initial_no_support_extruder]}\n G0 Z0.3\n G1 F1500.000 E3.600 \n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n\n ; see if extrude cali success, if not ,use default value\n M1002 judge_last_extrude_cali_success\n M622 J0\n M400\n M900 K0.02 M{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*0.02}\n M623 \n\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X185.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X190.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X195.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X200.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X205.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X210.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X215.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X220.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X225.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n M973 S4 \n\nM623\n\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM973 S4 ; turn off scanner\nM400 ; wait all motion done before implement the emprical L parameters\n;M900 L500.0 ; Empirical parameters\nM109 S[nozzle_temperature_initial_layer]\nM960 S1 P0 ; turn off laser\nM960 S2 P0 ; turn off laser\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan \nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\nG90 \nM83\nT1000\nG1 E{-retraction_length[initial_no_support_extruder]} F1800\nG1 X128.0 Y253.0 Z0.2 F24000.0;Move to start position\nG1 E{retraction_length[initial_no_support_extruder]} F1800\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\nG0 X253 E6.4 F{outer_wall_volumetric_speed/(0.3*0.6) * 60} \nG0 Y128 E6.4\nG0 X252.5\nG0 Y252.5 E6.4\nG0 X128 E6.4", + "machine_start_gcode": ";===== machine: X1 =========================\n;===== date: 20230425 =====================\n;===== turn on the HB fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG0 Z12 F300 ; lower the hotbed , to prevent the nozzle is below the hotbed\nG0 Z-6;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n{if scan_first_layer}\n;=========register first layer scan=====\nM977 S1 P60\n{endif}\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on \nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_no_support_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_no_support_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_no_support_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_no_support_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_no_support_extruder]}\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X128 Y128\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n;===== check scanner clarity ===========================\nG1 X128 Y128 F24000\nG28 Z P0\nM972 S5 P0\nG1 X230 Y15 F24000\n;===== check scanner clarity end =======================\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\nM104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY \n;===== mech mode fast check============================\n\n{if scan_first_layer}\n;start heatbed scan====================================\nM976 S2 P1 \nG90\nG1 X128 Y128 F20000\nM976 S3 P2 ;register void printing detection\n{endif}\n\n;===== noozle load line ===============================\nM975 S1\nG90 \nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature[initial_no_support_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \nG0 Y11 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E0.700\nG0 X18 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n\n;===== draw extrinsic para cali paint =================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M1002 gcode_claim_action : 8\n\n T1000 \n G0 F3000 X28.000 Y19.500 Z0.200\n G1 F1200.0 X28.000 Y45.000 Z0.200 E0.933 \n G1 F1200.0 X28.500 Y45.000 Z0.200 E0.018 \n G1 F1200.0 X28.500 Y19.500 Z0.200 E0.933 \n G1 F1200.0 X31.000 Y19.500 Z0.200 E0.091 \n G1 F1200.0 X31.000 Y49.000 Z0.200 E1.080 \n G1 F1200.0 X37.500 Y49.000 Z0.200 E0.238 \n G1 F1200.0 X37.500 Y60.000 Z0.200 E0.403 \n G1 F1200.0 X42.500 Y60.000 Z0.200 E0.183 \n G1 F1200.0 X42.500 Y49.000 Z0.200 E0.403 \n G1 F1200.0 X48.000 Y49.000 Z0.200 E0.201 \n G1 F1200.0 X48.000 Y20.000 Z0.200 E1.061 \n G1 F1200.0 X30.000 Y20.000 Z0.200 E0.659 \n G1 F1200.0 X30.000 Y41.000 Z0.200 E0.769 \n G1 F1200.0 X50.000 Y41.000 Z0.200 E0.732 \n G1 F1200.0 X50.000 Y34.000 Z0.200 E0.256 \n G1 F1200.0 X30.000 Y34.000 Z0.200 E0.732 \n G1 F1500.000 E-0.800 \n\n ;=========== extruder cali extrusion ================== \n T1000 \n M83 \n {if default_acceleration > 0}\n {if outer_wall_acceleration > 0}\n M204 S[outer_wall_acceleration]\n {else}\n M204 S[default_acceleration]\n {endif}\n {endif}\n G0 X35.000 Y18.000 Z0.300 F30000 E0\n G1 F1500.000 E0.800 \n M106 S0 ; turn off fan\n G0 X185.000 E9.35441 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G0 X187 Z0\n G1 F1500.000 E-0.800 \n G0 Z1\n G0 X180 Z0.3 F18000\n \n M900 L1000.0 M1.0\n M900 K0.040 \n G0 X45.000 F30000 \n G0 Y20.000 F30000 \n G1 F1500.000 E0.800 \n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 F1500.000 E-0.800 \n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos \n G1 Z0.3\n M400\n\n G0 X45.000 F30000 \n M900 K0.020 \n G0 X45.000 F30000 \n G0 Y22.000 F30000 \n G1 F1500.000 E0.800 \n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 F1500.000 E-0.800 \n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos \n G1 Z0.3\n M400\n\n G0 X45.000 F30000 \n M900 K0.000 \n G0 X45.000 F30000 \n G0 Y24.000 F30000 \n G1 F1500.000 E0.800 \n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos \n G1 Z0.3\n\n G0 X45.000 F30000 ; move to start point\n\nM623 ; end of \"draw extrinsic para cali paint\"\n\nM104 S140\n\n\n;=========== laser and rgb calibration =========== \nM400\nM18 E\nM500 R\n\nM973 S3 P14\n\nG1 X120 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nT1100\nG1 X235.0 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nM400 P100\nM960 S1 P1\nM400 P100\nM973 S6 P0; use auto exposure for horizontal laser by xcam\nM960 S0 P0\n\nG1 X240.0 Y6.0 Z0.3 F18000.0;Move to vertical extrude line pos\nM960 S2 P1\nM400 P100\nM973 S6 P1; use auto exposure for vertical laser by xcam\nM960 S0 P0\n\n;=========== handeye calibration ======================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M973 S3 P1 ; camera start stream\n M400 P500\n M973 S1 \n G0 F6000 X40.000 Y54.500 Z0.000 \n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P16000\n M400 P500 \n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1 \n G0 Y37.50 \n M400 P200\n M971 S5 P1 \n M960 S0 P0\n M960 S2 P1 \n G0 Y54.50 \n M400 P200 \n M971 S5 P3 \n G0 Z0.500 F12000\n M960 S0 P0\n M960 S1 P1 \n G0 Y37.50 \n M400 P200\n M971 S5 P2 \n M960 S0 P0\n M960 S2 P1 \n G0 Y54.50 \n M400 P500 \n M971 S5 P4 \n M963 S1 \n M400 P1500 \n M964 \n T1100 \n G0 F6000 X40.000 Y54.500 Z0.000 \n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P16000\n M400 P500 \n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1 \n G0 Y37.50 \n M400 P200\n M971 S5 P1 \n M960 S0 P0\n M960 S2 P1 \n G0 Y54.50 \n M400 P200 \n M971 S5 P3 \n G0 Z0.500 F12000\n M960 S0 P0\n M960 S1 P1 \n G0 Y37.50 \n M400 P200\n M971 S5 P2 \n M960 S0 P0\n M960 S2 P1 \n G0 Y54.50 \n M400 P500 \n M971 S5 P4 \n M963 S1 \n M400 P1500 \n M964 \n T1100 \n G1 Z3 F3000 \n\n M400\n M500 ; save cali data\n\n M104 S{nozzle_temperature[initial_no_support_extruder]} ; rise nozzle temp now ,to reduce temp waiting time.\n\n T1100 \n M400 P400 \n M960 S0 P0\n G0 F30000.000 Y22.000 X65.000 Z0.000\n M400 P400 \n M960 S1 P1 \n M400 P50 \n\n M969 S1 N3 A2000 \n G0 F360.000 X181.000 Z0.000\n M980.3 A70.000 B{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60/4} C5.000 D{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60} E5.000 F175.000 H1.000 I0.000 J0.020 K0.040\n M400 P100 \n G0 F20000\n G0 Z1 ; rise nozzle up\n T1000 ; change to nozzle space\n G0 X45.000 Y16.000 F30000 ; move to test line pos\n M969 S0 ; turn off scanning\n M960 S0 P0\n\n\n G1 Z2 F20000 \n T1000 \n G0 X45.000 Y16.000 F30000 E0\n M109 S{nozzle_temperature[initial_no_support_extruder]}\n G0 Z0.3\n G1 F1500.000 E3.600 \n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n\n ; see if extrude cali success, if not ,use default value\n M1002 judge_last_extrude_cali_success\n M622 J0\n M400\n M900 K0.02 M{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*0.02}\n M623 \n\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X185.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X190.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X195.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X200.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X205.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X210.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X215.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X220.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X225.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n M973 S4 \n\nM623\n\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM973 S4 ; turn off scanner\nM400 ; wait all motion done before implement the emprical L parameters\n;M900 L500.0 ; Empirical parameters\nM109 S[nozzle_temperature_initial_layer]\nM960 S1 P0 ; turn off laser\nM960 S2 P0 ; turn off laser\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan \nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\nG90 \nM83\nT1000\nG1 E{-retraction_length[initial_no_support_extruder]} F1800\nG1 X128.0 Y253.0 Z0.2 F24000.0;Move to start position\nG1 E{retraction_length[initial_no_support_extruder]} F1800\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\nG0 X253 E6.4 F{outer_wall_volumetric_speed/(0.3*0.6) * 60} \nG0 Y128 E6.4\nG0 X252.5\nG0 Y252.5 E6.4\nG0 X128 E6.4", "scan_first_layer": "1", "machine_load_filament_time": "29", "machine_unload_filament_time": "28", diff --git a/resources/profiles/BBL/machine/Bambu Lab X1 0.6 nozzle.json b/resources/profiles/BBL/machine/Bambu Lab X1 0.6 nozzle.json index bfc3bfa467..3aaebcd2c2 100644 --- a/resources/profiles/BBL/machine/Bambu Lab X1 0.6 nozzle.json +++ b/resources/profiles/BBL/machine/Bambu Lab X1 0.6 nozzle.json @@ -26,7 +26,7 @@ "retraction_minimum_travel": [ "3" ], - "machine_start_gcode": ";===== machine: X1 =========================\n;===== date: 20230322 =====================\n;===== turn on the HB fan =================\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp to turn on the HB fan\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG0 Z12 F300 ; lower the hotbed , to prevent the nozzle is below the hotbed\nG0 Z-6;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n{if scan_first_layer}\n;=========register first layer scan=====\nM977 S1 P60\n{endif}\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_no_support_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_no_support_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_no_support_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_no_support_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_no_support_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X128 Y128\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n;===== check scanner clarity ===========================\nG1 X128 Y128 F24000\nG28 Z P0\nM972 S5 P0\nG1 X230 Y15 F24000\n;===== check scanner clarity end =======================\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\nM104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== mech mode fast check============================\n\n{if scan_first_layer}\n;start heatbed scan====================================\nM976 S2 P1\nG90\nG1 X128 Y128 F20000\nM976 S3 P2 ;register void printing detection\n{endif}\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature[initial_no_support_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E25 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y15 E1.166 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E1.166\nG0 X18 E25 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n\n;===== draw extrinsic para cali paint =================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M1002 gcode_claim_action : 8\n\n T1000\n G0 F3000 X28.000 Y19.500 Z0.200\n G1 F1200.0 X28.000 Y45.000 Z0.200 E1.679\n G1 F1200.0 X28.500 Y45.000 Z0.200 E0.032\n G1 F1200.0 X28.500 Y19.500 Z0.200 E1.679\n G1 F1200.0 X31.000 Y19.500 Z0.200 E0.164\n G1 F1200.0 X31.000 Y49.000 Z0.200 E1.944\n G1 F1200.0 X37.500 Y49.000 Z0.200 E0.428\n G1 F1200.0 X37.500 Y60.000 Z0.200 E0.725\n G1 F1200.0 X42.500 Y60.000 Z0.200 E0.329\n G1 F1200.0 X42.500 Y49.000 Z0.200 E0.725\n G1 F1200.0 X48.000 Y49.000 Z0.200 E0.362\n G1 F1200.0 X48.000 Y20.000 Z0.200 E1.910\n G1 F1200.0 X30.000 Y20.000 Z0.200 E1.186\n G1 F1200.0 X30.000 Y41.000 Z0.200 E1.384\n G1 F1200.0 X50.000 Y41.000 Z0.200 E1.318\n G1 F1200.0 X50.000 Y34.000 Z0.200 E0.461\n G1 F1200.0 X30.000 Y34.000 Z0.200 E1.318\n G1 F1500.000 E-0.800\n\n ;=========== extruder cali extrusion ==================\n T1000\n M83\n {if default_acceleration > 0}\n {if outer_wall_acceleration > 0}\n M204 S[outer_wall_acceleration]\n {else}\n M204 S[default_acceleration]\n {endif}\n {endif}\n G0 X35.000 Y18.000 Z0.300 F30000 E0\n G1 F1500.000 E0.800\n M106 S0 ; turn off fan\n G0 X185.000 E16.9 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G0 X187 Z0\n G1 F1500.000 E-0.800\n G0 Z1\n G0 X180 Z0.3 F18000\n\n M900 L1000.0 M1.0\n M900 K0.030\n G0 X45.000 F30000\n G0 Y20.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.25000 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X70.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X75.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X80.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X85.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X90.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X95.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X100.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X105.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X110.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X115.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X120.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X125.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X130.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X135.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X140.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X145.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X150.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X155.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X160.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X165.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X170.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X175.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X180.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.015\n G0 X45.000 F30000\n G0 Y22.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.25000 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X70.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X75.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X80.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X85.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X90.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X95.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X100.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X105.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X110.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X115.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X120.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X125.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X130.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X135.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X140.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X145.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X150.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X155.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X160.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X165.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X170.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X175.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X180.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.000\n G0 X45.000 F30000\n G0 Y24.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.25000 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X70.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X75.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X80.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X85.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X90.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X95.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X100.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X105.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X110.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X115.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X120.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X125.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X130.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X135.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X140.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X145.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X150.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X155.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X160.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X165.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X170.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X175.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X180.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n\n G0 X45.000 F30000 ; move to start point\n\nM623 ; end of \"draw extrinsic para cali paint\"\n\nM104 S140\n\n\n;=========== laser and rgb calibration ===========\nM400\nM18 E\nM500 R\n\nM973 S3 P14\n\nG1 X120 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nT1100\nG1 X235.0 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nM400 P100\nM960 S1 P1\nM400 P100\nM973 S6 P0; use auto exposure for horizontal laser by xcam\nM960 S0 P0\n\nG1 X240.0 Y6.0 Z0.3 F18000.0;Move to vertical extrude line pos\nM960 S2 P1\nM400 P100\nM973 S6 P1; use auto exposure for vertical laser by xcam\nM960 S0 P0\n\n;=========== handeye calibration ======================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M973 S3 P1 ; camera start stream\n M400 P500\n M973 S1\n G0 F6000 X40.000 Y54.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P16000\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P1\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P2\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P500\n M971 S5 P4\n M963 S1\n M400 P1500\n M964\n T1100\n G0 F6000 X40.000 Y54.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P16000\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P1\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P2\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P500\n M971 S5 P4\n M963 S1\n M400 P1500\n M964\n T1100\n G1 Z3 F3000\n\n M400\n M500 ; save cali data\n\n M104 S{nozzle_temperature[initial_no_support_extruder]} ; rise nozzle temp now ,to reduce temp waiting time.\n\n T1100\n M400 P400\n M960 S0 P0\n G0 F30000.000 Y22.000 X65.000 Z0.000\n M400 P400\n M960 S1 P1\n M400 P50\n\n M969 S1 N3 A2000\n G0 F360.000 X181.000 Z0.000\n M980.3 A70.000 B{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60/4} C5.000 D{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60} E5.000 F175.000 H1.000 I0.000 J0.015 K0.030\n M400 P100\n G0 F20000\n G0 Z1 ; rise nozzle up\n T1000 ; change to nozzle space\n G0 X45.000 Y16.000 F30000 ; move to test line pos\n M969 S0 ; turn off scanning\n M960 S0 P0\n\n\n G1 Z2 F20000\n T1000\n G0 X45.000 Y16.000 F30000 E0\n M109 S{nozzle_temperature[initial_no_support_extruder]}\n G0 Z0.3\n G1 F1500.000 E3.600\n G1 X65.000 E2.25000 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n\n ; see if extrude cali success, if not ,use default value\n M1002 judge_last_extrude_cali_success\n M622 J0\n M400\n M900 K0.015 M{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*0.015}\n M623\n\n G1 X140.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X185.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X190.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X195.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X200.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X205.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X210.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X215.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X220.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X225.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n M973 S4\n\nM623\n\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM973 S4 ; turn off scanner\nM400 ; wait all motion done before implement the emprical L parameters\n;M900 L500.0 ; Empirical parameters\nM109 S[nozzle_temperature_initial_layer]\nM960 S1 P0 ; turn off laser\nM960 S2 P0 ; turn off laser\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\nG90\nM83\nT1000\nG1 E{-retraction_length[initial_no_support_extruder]} F1800\nG1 X128.0 Y253.0 Z0.2 F24000.0;Move to start position\nG1 E{retraction_length[initial_no_support_extruder]} F1800\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\nG0 X253 E6.4 F{outer_wall_volumetric_speed/(0.3*0.6) * 60}\nG0 Y128 E6.4\nG0 X252.5\nG0 Y252.5 E6.4\nG0 X128 E6.4", + "machine_start_gcode": ";===== machine: X1 =========================\n;===== date: 20230425 =====================\n;===== turn on the HB fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG0 Z12 F300 ; lower the hotbed , to prevent the nozzle is below the hotbed\nG0 Z-6;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n{if scan_first_layer}\n;=========register first layer scan=====\nM977 S1 P60\n{endif}\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_no_support_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_no_support_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_no_support_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_no_support_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_no_support_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X128 Y128\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n;===== check scanner clarity ===========================\nG1 X128 Y128 F24000\nG28 Z P0\nM972 S5 P0\nG1 X230 Y15 F24000\n;===== check scanner clarity end =======================\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\nM104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== mech mode fast check============================\n\n{if scan_first_layer}\n;start heatbed scan====================================\nM976 S2 P1\nG90\nG1 X128 Y128 F20000\nM976 S3 P2 ;register void printing detection\n{endif}\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature[initial_no_support_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E25 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y15 E1.166 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E1.166\nG0 X18 E25 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n\n;===== draw extrinsic para cali paint =================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M1002 gcode_claim_action : 8\n\n T1000\n G0 F3000 X28.000 Y19.500 Z0.200\n G1 F1200.0 X28.000 Y45.000 Z0.200 E1.679\n G1 F1200.0 X28.500 Y45.000 Z0.200 E0.032\n G1 F1200.0 X28.500 Y19.500 Z0.200 E1.679\n G1 F1200.0 X31.000 Y19.500 Z0.200 E0.164\n G1 F1200.0 X31.000 Y49.000 Z0.200 E1.944\n G1 F1200.0 X37.500 Y49.000 Z0.200 E0.428\n G1 F1200.0 X37.500 Y60.000 Z0.200 E0.725\n G1 F1200.0 X42.500 Y60.000 Z0.200 E0.329\n G1 F1200.0 X42.500 Y49.000 Z0.200 E0.725\n G1 F1200.0 X48.000 Y49.000 Z0.200 E0.362\n G1 F1200.0 X48.000 Y20.000 Z0.200 E1.910\n G1 F1200.0 X30.000 Y20.000 Z0.200 E1.186\n G1 F1200.0 X30.000 Y41.000 Z0.200 E1.384\n G1 F1200.0 X50.000 Y41.000 Z0.200 E1.318\n G1 F1200.0 X50.000 Y34.000 Z0.200 E0.461\n G1 F1200.0 X30.000 Y34.000 Z0.200 E1.318\n G1 F1500.000 E-0.800\n\n ;=========== extruder cali extrusion ==================\n T1000\n M83\n {if default_acceleration > 0}\n {if outer_wall_acceleration > 0}\n M204 S[outer_wall_acceleration]\n {else}\n M204 S[default_acceleration]\n {endif}\n {endif}\n G0 X35.000 Y18.000 Z0.300 F30000 E0\n G1 F1500.000 E0.800\n M106 S0 ; turn off fan\n G0 X185.000 E16.9 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G0 X187 Z0\n G1 F1500.000 E-0.800\n G0 Z1\n G0 X180 Z0.3 F18000\n\n M900 L1000.0 M1.0\n M900 K0.030\n G0 X45.000 F30000\n G0 Y20.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.25000 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X70.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X75.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X80.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X85.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X90.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X95.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X100.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X105.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X110.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X115.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X120.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X125.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X130.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X135.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X140.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X145.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X150.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X155.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X160.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X165.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X170.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X175.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X180.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.015\n G0 X45.000 F30000\n G0 Y22.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.25000 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X70.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X75.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X80.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X85.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X90.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X95.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X100.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X105.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X110.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X115.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X120.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X125.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X130.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X135.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X140.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X145.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X150.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X155.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X160.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X165.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X170.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X175.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X180.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.000\n G0 X45.000 F30000\n G0 Y24.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.25000 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X70.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X75.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X80.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X85.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X90.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X95.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X100.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X105.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X110.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X115.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X120.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X125.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X130.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X135.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X140.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X145.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X150.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X155.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X160.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X165.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X170.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X175.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X180.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n\n G0 X45.000 F30000 ; move to start point\n\nM623 ; end of \"draw extrinsic para cali paint\"\n\nM104 S140\n\n\n;=========== laser and rgb calibration ===========\nM400\nM18 E\nM500 R\n\nM973 S3 P14\n\nG1 X120 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nT1100\nG1 X235.0 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nM400 P100\nM960 S1 P1\nM400 P100\nM973 S6 P0; use auto exposure for horizontal laser by xcam\nM960 S0 P0\n\nG1 X240.0 Y6.0 Z0.3 F18000.0;Move to vertical extrude line pos\nM960 S2 P1\nM400 P100\nM973 S6 P1; use auto exposure for vertical laser by xcam\nM960 S0 P0\n\n;=========== handeye calibration ======================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M973 S3 P1 ; camera start stream\n M400 P500\n M973 S1\n G0 F6000 X40.000 Y54.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P16000\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P1\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P2\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P500\n M971 S5 P4\n M963 S1\n M400 P1500\n M964\n T1100\n G0 F6000 X40.000 Y54.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P16000\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P1\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P2\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P500\n M971 S5 P4\n M963 S1\n M400 P1500\n M964\n T1100\n G1 Z3 F3000\n\n M400\n M500 ; save cali data\n\n M104 S{nozzle_temperature[initial_no_support_extruder]} ; rise nozzle temp now ,to reduce temp waiting time.\n\n T1100\n M400 P400\n M960 S0 P0\n G0 F30000.000 Y22.000 X65.000 Z0.000\n M400 P400\n M960 S1 P1\n M400 P50\n\n M969 S1 N3 A2000\n G0 F360.000 X181.000 Z0.000\n M980.3 A70.000 B{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60/4} C5.000 D{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60} E5.000 F175.000 H1.000 I0.000 J0.015 K0.030\n M400 P100\n G0 F20000\n G0 Z1 ; rise nozzle up\n T1000 ; change to nozzle space\n G0 X45.000 Y16.000 F30000 ; move to test line pos\n M969 S0 ; turn off scanning\n M960 S0 P0\n\n\n G1 Z2 F20000\n T1000\n G0 X45.000 Y16.000 F30000 E0\n M109 S{nozzle_temperature[initial_no_support_extruder]}\n G0 Z0.3\n G1 F1500.000 E3.600\n G1 X65.000 E2.25000 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n\n ; see if extrude cali success, if not ,use default value\n M1002 judge_last_extrude_cali_success\n M622 J0\n M400\n M900 K0.015 M{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*0.015}\n M623\n\n G1 X140.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X185.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X190.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X195.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X200.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X205.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X210.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X215.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X220.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X225.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n M973 S4\n\nM623\n\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM973 S4 ; turn off scanner\nM400 ; wait all motion done before implement the emprical L parameters\n;M900 L500.0 ; Empirical parameters\nM109 S[nozzle_temperature_initial_layer]\nM960 S1 P0 ; turn off laser\nM960 S2 P0 ; turn off laser\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\nG90\nM83\nT1000\nG1 E{-retraction_length[initial_no_support_extruder]} F1800\nG1 X128.0 Y253.0 Z0.2 F24000.0;Move to start position\nG1 E{retraction_length[initial_no_support_extruder]} F1800\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\nG0 X253 E6.4 F{outer_wall_volumetric_speed/(0.3*0.6) * 60}\nG0 Y128 E6.4\nG0 X252.5\nG0 Y252.5 E6.4\nG0 X128 E6.4", "nozzle_type": "hardened_steel", "nozzle_hrc": "55", "upward_compatible_machine":[ diff --git a/resources/profiles/BBL/machine/Bambu Lab X1 0.8 nozzle.json b/resources/profiles/BBL/machine/Bambu Lab X1 0.8 nozzle.json index b11a5b9313..1c4225d3ee 100644 --- a/resources/profiles/BBL/machine/Bambu Lab X1 0.8 nozzle.json +++ b/resources/profiles/BBL/machine/Bambu Lab X1 0.8 nozzle.json @@ -29,7 +29,7 @@ "retract_length_toolchange": [ "3" ], - "machine_start_gcode": ";===== machine: X1 =========================\n;===== date: 20230322 =====================\n;===== turn on the HB fan =================\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp to turn on the HB fan\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG0 Z12 F300 ; lower the hotbed , to prevent the nozzle is below the hotbed\nG0 Z-6;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{0.0} ; clear z-trim value first\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n{if scan_first_layer}\n;=========register first layer scan=====\nM977 S1 P60\n{endif}\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_no_support_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_no_support_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_no_support_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_no_support_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_no_support_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X128 Y128\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n;===== check scanner clarity ===========================\nG1 X128 Y128 F24000\nG28 Z P0\nM972 S5 P0\nG1 X230 Y15 F24000\n;===== check scanner clarity end =======================\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\nM104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== mech mode fast check============================\n\n{if scan_first_layer}\n;start heatbed scan====================================\nM976 S2 P1\nG90\nG1 X128 Y128 F20000\nM976 S3 P2 ;register void printing detection\n{endif}\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y0.5 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature[initial_no_support_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X129 E15 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\nG0 X240 E15\nG0 Y15 E1.500 F{outer_wall_volumetric_speed/(0.3*1.0)/ 4 * 60}\nG0 X239.5\nG0 E0.3\nG0 Y1.5 E1.500\nG0 X129 E15 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\nG0 X18 E15\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n\n;===== draw extrinsic para cali paint =================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M1002 gcode_claim_action : 8\n\n T1000\n G0 F3000 X28.000 Y19.500 Z0.200\n G1 F1200.0 X28.000 Y45.000 Z0.200 E1.8660\n G1 F1200.0 X28.500 Y45.000 Z0.200 E0.0360\n G1 F1200.0 X28.500 Y19.500 Z0.200 E1.8660\n G1 F1200.0 X31.000 Y19.500 Z0.200 E0.1820\n G1 F1200.0 X31.000 Y49.000 Z0.200 E2.1600\n G1 F1200.0 X37.500 Y49.000 Z0.200 E0.4760\n G1 F1200.0 X37.500 Y60.000 Z0.200 E0.8060\n G1 F1200.0 X42.500 Y60.000 Z0.200 E0.3660\n G1 F1200.0 X42.500 Y49.000 Z0.200 E0.8060\n G1 F1200.0 X48.000 Y49.000 Z0.200 E0.4020\n G1 F1200.0 X48.000 Y20.000 Z0.200 E2.1220\n G1 F1200.0 X30.000 Y20.000 Z0.200 E1.3180\n G1 F1200.0 X30.000 Y41.000 Z0.200 E1.5380\n G1 F1200.0 X50.000 Y41.000 Z0.200 E1.4640\n G1 F1200.0 X50.000 Y34.000 Z0.200 E0.5120\n G1 F1200.0 X30.000 Y34.000 Z0.200 E1.4640\n G1 F1500.000 E-0.800\n\n ;=========== extruder cali extrusion ==================\n T1000\n M83\n {if default_acceleration > 0}\n {if outer_wall_acceleration > 0}\n M204 S[outer_wall_acceleration]\n {else}\n M204 S[default_acceleration]\n {endif}\n {endif}\n G0 X35.000 Y18.000 Z0.300 F30000 E0\n G1 F1500.000 E0.800\n M106 S0 ; turn off fan\n G0 X110.000 E9.35441 F4800\n G0 X185.000 E9.35441 F4800\n G0 X187 Z0\n G1 F1500.000 E-0.800\n G0 Z1\n G0 X180 Z0.3 F18000\n\n M900 L1000.0 M1.0\n M900 K0.020\n G0 X45.000 F30000\n G0 Y20.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.4945 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X70.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X75.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X80.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X85.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X90.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X95.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X100.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X105.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X110.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X115.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X120.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X125.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X130.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X135.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X140.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X145.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X150.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X155.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X160.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X165.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X170.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X175.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X180.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.010\n G0 X45.000 F30000\n G0 Y22.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.4945 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X70.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X75.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X80.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X85.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X90.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X95.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X100.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X105.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X110.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X115.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X120.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X125.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X130.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X135.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X140.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X145.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X150.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X155.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X160.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X165.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X170.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X175.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X180.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.000\n G0 X45.000 F30000\n G0 Y24.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.4945 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X70.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X75.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X80.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X85.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X90.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X95.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X100.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X105.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X110.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X115.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X120.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X125.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X130.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X135.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X140.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X145.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X150.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X155.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X160.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X165.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X170.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X175.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X180.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n\n G0 X45.000 F30000 ; move to start point\n\nM623 ; end of \"draw extrinsic para cali paint\"\n\nM104 S140\n\n\n;=========== laser and rgb calibration ===========\nM400\nM18 E\nM500 R\n\nM973 S3 P14\n\nG1 X120 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nT1100\nG1 X235.0 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nM400 P100\nM960 S1 P1\nM400 P100\nM973 S6 P0; use auto exposure for horizontal laser by xcam\nM960 S0 P0\n\nG1 X240.0 Y6.0 Z0.3 F18000.0;Move to vertical extrude line pos\nM960 S2 P1\nM400 P100\nM973 S6 P1; use auto exposure for vertical laser by xcam\nM960 S0 P0\n\n;=========== handeye calibration ======================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M973 S3 P1 ; camera start stream\n M400 P500\n M973 S1\n G0 F6000 X40.000 Y54.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P16000\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P1\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P2\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P500\n M971 S5 P4\n M963 S1\n M400 P1500\n M964\n T1100\n G0 F6000 X40.000 Y54.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P16000\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P1\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P2\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P500\n M971 S5 P4\n M963 S1\n M400 P1500\n M964\n T1100\n G1 Z3 F3000\n\n M400\n M500 ; save cali data\n\n M104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; rise nozzle temp now ,to reduce temp waiting time.\n\n T1100\n M400 P400\n M960 S0 P0\n G0 F30000.000 Y22.000 X65.000 Z0.000\n M400 P400\n M960 S1 P1\n M400 P50\n\n M969 S1 N3 A2000\n G0 F360.000 X181.000 Z0.000\n M980.3 A70.000 B{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60/4} C5.000 D{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60} E5.000 F175.000 H1.000 I0.000 J0.010 K0.020\n M400 P100\n G0 F20000\n G0 Z1 ; rise nozzle up\n T1000 ; change to nozzle space\n G0 X45.000 Y16.000 F30000 ; move to test line pos\n M969 S0 ; turn off scanning\n M960 S0 P0\n\n\n G1 Z2 F20000\n T1000\n G0 X45.000 Y16.000 F30000 E0\n M109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\n G0 Z0.3\n G1 F1500.000 E3.600\n G1 X65.000 E2.4945 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X70.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X75.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X80.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X85.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X90.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X95.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X100.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X105.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X110.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X115.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X120.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X125.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X130.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X135.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n\n ; see if extrude cali success, if not ,use default value\n M1002 judge_last_extrude_cali_success\n M622 J0\n M400\n M900 K0.01 M{outer_wall_volumetric_speed/(1.75*1.75/4*3.14) *0.01}\n M623\n\n G1 X140.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X145.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X150.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X155.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X160.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X165.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X170.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X175.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X180.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X185.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X190.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X195.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X200.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X205.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X210.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X215.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X220.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X225.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n M973 S4\n\nM623\n\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM973 S4 ; turn off scanner\nM400 ; wait all motion done before implement the emprical L parameters\n;M900 L500.0 ; Empirical parameters\nM109 S[nozzle_temperature_initial_layer]\nM960 S1 P0 ; turn off laser\nM960 S2 P0 ; turn off laser\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\nG90\nM83\nT1000\nG1 E{-retraction_length[initial_no_support_extruder]} F1800\nG1 X128.0 Y253.0 Z0.2 F24000.0;Move to start position\nG1 E{retraction_length[initial_no_support_extruder]} F1800\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\nG0 X253 E6.4 F{outer_wall_volumetric_speed/(0.3*0.6) * 60}\nG0 Y128 E6.4\nG0 X252.5\nG0 Y252.5 E6.4\nG0 X128 E6.4", + "machine_start_gcode": ";===== machine: X1 =========================\n;===== date: 20230425 =====================\n;===== turn on the HB fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG0 Z12 F300 ; lower the hotbed , to prevent the nozzle is below the hotbed\nG0 Z-6;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{0.0} ; clear z-trim value first\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n{if scan_first_layer}\n;=========register first layer scan=====\nM977 S1 P60\n{endif}\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_no_support_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_no_support_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_no_support_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_no_support_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_no_support_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X128 Y128\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n;===== check scanner clarity ===========================\nG1 X128 Y128 F24000\nG28 Z P0\nM972 S5 P0\nG1 X230 Y15 F24000\n;===== check scanner clarity end =======================\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\nM104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== mech mode fast check============================\n\n{if scan_first_layer}\n;start heatbed scan====================================\nM976 S2 P1\nG90\nG1 X128 Y128 F20000\nM976 S3 P2 ;register void printing detection\n{endif}\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y0.5 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature[initial_no_support_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X129 E15 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\nG0 X240 E15\nG0 Y15 E1.500 F{outer_wall_volumetric_speed/(0.3*1.0)/ 4 * 60}\nG0 X239.5\nG0 E0.3\nG0 Y1.5 E1.500\nG0 X129 E15 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\nG0 X18 E15\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n\n;===== draw extrinsic para cali paint =================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M1002 gcode_claim_action : 8\n\n T1000\n G0 F3000 X28.000 Y19.500 Z0.200\n G1 F1200.0 X28.000 Y45.000 Z0.200 E1.8660\n G1 F1200.0 X28.500 Y45.000 Z0.200 E0.0360\n G1 F1200.0 X28.500 Y19.500 Z0.200 E1.8660\n G1 F1200.0 X31.000 Y19.500 Z0.200 E0.1820\n G1 F1200.0 X31.000 Y49.000 Z0.200 E2.1600\n G1 F1200.0 X37.500 Y49.000 Z0.200 E0.4760\n G1 F1200.0 X37.500 Y60.000 Z0.200 E0.8060\n G1 F1200.0 X42.500 Y60.000 Z0.200 E0.3660\n G1 F1200.0 X42.500 Y49.000 Z0.200 E0.8060\n G1 F1200.0 X48.000 Y49.000 Z0.200 E0.4020\n G1 F1200.0 X48.000 Y20.000 Z0.200 E2.1220\n G1 F1200.0 X30.000 Y20.000 Z0.200 E1.3180\n G1 F1200.0 X30.000 Y41.000 Z0.200 E1.5380\n G1 F1200.0 X50.000 Y41.000 Z0.200 E1.4640\n G1 F1200.0 X50.000 Y34.000 Z0.200 E0.5120\n G1 F1200.0 X30.000 Y34.000 Z0.200 E1.4640\n G1 F1500.000 E-0.800\n\n ;=========== extruder cali extrusion ==================\n T1000\n M83\n {if default_acceleration > 0}\n {if outer_wall_acceleration > 0}\n M204 S[outer_wall_acceleration]\n {else}\n M204 S[default_acceleration]\n {endif}\n {endif}\n G0 X35.000 Y18.000 Z0.300 F30000 E0\n G1 F1500.000 E0.800\n M106 S0 ; turn off fan\n G0 X110.000 E9.35441 F4800\n G0 X185.000 E9.35441 F4800\n G0 X187 Z0\n G1 F1500.000 E-0.800\n G0 Z1\n G0 X180 Z0.3 F18000\n\n M900 L1000.0 M1.0\n M900 K0.020\n G0 X45.000 F30000\n G0 Y20.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.4945 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X70.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X75.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X80.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X85.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X90.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X95.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X100.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X105.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X110.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X115.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X120.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X125.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X130.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X135.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X140.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X145.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X150.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X155.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X160.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X165.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X170.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X175.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X180.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.010\n G0 X45.000 F30000\n G0 Y22.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.4945 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X70.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X75.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X80.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X85.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X90.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X95.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X100.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X105.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X110.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X115.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X120.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X125.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X130.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X135.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X140.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X145.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X150.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X155.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X160.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X165.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X170.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X175.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X180.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.000\n G0 X45.000 F30000\n G0 Y24.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.4945 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X70.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X75.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X80.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X85.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X90.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X95.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X100.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X105.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X110.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X115.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X120.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X125.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X130.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X135.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X140.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X145.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X150.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X155.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X160.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X165.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X170.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X175.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X180.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n\n G0 X45.000 F30000 ; move to start point\n\nM623 ; end of \"draw extrinsic para cali paint\"\n\nM104 S140\n\n\n;=========== laser and rgb calibration ===========\nM400\nM18 E\nM500 R\n\nM973 S3 P14\n\nG1 X120 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nT1100\nG1 X235.0 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nM400 P100\nM960 S1 P1\nM400 P100\nM973 S6 P0; use auto exposure for horizontal laser by xcam\nM960 S0 P0\n\nG1 X240.0 Y6.0 Z0.3 F18000.0;Move to vertical extrude line pos\nM960 S2 P1\nM400 P100\nM973 S6 P1; use auto exposure for vertical laser by xcam\nM960 S0 P0\n\n;=========== handeye calibration ======================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M973 S3 P1 ; camera start stream\n M400 P500\n M973 S1\n G0 F6000 X40.000 Y54.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P16000\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P1\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P2\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P500\n M971 S5 P4\n M963 S1\n M400 P1500\n M964\n T1100\n G0 F6000 X40.000 Y54.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P16000\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P1\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P2\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P500\n M971 S5 P4\n M963 S1\n M400 P1500\n M964\n T1100\n G1 Z3 F3000\n\n M400\n M500 ; save cali data\n\n M104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; rise nozzle temp now ,to reduce temp waiting time.\n\n T1100\n M400 P400\n M960 S0 P0\n G0 F30000.000 Y22.000 X65.000 Z0.000\n M400 P400\n M960 S1 P1\n M400 P50\n\n M969 S1 N3 A2000\n G0 F360.000 X181.000 Z0.000\n M980.3 A70.000 B{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60/4} C5.000 D{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60} E5.000 F175.000 H1.000 I0.000 J0.010 K0.020\n M400 P100\n G0 F20000\n G0 Z1 ; rise nozzle up\n T1000 ; change to nozzle space\n G0 X45.000 Y16.000 F30000 ; move to test line pos\n M969 S0 ; turn off scanning\n M960 S0 P0\n\n\n G1 Z2 F20000\n T1000\n G0 X45.000 Y16.000 F30000 E0\n M109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\n G0 Z0.3\n G1 F1500.000 E3.600\n G1 X65.000 E2.4945 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X70.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X75.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X80.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X85.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X90.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X95.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X100.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X105.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X110.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X115.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X120.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X125.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X130.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X135.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n\n ; see if extrude cali success, if not ,use default value\n M1002 judge_last_extrude_cali_success\n M622 J0\n M400\n M900 K0.01 M{outer_wall_volumetric_speed/(1.75*1.75/4*3.14) *0.01}\n M623\n\n G1 X140.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X145.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X150.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X155.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X160.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X165.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X170.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X175.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X180.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X185.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X190.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X195.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X200.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X205.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X210.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X215.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X220.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X225.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n M973 S4\n\nM623\n\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM973 S4 ; turn off scanner\nM400 ; wait all motion done before implement the emprical L parameters\n;M900 L500.0 ; Empirical parameters\nM109 S[nozzle_temperature_initial_layer]\nM960 S1 P0 ; turn off laser\nM960 S2 P0 ; turn off laser\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\nG90\nM83\nT1000\nG1 E{-retraction_length[initial_no_support_extruder]} F1800\nG1 X128.0 Y253.0 Z0.2 F24000.0;Move to start position\nG1 E{retraction_length[initial_no_support_extruder]} F1800\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\nG0 X253 E6.4 F{outer_wall_volumetric_speed/(0.3*0.6) * 60}\nG0 Y128 E6.4\nG0 X252.5\nG0 Y252.5 E6.4\nG0 X128 E6.4", "nozzle_type": "hardened_steel", "nozzle_hrc": "55", "upward_compatible_machine":[ diff --git a/resources/profiles/BBL/machine/Bambu Lab X1 Carbon 0.2 nozzle.json b/resources/profiles/BBL/machine/Bambu Lab X1 Carbon 0.2 nozzle.json index fd99ccab49..f34ba14f2e 100644 --- a/resources/profiles/BBL/machine/Bambu Lab X1 Carbon 0.2 nozzle.json +++ b/resources/profiles/BBL/machine/Bambu Lab X1 Carbon 0.2 nozzle.json @@ -26,7 +26,7 @@ "retraction_minimum_travel": [ "5" ], - "machine_start_gcode": ";===== machine: X1 =========================\n;===== date: 20230322 =====================\n;===== turn on the HB fan =================\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp to turn on the HB fan\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG0 Z12 F300 ; lower the hotbed , to prevent the nozzle is below the hotbed\nG0 Z-6;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n{if scan_first_layer}\n;=========register first layer scan=====\nM977 S1 P60\n{endif}\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_no_support_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_no_support_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_no_support_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_no_support_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_no_support_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X128 Y128\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n;===== check scanner clarity ===========================\nG1 X128 Y128 F24000\nG28 Z P0\nM972 S5 P0\nG1 X230 Y15 F24000\n;===== check scanner clarity end =======================\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\nM104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== mech mode fast check============================\n\n{if scan_first_layer}\n;start heatbed scan====================================\nM976 S2 P1\nG90\nG1 X128 Y128 F20000\nM976 S3 P2 ;register void printing detection\n{endif}\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature[initial_no_support_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y11 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E0.700\nG0 X18 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n\n;===== draw extrinsic para cali paint =================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M1002 gcode_claim_action : 8\n\n T1000\n G0 F3000 X28.000 Y19.500 Z0.200\n G1 F1200.0 X28.000 Y45.000 Z0.200 E0.933\n G1 F1200.0 X28.500 Y45.000 Z0.200 E0.018\n G1 F1200.0 X28.500 Y19.500 Z0.200 E0.933\n G1 F1200.0 X31.000 Y19.500 Z0.200 E0.091\n G1 F1200.0 X31.000 Y49.000 Z0.200 E1.080\n G1 F1200.0 X37.500 Y49.000 Z0.200 E0.238\n G1 F1200.0 X37.500 Y60.000 Z0.200 E0.403\n G1 F1200.0 X42.500 Y60.000 Z0.200 E0.183\n G1 F1200.0 X42.500 Y49.000 Z0.200 E0.403\n G1 F1200.0 X48.000 Y49.000 Z0.200 E0.201\n G1 F1200.0 X48.000 Y20.000 Z0.200 E1.061\n G1 F1200.0 X30.000 Y20.000 Z0.200 E0.659\n G1 F1200.0 X30.000 Y41.000 Z0.200 E0.769\n G1 F1200.0 X50.000 Y41.000 Z0.200 E0.732\n G1 F1200.0 X50.000 Y34.000 Z0.200 E0.256\n G1 F1200.0 X30.000 Y34.000 Z0.200 E0.732\n G1 F1500.000 E-0.800\n\n ;=========== extruder cali extrusion ==================\n T1000\n M83\n\t{if default_acceleration > 0}\n {if outer_wall_acceleration > 0}\n M204 S[outer_wall_acceleration]\n {else}\n M204 S[default_acceleration]\n {endif}\n {endif}\n G0 X35.000 Y18.000 Z0.300 F30000 E0\n G1 F1500.000 E0.800\n M106 S0 ; turn off fan\n G0 X185.000 E9.35441 F4800\n G0 X187 Z0\n G1 F1500.000 E-0.800\n G0 Z1\n G0 X180 Z0.3 F18000\n\n M900 L1000.0 M1.0\n M900 K0.160\n G0 X45.000 F30000\n G0 Y20.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.080\n G0 X45.000 F30000\n G0 Y22.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.000\n G0 X45.000 F30000\n G0 Y24.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n\n G0 X45.000 F30000 ; move to start point\n\nM623 ; end of \"draw extrinsic para cali paint\"\n\nM104 S140\n\n\n;=========== laser and rgb calibration ===========\nM400\nM18 E\nM500 R\n\nM973 S3 P14\n\nG1 X120 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nT1100\nG1 X235.0 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nM400 P100\nM960 S1 P1\nM400 P100\nM973 S6 P0; use auto exposure for horizontal laser by xcam\nM960 S0 P0\n\nG1 X240.0 Y6.0 Z0.3 F18000.0;Move to vertical extrude line pos\nM960 S2 P1\nM400 P100\nM973 S6 P1; use auto exposure for vertical laser by xcam\nM960 S0 P0\n\n;=========== handeye calibration ======================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M973 S3 P1 ; camera start stream\n M400 P500\n M973 S1\n G0 F6000 X40.000 Y54.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P16000\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P1\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P2\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P500\n M971 S5 P4\n M963 S1\n M400 P1500\n M964\n T1100\n G0 F6000 X40.000 Y54.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P16000\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P1\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P2\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P500\n M971 S5 P4\n M963 S1\n M400 P1500\n M964\n T1100\n G1 Z3 F3000\n\n M400\n M500 ; save cali data\n\n M104 S{nozzle_temperature[initial_no_support_extruder]} ; rise nozzle temp now ,to reduce temp waiting time.\n\n T1100\n M400 P400\n M960 S0 P0\n G0 F30000.000 Y22.000 X65.000 Z0.000\n M400 P400\n M960 S1 P1\n M400 P50\n\n M969 S1 N3 A2000\n G0 F360.000 X181.000 Z0.000\n M980.3 A70.000 B{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60/4} C5.000 D{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60} E5.000 F175.000 H1.000 I0.000 J0.080 K0.160\n M400 P100\n G0 F20000\n G0 Z1 ; rise nozzle up\n T1000 ; change to nozzle space\n G0 X45.000 Y16.000 F30000 ; move to test line pos\n M969 S0 ; turn off scanning\n M960 S0 P0\n\n\n G1 Z2 F20000\n T1000\n G0 X45.000 Y16.000 F30000 E0\n M109 S{nozzle_temperature[initial_no_support_extruder]}\n G0 Z0.3\n G1 F1500.000 E3.600\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n\n ; see if extrude cali success, if not ,use default value\n M1002 judge_last_extrude_cali_success\n M622 J0\n M400\n M900 K0.08 M{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*0.08}\n M623\n\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X185.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X190.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X195.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X200.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X205.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X210.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X215.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X220.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X225.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n M973 S4\n\nM623\n\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM973 S4 ; turn off scanner\nM400 ; wait all motion done before implement the emprical L parameters\n;M900 L500.0 ; Empirical parameters\nM109 S[nozzle_temperature_initial_layer]\nM960 S1 P0 ; turn off laser\nM960 S2 P0 ; turn off laser\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\nG90\nM83\nT1000\nG1 E{-retraction_length[initial_no_support_extruder]} F1800\nG1 X128.0 Y253.0 Z0.2 F24000.0;Move to start position\nG1 E{retraction_length[initial_no_support_extruder]} F1800\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\nG0 X253 E6.4 F{outer_wall_volumetric_speed/(0.3*0.6) * 60}\nG0 Y128 E6.4\nG0 X252.5\nG0 Y252.5 E6.4\nG0 X128 E6.4", + "machine_start_gcode": ";===== machine: X1 =========================\n;===== date: 20230425 =====================\n;===== turn on the HB fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG0 Z12 F300 ; lower the hotbed , to prevent the nozzle is below the hotbed\nG0 Z-6;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n{if scan_first_layer}\n;=========register first layer scan=====\nM977 S1 P60\n{endif}\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_no_support_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_no_support_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_no_support_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_no_support_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_no_support_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X128 Y128\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n;===== check scanner clarity ===========================\nG1 X128 Y128 F24000\nG28 Z P0\nM972 S5 P0\nG1 X230 Y15 F24000\n;===== check scanner clarity end =======================\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\nM104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== mech mode fast check============================\n\n{if scan_first_layer}\n;start heatbed scan====================================\nM976 S2 P1\nG90\nG1 X128 Y128 F20000\nM976 S3 P2 ;register void printing detection\n{endif}\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature[initial_no_support_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y11 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E0.700\nG0 X18 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n\n;===== draw extrinsic para cali paint =================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M1002 gcode_claim_action : 8\n\n T1000\n G0 F3000 X28.000 Y19.500 Z0.200\n G1 F1200.0 X28.000 Y45.000 Z0.200 E0.933\n G1 F1200.0 X28.500 Y45.000 Z0.200 E0.018\n G1 F1200.0 X28.500 Y19.500 Z0.200 E0.933\n G1 F1200.0 X31.000 Y19.500 Z0.200 E0.091\n G1 F1200.0 X31.000 Y49.000 Z0.200 E1.080\n G1 F1200.0 X37.500 Y49.000 Z0.200 E0.238\n G1 F1200.0 X37.500 Y60.000 Z0.200 E0.403\n G1 F1200.0 X42.500 Y60.000 Z0.200 E0.183\n G1 F1200.0 X42.500 Y49.000 Z0.200 E0.403\n G1 F1200.0 X48.000 Y49.000 Z0.200 E0.201\n G1 F1200.0 X48.000 Y20.000 Z0.200 E1.061\n G1 F1200.0 X30.000 Y20.000 Z0.200 E0.659\n G1 F1200.0 X30.000 Y41.000 Z0.200 E0.769\n G1 F1200.0 X50.000 Y41.000 Z0.200 E0.732\n G1 F1200.0 X50.000 Y34.000 Z0.200 E0.256\n G1 F1200.0 X30.000 Y34.000 Z0.200 E0.732\n G1 F1500.000 E-0.800\n\n ;=========== extruder cali extrusion ==================\n T1000\n M83\n\t{if default_acceleration > 0}\n {if outer_wall_acceleration > 0}\n M204 S[outer_wall_acceleration]\n {else}\n M204 S[default_acceleration]\n {endif}\n {endif}\n G0 X35.000 Y18.000 Z0.300 F30000 E0\n G1 F1500.000 E0.800\n M106 S0 ; turn off fan\n G0 X185.000 E9.35441 F4800\n G0 X187 Z0\n G1 F1500.000 E-0.800\n G0 Z1\n G0 X180 Z0.3 F18000\n\n M900 L1000.0 M1.0\n M900 K0.160\n G0 X45.000 F30000\n G0 Y20.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.080\n G0 X45.000 F30000\n G0 Y22.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.000\n G0 X45.000 F30000\n G0 Y24.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n\n G0 X45.000 F30000 ; move to start point\n\nM623 ; end of \"draw extrinsic para cali paint\"\n\nM104 S140\n\n\n;=========== laser and rgb calibration ===========\nM400\nM18 E\nM500 R\n\nM973 S3 P14\n\nG1 X120 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nT1100\nG1 X235.0 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nM400 P100\nM960 S1 P1\nM400 P100\nM973 S6 P0; use auto exposure for horizontal laser by xcam\nM960 S0 P0\n\nG1 X240.0 Y6.0 Z0.3 F18000.0;Move to vertical extrude line pos\nM960 S2 P1\nM400 P100\nM973 S6 P1; use auto exposure for vertical laser by xcam\nM960 S0 P0\n\n;=========== handeye calibration ======================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M973 S3 P1 ; camera start stream\n M400 P500\n M973 S1\n G0 F6000 X40.000 Y54.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P16000\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P1\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P2\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P500\n M971 S5 P4\n M963 S1\n M400 P1500\n M964\n T1100\n G0 F6000 X40.000 Y54.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P16000\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P1\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P2\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P500\n M971 S5 P4\n M963 S1\n M400 P1500\n M964\n T1100\n G1 Z3 F3000\n\n M400\n M500 ; save cali data\n\n M104 S{nozzle_temperature[initial_no_support_extruder]} ; rise nozzle temp now ,to reduce temp waiting time.\n\n T1100\n M400 P400\n M960 S0 P0\n G0 F30000.000 Y22.000 X65.000 Z0.000\n M400 P400\n M960 S1 P1\n M400 P50\n\n M969 S1 N3 A2000\n G0 F360.000 X181.000 Z0.000\n M980.3 A70.000 B{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60/4} C5.000 D{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60} E5.000 F175.000 H1.000 I0.000 J0.080 K0.160\n M400 P100\n G0 F20000\n G0 Z1 ; rise nozzle up\n T1000 ; change to nozzle space\n G0 X45.000 Y16.000 F30000 ; move to test line pos\n M969 S0 ; turn off scanning\n M960 S0 P0\n\n\n G1 Z2 F20000\n T1000\n G0 X45.000 Y16.000 F30000 E0\n M109 S{nozzle_temperature[initial_no_support_extruder]}\n G0 Z0.3\n G1 F1500.000 E3.600\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n\n ; see if extrude cali success, if not ,use default value\n M1002 judge_last_extrude_cali_success\n M622 J0\n M400\n M900 K0.08 M{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*0.08}\n M623\n\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X185.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X190.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X195.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X200.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X205.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X210.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X215.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X220.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X225.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n M973 S4\n\nM623\n\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM973 S4 ; turn off scanner\nM400 ; wait all motion done before implement the emprical L parameters\n;M900 L500.0 ; Empirical parameters\nM109 S[nozzle_temperature_initial_layer]\nM960 S1 P0 ; turn off laser\nM960 S2 P0 ; turn off laser\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\nG90\nM83\nT1000\nG1 E{-retraction_length[initial_no_support_extruder]} F1800\nG1 X128.0 Y253.0 Z0.2 F24000.0;Move to start position\nG1 E{retraction_length[initial_no_support_extruder]} F1800\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\nG0 X253 E6.4 F{outer_wall_volumetric_speed/(0.3*0.6) * 60}\nG0 Y128 E6.4\nG0 X252.5\nG0 Y252.5 E6.4\nG0 X128 E6.4", "nozzle_type": "stainless_steel", "nozzle_hrc": "20", "upward_compatible_machine":[ diff --git a/resources/profiles/BBL/machine/Bambu Lab X1 Carbon 0.4 nozzle.json b/resources/profiles/BBL/machine/Bambu Lab X1 Carbon 0.4 nozzle.json index 0b079aca78..58a0464c3e 100644 --- a/resources/profiles/BBL/machine/Bambu Lab X1 Carbon 0.4 nozzle.json +++ b/resources/profiles/BBL/machine/Bambu Lab X1 Carbon 0.4 nozzle.json @@ -26,7 +26,7 @@ "20", "20" ], - "machine_start_gcode": ";===== machine: X1 =========================\n;===== date: 20230322 =====================\n;===== turn on the HB fan =================\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp to turn on the HB fan\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG0 Z12 F300 ; lower the hotbed , to prevent the nozzle is below the hotbed\nG0 Z-6;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n{if scan_first_layer}\n;=========register first layer scan=====\nM977 S1 P60\n{endif}\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on \nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_no_support_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_no_support_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_no_support_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_no_support_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_no_support_extruder]}\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X128 Y128\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n;===== check scanner clarity ===========================\nG1 X128 Y128 F24000\nG28 Z P0\nM972 S5 P0\nG1 X230 Y15 F24000\n;===== check scanner clarity end =======================\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\nM104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY \n;===== mech mode fast check============================\n\n{if scan_first_layer}\n;start heatbed scan====================================\nM976 S2 P1 \nG90\nG1 X128 Y128 F20000\nM976 S3 P2 ;register void printing detection\n{endif}\n\n;===== noozle load line ===============================\nM975 S1\nG90 \nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature[initial_no_support_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \nG0 Y11 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E0.700\nG0 X18 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n\n;===== draw extrinsic para cali paint =================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M1002 gcode_claim_action : 8\n\n T1000 \n G0 F3000 X28.000 Y19.500 Z0.200\n G1 F1200.0 X28.000 Y45.000 Z0.200 E0.933 \n G1 F1200.0 X28.500 Y45.000 Z0.200 E0.018 \n G1 F1200.0 X28.500 Y19.500 Z0.200 E0.933 \n G1 F1200.0 X31.000 Y19.500 Z0.200 E0.091 \n G1 F1200.0 X31.000 Y49.000 Z0.200 E1.080 \n G1 F1200.0 X37.500 Y49.000 Z0.200 E0.238 \n G1 F1200.0 X37.500 Y60.000 Z0.200 E0.403 \n G1 F1200.0 X42.500 Y60.000 Z0.200 E0.183 \n G1 F1200.0 X42.500 Y49.000 Z0.200 E0.403 \n G1 F1200.0 X48.000 Y49.000 Z0.200 E0.201 \n G1 F1200.0 X48.000 Y20.000 Z0.200 E1.061 \n G1 F1200.0 X30.000 Y20.000 Z0.200 E0.659 \n G1 F1200.0 X30.000 Y41.000 Z0.200 E0.769 \n G1 F1200.0 X50.000 Y41.000 Z0.200 E0.732 \n G1 F1200.0 X50.000 Y34.000 Z0.200 E0.256 \n G1 F1200.0 X30.000 Y34.000 Z0.200 E0.732 \n G1 F1500.000 E-0.800 \n\n ;=========== extruder cali extrusion ================== \n T1000 \n M83 \n {if default_acceleration > 0}\n {if outer_wall_acceleration > 0}\n M204 S[outer_wall_acceleration]\n {else}\n M204 S[default_acceleration]\n {endif}\n {endif}\n G0 X35.000 Y18.000 Z0.300 F30000 E0\n G1 F1500.000 E0.800 \n M106 S0 ; turn off fan\n G0 X185.000 E9.35441 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G0 X187 Z0\n G1 F1500.000 E-0.800 \n G0 Z1\n G0 X180 Z0.3 F18000\n \n M900 L1000.0 M1.0\n M900 K0.040 \n G0 X45.000 F30000 \n G0 Y20.000 F30000 \n G1 F1500.000 E0.800 \n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 F1500.000 E-0.800 \n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos \n G1 Z0.3\n M400\n\n G0 X45.000 F30000 \n M900 K0.020 \n G0 X45.000 F30000 \n G0 Y22.000 F30000 \n G1 F1500.000 E0.800 \n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 F1500.000 E-0.800 \n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos \n G1 Z0.3\n M400\n\n G0 X45.000 F30000 \n M900 K0.000 \n G0 X45.000 F30000 \n G0 Y24.000 F30000 \n G1 F1500.000 E0.800 \n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos \n G1 Z0.3\n\n G0 X45.000 F30000 ; move to start point\n\nM623 ; end of \"draw extrinsic para cali paint\"\n\nM104 S140\n\n\n;=========== laser and rgb calibration =========== \nM400\nM18 E\nM500 R\n\nM973 S3 P14\n\nG1 X120 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nT1100\nG1 X235.0 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nM400 P100\nM960 S1 P1\nM400 P100\nM973 S6 P0; use auto exposure for horizontal laser by xcam\nM960 S0 P0\n\nG1 X240.0 Y6.0 Z0.3 F18000.0;Move to vertical extrude line pos\nM960 S2 P1\nM400 P100\nM973 S6 P1; use auto exposure for vertical laser by xcam\nM960 S0 P0\n\n;=========== handeye calibration ======================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M973 S3 P1 ; camera start stream\n M400 P500\n M973 S1 \n G0 F6000 X40.000 Y54.500 Z0.000 \n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P16000\n M400 P500 \n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1 \n G0 Y37.50 \n M400 P200\n M971 S5 P1 \n M960 S0 P0\n M960 S2 P1 \n G0 Y54.50 \n M400 P200 \n M971 S5 P3 \n G0 Z0.500 F12000\n M960 S0 P0\n M960 S1 P1 \n G0 Y37.50 \n M400 P200\n M971 S5 P2 \n M960 S0 P0\n M960 S2 P1 \n G0 Y54.50 \n M400 P500 \n M971 S5 P4 \n M963 S1 \n M400 P1500 \n M964 \n T1100 \n G0 F6000 X40.000 Y54.500 Z0.000 \n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P16000\n M400 P500 \n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1 \n G0 Y37.50 \n M400 P200\n M971 S5 P1 \n M960 S0 P0\n M960 S2 P1 \n G0 Y54.50 \n M400 P200 \n M971 S5 P3 \n G0 Z0.500 F12000\n M960 S0 P0\n M960 S1 P1 \n G0 Y37.50 \n M400 P200\n M971 S5 P2 \n M960 S0 P0\n M960 S2 P1 \n G0 Y54.50 \n M400 P500 \n M971 S5 P4 \n M963 S1 \n M400 P1500 \n M964 \n T1100 \n G1 Z3 F3000 \n\n M400\n M500 ; save cali data\n\n M104 S{nozzle_temperature[initial_no_support_extruder]} ; rise nozzle temp now ,to reduce temp waiting time.\n\n T1100 \n M400 P400 \n M960 S0 P0\n G0 F30000.000 Y22.000 X65.000 Z0.000\n M400 P400 \n M960 S1 P1 \n M400 P50 \n\n M969 S1 N3 A2000 \n G0 F360.000 X181.000 Z0.000\n M980.3 A70.000 B{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60/4} C5.000 D{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60} E5.000 F175.000 H1.000 I0.000 J0.020 K0.040\n M400 P100 \n G0 F20000\n G0 Z1 ; rise nozzle up\n T1000 ; change to nozzle space\n G0 X45.000 Y16.000 F30000 ; move to test line pos\n M969 S0 ; turn off scanning\n M960 S0 P0\n\n\n G1 Z2 F20000 \n T1000 \n G0 X45.000 Y16.000 F30000 E0\n M109 S{nozzle_temperature[initial_no_support_extruder]}\n G0 Z0.3\n G1 F1500.000 E3.600 \n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n\n ; see if extrude cali success, if not ,use default value\n M1002 judge_last_extrude_cali_success\n M622 J0\n M400\n M900 K0.02 M{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*0.02}\n M623 \n\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X185.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X190.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X195.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X200.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X205.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X210.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X215.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X220.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X225.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n M973 S4 \n\nM623\n\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM973 S4 ; turn off scanner\nM400 ; wait all motion done before implement the emprical L parameters\n;M900 L500.0 ; Empirical parameters\nM109 S[nozzle_temperature_initial_layer]\nM960 S1 P0 ; turn off laser\nM960 S2 P0 ; turn off laser\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan \nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\nG90 \nM83\nT1000\nG1 E{-retraction_length[initial_no_support_extruder]} F1800\nG1 X128.0 Y253.0 Z0.2 F24000.0;Move to start position\nG1 E{retraction_length[initial_no_support_extruder]} F1800\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\nG0 X253 E6.4 F{outer_wall_volumetric_speed/(0.3*0.6) * 60} \nG0 Y128 E6.4\nG0 X252.5\nG0 Y252.5 E6.4\nG0 X128 E6.4", + "machine_start_gcode": ";===== machine: X1 =========================\n;===== date: 20230425 =====================\n;===== turn on the HB fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG0 Z12 F300 ; lower the hotbed , to prevent the nozzle is below the hotbed\nG0 Z-6;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n{if scan_first_layer}\n;=========register first layer scan=====\nM977 S1 P60\n{endif}\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on \nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_no_support_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_no_support_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_no_support_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_no_support_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_no_support_extruder]}\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X128 Y128\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n;===== check scanner clarity ===========================\nG1 X128 Y128 F24000\nG28 Z P0\nM972 S5 P0\nG1 X230 Y15 F24000\n;===== check scanner clarity end =======================\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\nM104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY \n;===== mech mode fast check============================\n\n{if scan_first_layer}\n;start heatbed scan====================================\nM976 S2 P1 \nG90\nG1 X128 Y128 F20000\nM976 S3 P2 ;register void printing detection\n{endif}\n\n;===== noozle load line ===============================\nM975 S1\nG90 \nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature[initial_no_support_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \nG0 Y11 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E0.700\nG0 X18 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n\n;===== draw extrinsic para cali paint =================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M1002 gcode_claim_action : 8\n\n T1000 \n G0 F3000 X28.000 Y19.500 Z0.200\n G1 F1200.0 X28.000 Y45.000 Z0.200 E0.933 \n G1 F1200.0 X28.500 Y45.000 Z0.200 E0.018 \n G1 F1200.0 X28.500 Y19.500 Z0.200 E0.933 \n G1 F1200.0 X31.000 Y19.500 Z0.200 E0.091 \n G1 F1200.0 X31.000 Y49.000 Z0.200 E1.080 \n G1 F1200.0 X37.500 Y49.000 Z0.200 E0.238 \n G1 F1200.0 X37.500 Y60.000 Z0.200 E0.403 \n G1 F1200.0 X42.500 Y60.000 Z0.200 E0.183 \n G1 F1200.0 X42.500 Y49.000 Z0.200 E0.403 \n G1 F1200.0 X48.000 Y49.000 Z0.200 E0.201 \n G1 F1200.0 X48.000 Y20.000 Z0.200 E1.061 \n G1 F1200.0 X30.000 Y20.000 Z0.200 E0.659 \n G1 F1200.0 X30.000 Y41.000 Z0.200 E0.769 \n G1 F1200.0 X50.000 Y41.000 Z0.200 E0.732 \n G1 F1200.0 X50.000 Y34.000 Z0.200 E0.256 \n G1 F1200.0 X30.000 Y34.000 Z0.200 E0.732 \n G1 F1500.000 E-0.800 \n\n ;=========== extruder cali extrusion ================== \n T1000 \n M83 \n {if default_acceleration > 0}\n {if outer_wall_acceleration > 0}\n M204 S[outer_wall_acceleration]\n {else}\n M204 S[default_acceleration]\n {endif}\n {endif}\n G0 X35.000 Y18.000 Z0.300 F30000 E0\n G1 F1500.000 E0.800 \n M106 S0 ; turn off fan\n G0 X185.000 E9.35441 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G0 X187 Z0\n G1 F1500.000 E-0.800 \n G0 Z1\n G0 X180 Z0.3 F18000\n \n M900 L1000.0 M1.0\n M900 K0.040 \n G0 X45.000 F30000 \n G0 Y20.000 F30000 \n G1 F1500.000 E0.800 \n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 F1500.000 E-0.800 \n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos \n G1 Z0.3\n M400\n\n G0 X45.000 F30000 \n M900 K0.020 \n G0 X45.000 F30000 \n G0 Y22.000 F30000 \n G1 F1500.000 E0.800 \n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 F1500.000 E-0.800 \n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos \n G1 Z0.3\n M400\n\n G0 X45.000 F30000 \n M900 K0.000 \n G0 X45.000 F30000 \n G0 Y24.000 F30000 \n G1 F1500.000 E0.800 \n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos \n G1 Z0.3\n\n G0 X45.000 F30000 ; move to start point\n\nM623 ; end of \"draw extrinsic para cali paint\"\n\nM104 S140\n\n\n;=========== laser and rgb calibration =========== \nM400\nM18 E\nM500 R\n\nM973 S3 P14\n\nG1 X120 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nT1100\nG1 X235.0 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nM400 P100\nM960 S1 P1\nM400 P100\nM973 S6 P0; use auto exposure for horizontal laser by xcam\nM960 S0 P0\n\nG1 X240.0 Y6.0 Z0.3 F18000.0;Move to vertical extrude line pos\nM960 S2 P1\nM400 P100\nM973 S6 P1; use auto exposure for vertical laser by xcam\nM960 S0 P0\n\n;=========== handeye calibration ======================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M973 S3 P1 ; camera start stream\n M400 P500\n M973 S1 \n G0 F6000 X40.000 Y54.500 Z0.000 \n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P16000\n M400 P500 \n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1 \n G0 Y37.50 \n M400 P200\n M971 S5 P1 \n M960 S0 P0\n M960 S2 P1 \n G0 Y54.50 \n M400 P200 \n M971 S5 P3 \n G0 Z0.500 F12000\n M960 S0 P0\n M960 S1 P1 \n G0 Y37.50 \n M400 P200\n M971 S5 P2 \n M960 S0 P0\n M960 S2 P1 \n G0 Y54.50 \n M400 P500 \n M971 S5 P4 \n M963 S1 \n M400 P1500 \n M964 \n T1100 \n G0 F6000 X40.000 Y54.500 Z0.000 \n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P16000\n M400 P500 \n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1 \n G0 Y37.50 \n M400 P200\n M971 S5 P1 \n M960 S0 P0\n M960 S2 P1 \n G0 Y54.50 \n M400 P200 \n M971 S5 P3 \n G0 Z0.500 F12000\n M960 S0 P0\n M960 S1 P1 \n G0 Y37.50 \n M400 P200\n M971 S5 P2 \n M960 S0 P0\n M960 S2 P1 \n G0 Y54.50 \n M400 P500 \n M971 S5 P4 \n M963 S1 \n M400 P1500 \n M964 \n T1100 \n G1 Z3 F3000 \n\n M400\n M500 ; save cali data\n\n M104 S{nozzle_temperature[initial_no_support_extruder]} ; rise nozzle temp now ,to reduce temp waiting time.\n\n T1100 \n M400 P400 \n M960 S0 P0\n G0 F30000.000 Y22.000 X65.000 Z0.000\n M400 P400 \n M960 S1 P1 \n M400 P50 \n\n M969 S1 N3 A2000 \n G0 F360.000 X181.000 Z0.000\n M980.3 A70.000 B{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60/4} C5.000 D{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60} E5.000 F175.000 H1.000 I0.000 J0.020 K0.040\n M400 P100 \n G0 F20000\n G0 Z1 ; rise nozzle up\n T1000 ; change to nozzle space\n G0 X45.000 Y16.000 F30000 ; move to test line pos\n M969 S0 ; turn off scanning\n M960 S0 P0\n\n\n G1 Z2 F20000 \n T1000 \n G0 X45.000 Y16.000 F30000 E0\n M109 S{nozzle_temperature[initial_no_support_extruder]}\n G0 Z0.3\n G1 F1500.000 E3.600 \n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n\n ; see if extrude cali success, if not ,use default value\n M1002 judge_last_extrude_cali_success\n M622 J0\n M400\n M900 K0.02 M{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*0.02}\n M623 \n\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X185.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X190.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X195.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X200.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X205.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X210.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X215.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n G1 X220.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60} \n G1 X225.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60} \n M973 S4 \n\nM623\n\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM973 S4 ; turn off scanner\nM400 ; wait all motion done before implement the emprical L parameters\n;M900 L500.0 ; Empirical parameters\nM109 S[nozzle_temperature_initial_layer]\nM960 S1 P0 ; turn off laser\nM960 S2 P0 ; turn off laser\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan \nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\nG90 \nM83\nT1000\nG1 E{-retraction_length[initial_no_support_extruder]} F1800\nG1 X128.0 Y253.0 Z0.2 F24000.0;Move to start position\nG1 E{retraction_length[initial_no_support_extruder]} F1800\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\nG0 X253 E6.4 F{outer_wall_volumetric_speed/(0.3*0.6) * 60} \nG0 Y128 E6.4\nG0 X252.5\nG0 Y252.5 E6.4\nG0 X128 E6.4", "scan_first_layer": "1", "machine_load_filament_time": "29", "machine_unload_filament_time": "28", diff --git a/resources/profiles/BBL/machine/Bambu Lab X1 Carbon 0.6 nozzle.json b/resources/profiles/BBL/machine/Bambu Lab X1 Carbon 0.6 nozzle.json index 53ebc5f479..ac7a701175 100644 --- a/resources/profiles/BBL/machine/Bambu Lab X1 Carbon 0.6 nozzle.json +++ b/resources/profiles/BBL/machine/Bambu Lab X1 Carbon 0.6 nozzle.json @@ -26,7 +26,7 @@ "retraction_minimum_travel": [ "3" ], - "machine_start_gcode": ";===== machine: X1 =========================\n;===== date: 20230322 =====================\n;===== turn on the HB fan =================\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp to turn on the HB fan\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG0 Z12 F300 ; lower the hotbed , to prevent the nozzle is below the hotbed\nG0 Z-6;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n{if scan_first_layer}\n;=========register first layer scan=====\nM977 S1 P60\n{endif}\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_no_support_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_no_support_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_no_support_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_no_support_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_no_support_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X128 Y128\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n;===== check scanner clarity ===========================\nG1 X128 Y128 F24000\nG28 Z P0\nM972 S5 P0\nG1 X230 Y15 F24000\n;===== check scanner clarity end =======================\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\nM104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== mech mode fast check============================\n\n{if scan_first_layer}\n;start heatbed scan====================================\nM976 S2 P1\nG90\nG1 X128 Y128 F20000\nM976 S3 P2 ;register void printing detection\n{endif}\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature[initial_no_support_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E25 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y15 E1.166 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E1.166\nG0 X18 E25 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n\n;===== draw extrinsic para cali paint =================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M1002 gcode_claim_action : 8\n\n T1000\n G0 F3000 X28.000 Y19.500 Z0.200\n G1 F1200.0 X28.000 Y45.000 Z0.200 E1.679\n G1 F1200.0 X28.500 Y45.000 Z0.200 E0.032\n G1 F1200.0 X28.500 Y19.500 Z0.200 E1.679\n G1 F1200.0 X31.000 Y19.500 Z0.200 E0.164\n G1 F1200.0 X31.000 Y49.000 Z0.200 E1.944\n G1 F1200.0 X37.500 Y49.000 Z0.200 E0.428\n G1 F1200.0 X37.500 Y60.000 Z0.200 E0.725\n G1 F1200.0 X42.500 Y60.000 Z0.200 E0.329\n G1 F1200.0 X42.500 Y49.000 Z0.200 E0.725\n G1 F1200.0 X48.000 Y49.000 Z0.200 E0.362\n G1 F1200.0 X48.000 Y20.000 Z0.200 E1.910\n G1 F1200.0 X30.000 Y20.000 Z0.200 E1.186\n G1 F1200.0 X30.000 Y41.000 Z0.200 E1.384\n G1 F1200.0 X50.000 Y41.000 Z0.200 E1.318\n G1 F1200.0 X50.000 Y34.000 Z0.200 E0.461\n G1 F1200.0 X30.000 Y34.000 Z0.200 E1.318\n G1 F1500.000 E-0.800\n\n ;=========== extruder cali extrusion ==================\n T1000\n M83\n {if default_acceleration > 0}\n {if outer_wall_acceleration > 0}\n M204 S[outer_wall_acceleration]\n {else}\n M204 S[default_acceleration]\n {endif}\n {endif}\n G0 X35.000 Y18.000 Z0.300 F30000 E0\n G1 F1500.000 E0.800\n M106 S0 ; turn off fan\n G0 X185.000 E16.9 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G0 X187 Z0\n G1 F1500.000 E-0.800\n G0 Z1\n G0 X180 Z0.3 F18000\n\n M900 L1000.0 M1.0\n M900 K0.030\n G0 X45.000 F30000\n G0 Y20.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.25000 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X70.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X75.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X80.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X85.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X90.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X95.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X100.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X105.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X110.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X115.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X120.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X125.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X130.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X135.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X140.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X145.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X150.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X155.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X160.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X165.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X170.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X175.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X180.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.015\n G0 X45.000 F30000\n G0 Y22.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.25000 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X70.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X75.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X80.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X85.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X90.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X95.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X100.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X105.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X110.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X115.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X120.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X125.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X130.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X135.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X140.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X145.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X150.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X155.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X160.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X165.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X170.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X175.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X180.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.000\n G0 X45.000 F30000\n G0 Y24.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.25000 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X70.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X75.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X80.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X85.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X90.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X95.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X100.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X105.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X110.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X115.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X120.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X125.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X130.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X135.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X140.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X145.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X150.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X155.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X160.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X165.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X170.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X175.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X180.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n\n G0 X45.000 F30000 ; move to start point\n\nM623 ; end of \"draw extrinsic para cali paint\"\n\nM104 S140\n\n\n;=========== laser and rgb calibration ===========\nM400\nM18 E\nM500 R\n\nM973 S3 P14\n\nG1 X120 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nT1100\nG1 X235.0 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nM400 P100\nM960 S1 P1\nM400 P100\nM973 S6 P0; use auto exposure for horizontal laser by xcam\nM960 S0 P0\n\nG1 X240.0 Y6.0 Z0.3 F18000.0;Move to vertical extrude line pos\nM960 S2 P1\nM400 P100\nM973 S6 P1; use auto exposure for vertical laser by xcam\nM960 S0 P0\n\n;=========== handeye calibration ======================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M973 S3 P1 ; camera start stream\n M400 P500\n M973 S1\n G0 F6000 X40.000 Y54.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P16000\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P1\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P2\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P500\n M971 S5 P4\n M963 S1\n M400 P1500\n M964\n T1100\n G0 F6000 X40.000 Y54.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P16000\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P1\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P2\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P500\n M971 S5 P4\n M963 S1\n M400 P1500\n M964\n T1100\n G1 Z3 F3000\n\n M400\n M500 ; save cali data\n\n M104 S{nozzle_temperature[initial_no_support_extruder]} ; rise nozzle temp now ,to reduce temp waiting time.\n\n T1100\n M400 P400\n M960 S0 P0\n G0 F30000.000 Y22.000 X65.000 Z0.000\n M400 P400\n M960 S1 P1\n M400 P50\n\n M969 S1 N3 A2000\n G0 F360.000 X181.000 Z0.000\n M980.3 A70.000 B{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60/4} C5.000 D{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60} E5.000 F175.000 H1.000 I0.000 J0.015 K0.030\n M400 P100\n G0 F20000\n G0 Z1 ; rise nozzle up\n T1000 ; change to nozzle space\n G0 X45.000 Y16.000 F30000 ; move to test line pos\n M969 S0 ; turn off scanning\n M960 S0 P0\n\n\n G1 Z2 F20000\n T1000\n G0 X45.000 Y16.000 F30000 E0\n M109 S{nozzle_temperature[initial_no_support_extruder]}\n G0 Z0.3\n G1 F1500.000 E3.600\n G1 X65.000 E2.25000 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n\n ; see if extrude cali success, if not ,use default value\n M1002 judge_last_extrude_cali_success\n M622 J0\n M400\n M900 K0.015 M{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*0.015}\n M623\n\n G1 X140.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X185.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X190.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X195.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X200.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X205.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X210.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X215.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X220.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X225.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n M973 S4\n\nM623\n\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM973 S4 ; turn off scanner\nM400 ; wait all motion done before implement the emprical L parameters\n;M900 L500.0 ; Empirical parameters\nM109 S[nozzle_temperature_initial_layer]\nM960 S1 P0 ; turn off laser\nM960 S2 P0 ; turn off laser\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\nG90\nM83\nT1000\nG1 E{-retraction_length[initial_no_support_extruder]} F1800\nG1 X128.0 Y253.0 Z0.2 F24000.0;Move to start position\nG1 E{retraction_length[initial_no_support_extruder]} F1800\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\nG0 X253 E6.4 F{outer_wall_volumetric_speed/(0.3*0.6) * 60}\nG0 Y128 E6.4\nG0 X252.5\nG0 Y252.5 E6.4\nG0 X128 E6.4", + "machine_start_gcode": ";===== machine: X1 =========================\n;===== date: 20230425 =====================\n;===== turn on the HB fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG0 Z12 F300 ; lower the hotbed , to prevent the nozzle is below the hotbed\nG0 Z-6;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n{if scan_first_layer}\n;=========register first layer scan=====\nM977 S1 P60\n{endif}\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_no_support_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_no_support_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_no_support_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_no_support_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_no_support_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X128 Y128\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n;===== check scanner clarity ===========================\nG1 X128 Y128 F24000\nG28 Z P0\nM972 S5 P0\nG1 X230 Y15 F24000\n;===== check scanner clarity end =======================\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\nM104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== mech mode fast check============================\n\n{if scan_first_layer}\n;start heatbed scan====================================\nM976 S2 P1\nG90\nG1 X128 Y128 F20000\nM976 S3 P2 ;register void printing detection\n{endif}\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature[initial_no_support_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E25 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y15 E1.166 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E1.166\nG0 X18 E25 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n\n;===== draw extrinsic para cali paint =================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M1002 gcode_claim_action : 8\n\n T1000\n G0 F3000 X28.000 Y19.500 Z0.200\n G1 F1200.0 X28.000 Y45.000 Z0.200 E1.679\n G1 F1200.0 X28.500 Y45.000 Z0.200 E0.032\n G1 F1200.0 X28.500 Y19.500 Z0.200 E1.679\n G1 F1200.0 X31.000 Y19.500 Z0.200 E0.164\n G1 F1200.0 X31.000 Y49.000 Z0.200 E1.944\n G1 F1200.0 X37.500 Y49.000 Z0.200 E0.428\n G1 F1200.0 X37.500 Y60.000 Z0.200 E0.725\n G1 F1200.0 X42.500 Y60.000 Z0.200 E0.329\n G1 F1200.0 X42.500 Y49.000 Z0.200 E0.725\n G1 F1200.0 X48.000 Y49.000 Z0.200 E0.362\n G1 F1200.0 X48.000 Y20.000 Z0.200 E1.910\n G1 F1200.0 X30.000 Y20.000 Z0.200 E1.186\n G1 F1200.0 X30.000 Y41.000 Z0.200 E1.384\n G1 F1200.0 X50.000 Y41.000 Z0.200 E1.318\n G1 F1200.0 X50.000 Y34.000 Z0.200 E0.461\n G1 F1200.0 X30.000 Y34.000 Z0.200 E1.318\n G1 F1500.000 E-0.800\n\n ;=========== extruder cali extrusion ==================\n T1000\n M83\n {if default_acceleration > 0}\n {if outer_wall_acceleration > 0}\n M204 S[outer_wall_acceleration]\n {else}\n M204 S[default_acceleration]\n {endif}\n {endif}\n G0 X35.000 Y18.000 Z0.300 F30000 E0\n G1 F1500.000 E0.800\n M106 S0 ; turn off fan\n G0 X185.000 E16.9 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G0 X187 Z0\n G1 F1500.000 E-0.800\n G0 Z1\n G0 X180 Z0.3 F18000\n\n M900 L1000.0 M1.0\n M900 K0.030\n G0 X45.000 F30000\n G0 Y20.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.25000 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X70.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X75.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X80.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X85.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X90.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X95.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X100.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X105.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X110.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X115.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X120.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X125.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X130.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X135.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X140.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X145.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X150.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X155.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X160.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X165.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X170.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X175.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X180.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.015\n G0 X45.000 F30000\n G0 Y22.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.25000 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X70.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X75.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X80.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X85.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X90.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X95.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X100.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X105.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X110.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X115.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X120.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X125.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X130.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X135.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X140.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X145.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X150.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X155.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X160.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X165.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X170.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X175.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X180.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.000\n G0 X45.000 F30000\n G0 Y24.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.25000 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X70.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X75.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X80.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X85.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X90.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X95.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X100.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X105.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X110.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X115.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X120.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X125.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X130.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X135.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X140.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X145.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X150.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X155.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X160.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X165.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X170.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X175.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X180.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n\n G0 X45.000 F30000 ; move to start point\n\nM623 ; end of \"draw extrinsic para cali paint\"\n\nM104 S140\n\n\n;=========== laser and rgb calibration ===========\nM400\nM18 E\nM500 R\n\nM973 S3 P14\n\nG1 X120 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nT1100\nG1 X235.0 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nM400 P100\nM960 S1 P1\nM400 P100\nM973 S6 P0; use auto exposure for horizontal laser by xcam\nM960 S0 P0\n\nG1 X240.0 Y6.0 Z0.3 F18000.0;Move to vertical extrude line pos\nM960 S2 P1\nM400 P100\nM973 S6 P1; use auto exposure for vertical laser by xcam\nM960 S0 P0\n\n;=========== handeye calibration ======================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M973 S3 P1 ; camera start stream\n M400 P500\n M973 S1\n G0 F6000 X40.000 Y54.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P16000\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P1\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P2\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P500\n M971 S5 P4\n M963 S1\n M400 P1500\n M964\n T1100\n G0 F6000 X40.000 Y54.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P16000\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P1\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P2\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P500\n M971 S5 P4\n M963 S1\n M400 P1500\n M964\n T1100\n G1 Z3 F3000\n\n M400\n M500 ; save cali data\n\n M104 S{nozzle_temperature[initial_no_support_extruder]} ; rise nozzle temp now ,to reduce temp waiting time.\n\n T1100\n M400 P400\n M960 S0 P0\n G0 F30000.000 Y22.000 X65.000 Z0.000\n M400 P400\n M960 S1 P1\n M400 P50\n\n M969 S1 N3 A2000\n G0 F360.000 X181.000 Z0.000\n M980.3 A70.000 B{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60/4} C5.000 D{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60} E5.000 F175.000 H1.000 I0.000 J0.015 K0.030\n M400 P100\n G0 F20000\n G0 Z1 ; rise nozzle up\n T1000 ; change to nozzle space\n G0 X45.000 Y16.000 F30000 ; move to test line pos\n M969 S0 ; turn off scanning\n M960 S0 P0\n\n\n G1 Z2 F20000\n T1000\n G0 X45.000 Y16.000 F30000 E0\n M109 S{nozzle_temperature[initial_no_support_extruder]}\n G0 Z0.3\n G1 F1500.000 E3.600\n G1 X65.000 E2.25000 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n\n ; see if extrude cali success, if not ,use default value\n M1002 judge_last_extrude_cali_success\n M622 J0\n M400\n M900 K0.015 M{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*0.015}\n M623\n\n G1 X140.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X185.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X190.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X195.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X200.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X205.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X210.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X215.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X220.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X225.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n M973 S4\n\nM623\n\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM973 S4 ; turn off scanner\nM400 ; wait all motion done before implement the emprical L parameters\n;M900 L500.0 ; Empirical parameters\nM109 S[nozzle_temperature_initial_layer]\nM960 S1 P0 ; turn off laser\nM960 S2 P0 ; turn off laser\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\nG90\nM83\nT1000\nG1 E{-retraction_length[initial_no_support_extruder]} F1800\nG1 X128.0 Y253.0 Z0.2 F24000.0;Move to start position\nG1 E{retraction_length[initial_no_support_extruder]} F1800\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\nG0 X253 E6.4 F{outer_wall_volumetric_speed/(0.3*0.6) * 60}\nG0 Y128 E6.4\nG0 X252.5\nG0 Y252.5 E6.4\nG0 X128 E6.4", "upward_compatible_machine":[ "Bambu Lab P1P 0.6 nozzle", "Bambu Lab X1 0.6 nozzle" diff --git a/resources/profiles/BBL/machine/Bambu Lab X1 Carbon 0.8 nozzle.json b/resources/profiles/BBL/machine/Bambu Lab X1 Carbon 0.8 nozzle.json index 1da5d4cb6e..428c360f8a 100644 --- a/resources/profiles/BBL/machine/Bambu Lab X1 Carbon 0.8 nozzle.json +++ b/resources/profiles/BBL/machine/Bambu Lab X1 Carbon 0.8 nozzle.json @@ -29,7 +29,7 @@ "retract_length_toolchange": [ "3" ], - "machine_start_gcode": ";===== machine: X1 =========================\n;===== date: 20230322 =====================\n;===== turn on the HB fan =================\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp to turn on the HB fan\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG0 Z12 F300 ; lower the hotbed , to prevent the nozzle is below the hotbed\nG0 Z-6;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{0.0} ; clear z-trim value first\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n{if scan_first_layer}\n;=========register first layer scan=====\nM977 S1 P60\n{endif}\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_no_support_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_no_support_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_no_support_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_no_support_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_no_support_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X128 Y128\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n;===== check scanner clarity ===========================\nG1 X128 Y128 F24000\nG28 Z P0\nM972 S5 P0\nG1 X230 Y15 F24000\n;===== check scanner clarity end =======================\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\nM104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== mech mode fast check============================\n\n{if scan_first_layer}\n;start heatbed scan====================================\nM976 S2 P1\nG90\nG1 X128 Y128 F20000\nM976 S3 P2 ;register void printing detection\n{endif}\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y0.5 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature[initial_no_support_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X129 E15 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\nG0 X240 E15\nG0 Y15 E1.500 F{outer_wall_volumetric_speed/(0.3*1.0)/ 4 * 60}\nG0 X239.5\nG0 E0.3\nG0 Y1.5 E1.500\nG0 X129 E15 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\nG0 X18 E15\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n\n;===== draw extrinsic para cali paint =================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M1002 gcode_claim_action : 8\n\n T1000\n G0 F3000 X28.000 Y19.500 Z0.200\n G1 F1200.0 X28.000 Y45.000 Z0.200 E1.8660\n G1 F1200.0 X28.500 Y45.000 Z0.200 E0.0360\n G1 F1200.0 X28.500 Y19.500 Z0.200 E1.8660\n G1 F1200.0 X31.000 Y19.500 Z0.200 E0.1820\n G1 F1200.0 X31.000 Y49.000 Z0.200 E2.1600\n G1 F1200.0 X37.500 Y49.000 Z0.200 E0.4760\n G1 F1200.0 X37.500 Y60.000 Z0.200 E0.8060\n G1 F1200.0 X42.500 Y60.000 Z0.200 E0.3660\n G1 F1200.0 X42.500 Y49.000 Z0.200 E0.8060\n G1 F1200.0 X48.000 Y49.000 Z0.200 E0.4020\n G1 F1200.0 X48.000 Y20.000 Z0.200 E2.1220\n G1 F1200.0 X30.000 Y20.000 Z0.200 E1.3180\n G1 F1200.0 X30.000 Y41.000 Z0.200 E1.5380\n G1 F1200.0 X50.000 Y41.000 Z0.200 E1.4640\n G1 F1200.0 X50.000 Y34.000 Z0.200 E0.5120\n G1 F1200.0 X30.000 Y34.000 Z0.200 E1.4640\n G1 F1500.000 E-0.800\n\n ;=========== extruder cali extrusion ==================\n T1000\n M83\n {if default_acceleration > 0}\n {if outer_wall_acceleration > 0}\n M204 S[outer_wall_acceleration]\n {else}\n M204 S[default_acceleration]\n {endif}\n {endif}\n G0 X35.000 Y18.000 Z0.300 F30000 E0\n G1 F1500.000 E0.800\n M106 S0 ; turn off fan\n G0 X110.000 E9.35441 F4800\n G0 X185.000 E9.35441 F4800\n G0 X187 Z0\n G1 F1500.000 E-0.800\n G0 Z1\n G0 X180 Z0.3 F18000\n\n M900 L1000.0 M1.0\n M900 K0.020\n G0 X45.000 F30000\n G0 Y20.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.4945 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X70.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X75.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X80.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X85.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X90.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X95.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X100.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X105.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X110.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X115.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X120.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X125.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X130.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X135.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X140.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X145.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X150.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X155.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X160.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X165.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X170.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X175.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X180.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.010\n G0 X45.000 F30000\n G0 Y22.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.4945 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X70.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X75.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X80.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X85.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X90.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X95.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X100.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X105.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X110.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X115.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X120.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X125.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X130.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X135.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X140.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X145.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X150.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X155.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X160.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X165.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X170.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X175.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X180.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.000\n G0 X45.000 F30000\n G0 Y24.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.4945 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X70.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X75.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X80.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X85.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X90.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X95.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X100.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X105.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X110.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X115.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X120.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X125.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X130.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X135.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X140.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X145.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X150.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X155.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X160.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X165.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X170.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X175.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X180.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n\n G0 X45.000 F30000 ; move to start point\n\nM623 ; end of \"draw extrinsic para cali paint\"\n\nM104 S140\n\n\n;=========== laser and rgb calibration ===========\nM400\nM18 E\nM500 R\n\nM973 S3 P14\n\nG1 X120 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nT1100\nG1 X235.0 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nM400 P100\nM960 S1 P1\nM400 P100\nM973 S6 P0; use auto exposure for horizontal laser by xcam\nM960 S0 P0\n\nG1 X240.0 Y6.0 Z0.3 F18000.0;Move to vertical extrude line pos\nM960 S2 P1\nM400 P100\nM973 S6 P1; use auto exposure for vertical laser by xcam\nM960 S0 P0\n\n;=========== handeye calibration ======================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M973 S3 P1 ; camera start stream\n M400 P500\n M973 S1\n G0 F6000 X40.000 Y54.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P16000\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P1\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P2\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P500\n M971 S5 P4\n M963 S1\n M400 P1500\n M964\n T1100\n G0 F6000 X40.000 Y54.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P16000\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P1\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P2\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P500\n M971 S5 P4\n M963 S1\n M400 P1500\n M964\n T1100\n G1 Z3 F3000\n\n M400\n M500 ; save cali data\n\n M104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; rise nozzle temp now ,to reduce temp waiting time.\n\n T1100\n M400 P400\n M960 S0 P0\n G0 F30000.000 Y22.000 X65.000 Z0.000\n M400 P400\n M960 S1 P1\n M400 P50\n\n M969 S1 N3 A2000\n G0 F360.000 X181.000 Z0.000\n M980.3 A70.000 B{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60/4} C5.000 D{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60} E5.000 F175.000 H1.000 I0.000 J0.010 K0.020\n M400 P100\n G0 F20000\n G0 Z1 ; rise nozzle up\n T1000 ; change to nozzle space\n G0 X45.000 Y16.000 F30000 ; move to test line pos\n M969 S0 ; turn off scanning\n M960 S0 P0\n\n\n G1 Z2 F20000\n T1000\n G0 X45.000 Y16.000 F30000 E0\n M109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\n G0 Z0.3\n G1 F1500.000 E3.600\n G1 X65.000 E2.4945 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X70.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X75.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X80.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X85.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X90.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X95.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X100.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X105.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X110.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X115.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X120.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X125.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X130.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X135.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n\n ; see if extrude cali success, if not ,use default value\n M1002 judge_last_extrude_cali_success\n M622 J0\n M400\n M900 K0.01 M{outer_wall_volumetric_speed/(1.75*1.75/4*3.14) *0.01}\n M623\n\n G1 X140.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X145.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X150.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X155.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X160.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X165.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X170.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X175.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X180.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X185.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X190.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X195.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X200.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X205.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X210.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X215.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X220.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X225.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n M973 S4\n\nM623\n\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM973 S4 ; turn off scanner\nM400 ; wait all motion done before implement the emprical L parameters\n;M900 L500.0 ; Empirical parameters\nM109 S[nozzle_temperature_initial_layer]\nM960 S1 P0 ; turn off laser\nM960 S2 P0 ; turn off laser\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\nG90\nM83\nT1000\nG1 E{-retraction_length[initial_no_support_extruder]} F1800\nG1 X128.0 Y253.0 Z0.2 F24000.0;Move to start position\nG1 E{retraction_length[initial_no_support_extruder]} F1800\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\nG0 X253 E6.4 F{outer_wall_volumetric_speed/(0.3*0.6) * 60}\nG0 Y128 E6.4\nG0 X252.5\nG0 Y252.5 E6.4\nG0 X128 E6.4", + "machine_start_gcode": ";===== machine: X1 =========================\n;===== date: 20230425 =====================\n;===== turn on the HB fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG0 Z12 F300 ; lower the hotbed , to prevent the nozzle is below the hotbed\nG0 Z-6;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{0.0} ; clear z-trim value first\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n{if scan_first_layer}\n;=========register first layer scan=====\nM977 S1 P60\n{endif}\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_no_support_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_no_support_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_no_support_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_no_support_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_no_support_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X128 Y128\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n;===== check scanner clarity ===========================\nG1 X128 Y128 F24000\nG28 Z P0\nM972 S5 P0\nG1 X230 Y15 F24000\n;===== check scanner clarity end =======================\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\nM104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== mech mode fast check============================\n\n{if scan_first_layer}\n;start heatbed scan====================================\nM976 S2 P1\nG90\nG1 X128 Y128 F20000\nM976 S3 P2 ;register void printing detection\n{endif}\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y0.5 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature[initial_no_support_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X129 E15 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\nG0 X240 E15\nG0 Y15 E1.500 F{outer_wall_volumetric_speed/(0.3*1.0)/ 4 * 60}\nG0 X239.5\nG0 E0.3\nG0 Y1.5 E1.500\nG0 X129 E15 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\nG0 X18 E15\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n\n;===== draw extrinsic para cali paint =================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M1002 gcode_claim_action : 8\n\n T1000\n G0 F3000 X28.000 Y19.500 Z0.200\n G1 F1200.0 X28.000 Y45.000 Z0.200 E1.8660\n G1 F1200.0 X28.500 Y45.000 Z0.200 E0.0360\n G1 F1200.0 X28.500 Y19.500 Z0.200 E1.8660\n G1 F1200.0 X31.000 Y19.500 Z0.200 E0.1820\n G1 F1200.0 X31.000 Y49.000 Z0.200 E2.1600\n G1 F1200.0 X37.500 Y49.000 Z0.200 E0.4760\n G1 F1200.0 X37.500 Y60.000 Z0.200 E0.8060\n G1 F1200.0 X42.500 Y60.000 Z0.200 E0.3660\n G1 F1200.0 X42.500 Y49.000 Z0.200 E0.8060\n G1 F1200.0 X48.000 Y49.000 Z0.200 E0.4020\n G1 F1200.0 X48.000 Y20.000 Z0.200 E2.1220\n G1 F1200.0 X30.000 Y20.000 Z0.200 E1.3180\n G1 F1200.0 X30.000 Y41.000 Z0.200 E1.5380\n G1 F1200.0 X50.000 Y41.000 Z0.200 E1.4640\n G1 F1200.0 X50.000 Y34.000 Z0.200 E0.5120\n G1 F1200.0 X30.000 Y34.000 Z0.200 E1.4640\n G1 F1500.000 E-0.800\n\n ;=========== extruder cali extrusion ==================\n T1000\n M83\n {if default_acceleration > 0}\n {if outer_wall_acceleration > 0}\n M204 S[outer_wall_acceleration]\n {else}\n M204 S[default_acceleration]\n {endif}\n {endif}\n G0 X35.000 Y18.000 Z0.300 F30000 E0\n G1 F1500.000 E0.800\n M106 S0 ; turn off fan\n G0 X110.000 E9.35441 F4800\n G0 X185.000 E9.35441 F4800\n G0 X187 Z0\n G1 F1500.000 E-0.800\n G0 Z1\n G0 X180 Z0.3 F18000\n\n M900 L1000.0 M1.0\n M900 K0.020\n G0 X45.000 F30000\n G0 Y20.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.4945 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X70.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X75.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X80.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X85.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X90.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X95.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X100.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X105.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X110.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X115.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X120.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X125.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X130.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X135.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X140.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X145.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X150.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X155.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X160.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X165.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X170.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X175.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X180.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.010\n G0 X45.000 F30000\n G0 Y22.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.4945 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X70.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X75.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X80.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X85.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X90.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X95.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X100.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X105.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X110.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X115.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X120.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X125.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X130.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X135.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X140.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X145.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X150.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X155.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X160.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X165.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X170.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X175.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X180.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.000\n G0 X45.000 F30000\n G0 Y24.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.4945 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X70.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X75.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X80.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X85.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X90.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X95.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X100.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X105.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X110.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X115.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X120.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X125.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X130.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X135.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X140.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X145.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X150.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X155.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X160.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X165.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X170.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X175.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X180.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y18.000 F30000 ; move y to clear pos\n G1 Z0.3\n\n G0 X45.000 F30000 ; move to start point\n\nM623 ; end of \"draw extrinsic para cali paint\"\n\nM104 S140\n\n\n;=========== laser and rgb calibration ===========\nM400\nM18 E\nM500 R\n\nM973 S3 P14\n\nG1 X120 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nT1100\nG1 X235.0 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nM400 P100\nM960 S1 P1\nM400 P100\nM973 S6 P0; use auto exposure for horizontal laser by xcam\nM960 S0 P0\n\nG1 X240.0 Y6.0 Z0.3 F18000.0;Move to vertical extrude line pos\nM960 S2 P1\nM400 P100\nM973 S6 P1; use auto exposure for vertical laser by xcam\nM960 S0 P0\n\n;=========== handeye calibration ======================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M973 S3 P1 ; camera start stream\n M400 P500\n M973 S1\n G0 F6000 X40.000 Y54.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P16000\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P1\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P2\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P500\n M971 S5 P4\n M963 S1\n M400 P1500\n M964\n T1100\n G0 F6000 X40.000 Y54.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P16000\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P1\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S1 P1\n G0 Y37.50\n M400 P200\n M971 S5 P2\n M960 S0 P0\n M960 S2 P1\n G0 Y54.50\n M400 P500\n M971 S5 P4\n M963 S1\n M400 P1500\n M964\n T1100\n G1 Z3 F3000\n\n M400\n M500 ; save cali data\n\n M104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; rise nozzle temp now ,to reduce temp waiting time.\n\n T1100\n M400 P400\n M960 S0 P0\n G0 F30000.000 Y22.000 X65.000 Z0.000\n M400 P400\n M960 S1 P1\n M400 P50\n\n M969 S1 N3 A2000\n G0 F360.000 X181.000 Z0.000\n M980.3 A70.000 B{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60/4} C5.000 D{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60} E5.000 F175.000 H1.000 I0.000 J0.010 K0.020\n M400 P100\n G0 F20000\n G0 Z1 ; rise nozzle up\n T1000 ; change to nozzle space\n G0 X45.000 Y16.000 F30000 ; move to test line pos\n M969 S0 ; turn off scanning\n M960 S0 P0\n\n\n G1 Z2 F20000\n T1000\n G0 X45.000 Y16.000 F30000 E0\n M109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\n G0 Z0.3\n G1 F1500.000 E3.600\n G1 X65.000 E2.4945 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X70.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X75.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X80.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X85.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X90.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X95.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X100.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X105.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X110.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X115.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X120.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X125.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X130.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X135.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n\n ; see if extrude cali success, if not ,use default value\n M1002 judge_last_extrude_cali_success\n M622 J0\n M400\n M900 K0.01 M{outer_wall_volumetric_speed/(1.75*1.75/4*3.14) *0.01}\n M623\n\n G1 X140.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X145.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X150.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X155.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X160.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X165.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X170.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X175.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X180.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X185.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X190.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X195.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X200.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X205.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X210.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X215.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X220.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X225.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n M973 S4\n\nM623\n\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM973 S4 ; turn off scanner\nM400 ; wait all motion done before implement the emprical L parameters\n;M900 L500.0 ; Empirical parameters\nM109 S[nozzle_temperature_initial_layer]\nM960 S1 P0 ; turn off laser\nM960 S2 P0 ; turn off laser\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\nG90\nM83\nT1000\nG1 E{-retraction_length[initial_no_support_extruder]} F1800\nG1 X128.0 Y253.0 Z0.2 F24000.0;Move to start position\nG1 E{retraction_length[initial_no_support_extruder]} F1800\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\nG0 X253 E6.4 F{outer_wall_volumetric_speed/(0.3*0.6) * 60}\nG0 Y128 E6.4\nG0 X252.5\nG0 Y252.5 E6.4\nG0 X128 E6.4", "upward_compatible_machine":[ "Bambu Lab P1P 0.8 nozzle", "Bambu Lab X1 0.8 nozzle" diff --git a/src/libslic3r/Format/bbs_3mf.cpp b/src/libslic3r/Format/bbs_3mf.cpp index ab13652188..c64cc5000f 100644 --- a/src/libslic3r/Format/bbs_3mf.cpp +++ b/src/libslic3r/Format/bbs_3mf.cpp @@ -154,8 +154,8 @@ const std::string BBS_MODEL_CONFIG_FILE = "Metadata/model_settings.config"; const std::string BBS_MODEL_CONFIG_RELS_FILE = "Metadata/_rels/model_settings.config.rels"; const std::string SLICE_INFO_CONFIG_FILE = "Metadata/slice_info.config"; const std::string BBS_LAYER_HEIGHTS_PROFILE_FILE = "Metadata/layer_heights_profile.txt"; -/*const std::string LAYER_CONFIG_RANGES_FILE = "Metadata/Prusa_Slicer_layer_config_ranges.xml"; -const std::string SLA_SUPPORT_POINTS_FILE = "Metadata/Slic3r_PE_sla_support_points.txt"; +const std::string LAYER_CONFIG_RANGES_FILE = "Metadata/layer_config_ranges.xml"; +/*const std::string SLA_SUPPORT_POINTS_FILE = "Metadata/Slic3r_PE_sla_support_points.txt"; const std::string SLA_DRAIN_HOLES_FILE = "Metadata/Slic3r_PE_sla_drain_holes.txt";*/ const std::string CUSTOM_GCODE_PER_PRINT_Z_FILE = "Metadata/custom_gcode_per_layer.xml"; const std::string AUXILIARY_DIR = "Auxiliaries/"; @@ -751,8 +751,8 @@ void PlateData::parse_filament_info(GCodeProcessorResult *result) typedef std::map IdToCutObjectInfoMap; //typedef std::map IdToGeometryMap; typedef std::map> IdToLayerHeightsProfileMap; - /*typedef std::map IdToLayerConfigRangesMap; - typedef std::map> IdToSlaSupportPointsMap; + typedef std::map IdToLayerConfigRangesMap; + /*typedef std::map> IdToSlaSupportPointsMap; typedef std::map> IdToSlaDrainHolesMap;*/ struct ObjectImporter @@ -942,8 +942,8 @@ void PlateData::parse_filament_info(GCodeProcessorResult *result) IdToMetadataMap m_objects_metadata; IdToCutObjectInfoMap m_cut_object_infos; IdToLayerHeightsProfileMap m_layer_heights_profiles; - /*IdToLayerConfigRangesMap m_layer_config_ranges; - IdToSlaSupportPointsMap m_sla_support_points; + IdToLayerConfigRangesMap m_layer_config_ranges; + /*IdToSlaSupportPointsMap m_sla_support_points; IdToSlaDrainHolesMap m_sla_drain_holes;*/ std::string m_curr_metadata_name; std::string m_curr_characters; @@ -1199,7 +1199,7 @@ void PlateData::parse_filament_info(GCodeProcessorResult *result) m_curr_config.volume_id = -1; m_objects_metadata.clear(); m_layer_heights_profiles.clear(); - //m_layer_config_ranges.clear(); + m_layer_config_ranges.clear(); //m_sla_support_points.clear(); m_curr_metadata_name.clear(); m_curr_characters.clear(); @@ -1510,10 +1510,10 @@ void PlateData::parse_filament_info(GCodeProcessorResult *result) _extract_layer_heights_profile_config_from_archive(archive, stat); } else - /*if (boost::algorithm::iequals(name, LAYER_CONFIG_RANGES_FILE)) { + if (boost::algorithm::iequals(name, LAYER_CONFIG_RANGES_FILE)) { // extract slic3r layer config ranges file _extract_layer_config_ranges_from_archive(archive, stat, config_substitutions); - }*/ + } //BBS: disable SLA related files currently /*else if (boost::algorithm::iequals(name, SLA_SUPPORT_POINTS_FILE)) { // extract sla support points file @@ -1687,12 +1687,12 @@ void PlateData::parse_filament_info(GCodeProcessorResult *result) model_object->layer_height_profile.set(std::move(obj_layer_heights_profile->second)); // m_layer_config_ranges are indexed by a 1 based model object index. - /*IdToLayerConfigRangesMap::iterator obj_layer_config_ranges = m_layer_config_ranges.find(object.second + 1); + IdToLayerConfigRangesMap::iterator obj_layer_config_ranges = m_layer_config_ranges.find(object.second + 1); if (obj_layer_config_ranges != m_layer_config_ranges.end()) model_object->layer_config_ranges = std::move(obj_layer_config_ranges->second); // m_sla_support_points are indexed by a 1 based model object index. - IdToSlaSupportPointsMap::iterator obj_sla_support_points = m_sla_support_points.find(object.second + 1); + /*IdToSlaSupportPointsMap::iterator obj_sla_support_points = m_sla_support_points.find(object.second + 1); if (obj_sla_support_points != m_sla_support_points.end() && !obj_sla_support_points->second.empty()) { model_object->sla_support_points = std::move(obj_sla_support_points->second); model_object->sla_points_status = sla::PointsStatus::UserModified; @@ -2437,7 +2437,7 @@ void PlateData::parse_filament_info(GCodeProcessorResult *result) } } } - /* + void _BBS_3MF_Importer::_extract_layer_config_ranges_from_archive(mz_zip_archive& archive, const mz_zip_archive_file_stat& stat, ConfigSubstitutionContext& config_substitutions) { if (stat.m_uncomp_size > 0) { @@ -2495,7 +2495,7 @@ void PlateData::parse_filament_info(GCodeProcessorResult *result) } } } - + /* void _BBS_3MF_Importer::_extract_sla_support_points_from_archive(mz_zip_archive& archive, const mz_zip_archive_file_stat& stat) { if (stat.m_uncomp_size > 0) { @@ -5363,14 +5363,16 @@ void PlateData::parse_filament_info(GCodeProcessorResult *result) proFn(EXPORT_STAGE_ADD_LAYER_RANGE, 0, 1, cb_cancel); if (cb_cancel) return false; - } + }*/ // Adds layer config ranges file ("Metadata/Slic3r_PE_layer_config_ranges.txt"). // All layer height profiles of all ModelObjects are stored here, indexed by 1 based index of the ModelObject in Model. // The index differes from the index of an object ID of an object instance of a 3MF file! if (!_add_layer_config_ranges_file_to_archive(archive, model)) { + close_zip_writer(&archive); + boost::filesystem::remove(filename); return false; - }*/ + } // BBS progress point /*BOOST_LOG_TRIVIAL(info) << __FUNCTION__ << ":" <<__LINE__ << boost::format("export 3mf EXPORT_STAGE_ADD_SUPPORT\n"); @@ -6417,7 +6419,7 @@ void PlateData::parse_filament_info(GCodeProcessorResult *result) return true; } - /* + bool _BBS_3MF_Exporter::_add_layer_config_ranges_file_to_archive(mz_zip_archive& archive, Model& model) { std::string out = ""; @@ -6477,6 +6479,7 @@ void PlateData::parse_filament_info(GCodeProcessorResult *result) return true; } + /* bool _BBS_3MF_Exporter::_add_sla_support_points_file_to_archive(mz_zip_archive& archive, Model& model) { assert(is_decimal_separator_point()); diff --git a/src/libslic3r/Model.cpp b/src/libslic3r/Model.cpp index 46309f6168..0987e5937e 100644 --- a/src/libslic3r/Model.cpp +++ b/src/libslic3r/Model.cpp @@ -1849,7 +1849,7 @@ void ModelObject::process_connector_cut( // Perform cut TriangleMesh upper_mesh, lower_mesh; - process_volume_cut(volume, instance_matrix, cut_matrix, attributes, upper_mesh, lower_mesh); + process_volume_cut(volume, Transform3d::Identity(), cut_matrix, attributes, upper_mesh, lower_mesh); // add small Z offset to better preview upper_mesh.translate((-0.05 * Vec3d::UnitZ()).cast()); diff --git a/src/libslic3r/Print.cpp b/src/libslic3r/Print.cpp index 21f577ed69..46090dcaee 100644 --- a/src/libslic3r/Print.cpp +++ b/src/libslic3r/Print.cpp @@ -198,6 +198,7 @@ bool Print::invalidate_state_by_config_options(const ConfigOptionResolver & /* n opt_key == "initial_layer_print_height" || opt_key == "nozzle_diameter" || opt_key == "filament_shrink" + || opt_key == "resolution" // Spiral Vase forces different kind of slicing than the normal model: // In Spiral Vase mode, holes are closed and only the largest area contour is kept at each layer. // Therefore toggling the Spiral Vase on / off requires complete reslicing. @@ -249,7 +250,7 @@ bool Print::invalidate_state_by_config_options(const ConfigOptionResolver & /* n opt_key == "initial_layer_line_width" || opt_key == "min_layer_height" || opt_key == "max_layer_height" - || opt_key == "resolution" + //|| opt_key == "resolution" //BBS: when enable arc fitting, we must re-generate perimeter || opt_key == "enable_arc_fitting" || opt_key == "wall_infill_order") { diff --git a/src/libslic3r/PrintObjectSlice.cpp b/src/libslic3r/PrintObjectSlice.cpp index d12cc3ff0e..8be854289c 100644 --- a/src/libslic3r/PrintObjectSlice.cpp +++ b/src/libslic3r/PrintObjectSlice.cpp @@ -140,7 +140,7 @@ static std::vector slice_volumes_inner( params_base.trafo = object_trafo; //BBS: 0.0025mm is safe enough to simplify the data to speed slicing up for high-resolution model. //Also has on influence on arc fitting which has default resolution 0.0125mm. - params_base.resolution = 0.0025; + params_base.resolution = print_config.resolution <= 0.001 ? 0.0f : 0.0025; switch (print_object_config.slicing_mode.value) { case SlicingMode::Regular: params_base.mode = MeshSlicingParams::SlicingMode::Regular; break; case SlicingMode::EvenOdd: params_base.mode = MeshSlicingParams::SlicingMode::EvenOdd; break; diff --git a/src/slic3r/GUI/AMSMaterialsSetting.cpp b/src/slic3r/GUI/AMSMaterialsSetting.cpp index 743c454a6a..79cc464f19 100644 --- a/src/slic3r/GUI/AMSMaterialsSetting.cpp +++ b/src/slic3r/GUI/AMSMaterialsSetting.cpp @@ -669,17 +669,6 @@ void AMSMaterialsSetting::on_clr_picker(wxMouseEvent &event) m_color_picker_popup.set_ams_colours(ams_colors); m_color_picker_popup.set_def_colour(m_clr_picker->m_colour); m_color_picker_popup.Popup(); - - /*auto clr_dialog = new wxColourDialog(this, m_clrData); - if (clr_dialog->ShowModal() == wxID_OK) { - m_clrData = &(clr_dialog->GetColourData()); - m_clr_picker->SetBackgroundColor(wxColour( - m_clrData->GetColour().Red(), - m_clrData->GetColour().Green(), - m_clrData->GetColour().Blue(), - 254 - )); - }*/ } bool AMSMaterialsSetting::is_virtual_tray() @@ -1114,7 +1103,7 @@ ColorPickerPopup::ColorPickerPopup(wxWindow* parent) } wxBoxSizer* m_sizer_other = new wxBoxSizer(wxHORIZONTAL); - auto m_title_other = new wxStaticText(m_def_color_box, wxID_ANY, _L("Other color"), wxDefaultPosition, wxDefaultSize, 0); + auto m_title_other = new wxStaticText(m_def_color_box, wxID_ANY, _L("Other Color"), wxDefaultPosition, wxDefaultSize, 0); m_title_other->SetFont(::Label::Body_14); m_title_other->SetBackgroundColour(wxColour(238, 238, 238)); m_sizer_other->Add(m_title_other, 0, wxALL, 5); @@ -1124,11 +1113,43 @@ ColorPickerPopup::ColorPickerPopup(wxWindow* parent) other_line->SetBackgroundColour(wxColour(0xCECECE)); m_sizer_other->Add(other_line, 1, wxALIGN_CENTER, 0); + //custom color + wxBoxSizer* m_sizer_custom = new wxBoxSizer(wxHORIZONTAL); + auto m_title_custom = new wxStaticText(m_def_color_box, wxID_ANY, _L("Custom Color"), wxDefaultPosition, wxDefaultSize, 0); + m_title_custom->SetFont(::Label::Body_14); + m_title_custom->SetBackgroundColour(wxColour(238, 238, 238)); + auto custom_line = new wxPanel(m_def_color_box, wxID_ANY, wxDefaultPosition, wxSize(-1, 1), wxTAB_TRAVERSAL); + custom_line->SetBackgroundColour(wxColour(0xCECECE)); + custom_line->SetMinSize(wxSize(-1, 1)); + custom_line->SetMaxSize(wxSize(-1, 1)); + m_sizer_custom->Add(m_title_custom, 0, wxALL, 5); + m_sizer_custom->Add(custom_line, 1, wxALIGN_CENTER, 0); + + m_custom_cp = new StaticBox(m_def_color_box); + m_custom_cp->SetSize(FromDIP(60), FromDIP(25)); + m_custom_cp->SetMinSize(wxSize(FromDIP(60), FromDIP(25))); + m_custom_cp->SetMaxSize(wxSize(FromDIP(60), FromDIP(25))); + m_custom_cp->SetBorderColor(StateColor(std::pair(wxColour(238, 238, 238), StateColor::Normal))); + m_custom_cp->Bind(wxEVT_LEFT_DOWN, &ColorPickerPopup::on_custom_clr_picker, this); + m_custom_cp->Bind(wxEVT_ENTER_WINDOW, [this](auto& e) { + SetCursor(wxCURSOR_HAND); + }); + m_custom_cp->Bind(wxEVT_LEAVE_WINDOW, [this](auto& e) { + SetCursor(wxCURSOR_ARROW); + }); + + m_clrData = new wxColourData(); + m_clrData->SetChooseFull(true); + m_clrData->SetChooseAlpha(false); + + m_sizer_box->Add(0, 0, 0, wxTOP, FromDIP(10)); m_sizer_box->Add(m_sizer_ams, 1, wxEXPAND|wxLEFT|wxRIGHT, FromDIP(10)); m_sizer_box->Add(m_ams_fg_sizer, 0, wxEXPAND|wxLEFT|wxRIGHT, FromDIP(10)); m_sizer_box->Add(m_sizer_other, 1, wxEXPAND|wxLEFT|wxRIGHT, FromDIP(10)); m_sizer_box->Add(fg_sizer, 0, wxEXPAND|wxLEFT|wxRIGHT, FromDIP(10)); + m_sizer_box->Add(m_sizer_custom, 0, wxEXPAND|wxLEFT|wxRIGHT, FromDIP(10)); + m_sizer_box->Add(m_custom_cp, 0, wxEXPAND|wxLEFT|wxRIGHT, FromDIP(16)); m_sizer_box->Add(0, 0, 0, wxTOP, FromDIP(10)); @@ -1145,6 +1166,28 @@ ColorPickerPopup::ColorPickerPopup(wxWindow* parent) wxGetApp().UpdateDarkUIWin(this); } +void ColorPickerPopup::on_custom_clr_picker(wxMouseEvent& event) +{ + auto clr_dialog = new wxColourDialog(nullptr, m_clrData); + wxColour picker_color; + + if (clr_dialog->ShowModal() == wxID_OK) { + m_clrData = &(clr_dialog->GetColourData()); + + picker_color = wxColour( + m_clrData->GetColour().Red(), + m_clrData->GetColour().Green(), + m_clrData->GetColour().Blue(), + 254 + ); + m_custom_cp->SetBackgroundColor(picker_color); + set_def_colour(picker_color); + wxCommandEvent evt(EVT_SELECTED_COLOR); + unsigned long g_col = ((picker_color.Red() & 0xff) << 16) + ((picker_color.Green() & 0xff) << 8) + (picker_color.Blue() & 0xff); + evt.SetInt(g_col); + wxPostEvent(GetParent(), evt); + } +} void ColorPickerPopup::set_ams_colours(std::vector ams) { @@ -1202,6 +1245,8 @@ void ColorPickerPopup::set_def_colour(wxColour col) } } + m_custom_cp->SetBackgroundColor(m_def_col); + Dismiss(); } diff --git a/src/slic3r/GUI/AMSMaterialsSetting.hpp b/src/slic3r/GUI/AMSMaterialsSetting.hpp index 6c0b38e408..60d7e17c0c 100644 --- a/src/slic3r/GUI/AMSMaterialsSetting.hpp +++ b/src/slic3r/GUI/AMSMaterialsSetting.hpp @@ -54,6 +54,8 @@ public: class ColorPickerPopup : public PopupWindow { public: + StaticBox* m_custom_cp; + wxColourData* m_clrData; StaticBox* m_def_color_box; wxFlexGridSizer* m_ams_fg_sizer; wxColour m_def_col; @@ -65,6 +67,7 @@ public: public: ColorPickerPopup(wxWindow* parent); ~ColorPickerPopup() {}; + void on_custom_clr_picker(wxMouseEvent& event); void set_ams_colours(std::vector ams); void set_def_colour(wxColour col); void paintEvent(wxPaintEvent& evt); diff --git a/src/slic3r/GUI/GUI_ObjectList.cpp b/src/slic3r/GUI/GUI_ObjectList.cpp index f2c236c3eb..1b676ab67f 100644 --- a/src/slic3r/GUI/GUI_ObjectList.cpp +++ b/src/slic3r/GUI/GUI_ObjectList.cpp @@ -2900,7 +2900,10 @@ DynamicPrintConfig ObjectList::get_default_layer_config(const int obj_idx) wxGetApp().preset_bundle->prints.get_edited_preset().config.opt_float("layer_height"); config.set_key_value("layer_height",new ConfigOptionFloat(layer_height)); // BBS - config.set_key_value("extruder", new ConfigOptionInt(1)); + int extruder = object(obj_idx)->config.has("extruder") ? + object(obj_idx)->config.opt_int("extruder") : + wxGetApp().preset_bundle->prints.get_edited_preset().config.opt_float("extruder"); + config.set_key_value("extruder", new ConfigOptionInt(extruder)); return config; } @@ -3314,7 +3317,7 @@ void ObjectList::part_selection_changed() Sidebar& panel = wxGetApp().sidebar(); panel.Freeze(); - wxGetApp().plater()->canvas3D()->handle_sidebar_focus_event("", false); + //wxGetApp().plater()->canvas3D()->handle_sidebar_focus_event("", false); // BBS //wxGetApp().obj_manipul() ->UpdateAndShow(update_and_show_manipulations); wxGetApp().obj_settings()->UpdateAndShow(update_and_show_settings); diff --git a/src/slic3r/GUI/Gizmos/GLGizmoText.cpp b/src/slic3r/GUI/Gizmos/GLGizmoText.cpp index 19902d0fdb..b249b06cd8 100644 --- a/src/slic3r/GUI/Gizmos/GLGizmoText.cpp +++ b/src/slic3r/GUI/Gizmos/GLGizmoText.cpp @@ -771,10 +771,12 @@ void GLGizmoText::on_render_input_window(float x, float y, float bottom_limit) m_imgui->text(_L("Thickness")); ImGui::SameLine(caption_size); ImGui::PushItemWidth(list_width); - if(ImGui::InputFloat("###text_thickness", &m_thickness,0.0f, 0.0f, "%.2f")) - m_need_update_text = true; + float old_value = m_thickness; + ImGui::InputFloat("###text_thickness", &m_thickness, 0.0f, 0.0f, "%.2f"); if (m_thickness < 0.1f) m_thickness = 0.1f; + if (old_value != m_thickness) + m_need_update_text = true; const float slider_icon_width = m_imgui->get_slider_icon_size().x; const float slider_width = list_width - 1.5 * slider_icon_width - space_size; @@ -806,10 +808,12 @@ void GLGizmoText::on_render_input_window(float x, float y, float bottom_limit) m_imgui->text(_L("Embeded\ndepth")); ImGui::SameLine(caption_size); ImGui::PushItemWidth(list_width); - if (ImGui::InputFloat("###text_embeded_depth", &m_embeded_depth, 0.0f, 0.0f, "%.2f")) - m_need_update_text = true; + old_value = m_embeded_depth; + ImGui::InputFloat("###text_embeded_depth", &m_embeded_depth, 0.0f, 0.0f, "%.2f"); if (m_embeded_depth < 0.f) m_embeded_depth = 0.f; + if (old_value != m_embeded_depth) + m_need_update_text = true; ImGui::AlignTextToFramePadding(); m_imgui->text(_L("Input text")); @@ -1468,6 +1472,11 @@ void GLGizmoText::generate_text_volume(bool is_temp) TextInfo text_info = get_text_info(); if (m_is_modify && m_need_update_text) { + if (m_object_idx == -1 || m_volume_idx == -1) { + BOOST_LOG_TRIVIAL(error) << boost::format("Text: selected object_idx = %1%, volume_idx = %2%") % m_object_idx % m_volume_idx; + return; + } + plater->take_snapshot("Modify Text"); const Selection &selection = m_parent.get_selection(); ModelObject * model_object = selection.get_model()->objects[m_object_idx]; diff --git a/src/slic3r/GUI/MainFrame.cpp b/src/slic3r/GUI/MainFrame.cpp index 9c43e0899b..27dc7f8b65 100644 --- a/src/slic3r/GUI/MainFrame.cpp +++ b/src/slic3r/GUI/MainFrame.cpp @@ -160,6 +160,12 @@ static wxIcon main_frame_icon(GUI_App::EAppMode app_mode) wxDEFINE_EVENT(EVT_SYNC_CLOUD_PRESET, SimpleEvent); +#ifdef __APPLE__ +static const wxString ctrl = ("Ctrl+"); +#else +static const wxString ctrl = _L("Ctrl+"); +#endif + MainFrame::MainFrame() : DPIFrame(NULL, wxID_ANY, "", wxDefaultPosition, wxDefaultSize, BORDERLESS_FRAME_STYLE, "mainframe") , m_printhost_queue_dlg(new PrintHostQueueDialog(this)) @@ -2026,7 +2032,6 @@ static void add_common_publish_menu_items(wxMenu* publish_menu, MainFrame* mainF static void add_common_view_menu_items(wxMenu* view_menu, MainFrame* mainFrame, std::function can_change_view) { - const wxString ctrl = _L("Ctrl+"); // The camera control accelerators are captured by GLCanvas3D::on_char(). append_menu_item(view_menu, wxID_ANY, _L("Default View") + "\t" + ctrl + "0", _L("Default View"), [mainFrame](wxCommandEvent&) { mainFrame->select_view("plate"); @@ -2056,8 +2061,6 @@ void MainFrame::init_menubar_as_editor() wxMenuBar::SetAutoWindowMenu(false); m_menubar = new wxMenuBar(); #endif - - const wxString ctrl = _L("Ctrl+"); // File menu wxMenu* fileMenu = new wxMenu; diff --git a/src/slic3r/Utils/bambu_networking.hpp b/src/slic3r/Utils/bambu_networking.hpp index 8e46f88c72..50f29aec3d 100644 --- a/src/slic3r/Utils/bambu_networking.hpp +++ b/src/slic3r/Utils/bambu_networking.hpp @@ -41,8 +41,7 @@ namespace BBL { #define BAMBU_NETWORK_LIBRARY "bambu_networking" #define BAMBU_NETWORK_AGENT_NAME "bambu_network_agent" -#define BAMBU_NETWORK_AGENT_VERSION "01.06.00.01" - +#define BAMBU_NETWORK_AGENT_VERSION "01.06.02.01" //iot preset type strings #define IOT_PRINTER_TYPE_STRING "printer" diff --git a/version.inc b/version.inc index e03bc473dc..53f3b7f9b6 100644 --- a/version.inc +++ b/version.inc @@ -10,5 +10,5 @@ endif() if(NOT DEFINED BBL_INTERNAL_TESTING) set(BBL_INTERNAL_TESTING "1") endif() -set(SoftFever_VERSION "1.6.3") -set(SLIC3R_VERSION "01.06.00.66") \ No newline at end of file +set(SoftFever_VERSION "1.6.4-dev") +set(SLIC3R_VERSION "01.06.02.04") \ No newline at end of file