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Merge branch 'master' of github.com:Ultimaker/Cura into replace_controls_1_for_controls_2

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Jaime van Kessel 2022-01-03 15:32:58 +01:00
commit f11d728c6b
838 changed files with 99530 additions and 92324 deletions
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214
resources/bundled_packages/cura.json
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@ -6,7 +6,7 @@
"display_name": "3MF Reader",
"description": "Provides support for reading 3MF files.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -23,7 +23,7 @@
"display_name": "3MF Writer",
"description": "Provides support for writing 3MF files.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -40,7 +40,7 @@
"display_name": "AMF Reader",
"description": "Provides support for reading AMF files.",
"package_version": "1.0.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "fieldOfView",
@ -57,7 +57,7 @@
"display_name": "Cura Backups",
"description": "Backup and restore your configuration.",
"package_version": "1.2.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -74,7 +74,7 @@
"display_name": "CuraEngine Backend",
"description": "Provides the link to the CuraEngine slicing backend.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -91,7 +91,7 @@
"display_name": "Cura Profile Reader",
"description": "Provides support for importing Cura profiles.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -108,7 +108,7 @@
"display_name": "Cura Profile Writer",
"description": "Provides support for exporting Cura profiles.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -125,7 +125,7 @@
"display_name": "Ultimaker Digital Library",
"description": "Connects to the Digital Library, allowing Cura to open files from and save files to the Digital Library.",
"package_version": "1.1.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -142,7 +142,7 @@
"display_name": "Firmware Update Checker",
"description": "Checks for firmware updates.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -159,7 +159,7 @@
"display_name": "Firmware Updater",
"description": "Provides a machine actions for updating firmware.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -176,7 +176,7 @@
"display_name": "Compressed G-code Reader",
"description": "Reads g-code from a compressed archive.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -193,7 +193,7 @@
"display_name": "Compressed G-code Writer",
"description": "Writes g-code to a compressed archive.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -210,7 +210,7 @@
"display_name": "G-Code Profile Reader",
"description": "Provides support for importing profiles from g-code files.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -227,7 +227,7 @@
"display_name": "G-Code Reader",
"description": "Allows loading and displaying G-code files.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "VictorLarchenko",
@ -244,7 +244,7 @@
"display_name": "G-Code Writer",
"description": "Writes g-code to a file.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -261,7 +261,7 @@
"display_name": "Image Reader",
"description": "Enables ability to generate printable geometry from 2D image files.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -278,7 +278,7 @@
"display_name": "Legacy Cura Profile Reader",
"description": "Provides support for importing profiles from legacy Cura versions.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -295,7 +295,7 @@
"display_name": "Machine Settings Action",
"description": "Provides a way to change machine settings (such as build volume, nozzle size, etc.).",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "fieldOfView",
@ -312,7 +312,7 @@
"display_name": "Model Checker",
"description": "Checks models and print configuration for possible printing issues and give suggestions.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -329,7 +329,7 @@
"display_name": "Monitor Stage",
"description": "Provides a monitor stage in Cura.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -346,7 +346,7 @@
"display_name": "Per-Object Settings Tool",
"description": "Provides the per-model settings.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -363,7 +363,7 @@
"display_name": "Post Processing",
"description": "Extension that allows for user created scripts for post processing.",
"package_version": "2.2.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -380,7 +380,7 @@
"display_name": "Prepare Stage",
"description": "Provides a prepare stage in Cura.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -397,7 +397,7 @@
"display_name": "Preview Stage",
"description": "Provides a preview stage in Cura.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -414,7 +414,7 @@
"display_name": "Removable Drive Output Device",
"description": "Provides removable drive hotplugging and writing support.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -431,7 +431,7 @@
"display_name": "Sentry Logger",
"description": "Logs certain events so that they can be used by the crash reporter",
"package_version": "1.0.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -448,7 +448,7 @@
"display_name": "Simulation View",
"description": "Provides the Simulation view.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -465,7 +465,7 @@
"display_name": "Slice Info",
"description": "Submits anonymous slice info. Can be disabled through preferences.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -482,7 +482,7 @@
"display_name": "Solid View",
"description": "Provides a normal solid mesh view.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -499,7 +499,7 @@
"display_name": "Support Eraser Tool",
"description": "Creates an eraser mesh to block the printing of support in certain places.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -516,7 +516,7 @@
"display_name": "Trimesh Reader",
"description": "Provides support for reading model files.",
"package_version": "1.0.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -533,7 +533,7 @@
"display_name": "Toolbox",
"description": "Find, manage and install new Cura packages.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -550,7 +550,7 @@
"display_name": "UFP Reader",
"description": "Provides support for reading Ultimaker Format Packages.",
"package_version": "1.0.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -567,7 +567,7 @@
"display_name": "UFP Writer",
"description": "Provides support for writing Ultimaker Format Packages.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -584,7 +584,7 @@
"display_name": "Ultimaker Machine Actions",
"description": "Provides machine actions for Ultimaker machines (such as bed leveling wizard, selecting upgrades, etc.).",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -601,7 +601,7 @@
"display_name": "UM3 Network Printing",
"description": "Manages network connections to Ultimaker 3 printers.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -618,7 +618,7 @@
"display_name": "USB Printing",
"description": "Accepts G-Code and sends them to a printer. Plugin can also update firmware.",
"package_version": "1.0.2",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -635,7 +635,7 @@
"display_name": "Version Upgrade 2.1 to 2.2",
"description": "Upgrades configurations from Cura 2.1 to Cura 2.2.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -652,7 +652,7 @@
"display_name": "Version Upgrade 2.2 to 2.4",
"description": "Upgrades configurations from Cura 2.2 to Cura 2.4.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -669,7 +669,7 @@
"display_name": "Version Upgrade 2.5 to 2.6",
"description": "Upgrades configurations from Cura 2.5 to Cura 2.6.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -686,7 +686,7 @@
"display_name": "Version Upgrade 2.6 to 2.7",
"description": "Upgrades configurations from Cura 2.6 to Cura 2.7.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -703,7 +703,7 @@
"display_name": "Version Upgrade 2.7 to 3.0",
"description": "Upgrades configurations from Cura 2.7 to Cura 3.0.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -720,7 +720,7 @@
"display_name": "Version Upgrade 3.0 to 3.1",
"description": "Upgrades configurations from Cura 3.0 to Cura 3.1.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -737,7 +737,7 @@
"display_name": "Version Upgrade 3.2 to 3.3",
"description": "Upgrades configurations from Cura 3.2 to Cura 3.3.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -754,7 +754,7 @@
"display_name": "Version Upgrade 3.3 to 3.4",
"description": "Upgrades configurations from Cura 3.3 to Cura 3.4.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -771,7 +771,7 @@
"display_name": "Version Upgrade 3.4 to 3.5",
"description": "Upgrades configurations from Cura 3.4 to Cura 3.5.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -788,7 +788,7 @@
"display_name": "Version Upgrade 3.5 to 4.0",
"description": "Upgrades configurations from Cura 3.5 to Cura 4.0.",
"package_version": "1.0.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -805,7 +805,7 @@
"display_name": "Version Upgrade 4.0 to 4.1",
"description": "Upgrades configurations from Cura 4.0 to Cura 4.1.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -822,7 +822,7 @@
"display_name": "Version Upgrade 4.1 to 4.2",
"description": "Upgrades configurations from Cura 4.1 to Cura 4.2.",
"package_version": "1.0.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -839,7 +839,7 @@
"display_name": "Version Upgrade 4.2 to 4.3",
"description": "Upgrades configurations from Cura 4.2 to Cura 4.3.",
"package_version": "1.0.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -856,7 +856,7 @@
"display_name": "Version Upgrade 4.3 to 4.4",
"description": "Upgrades configurations from Cura 4.3 to Cura 4.4.",
"package_version": "1.0.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -873,7 +873,7 @@
"display_name": "Version Upgrade 4.4 to 4.5",
"description": "Upgrades configurations from Cura 4.4 to Cura 4.5.",
"package_version": "1.0.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -890,7 +890,7 @@
"display_name": "Version Upgrade 4.5 to 4.6",
"description": "Upgrades configurations from Cura 4.5 to Cura 4.6.",
"package_version": "1.0.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -907,7 +907,7 @@
"display_name": "Version Upgrade 4.6.0 to 4.6.2",
"description": "Upgrades configurations from Cura 4.6.0 to Cura 4.6.2.",
"package_version": "1.0.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -924,7 +924,7 @@
"display_name": "Version Upgrade 4.6.2 to 4.7",
"description": "Upgrades configurations from Cura 4.6.2 to Cura 4.7.",
"package_version": "1.0.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -941,7 +941,7 @@
"display_name": "Version Upgrade 4.7.0 to 4.8.0",
"description": "Upgrades configurations from Cura 4.7.0 to Cura 4.8.0",
"package_version": "1.0.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -958,7 +958,7 @@
"display_name": "Version Upgrade 4.8.0 to 4.9.0",
"description": "Upgrades configurations from Cura 4.8.0 to Cura 4.9.0",
"package_version": "1.0.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -976,7 +976,7 @@
"description": "Upgrades configurations from Cura 4.9 to Cura 4.10",
"package_version": "1.0.0",
"sdk_version": 7,
"sdk_version_semver": "7.8.0",
"sdk_version_semver": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -1011,7 +1011,7 @@
"display_name": "X3D Reader",
"description": "Provides support for reading X3D files.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "SevaAlekseyev",
@ -1028,7 +1028,7 @@
"display_name": "XML Material Profiles",
"description": "Provides capabilities to read and write XML-based material profiles.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -1045,7 +1045,7 @@
"display_name": "X-Ray View",
"description": "Provides the X-Ray view.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com",
"author": {
"author_id": "UltimakerPackages",
@ -1062,7 +1062,7 @@
"display_name": "Generic ABS",
"description": "The generic ABS profile which other profiles can be based upon.",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://github.com/Ultimaker/fdm_materials",
"author": {
"author_id": "Generic",
@ -1080,7 +1080,7 @@
"display_name": "Generic BAM",
"description": "The generic BAM profile which other profiles can be based upon.",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://github.com/Ultimaker/fdm_materials",
"author": {
"author_id": "Generic",
@ -1098,7 +1098,7 @@
"display_name": "Generic CFF CPE",
"description": "The generic CFF CPE profile which other profiles can be based upon.",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://github.com/Ultimaker/fdm_materials",
"author": {
"author_id": "Generic",
@ -1116,7 +1116,7 @@
"display_name": "Generic CFF PA",
"description": "The generic CFF PA profile which other profiles can be based upon.",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://github.com/Ultimaker/fdm_materials",
"author": {
"author_id": "Generic",
@ -1134,7 +1134,7 @@
"display_name": "Generic CPE",
"description": "The generic CPE profile which other profiles can be based upon.",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://github.com/Ultimaker/fdm_materials",
"author": {
"author_id": "Generic",
@ -1152,7 +1152,7 @@
"display_name": "Generic CPE+",
"description": "The generic CPE+ profile which other profiles can be based upon.",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://github.com/Ultimaker/fdm_materials",
"author": {
"author_id": "Generic",
@ -1170,7 +1170,7 @@
"display_name": "Generic GFF CPE",
"description": "The generic GFF CPE profile which other profiles can be based upon.",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://github.com/Ultimaker/fdm_materials",
"author": {
"author_id": "Generic",
@ -1188,7 +1188,7 @@
"display_name": "Generic GFF PA",
"description": "The generic GFF PA profile which other profiles can be based upon.",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://github.com/Ultimaker/fdm_materials",
"author": {
"author_id": "Generic",
@ -1206,7 +1206,7 @@
"display_name": "Generic HIPS",
"description": "The generic HIPS profile which other profiles can be based upon.",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://github.com/Ultimaker/fdm_materials",
"author": {
"author_id": "Generic",
@ -1224,7 +1224,7 @@
"display_name": "Generic Nylon",
"description": "The generic Nylon profile which other profiles can be based upon.",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://github.com/Ultimaker/fdm_materials",
"author": {
"author_id": "Generic",
@ -1242,7 +1242,7 @@
"display_name": "Generic PC",
"description": "The generic PC profile which other profiles can be based upon.",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://github.com/Ultimaker/fdm_materials",
"author": {
"author_id": "Generic",
@ -1260,7 +1260,7 @@
"display_name": "Generic PETG",
"description": "The generic PETG profile which other profiles can be based upon.",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://github.com/Ultimaker/fdm_materials",
"author": {
"author_id": "Generic",
@ -1278,7 +1278,7 @@
"display_name": "Generic PLA",
"description": "The generic PLA profile which other profiles can be based upon.",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://github.com/Ultimaker/fdm_materials",
"author": {
"author_id": "Generic",
@ -1296,7 +1296,7 @@
"display_name": "Generic PP",
"description": "The generic PP profile which other profiles can be based upon.",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://github.com/Ultimaker/fdm_materials",
"author": {
"author_id": "Generic",
@ -1314,7 +1314,7 @@
"display_name": "Generic PVA",
"description": "The generic PVA profile which other profiles can be based upon.",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://github.com/Ultimaker/fdm_materials",
"author": {
"author_id": "Generic",
@ -1332,7 +1332,7 @@
"display_name": "Generic Tough PLA",
"description": "The generic Tough PLA profile which other profiles can be based upon.",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://github.com/Ultimaker/fdm_materials",
"author": {
"author_id": "Generic",
@ -1350,7 +1350,7 @@
"display_name": "Generic TPU",
"description": "The generic TPU profile which other profiles can be based upon.",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://github.com/Ultimaker/fdm_materials",
"author": {
"author_id": "Generic",
@ -1368,7 +1368,7 @@
"display_name": "Dagoma Chromatik PLA",
"description": "Filament testé et approuvé pour les imprimantes 3D Dagoma. Chromatik est l'idéal pour débuter et suivre les tutoriels premiers pas. Il vous offre qualité et résistance pour chacune de vos impressions.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://dagoma.fr/boutique/filaments.html",
"author": {
"author_id": "Dagoma",
@ -1385,7 +1385,7 @@
"display_name": "FABtotum ABS",
"description": "This material is easy to be extruded but it is not the simplest to use. It is one of the most used in 3D printing to get very well finished objects. It is not sustainable and its smoke can be dangerous if inhaled. The reason to prefer this filament to PLA is mainly because of its precision and mechanical specs. ABS (for plastic) stands for Acrylonitrile Butadiene Styrene and it is a thermoplastic which is widely used in everyday objects. It can be printed with any FFF 3D printer which can get to high temperatures as it must be extruded in a range between 220° and 245°, so its compatible with all versions of the FABtotum Personal fabricator.",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://store.fabtotum.com/eu/products/filaments.html?filament_type=40",
"author": {
"author_id": "FABtotum",
@ -1402,7 +1402,7 @@
"display_name": "FABtotum Nylon",
"description": "When 3D printing started this material was not listed among the extrudable filaments. It is flexible as well as resistant to tractions. It is well known for its uses in textile but also in industries which require a strong and flexible material. There are different kinds of Nylon: 3D printing mostly uses Nylon 6 and Nylon 6.6, which are the most common. It requires higher temperatures to be printed, so a 3D printer must be able to reach them (around 240°C): the FABtotum, of course, can.",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://store.fabtotum.com/eu/products/filaments.html?filament_type=53",
"author": {
"author_id": "FABtotum",
@ -1419,7 +1419,7 @@
"display_name": "FABtotum PLA",
"description": "It is the most common filament used for 3D printing. It is studied to be bio-degradable as it comes from corn starchs sugar mainly. It is completely made of renewable sources and has no footprint on polluting. PLA stands for PolyLactic Acid and it is a thermoplastic that today is still considered the easiest material to be 3D printed. It can be extruded at lower temperatures: the standard range of FABtotums one is between 185° and 195°.",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://store.fabtotum.com/eu/products/filaments.html?filament_type=39",
"author": {
"author_id": "FABtotum",
@ -1436,7 +1436,7 @@
"display_name": "FABtotum TPU Shore 98A",
"description": "",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://store.fabtotum.com/eu/products/filaments.html?filament_type=66",
"author": {
"author_id": "FABtotum",
@ -1453,7 +1453,7 @@
"display_name": "Fiberlogy HD PLA",
"description": "With our HD PLA you have many more options. You can use this material in two ways. Choose the one you like best. You can use it as a normal PLA and get prints characterized by a very good adhesion between the layers and high precision. You can also make your prints acquire similar properties to that of ABS better impact resistance and high temperature resistance. All you need is an oven. Yes, an oven! By annealing our HD PLA in an oven, in accordance with the manual, you will avoid all the inconveniences of printing with ABS, such as unpleasant odour or hazardous fumes.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "http://fiberlogy.com/en/fiberlogy-filaments/filament-hd-pla/",
"author": {
"author_id": "Fiberlogy",
@ -1470,7 +1470,7 @@
"display_name": "Filo3D PLA",
"description": "Fast, safe and reliable printing. PLA is ideal for the fast and reliable printing of parts and prototypes with a great surface quality.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://dagoma.fr",
"author": {
"author_id": "Dagoma",
@ -1487,7 +1487,7 @@
"display_name": "IMADE3D JellyBOX PETG",
"description": "",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "http://shop.imade3d.com/filament.html",
"author": {
"author_id": "IMADE3D",
@ -1504,7 +1504,7 @@
"display_name": "IMADE3D JellyBOX PLA",
"description": "",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "http://shop.imade3d.com/filament.html",
"author": {
"author_id": "IMADE3D",
@ -1521,7 +1521,7 @@
"display_name": "Octofiber PLA",
"description": "PLA material from Octofiber.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://nl.octofiber.com/3d-printing-filament/pla.html",
"author": {
"author_id": "Octofiber",
@ -1538,7 +1538,7 @@
"display_name": "PolyFlex™ PLA",
"description": "PolyFlex™ is a highly flexible yet easy to print 3D printing material. Featuring good elasticity and a large strain-to- failure, PolyFlex™ opens up a completely new realm of applications.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "http://www.polymaker.com/shop/polyflex/",
"author": {
"author_id": "Polymaker",
@ -1555,7 +1555,7 @@
"display_name": "PolyMax™ PLA",
"description": "PolyMax™ PLA is a 3D printing material with excellent mechanical properties and printing quality. PolyMax™ PLA has an impact resistance of up to nine times that of regular PLA, and better overall mechanical properties than ABS.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "http://www.polymaker.com/shop/polymax/",
"author": {
"author_id": "Polymaker",
@ -1572,7 +1572,7 @@
"display_name": "PolyPlus™ PLA True Colour",
"description": "PolyPlus™ PLA is a premium PLA designed for all desktop FDM/FFF 3D printers. It is produced with our patented Jam-Free™ technology that ensures consistent extrusion and prevents jams.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "http://www.polymaker.com/shop/polyplus-true-colour/",
"author": {
"author_id": "Polymaker",
@ -1589,7 +1589,7 @@
"display_name": "PolyWood™ PLA",
"description": "PolyWood™ is a wood mimic printing material that contains no actual wood ensuring a clean Jam-Free™ printing experience.",
"package_version": "1.0.1",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "http://www.polymaker.com/shop/polywood/",
"author": {
"author_id": "Polymaker",
@ -1606,7 +1606,7 @@
"display_name": "Ultimaker ABS",
"description": "Example package for material and quality profiles for Ultimaker materials.",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com/products/materials/abs",
"author": {
"author_id": "UltimakerPackages",
@ -1625,7 +1625,7 @@
"display_name": "Ultimaker Breakaway",
"description": "Example package for material and quality profiles for Ultimaker materials.",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com/products/materials/breakaway",
"author": {
"author_id": "UltimakerPackages",
@ -1644,7 +1644,7 @@
"display_name": "Ultimaker CPE",
"description": "Example package for material and quality profiles for Ultimaker materials.",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com/products/materials/abs",
"author": {
"author_id": "UltimakerPackages",
@ -1663,7 +1663,7 @@
"display_name": "Ultimaker CPE+",
"description": "Example package for material and quality profiles for Ultimaker materials.",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com/products/materials/cpe",
"author": {
"author_id": "UltimakerPackages",
@ -1682,7 +1682,7 @@
"display_name": "Ultimaker Nylon",
"description": "Example package for material and quality profiles for Ultimaker materials.",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com/products/materials/abs",
"author": {
"author_id": "UltimakerPackages",
@ -1701,7 +1701,7 @@
"display_name": "Ultimaker PC",
"description": "Example package for material and quality profiles for Ultimaker materials.",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com/products/materials/pc",
"author": {
"author_id": "UltimakerPackages",
@ -1720,7 +1720,7 @@
"display_name": "Ultimaker PLA",
"description": "Example package for material and quality profiles for Ultimaker materials.",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com/products/materials/abs",
"author": {
"author_id": "UltimakerPackages",
@ -1739,7 +1739,7 @@
"display_name": "Ultimaker PP",
"description": "Example package for material and quality profiles for Ultimaker materials.",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com/products/materials/pp",
"author": {
"author_id": "UltimakerPackages",
@ -1758,7 +1758,7 @@
"display_name": "Ultimaker PVA",
"description": "Example package for material and quality profiles for Ultimaker materials.",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com/products/materials/abs",
"author": {
"author_id": "UltimakerPackages",
@ -1777,7 +1777,7 @@
"display_name": "Ultimaker TPU 95A",
"description": "Example package for material and quality profiles for Ultimaker materials.",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com/products/materials/tpu-95a",
"author": {
"author_id": "UltimakerPackages",
@ -1796,7 +1796,7 @@
"display_name": "Ultimaker Tough PLA",
"description": "Example package for material and quality profiles for Ultimaker materials.",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://ultimaker.com/products/materials/tough-pla",
"author": {
"author_id": "UltimakerPackages",
@ -1815,7 +1815,7 @@
"display_name": "Vertex Delta ABS",
"description": "ABS material and quality files for the Delta Vertex K8800.",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://vertex3dprinter.eu",
"author": {
"author_id": "Velleman",
@ -1832,7 +1832,7 @@
"display_name": "Vertex Delta PET",
"description": "ABS material and quality files for the Delta Vertex K8800.",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://vertex3dprinter.eu",
"author": {
"author_id": "Velleman",
@ -1849,7 +1849,7 @@
"display_name": "Vertex Delta PLA",
"description": "ABS material and quality files for the Delta Vertex K8800.",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://vertex3dprinter.eu",
"author": {
"author_id": "Velleman",
@ -1866,7 +1866,7 @@
"display_name": "Vertex Delta TPU",
"description": "ABS material and quality files for the Delta Vertex K8800.",
"package_version": "1.4.0",
"sdk_version": "7.8.0",
"sdk_version": "7.9.0",
"website": "https://vertex3dprinter.eu",
"author": {
"author_id": "Velleman",

2
resources/definitions/anet3d.def.json
View file

@ -74,7 +74,6 @@
"material_initial_print_temperature": { "value": "material_print_temperature" },
"material_final_print_temperature": { "value": "material_print_temperature" },
"material_flow": { "value": 100 },
"travel_compensate_overlapping_walls_0_enabled": { "value": "False" },
"z_seam_type": { "value": "'back'" },
"z_seam_corner": { "value": "'z_seam_corner_weighted'" },
@ -87,7 +86,6 @@
"infill_wipe_dist": { "value": 0 },
"wall_0_wipe_dist": { "value": 0.2 },
"fill_perimeter_gaps": { "value": "'everywhere'" },
"fill_outline_gaps": { "value": false },
"filter_out_tiny_gaps": { "value": true },

17
resources/definitions/anycubic_i3_mega_s.def.json
View file

@ -78,7 +78,6 @@
"material_initial_print_temperature": { "value": "material_print_temperature + 10" },
"material_final_print_temperature": { "value": "material_print_temperature" },
"material_flow": { "value": 100 },
"travel_compensate_overlapping_walls_0_enabled": { "value": "False" },
"infill_sparse_density": { "value": 25 },
"infill_before_walls": { "value": false },
@ -91,21 +90,21 @@
"retraction_hop_enabled": { "value": true },
"retraction_hop": { "value": 0.075 },
"retraction_hop_only_when_collides": { "value": true },
"retraction_hop_only_when_collides": { "value": true },
"retraction_combing": { "value": "'off'" },
"retraction_combing_max_distance": { "value": 30 },
"travel_avoid_other_parts": { "value": true },
"travel_avoid_supports": { "value": true },
"travel_retract_before_outer_wall": { "value": true },
"retraction_amount": { "value": 6 },
"retraction_amount": { "value": 6 },
"retraction_enable": { "value": true },
"retraction_min_travel": { "value": 1.5 },
"cool_fan_full_at_height": { "value": "layer_height_0 + 2 * layer_height" },
"cool_fan_speed": { "value": 70 },
"cool_fan_speed_0": { "value": 30 },
"cool_fan_speed": { "value": 70 },
"cool_fan_speed_0": { "value": 30 },
"cool_fan_enabled": { "value": true },
"cool_min_layer_time": { "value": 10 },
@ -116,7 +115,6 @@
"skirt_line_count": { "value": 4 },
"meshfix_maximum_deviation": { "value": 0.05 },
"support_angle": { "value": "math.floor(math.degrees(math.atan(line_width / 2.0 / layer_height)))" },
"support_pattern": { "value": "'zigzag'" },
"support_infill_rate": { "value": "0 if support_enable and support_structure == 'tree' else 20" },
@ -124,14 +122,15 @@
"support_xy_distance": { "value": "wall_line_width_0 * 2" },
"support_xy_distance_overhang": { "value": "wall_line_width_0" },
"support_z_distance": { "value": "layer_height if layer_height >= 0.16 else layer_height * 2" },
"support_top_distance": { "value": "extruderValue(support_roof_extruder_nr if support_roof_enable else support_infill_extruder_nr, 'support_z_distance') + (layer_height if support_structure == 'tree' else 0)"},
"support_xy_overrides_z": { "value": "'xy_overrides_z'" },
"support_wall_count": { "value": 1 },
"support_brim_enable": { "value": true },
"support_brim_width": { "value": 4 },
"support_interface_enable": { "value": true },
"support_structure": { "value": "'tree'" },
"support_type": { "value": "'buildplate' if support_structure == 'tree' else 'everywhere'" },
"support_structure": { "value": "'tree'" },
"support_type": { "value": "'buildplate' if support_structure == 'tree' else 'everywhere'" },
"support_interface_height": { "value": "layer_height * 4" },
"support_interface_density": { "value": 33.333 },
"support_interface_pattern": { "value": "'grid'" },

2
resources/definitions/artillery_base.def.json
View file

@ -179,7 +179,6 @@
"material_initial_print_temperature": { "value": "material_print_temperature" },
"material_final_print_temperature": { "value": "material_print_temperature" },
"material_flow": { "value": 100 },
"travel_compensate_overlapping_walls_0_enabled": { "value": "False" },
"z_seam_type": { "value": "'back'" },
"z_seam_corner": { "value": "'z_seam_corner_none'" },
@ -192,7 +191,6 @@
"infill_wipe_dist": { "value": 0.0 },
"wall_0_wipe_dist": { "value": 0.0 },
"fill_perimeter_gaps": { "value": "'everywhere'" },
"fill_outline_gaps": { "value": false },
"filter_out_tiny_gaps": { "value": false },

1
resources/definitions/atmat_signal_pro_base.def.json
View file

@ -258,7 +258,6 @@
"layer_height_0": { "resolve": "max(0.2, min(extruderValues('layer_height')))" },
"line_width": { "value": "machine_nozzle_size * 1.125" },
"wall_line_width": { "value": "machine_nozzle_size" },
"fill_perimeter_gaps": { "default_value": "everywhere" },
"fill_outline_gaps": { "value": "True" },
"meshfix_maximum_resolution": { "value": "0.01" },
"meshfix_maximum_deviation": { "value": "layer_height / 2" },

4
resources/definitions/atom2.def.json
View file

@ -22,8 +22,8 @@
"machine_heated_bed": { "default_value": false },
"machine_center_is_zero": { "default_value": true },
"machine_start_gcode": { "default_value": "G21\nG90 \nM107\nG28\nG92 E0\nG1 F200 E3\nG92 E0" },
"machine_end_gcode": { "default_value": "M104 S0\nG28\nG91\nG1 E-6 F300\nM84\nG90" },
"machine_start_gcode": { "default_value": "G21\nG90 \nM107\nG28\nG1 Y-110 Z15\nG0 Z{layer_height_0}\nG92 E0\nG1 F200 Y-100 E6\nG92 E0" },
"machine_end_gcode": { "default_value": "G28\nG91\nG1 E-6 F300\nM104 S0\nG1 E-1000 F5000\nM84\nG90" },
"layer_height": { "default_value": 0.2 },
"default_material_print_temperature": { "default_value": 210 },

1
resources/definitions/bfb.def.json
View file

@ -4,7 +4,6 @@
"inherits": "fdmprinter",
"metadata": {
"visible": true,
"author": "Ultimaker",
"manufacturer": "BFB",
"file_formats": "text/x-gcode",
"platform_offset": [ 0, 0, 0],

2
resources/definitions/biqu_base.def.json
View file

@ -83,7 +83,6 @@
"material_initial_print_temperature": { "value": "material_print_temperature" },
"material_final_print_temperature": { "value": "material_print_temperature" },
"material_flow": { "value": 100 },
"travel_compensate_overlapping_walls_0_enabled": { "value": "False" },
"z_seam_type": { "value": "'sharpest_corner'" },
"z_seam_corner": { "value": "'z_seam_corner_inner'" },
@ -97,7 +96,6 @@
"infill_wipe_dist": { "value": 0.0 },
"wall_0_wipe_dist": { "value": 0.0 },
"fill_perimeter_gaps": { "value": "'everywhere'" },
"fill_outline_gaps": { "value": false },
"filter_out_tiny_gaps": { "value": false },

3
resources/definitions/blv_mgn_cube_base.def.json
View file

@ -45,9 +45,6 @@
"machine_gcode_flavor": {
"default_value": "RepRap (RepRap)"
},
"fill_perimeter_gaps": {
"value": "'everywhere'"
},
"fill_outline_gaps": {
"value": true
},

4
resources/definitions/crazy3dprint_cz_300.def.json
View file

@ -1,5 +1,5 @@
{
"version": 2,
"version": 2,
"name": "Crazy3DPrint CZ-300",
"inherits": "crazy3dprint_base",
"metadata": {
@ -52,9 +52,9 @@
"skirt_line_count": { "default_value" : 5 },
"initial_layer_line_width_factor": { "default_value" : 140 },
"top_bottom_pattern": { "default_value" : "concentric" },
"outer_inset_first": { "default_value": true },
"fill_outline_gaps": { "default_value": true },
"machine_gcode_flavor": { "default_value": "RepRap (Marlin/Sprinter)" },
"inset_direction": {"value": "'outside_in'" },
"machine_start_gcode": {
"default_value": "G28 ; home all axes\nG1 Z15 F5000 ; lift nozzle\nG92 E0\nG1 F200 E3\n"
},

5
resources/definitions/creality_base.def.json
View file

@ -183,7 +183,6 @@
"material_initial_print_temperature": { "value": "material_print_temperature" },
"material_final_print_temperature": { "value": "material_print_temperature" },
"material_flow": { "value": 100 },
"travel_compensate_overlapping_walls_0_enabled": { "value": "False" },
"z_seam_type": { "value": "'back'" },
"z_seam_corner": { "value": "'z_seam_corner_weighted'" },
@ -196,7 +195,6 @@
"infill_wipe_dist": { "value": 0.0 },
"wall_0_wipe_dist": { "value": 0.0 },
"fill_perimeter_gaps": { "value": "'everywhere'" },
"fill_outline_gaps": { "value": false },
"filter_out_tiny_gaps": { "value": false },
@ -247,7 +245,8 @@
"support_use_towers": { "value": false },
"support_xy_distance": { "value": "wall_line_width_0 * 2" },
"support_xy_distance_overhang": { "value": "wall_line_width_0" },
"support_z_distance": { "value": "layer_height if layer_height >= 0.16 else layer_height*2" },
"support_z_distance": { "value": "layer_height if layer_height >= 0.16 else layer_height * 2" },
"support_top_distance": { "value": "extruderValue(support_roof_extruder_nr if support_roof_enable else support_infill_extruder_nr, 'support_z_distance') + (layer_height if support_structure == 'tree' else 0)"},
"support_xy_overrides_z": { "value": "'xy_overrides_z'" },
"support_wall_count": { "value": 1 },
"support_brim_enable": { "value": true },

25
resources/definitions/creality_cr100.def.json Normal file
View file

@ -0,0 +1,25 @@
{
"name": "Creality CR-100",
"version": 2,
"inherits": "creality_base",
"overrides": {
"machine_name": { "default_value": "Creality CR-100" },
"machine_width": { "default_value": 100 },
"machine_depth": { "default_value": 100 },
"machine_height": { "default_value": 80 },
"machine_head_with_fans_polygon": { "default_value": [
[-26, 34],
[-26, -32],
[32, -32],
[32, 34]
]
},
"gantry_height": { "value": 25 }
},
"metadata": {
"quality_definition": "creality_base",
"visible": true
}
}

2
resources/definitions/creality_ender5.def.json
View file

@ -4,7 +4,7 @@
"inherits": "creality_base",
"overrides": {
"machine_name": { "default_value": "Creality Ender-5" },
"machine_end_gcode": { "default_value": "G91 ;Relative positioning\nG1 E-2 F2700 ;Retract a bit\nG1 E-2 Z0.2 F2400 ;Retract and raise Z\nG1 X5 Y5 F3000 ;Wipe out\nG1 Z10 ;Raise Z more\nG90 ;Absolute positioning\n\nG1 X0 Y0 ;Present print\nM106 S0 ;Turn-off fan\nM104 S0 ;Turn-off hotend\nM140 S0 ;Turn-off bed\n\nM84 X Y E ;Disable all steppers but Z\n" },
"machine_end_gcode": { "default_value": "G91 ;Relative positioning\nG1 E-2 F2700 ;Retract a bit\nG1 E-2 Z0.2 F2400 ;Retract and raise Z\nG1 X5 Y5 F3000 ;Wipe out\nG1 Z10 ;Raise Z more\nG90 ;Absolute positioning\n\nG28 X0 Y0 ;Present print\nM106 S0 ;Turn-off fan\nM104 S0 ;Turn-off hotend\nM140 S0 ;Turn-off bed\n\nM84 X Y E ;Disable all steppers but Z\n" },
"machine_width": { "default_value": 220 },
"machine_depth": { "default_value": 220 },
"machine_height": { "default_value": 300 },

25
resources/definitions/creality_sermoond1.def.json Normal file
View file

@ -0,0 +1,25 @@
{
"name": "Creality Sermoon D1",
"version": 2,
"inherits": "creality_base",
"overrides": {
"machine_name": { "default_value": "Creality Sermoon D1" },
"machine_width": { "default_value": 280 },
"machine_depth": { "default_value": 260 },
"machine_height": { "default_value": 310 },
"machine_head_with_fans_polygon": { "default_value": [
[-26, 34],
[-26, -32],
[32, -32],
[32, 34]
]
},
"gantry_height": { "value": 25 }
},
"metadata": {
"quality_definition": "creality_base",
"visible": true
}
}

4
resources/definitions/cubicon_common.def.json
View file

@ -20,9 +20,6 @@
"machine_heated_bed": {
"default_value": true
},
"travel_compensate_overlapping_walls_enabled": {
"default_value": false
},
"layer_height": {
"default_value": 0.2
},
@ -33,7 +30,6 @@
"default_value": "raft"
},
"top_bottom_pattern": { "default_value": "lines" },
"fill_perimeter_gaps": { "default_value": "everywhere" },
"infill_sparse_density": { "default_value": 20 },
"infill_before_walls": { "default_value": false },
"top_bottom_thickness": {

1
resources/definitions/eazao_zero.def.json
View file

@ -84,7 +84,6 @@
"wall_thickness": {"value":3.0},
"optimize_wall_printing_order": { "value": "True" },
"travel_compensate_overlapping_walls_enabled": { "value": false},
"top_bottom_thickness": {"value":0},
"bottom_layers":{"value":2},

4
resources/definitions/eryone_er20.def.json
View file

@ -48,10 +48,10 @@
},
"gantry_height":{ "value": "0" },
"machine_start_gcode": {
"default_value": "G90 ; use absolute coordinates\nM140 S[first_layer_bed_temperature] ; set bed temp\nM190 S[first_layer_bed_temperature] ; wait for bed temp\nG28 ; home all without mesh bed level\nG29 ; mesh bed leveling/ABL\nM104 S[first_layer_temperature] ; set extruder temp\nG92 E0.0\nG1 Y-2.0 X150 F2400G1 Z3 F720\nM109 S[first_layer_temperature] ; wait for extruder temp\nG1 X150 F1000\nG1 Z0.2 F720\nG1 X80.0 E8.0 F900\nG1 X20.0 E10.0 F700\nG92 E0.0\nM221 S95 ; set flow\n"
"default_value": "G21 ;Metric values\nG90 ;Absolute positioning\nM82 ;Set extruder to absolute mode\nM107 ;Start with the fan off\nG28 ;Homing the hotend\nG29 ;Auto bed leveling detecting\nG92 E0 ;Reset the extruded length\nG1 F200 E3 ;Extrude 3mm of filament\nG92 E0 ;Reset the extruded length again\nG1 Y-3 F1200 ;Move y axis to prime\nG1 X150 F6000 ;Move x axis to prime\nG1 Z0.2 F720 ;Move z axis to prime\nG1 X80.0 E8.0 F900 ;Prime line\nG1 X20.0 E10.0 F700 ;Prime line\nG92 E0 ;Reset the extruded length\nG5 ;Enable resume from power failure\nM117 Printing...\n"
},
"machine_end_gcode": {
"default_value": "M104 S0 ; turn off extruder\nM140 S0 ; turn off bed\nM84 ; disable motors\nM107\nG91 ;relative positioning\nG1 E-1 F300 ;retract the filament a bit before lifting the nozzle, to release some of the pressure\nG1 Z+0.5 E-5 ;X-20 Y-20 F{speed_travel} ;move Z up a bit and retract filament even more\nG28 X0 ;Y0 ;move X/Y to min endstops, so the head is out of the way\nG1 Y180 F2000\nM84 ;steppers off\nG90\nM300 P300 S4000"
"default_value": "G91 ;Relative positioning\nG1 Z5 F720 ;Raise Z\nG1 E-5 F300 ;Retract a bit to protect nozzle\nM104 S0 ;Turn off extruder\nM140 S0 ;Turn off bed\nM107 ;Turn off all fans\nG90 ;Absolute positioning\nG1 X230 Y200 F4800 ;Parking the hotend\nM84 X Y E ;All steppers off but left Z\n"
},
"material_print_temperature": {
"value": 205

289
resources/definitions/eryone_thinker.def.json
View file

@ -54,7 +54,7 @@
"value": 30
},
"machine_gcode_flavor": {
"default_value": "Marlin"
"default_value": "RepRap (Marlin/Sprinter)"
},
"machine_start_gcode": {
"default_value": "G21 ;metric values\nG90 ;absolute positioning\nM82 ;set extruder to absolute mode\nM107 ;start with the fan off\nG28 X0 Y0 ;move X/Y to min endstops\nG28 Z0 ;move Z to min endstops\nG1 Z10.0 F600 ;move the platform down 10mm\nG92 E0 ;zero the extruded length\nG1 F200 E3 ;extrude 3mm of feed stock\nG92 E0 ;zero the extruded length again\nG1 Y-3 F1200 ;move to prime\nG1 X10 F1200 ;\nG1 Z0.1 F600 ;get ready to prime\nG1 X120 E15 F1200 ;prime nozzle \nG1 X120 F3600 ;quick wipe\nG92 E0 ;zero the extruded length\nM413 S1 ;enable resume from power failure\nM117 Printing..."
@ -62,6 +62,112 @@
"machine_end_gcode": {
"default_value": "M104 S0 ;turn off extruder\nM140 S0 ;turn off bed\nM107 ;turn off all fans\nG91 ;relative positioning\nG1 E-1 F300 ;retract the filament a bit before lifting the nozzle, to release some of the pressure\nG1 Z+0.5 E-5 ;move Z up a bit and retract filament even more\nG90 ;absolute positioning\nG1 X0 Y250 F4800 ; position for easy part removal\nM84 ;steppers off"
},
"layer_height": {
"value": 0.2
},
"layer_height_0": {
"resolve": "max(0.1, layer_height)"
},
"initial_layer_line_width_factor": {
"value": 120
},
"wall_line_count": {
"value": 3
},
"wall_thickness": {
"value": "line_width * wall_line_count"
},
"optimize_wall_printing_order": {
"default_value": true
},
"z_seam_type": {
"value": "'shortest'"
},
"z_seam_corner": {
"value": "'z_seam_corner_inner'"
},
"roofing_layer_count": {
"value": 1
},
"top_layers": {
"value": 6
},
"top_thickness":{
"value": "layer_height * top_layers"
},
"bottom_layers": {
"value": 4
},
"bottom_thickness":{
"value": "layer_height * bottom_layers"
},
"skin_overlap": {
"value": 10
},
"infill_sparse_density": {
"value": 20
},
"infill_pattern": {
"value": "'lines' if infill_sparse_density > 25 else 'grid'"
},
"infill_overlap": {
"value": "25 if infill_sparse_density < 95 and infill_pattern != 'concentric' else 0"
},
"infill_before_walls": {
"value": false
},
"inset_direction": {
"default_value": "inside_out"
},
"material_print_temperature": {
"value": "default_material_print_temperature",
"maximum_value_warning": 250
},
"material_print_temperature_layer_0": {
"value": "material_print_temperature + 5",
"maximum_value_warning": 250
},
"material_initial_print_temperature": {
"value": "material_print_temperature",
"maximum_value_warning": 250
},
"material_final_print_temperature": {
"value": "material_print_temperature"
},
"material_bed_temperature": {
"value": "default_material_bed_temperature",
"maximum_value_warning": 100
},
"material_bed_temperature_layer_0": {
"value": "material_bed_temperature"
},
"speed_infill": {
"value": "speed_print"
},
"speed_wall": {
"value": "speed_print"
},
"speed_wall_0": {
"value": "math.ceil(speed_print * 30 / 50)"
},
"speed_wall_x": {
"value": "speed_print"
},
"speed_topbottom": {
"value": "math.ceil(speed_print * 20 / 50)"
},
"speed_travel": {
"value": "speed_print if magic_spiralize else 120"
},
"speed_layer_0": {
"value": "math.ceil(speed_print * 30 / 50)"
},
"skirt_brim_speed": {
"value": "math.ceil(speed_print * 40 / 60)"
},
"speed_z_hop": {
"value": "math.ceil(speed_print * 30 / 60)"
},
"acceleration_enabled": {
"value": true
},
@ -71,38 +177,6 @@
"acceleration_travel": {
"value": 1500
},
"adhesion_type": {
"value": "'skirt'"
},
"brim_width": {
"value": 5
},
"cool_fan_full_at_height": {
"value": 0.5
},
"cool_fan_speed": {
"value": 100
},
"cool_fan_speed_0": {
"value": 0
},
"infill_overlap": {
"value": "25 if infill_sparse_density < 95 and infill_pattern != 'concentric' else 0",
"maximum_value_warning": 100,
"minimum_value_warning": -50
},
"infill_pattern": {
"value": "'lines' if infill_sparse_density > 25 else 'grid'"
},
"infill_sparse_density": {
"value": 20
},
"initial_layer_line_width_factor": {
"value": 120
},
"infill_before_walls": {
"value": false
},
"jerk_enabled": {
"value": true
},
@ -112,35 +186,11 @@
"jerk_travel": {
"value": 15
},
"material_bed_temperature": {
"maximum_value_warning": 100
},
"material_print_temperature": {
"maximum_value_warning": 250
},
"optimize_wall_printing_order": {
"default_value": true
},
"outer_inset_first": {
"default_value": false
},
"retract_at_layer_change": {
"value": true
},
"retraction_amount": {
"default_value": 4
},
"retraction_hop": {
"value": 0.075
},
"retraction_hop_enabled": {
"value": false
},
"retraction_hop_only_when_collides": {
"value": true
},
"retraction_min_travel": {
"value": 1.5
"default_value": 4.5
},
"retraction_speed": {
"default_value": 85,
@ -153,101 +203,56 @@
"value": "math.ceil(retraction_speed * 0.4)",
"maximum_value_warning": 130
},
"retraction_min_travel": {
"value": "max(line_width * 2, 1.5)"
},
"retraction_combing": {
"value": "'off' if retraction_hop_enabled else 'noskin'"
},
"skin_overlap": {
"value": 10
},
"skirt_brim_speed": {
"value": "math.ceil(speed_print * 40 / 60)"
},
"skirt_gap": {
"value": 5
},
"skirt_line_count": {
"value": 3
},
"speed_infill": {
"value": "speed_print"
},
"speed_topbottom": {
"value": "math.ceil(speed_print * 20 / 50)"
},
"speed_travel": {
"value": "120"
},
"speed_layer_0": {
"value": "math.ceil(speed_print * 30 / 50)"
},
"speed_wall": {
"value": "speed_print"
},
"speed_wall_0": {
"value": "math.ceil(speed_print * 30 / 50)"
},
"speed_wall_x": {
"value": "speed_print"
},
"support_angle": {
"value": 50
},
"support_enable": {
"default_value": false
},
"support_interface_enable": {
"value": true
},
"support_pattern": {
"value": "'triangles'"
},
"support_roof_enable": {
"value": true
},
"support_type": {
"value": "'everywhere'"
},
"support_use_towers": {
"value": false
},
"support_z_distance": {
"value": 0.3
},
"support_xy_distance": {
"value": 0.7
},
"support_xy_distance_overhang": {
"value": 0.2
},
"smooth_spiralized_contours": {
"value": false
},
"travel_retract_before_outer_wall": {
"value": true
},
"wall_line_count": {
"retraction_hop_enabled": {
"value": false
},
"retraction_hop_only_when_collides": {
"value": true
},
"retraction_hop": {
"value": 0.1
},
"support_pattern": {
"value": "'triangles'"
},
"support_z_distance": {
"value": 0.3
},
"support_interface_enable": {
"value": true
},
"support_roof_enable": {
"value": true
},
"support_use_towers": {
"value": false
},
"adhesion_type": {
"value": "'skirt'"
},
"skirt_line_count": {
"value": 3
},
"wall_thickness": {
"value": "line_width * wall_line_count"
},
"bottom_layers": {
"value": "4"
"skirt_gap": {
"value": 5
},
"bottom_thickness":{
"value": "layer_height * bottom_layers"
"brim_width": {
"value": 5
},
"top_layers": {
"value": "6"
"smooth_spiralized_contours": {
"value": false
},
"top_thickness":{
"value": "layer_height * top_layers"
},
"z_seam_type": {
"value": "'shortest'"
},
"z_seam_corner": {
"value": "'z_seam_corner_inner'"
"roofing_monotonic": {
"value": true
}
}
}

2
resources/definitions/erzay3d.def.json
View file

@ -62,8 +62,6 @@
"retraction_amount": { "default_value": 6.5 },
"speed_print": { "default_value": 40 },
"speed_equalize_flow_enabled": { "default_value": true },
"speed_equalize_flow_max": { "default_value": 100 },
"acceleration_print": { "default_value": 1000 },

382
resources/definitions/fdmprinter.def.json
View file

@ -4,7 +4,7 @@
"metadata":
{
"type": "machine",
"author": "Ultimaker",
"author": "Unknown",
"manufacturer": "Unknown",
"setting_version": 19,
"file_formats": "text/x-gcode;model/stl;application/x-wavefront-obj;application/x3g",
@ -159,6 +159,16 @@
"settable_per_extruder": false,
"settable_per_meshgroup": false
},
"machine_height":
{
"label": "Machine Height",
"description": "The height (Z-direction) of the printable area.",
"default_value": 100,
"type": "float",
"settable_per_mesh": false,
"settable_per_extruder": false,
"settable_per_meshgroup": false
},
"machine_shape":
{
"label": "Build Plate Shape",
@ -189,16 +199,6 @@
"settable_per_extruder": false,
"settable_per_meshgroup": false
},
"machine_height":
{
"label": "Machine Height",
"description": "The height (Z-direction) of the printable area.",
"default_value": 100,
"type": "float",
"settable_per_mesh": false,
"settable_per_extruder": false,
"settable_per_meshgroup": false
},
"machine_heated_bed":
{
"label": "Has Heated Build Plate",
@ -448,7 +448,7 @@
"machine_head_with_fans_polygon":
{
"label": "Machine Head & Fan Polygon",
"description": "A 2D silhouette of the print head (fan caps included).",
"description": "The shape of the print head. These are coordinates relative to the position of the print head, which is usually the position of its first extruder. The dimensions left and in front of the print head must be negative coordinates.",
"type": "polygon",
"default_value":
[
@ -571,7 +571,7 @@
},
"machine_max_feedrate_e":
{
"label": "Maximum Feedrate",
"label": "Maximum Speed E",
"description": "The maximum speed of the filament.",
"unit": "mm/s",
"type": "float",
@ -831,7 +831,7 @@
"description": "Width of the outermost wall line. By lowering this value, higher levels of detail can be printed.",
"unit": "mm",
"minimum_value": "0.001",
"minimum_value_warning": "(0.1 + 0.4 * machine_nozzle_size) if outer_inset_first else 0.1 * machine_nozzle_size",
"minimum_value_warning": "(0.1 + 0.4 * machine_nozzle_size) if inset_direction == \"outside_in\" else 0.1 * machine_nozzle_size",
"maximum_value_warning": "2 * machine_nozzle_size",
"default_value": 0.4,
"value": "wall_line_width",
@ -1056,6 +1056,7 @@
"minimum_value": "0",
"minimum_value_warning": "line_width",
"maximum_value_warning": "10 * line_width",
"maximum_value": "999999 * line_width",
"type": "float",
"limit_to_extruder": "wall_x_extruder_nr",
"settable_per_mesh": true,
@ -1069,6 +1070,7 @@
"minimum_value": "0",
"minimum_value_warning": "1",
"maximum_value_warning": "10",
"maximum_value": "999999",
"type": "int",
"value": "1 if magic_spiralize else max(1, round((wall_thickness - wall_line_width_0) / wall_line_width_x) + 1) if wall_thickness != 0 else 0",
"limit_to_extruder": "wall_x_extruder_nr",
@ -1076,6 +1078,98 @@
}
}
},
"beading_strategy_type":
{
"label": "Variable Line Strategy",
"description": "Strategy to use to print the width of a part with a number of walls. This determines how many walls it will use for a certain total width, and how wide each of these lines are. \"Center Deviation\" will print all walls at the nominal line width except the central one(s), causing big variations in the center but very consistent outsides. \"Distributed\" distributes the width equally over all walls. \"Inward Distributed\" is a balance between the other two, distributing the changes in width over all walls but keeping the walls on the outside slightly more consistent.",
"type": "enum",
"options":
{
"center_deviation": "Center Deviation",
"distributed": "Distributed",
"inward_distributed": "Inward Distributed"
},
"default_value": "inward_distributed",
"limit_to_extruder": "wall_0_extruder_nr"
},
"wall_transition_threshold": {
"label": "Middle Line Threshold",
"description": "The smallest line width, as a factor of the normal line width, below which it will choose to use fewer, but wider lines to fill the available space the wall needs to occupy. Reduce this setting to use more, thinner lines. Increase to use fewer, wider lines. Note that this applies -as if- the entire shape should be filled with wall, so the middle here refers to the middle of the object between two outer edges of the shape, even if there actually is fill or (other) skin in the print instead of wall.",
"type": "float",
"unit": "%",
"default_value": 90,
"minimum_value": "1",
"maximum_value": "99",
"children":
{
"wall_split_middle_threshold": {
"label": "Split Middle Line Threshold",
"description": "The smallest line width, as a factor of the normal line width, above which the middle line (if there is one) will be split into two. Reduce this setting to use more, thinner lines. Increase to use fewer, wider lines. Note that this applies -as if- the entire shape should be filled with wall, so the middle here refers to the middle of the object between two outer edges of the shape, even if there actually is fill or (other) skin in the print instead of wall.",
"type": "float",
"unit": "%",
"default_value": 50,
"value": "wall_transition_threshold",
"minimum_value": "1",
"maximum_value": "99"
},
"wall_add_middle_threshold": {
"label": "Add Middle Line Threshold",
"description": "The smallest line width, as a factor of the normal line width, above which a middle line (if there wasn't one already) will be added. Reduce this setting to use more, thinner lines. Increase to use fewer, wider lines. Note that this applies -as if- the entire shape should be filled with wall, so the middle here refers to the middle of the object between two outer edges of the shape, even if there actually is fill or (other) skin in the print instead of wall.",
"type": "float",
"unit": "%",
"default_value": 50,
"value": "wall_transition_threshold * 8 / 9",
"minimum_value": "1",
"maximum_value": "99"
}
}
},
"wall_transition_length":
{
"label": "Wall Transition Length",
"description": "When transitioning between different numbers of walls as the part becomes thinner, a certain amount of space is allotted to split or join the wall lines.",
"type": "float",
"unit": "mm",
"default_value": 0.4,
"value": "line_width",
"minimum_value": "0.001",
"minimum_value_warning": "0.5 * line_width",
"maximum_value_warning": "2 * line_width",
"maximum_value": "min_bead_width * 3 * math.pi"
},
"wall_distribution_count":
{
"label": "Wall Distribution Count",
"description": "The number of walls, counted from the center, over which the variation needs to be spread. Lower values mean that the outer walls don't change in width.",
"type": "int",
"default_value": 1,
"minimum_value": "1",
"enabled": "beading_strategy_type == 'inward_distributed'"
},
"wall_transition_angle":
{
"label": "Wall Transition Angle",
"description": "When transitioning between different numbers of walls as the part becomes thinner, two adjacent walls will join together at this angle. This can make the walls come together faster than what the Wall Transition Length indicates, filling the space better.",
"type": "float",
"unit": "°",
"default_value": 10,
"minimum_value": "1",
"minimum_value_warning": "5",
"maximum_value_warning": "50",
"maximum_value": "59"
},
"wall_transition_filter_distance":
{
"label": "Wall Transition Distance Filter",
"description": "If it would be transitioning back and forth between different numbers of walls in quick succession, don't transition at all. Remove transitions if they are closer together than this distance.",
"type": "float",
"unit": "mm",
"default_value": 1.4,
"value": "4 * math.cos(wall_transition_angle / 180 * math.pi) * wall_line_width_x",
"minimum_value": "wall_transition_length",
"minimum_value_warning": "math.cos(wall_transition_angle / 180 * math.pi) * wall_line_width_x",
"maximum_value_warning": "10 * math.cos(wall_transition_angle / 180 * math.pi) * wall_line_width_x"
},
"wall_0_wipe_dist":
{
"label": "Outer Wall Wipe Distance",
@ -1096,7 +1190,7 @@
"unit": "mm",
"type": "float",
"default_value": 0.0,
"value": "(machine_nozzle_size - wall_line_width_0) / 2 if (wall_line_width_0 < machine_nozzle_size and not outer_inset_first) else 0",
"value": "(machine_nozzle_size - wall_line_width_0) / 2 if (wall_line_width_0 < machine_nozzle_size and inset_direction != \"outside_in\") else 0",
"minimum_value_warning": "0",
"maximum_value_warning": "machine_nozzle_size",
"limit_to_extruder": "wall_0_extruder_nr",
@ -1104,19 +1198,23 @@
},
"optimize_wall_printing_order":
{
"label": "Optimize Wall Printing Order",
"description": "Optimize the order in which walls are printed so as to reduce the number of retractions and the distance travelled. Most parts will benefit from this being enabled but some may actually take longer so please compare the print time estimates with and without optimization. First layer is not optimized when choosing brim as build plate adhesion type.",
"label": "Order Inner Walls By Inset",
"description": "Order inner wall printing by inset-index, instead of by (hole) region.",
"type": "bool",
"default_value": false,
"settable_per_mesh": true
},
"outer_inset_first":
"inset_direction":
{
"label": "Outer Before Inner Walls",
"description": "Prints walls in order of outside to inside when enabled. This can help improve dimensional accuracy in X and Y when using a high viscosity plastic like ABS; however it can decrease outer surface print quality, especially on overhangs.",
"type": "bool",
"default_value": false,
"enabled": "wall_0_extruder_nr == wall_x_extruder_nr",
"label": "Wall Ordering",
"description": "Determines the order in which walls are printed. Printing outer walls earlier helps with dimensional accuracy, as faults from inner walls cannot propagate to the outside. However printing them later allows them to stack better when overhangs are printed.",
"type": "enum",
"options": {
"inside_out": "Inside To Outside",
"outside_in": "Outside To Inside",
"center_last": "Center Last"
},
"default_value": "center_last",
"settable_per_mesh": true
},
"alternate_extra_perimeter":
@ -1128,72 +1226,6 @@
"limit_to_extruder": "infill_extruder_nr",
"settable_per_mesh": true
},
"travel_compensate_overlapping_walls_enabled":
{
"label": "Compensate Wall Overlaps",
"description": "Compensate the flow for parts of a wall being printed where there is already a wall in place.",
"type": "bool",
"default_value": true,
"limit_to_extruder": "wall_x_extruder_nr",
"settable_per_mesh": true,
"children":
{
"travel_compensate_overlapping_walls_0_enabled":
{
"label": "Compensate Outer Wall Overlaps",
"description": "Compensate the flow for parts of an outer wall being printed where there is already a wall in place.",
"type": "bool",
"default_value": true,
"value": "travel_compensate_overlapping_walls_enabled",
"limit_to_extruder": "wall_0_extruder_nr",
"settable_per_mesh": true
},
"travel_compensate_overlapping_walls_x_enabled":
{
"label": "Compensate Inner Wall Overlaps",
"description": "Compensate the flow for parts of an inner wall being printed where there is already a wall in place.",
"type": "bool",
"default_value": true,
"value": "travel_compensate_overlapping_walls_enabled",
"limit_to_extruder": "wall_x_extruder_nr",
"settable_per_mesh": true
}
}
},
"wall_min_flow":
{
"label": "Minimum Wall Flow",
"description": "Minimum allowed percentage flow for a wall line. The wall overlap compensation reduces a wall's flow when it lies close to an existing wall. Walls whose flow is less than this value will be replaced with a travel move. When using this setting, you must enable the wall overlap compensation and print the outer wall before inner walls.",
"unit": "%",
"minimum_value": "0",
"maximum_value": "100",
"default_value": 0,
"type": "float",
"enabled": "travel_compensate_overlapping_walls_0_enabled or travel_compensate_overlapping_walls_x_enabled",
"settable_per_mesh": true
},
"wall_min_flow_retract":
{
"label": "Prefer Retract",
"description": "If enabled, retraction is used rather than combing for travel moves that replace walls whose flow is below the minimum flow threshold.",
"type": "bool",
"default_value": false,
"enabled": "(travel_compensate_overlapping_walls_0_enabled or travel_compensate_overlapping_walls_x_enabled) and wall_min_flow > 0",
"settable_per_mesh": true
},
"fill_perimeter_gaps":
{
"label": "Fill Gaps Between Walls",
"description": "Fills the gaps between walls where no walls fit.",
"type": "enum",
"options": {
"nowhere": "Nowhere",
"everywhere": "Everywhere"
},
"default_value": "everywhere",
"limit_to_extruder": "wall_0_extruder_nr",
"settable_per_mesh": true
},
"filter_out_tiny_gaps":
{
"label": "Filter Out Tiny Gaps",
@ -1207,10 +1239,36 @@
"label": "Print Thin Walls",
"description": "Print pieces of the model which are horizontally thinner than the nozzle size.",
"type": "bool",
"default_value": false,
"default_value": true,
"limit_to_extruder": "wall_0_extruder_nr",
"settable_per_mesh": true
},
"min_feature_size":
{
"label": "Minimum Feature Size",
"description": "Minimum thickness of thin features. Model features that are thinner than this value will not be printed, while features thicker than the Minimum Feature Size will be widened to the Minimum Wall Line Width.",
"unit": "mm",
"value": "wall_line_width_0 / 4",
"minimum_value": "0",
"maximum_value": "wall_line_width_0",
"type": "float",
"limit_to_extruder": "wall_0_extruder_nr",
"enabled": "fill_outline_gaps"
},
"min_bead_width":
{
"label": "Minimum Wall Line Width",
"description": "Width of the wall that will replace thin features (according to the Minimum Feature Size) of the model. If the Minimum Wall Line Width is thinner than the thickness of the feature, the wall will become as thick as the feature itself.",
"unit": "mm",
"value": "wall_line_width_0 * (100.0 + wall_split_middle_threshold)/200",
"default_value": "0.2",
"minimum_value": "0.001",
"minimum_value_warning": "min_feature_size",
"maximum_value_warning": "wall_line_width_0",
"type": "float",
"limit_to_extruder": "wall_0_extruder_nr",
"enabled": "fill_outline_gaps"
},
"xy_offset":
{
"label": "Horizontal Expansion",
@ -1557,6 +1615,7 @@
"default_value": 1,
"minimum_value": "0",
"maximum_value_warning": "10",
"maximum_value": "999999",
"type": "int",
"enabled": "(top_layers > 0 or bottom_layers > 0) and (top_bottom_pattern != 'concentric' or top_bottom_pattern_0 != 'concentric' or (roofing_layer_count > 0 and roofing_pattern != 'concentric'))",
"limit_to_extruder": "top_bottom_extruder_nr",
@ -1999,6 +2058,7 @@
"default_value": 0,
"type": "int",
"minimum_value": "0",
"maximum_value": "999999",
"enabled": "infill_sparse_density > 0",
"limit_to_extruder": "infill_extruder_nr",
"settable_per_mesh": true
@ -2083,9 +2143,9 @@
"default_value": 0,
"type": "int",
"minimum_value": "0",
"maximum_value_warning": "1 if (infill_pattern == 'cross' or infill_pattern == 'cross_3d' or support_pattern == 'concentric') else 5",
"maximum_value_warning": "1 if (infill_pattern == 'cross' or infill_pattern == 'cross_3d' or infill_pattern == 'concentric') else 5",
"maximum_value": "999999 if infill_line_distance == 0 else (20 - math.log(infill_line_distance) / math.log(2))",
"enabled": "infill_pattern != 'lightning' and infill_sparse_density > 0 and infill_pattern != 'cubicsubdiv'",
"enabled": "infill_sparse_density > 0 and infill_pattern not in ['cubicsubdiv', 'cross', 'cross_3d', 'lightning']",
"limit_to_extruder": "infill_extruder_nr",
"settable_per_mesh": true
},
@ -2098,7 +2158,7 @@
"default_value": 1.5,
"minimum_value": "0.0001",
"minimum_value_warning": "3 * resolveOrValue('layer_height')",
"enabled": "infill_pattern != 'lightning' and infill_sparse_density > 0 and gradual_infill_steps > 0 and infill_pattern != 'cubicsubdiv'",
"enabled": "infill_sparse_density > 0 and gradual_infill_steps > 0 and infill_pattern not in ['cubicsubdiv', 'cross', 'cross_3d', 'lightning']",
"limit_to_extruder": "infill_extruder_nr",
"settable_per_mesh": true
},
@ -2452,7 +2512,42 @@
"maximum_value_warning": "120",
"settable_per_mesh": false,
"settable_per_extruder": false,
"resolve": "sum(extruderValues(\"material_shrinkage_percentage\")) / len(extruderValues(\"material_shrinkage_percentage\"))"
"resolve": "sum(extruderValues(\"material_shrinkage_percentage\")) / len(extruderValues(\"material_shrinkage_percentage\"))",
"children":
{
"material_shrinkage_percentage_xy":
{
"label": "Horizontal Scaling Factor Shrinkage Compensation",
"description": "To compensate for the shrinkage of the material as it cools down, the model will be scaled with this factor in the XY-direction (horizontally).",
"unit": "%",
"type": "float",
"default_value": 100.0,
"enabled": false,
"minimum_value": "0.001",
"minimum_value_warning": "100",
"maximum_value_warning": "120",
"settable_per_mesh": false,
"settable_per_extruder": false,
"resolve": "sum(extruderValues(\"material_shrinkage_percentage_xy\")) / len(extruderValues(\"material_shrinkage_percentage_xy\"))",
"value": "material_shrinkage_percentage"
},
"material_shrinkage_percentage_z":
{
"label": "Vertical Scaling Factor Shrinkage Compensation",
"description": "To compensate for the shrinkage of the material as it cools down, the model will be scaled with this factor in the Z-direction (vertically).",
"unit": "%",
"type": "float",
"default_value": 100.0,
"enabled": false,
"minimum_value": "0.001",
"minimum_value_warning": "100",
"maximum_value_warning": "120",
"settable_per_mesh": false,
"settable_per_extruder": false,
"resolve": "sum(extruderValues(\"material_shrinkage_percentage_z\")) / len(extruderValues(\"material_shrinkage_percentage_z\"))",
"value": "material_shrinkage_percentage"
}
}
},
"material_crystallinity":
{
@ -3163,26 +3258,15 @@
"settable_per_mesh": false,
"settable_per_extruder": false
},
"speed_equalize_flow_enabled":
"speed_equalize_flow_width_factor":
{
"label": "Equalize Filament Flow",
"description": "Print thinner than normal lines faster so that the amount of material extruded per second remains the same. Thin pieces in your model might require lines printed with smaller line width than provided in the settings. This setting controls the speed changes for such lines.",
"type": "bool",
"default_value": false,
"settable_per_mesh": false,
"settable_per_extruder": true
},
"speed_equalize_flow_max":
{
"label": "Maximum Speed for Flow Equalization",
"description": "Maximum print speed when adjusting the print speed in order to equalize flow.",
"label": "Flow Equalization Ratio",
"description": "Extrusion width based correction factor on the speed. At 0% the movement speed is kept constant at the Print Speed. At 100% the movement speed is adjusted so that the flow (in mm³/s) is kept constant, i.e. lines half the normal Line Width are printed twice as fast and lines twice as wide are printed half as fast. A value larger than 100% can help to compensate for the higher pressure required to extrude wide lines.",
"type": "float",
"unit": "mm/s",
"enabled": "speed_equalize_flow_enabled",
"default_value": 150,
"minimum_value": "0.1",
"maximum_value": "math.sqrt(machine_max_feedrate_x ** 2 + machine_max_feedrate_y ** 2)",
"maximum_value_warning": "150",
"unit": "%",
"default_value": 100.0,
"minimum_value": "0.0",
"maximum_value_warning": "200.0",
"settable_per_mesh": false,
"settable_per_extruder": true
},
@ -4446,6 +4530,7 @@
"minimum_value": "0",
"minimum_value_warning": "1 if support_pattern == 'concentric' else 0",
"maximum_value_warning": "0 if (support_skip_some_zags and support_pattern == 'zigzag') else 3",
"maximum_value": "999999",
"type": "int",
"value": "1 if support_enable and support_structure == 'tree' else (1 if (support_pattern == 'grid' or support_pattern == 'triangles' or support_pattern == 'concentric') else 0)",
"enabled": "support_enable or support_meshes_present",
@ -4556,6 +4641,7 @@
"default_value": 8.0,
"minimum_value": "0.0",
"maximum_value_warning": "50.0",
"maximum_value": "0.5 * min(machine_width, machine_depth)",
"enabled": "(support_enable or support_meshes_present) and support_brim_enable",
"settable_per_mesh": false,
"settable_per_extruder": true,
@ -4570,6 +4656,7 @@
"default_value": 20,
"minimum_value": "0",
"maximum_value_warning": "50 / skirt_brim_line_width",
"maximum_value": "0.5 * min(machine_width, machine_depth) / skirt_brim_line_width",
"value": "math.ceil(support_brim_width / (skirt_brim_line_width * initial_layer_line_width_factor / 100.0))",
"enabled": "(support_enable or support_meshes_present) and support_brim_enable",
"settable_per_mesh": false,
@ -4602,7 +4689,7 @@
"default_value": 0.1,
"type": "float",
"enabled": "support_enable or support_meshes_present",
"value": "extruderValue(support_roof_extruder_nr if support_roof_enable else support_infill_extruder_nr, 'support_z_distance')",
"value": "extruderValue(support_roof_extruder_nr if support_roof_enable else support_infill_extruder_nr, 'support_z_distance') + (layer_height if support_structure == 'tree' else 0)",
"limit_to_extruder": "support_roof_extruder_nr if support_roof_enable else support_infill_extruder_nr",
"settable_per_mesh": true
},
@ -5333,6 +5420,7 @@
"default_value": 1,
"minimum_value": "0",
"maximum_value_warning": "10",
"maximum_value": "0.5 * min(machine_width, machine_depth) / skirt_brim_line_width",
"enabled": "resolveOrValue('adhesion_type') == 'skirt'",
"settable_per_mesh": false,
"settable_per_extruder": true,
@ -5458,7 +5546,7 @@
"default_value": 5,
"minimum_value": "0",
"minimum_value_warning": "raft_interface_line_width",
"enabled": "resolveOrValue('adhesion_type') == 'raft'",
"enabled": "resolveOrValue('adhesion_type') == 'raft' and not raft_remove_inside_corners",
"limit_to_extruder": "adhesion_extruder_nr",
"settable_per_mesh": false,
"settable_per_extruder": true
@ -6244,6 +6332,18 @@
"minimum_value_warning": "0.01",
"maximum_value_warning": "0.3",
"settable_per_mesh": true
},
"meshfix_maximum_extrusion_area_deviation":
{
"label": "Maximum Extrusion Area Deviation",
"description": "The maximum extrusion area deviation allowed when removing intermediate points from a straight line. An intermediate point may serve as width-changing point in a long straight line. Therefore, if it is removed, it will cause the line to have a uniform width and, as a result, lose (or gain) a bit of extrusion area. If you increase this you may notice slight under- (or over-) extrusion in between straight parallel walls, as more intermediate width-changing points will be allowed to be removed. Your print will be less accurate, but the g-code will be smaller.",
"type": "float",
"unit": "μm²",
"default_value": 2000,
"minimum_value": "0",
"minimum_value_warning": "500",
"maximum_value_warning": "50000",
"settable_per_mesh": true
}
}
},
@ -6793,6 +6893,7 @@
"type": "bool",
"default_value": false,
"limit_to_extruder": "wall_0_extruder_nr",
"enabled": false,
"settable_per_mesh": true
},
"magic_fuzzy_skin_outside_only":
@ -6801,7 +6902,7 @@
"description": "Jitter only the parts' outlines and not the parts' holes.",
"type": "bool",
"default_value": false,
"enabled": "magic_fuzzy_skin_enabled",
"enabled": "magic_fuzzy_skin_enabled and False" ,
"limit_to_extruder": "wall_0_extruder_nr",
"settable_per_mesh": true
},
@ -6814,7 +6915,7 @@
"default_value": 0.3,
"minimum_value": "0.001",
"maximum_value_warning": "wall_line_width_0",
"enabled": "magic_fuzzy_skin_enabled",
"enabled": "magic_fuzzy_skin_enabled and False",
"limit_to_extruder": "wall_0_extruder_nr",
"settable_per_mesh": true
},
@ -6829,7 +6930,7 @@
"minimum_value_warning": "0.1",
"maximum_value_warning": "10",
"maximum_value": "2 / magic_fuzzy_skin_thickness",
"enabled": "magic_fuzzy_skin_enabled",
"enabled": "magic_fuzzy_skin_enabled and False",
"limit_to_extruder": "wall_0_extruder_nr",
"settable_per_mesh": true,
"children":
@ -6845,7 +6946,7 @@
"minimum_value_warning": "0.1",
"maximum_value_warning": "10",
"value": "10000 if magic_fuzzy_skin_point_density == 0 else 1 / magic_fuzzy_skin_point_density",
"enabled": "magic_fuzzy_skin_enabled",
"enabled": "magic_fuzzy_skin_enabled and False",
"limit_to_extruder": "wall_0_extruder_nr",
"settable_per_mesh": true
}
@ -7424,6 +7525,7 @@
"minimum_value": "5",
"maximum_value": "100",
"minimum_value_warning": "20",
"maximum_value_warning": "100",
"enabled": "bridge_settings_enabled",
"settable_per_mesh": true
},
@ -7469,8 +7571,7 @@
"unit": "%",
"default_value": 100,
"type": "float",
"minimum_value": "5",
"maximum_value": "500",
"minimum_value": "0.0001",
"minimum_value_warning": "50",
"maximum_value_warning": "150",
"enabled": "bridge_settings_enabled and bridge_enable_more_layers",
@ -7483,9 +7584,9 @@
"unit": "%",
"default_value": 75,
"type": "float",
"minimum_value": "5",
"maximum_value": "100",
"minimum_value": "0",
"minimum_value_warning": "20",
"maximum_value_warning": "100",
"enabled": "bridge_settings_enabled and bridge_enable_more_layers",
"settable_per_mesh": true
},
@ -7522,8 +7623,7 @@
"unit": "%",
"default_value": 110,
"type": "float",
"minimum_value": "5",
"maximum_value": "500",
"minimum_value": "0.001",
"minimum_value_warning": "50",
"maximum_value_warning": "150",
"enabled": "bridge_settings_enabled and bridge_enable_more_layers",
@ -7536,9 +7636,9 @@
"unit": "%",
"default_value": 80,
"type": "float",
"minimum_value": "5",
"maximum_value": "100",
"minimum_value": "0",
"minimum_value_warning": "20",
"maximum_value_warning": "100",
"enabled": "bridge_settings_enabled and bridge_enable_more_layers",
"settable_per_mesh": true
},
@ -7806,6 +7906,36 @@
"minimum_value_warning": "25",
"maximum_value_warning": "100",
"settable_per_mesh": true
},
"material_alternate_walls":
{
"label": "Alternate Wall Directions",
"description": "Alternate wall directions every other layer and inset. Useful for materials that can build up stress, like for metal printing.",
"type": "bool",
"default_value": false,
"enabled": false,
"settable_per_mesh": true,
"settable_per_extruder": true
},
"raft_remove_inside_corners":
{
"label": "Remove Raft Inside Corners",
"description": "Remove inside corners from the raft, causing the raft to become convex.",
"type": "bool",
"default_value": false,
"enabled": "resolveOrValue('adhesion_type') == 'raft'",
"settable_per_mesh": false,
"settable_per_extruder": false
},
"raft_base_wall_count":
{
"label": "Raft Base Wall Count",
"description": "The number of contours to print around the linear pattern in the base layer of the raft.",
"type": "int",
"default_value": 1,
"enabled": "resolveOrValue('adhesion_type') == 'raft'",
"settable_per_mesh": false,
"settable_per_extruder": false
}
}
},

2
resources/definitions/flyingbear_base.def.json
View file

@ -175,8 +175,6 @@
"wall_0_wipe_dist": { "value": 0.0 },
"top_bottom_thickness": { "value": "layer_height_0 + layer_height * 3 if layer_height > 0.15 else 0.8" },
"optimize_wall_printing_order": { "value": true },
"travel_compensate_overlapping_walls_0_enabled": { "value": false },
"fill_perimeter_gaps": { "value": "'everywhere'" },
"filter_out_tiny_gaps": { "value": false },
"fill_outline_gaps": { "value": false },
"z_seam_type": { "value": "'sharpest_corner'" },

1
resources/definitions/fusedform_base.def.json
View file

@ -48,7 +48,6 @@
"speed_topbottom": {"value": 40 },
"speed_wall": { "value": 35 },
"speed_wall_x": { "value": 40 },
"speed_equalize_flow_max": { "value": 70 },
"retraction_enable": {"default_value":true},
"retraction_amount": { "default_value": 4 },

1
resources/definitions/fusedform_doppia_base.def.json
View file

@ -48,7 +48,6 @@
"speed_topbottom": {"value": 40 },
"speed_wall": { "value": 35 },
"speed_wall_x": { "value": 40 },
"speed_equalize_flow_max": { "value": 70 },
"retraction_enable": {"default_value":true},
"retraction_amount": { "default_value": 4 },

2
resources/definitions/goofoo_base.def.json
View file

@ -84,7 +84,6 @@
"material_initial_print_temperature": { "value": "material_print_temperature" },
"material_final_print_temperature": { "value": "material_print_temperature" },
"material_flow": { "value": 100 },
"travel_compensate_overlapping_walls_0_enabled": { "value": "False" },
"z_seam_type": { "value": "'back'" },
"z_seam_corner": { "value": "'z_seam_corner_weighted'" },
@ -97,7 +96,6 @@
"infill_wipe_dist": { "value": 0.0 },
"wall_0_wipe_dist": { "value": 0.0 },
"fill_perimeter_gaps": { "value": "'everywhere'" },
"fill_outline_gaps": { "value": false },
"filter_out_tiny_gaps": { "value": false },

8
resources/definitions/hellbot_magna_2_230_dual.def.json
View file

@ -37,9 +37,15 @@
},
"machine_extruder_count": {
"default_value": 2
},
"machine_extruders_share_heater": {
"default_value": true
},
"machine_extruders_share_nozzle": {
"default_value": true
},
"machine_start_gcode": {
"default_value": "G21\nG90\nM107\nG28 X0 Y0\nG28 Z0\nG1 Z15.0 F300\nT0\nG92 E0\nG1 F700 E-80\nT1\nG92 E0\nG1 F1000 X1 Y1 Z0.3\nG1 F600 X200 E60\nG1 F1000 Y3\nG1 F600 X1 E120\nT1\nG92 E0\nG28 X0 Y0\nG1 F700 E-80\nT0\nG92 E0"
"default_value": "M104 T0 S{material_print_temperature}\nM104 T1 S{material_print_temperature}\nM109 T0 S{material_print_temperature}\nM109 T1 S{material_print_temperature}\nG21\nG90 \nG28 X0 Y0 \nG28 Z0 \nG1 Z15.0 F300 \nT0 \nG92 E0 \nG1 F700 E-80 \nT1 \nG92 E0 \nG1 F1000 X1 Y1 Z0.3 \nG1 F600 X200 E60 \nG1 F1000 Y3 \nG1 F600 X1 E120 \nT1 \nG92 E0 \nG28 X0 Y0 \nG1 F700 E-80 \nT0 \nG92 E0"
},
"machine_end_gcode": {
"default_value": "M104 T0 S0\nM104 T1 S0\nM140 S0\nG92 E1\nG1 E-1 F300\nG28 X0 Y0\nM84"

8
resources/definitions/hellbot_magna_2_300_dual.def.json
View file

@ -37,9 +37,15 @@
},
"machine_extruder_count": {
"default_value": 2
},
"machine_extruders_share_heater": {
"default_value": true
},
"machine_extruders_share_nozzle": {
"default_value": true
},
"machine_start_gcode": {
"default_value": "G21\nG90\nM107\nG28 X0 Y0\nG28 Z0\nG1 Z15.0 F300\nT0\nG92 E0\nG1 F700 E-80\nT1\nG92 E0\nG1 F1000 X1 Y1 Z0.3\nG1 F600 X200 E60\nG1 F1000 Y3\nG1 F600 X1 E120\nT1\nG92 E0\nG28 X0 Y0\nG1 F700 E-80\nT0\nG92 E0"
"default_value": "M104 T0 S{material_print_temperature}\nM104 T1 S{material_print_temperature}\nM109 T0 S{material_print_temperature}\nM109 T1 S{material_print_temperature}\nG21\nG90 \nG28 X0 Y0 \nG28 Z0 \nG1 Z15.0 F300 \nT0 \nG92 E0 \nG1 F700 E-80 \nT1 \nG92 E0 \nG1 F1000 X1 Y1 Z0.3 \nG1 F600 X200 E60 \nG1 F1000 Y3 \nG1 F600 X1 E120 \nT1 \nG92 E0 \nG28 X0 Y0 \nG1 F700 E-80 \nT0 \nG92 E0"
},
"machine_end_gcode": {
"default_value": "M104 T0 S0\nM104 T1 S0\nM140 S0\nG92 E1\nG1 E-1 F300\nG28 X0 Y0\nM84"

6
resources/definitions/hellbot_magna_2_400_dual.def.json
View file

@ -38,6 +38,12 @@
"machine_extruder_count": {
"default_value": 2
},
"machine_extruders_share_heater": {
"default_value": true
},
"machine_extruders_share_nozzle": {
"default_value": true
},
"machine_start_gcode": {
"default_value": "M104 T0 S{material_print_temperature}\nM104 T1 S{material_print_temperature}\nM109 T0 S{material_print_temperature}\nM109 T1 S{material_print_temperature}\nG21\nG90 \nG28 X0 Y0 \nG28 Z0 \nG1 Z15.0 F300 \nT0 \nG92 E0 \nG1 F700 E-80 \nT1 \nG92 E0 \nG1 F1000 X1 Y1 Z0.3 \nG1 F600 X200 E60 \nG1 F1000 Y3 \nG1 F600 X1 E120 \nT1 \nG92 E0 \nG28 X0 Y0 \nG1 F700 E-80 \nT0 \nG92 E0"
},

6
resources/definitions/hellbot_magna_2_500_dual.def.json
View file

@ -37,6 +37,12 @@
},
"machine_extruder_count": {
"default_value": 2
},
"machine_extruders_share_heater": {
"default_value": true
},
"machine_extruders_share_nozzle": {
"default_value": true
},
"machine_start_gcode": {
"default_value": "M104 T0 S{material_print_temperature}\nM104 T1 S{material_print_temperature}\nM109 T0 S{material_print_temperature}\nM109 T1 S{material_print_temperature}\nG21\nG90 \nG28 X0 Y0 \nG28 Z0 \nG1 Z15.0 F300 \nT0 \nG92 E0 \nG1 F700 E-80 \nT1 \nG92 E0 \nG1 F1000 X1 Y1 Z0.3 \nG1 F600 X200 E60 \nG1 F1000 Y3 \nG1 F600 X1 E120 \nT1 \nG92 E0 \nG28 X0 Y0 \nG1 F700 E-80 \nT0 \nG92 E0"

41
resources/definitions/hellbot_magna_SE.def.json Normal file
View file

@ -0,0 +1,41 @@
{
"version": 2,
"name": "Hellbot Magna SE",
"inherits": "fdmprinter",
"metadata": {
"visible": true,
"author": "Hellbot Development Team",
"manufacturer": "Hellbot",
"file_formats": "text/x-gcode",
"platform": "hellbot_magna_SE.obj",
"platform_texture": "hellbot_magna_SE.png",
"has_materials": true,
"machine_extruder_trains":
{
"0": "hellbot_magna_SE_extruder"
}
},
"overrides": {
"machine_name": { "default_value": "Hellbot Magna SE" },
"machine_width": {
"default_value": 230
},
"machine_depth": {
"default_value": 230
},
"machine_height": {
"default_value": 250
},
"machine_heated_bed": {
"default_value": true
},
"machine_center_is_zero": {
"default_value": false
},
"machine_extruder_count": {
"default_value": 1
}
}
}

3
resources/definitions/hms434.def.json
View file

@ -89,9 +89,8 @@
"top_layers": {"value": "4 if infill_sparse_density < 95 else 1" },
"bottom_layers": {"value": "(top_layers)" },
"wall_0_inset": {"value": "0" },
"outer_inset_first": {"value": true },
"inset_direction": {"value": "'outside_in'" },
"alternate_extra_perimeter": {"value": false },
"travel_compensate_overlapping_walls_enabled": {"value": false },
"filter_out_tiny_gaps": {"value": true },
"fill_outline_gaps": {"value": true },
"z_seam_type": {"value": "'shortest'"},

1
resources/definitions/julia.def.json
View file

@ -4,7 +4,6 @@
"inherits": "fdmprinter",
"metadata": {
"visible": true,
"author": "Ultimaker",
"manufacturer": "Fracktal",
"file_formats": "text/x-gcode",
"platform_offset": [ 0, 0, 0],

2
resources/definitions/kingroon_base.def.json
View file

@ -194,7 +194,6 @@
"material_initial_print_temperature": { "value": "material_print_temperature" },
"material_final_print_temperature": { "value": "material_print_temperature" },
"material_flow": { "value": 100 },
"travel_compensate_overlapping_walls_0_enabled": { "value": false },
"z_seam_type": { "value": "'back'" },
"z_seam_corner": { "value": "'z_seam_corner_none'" },
@ -207,7 +206,6 @@
"infill_wipe_dist": { "value": 0.0 },
"wall_0_wipe_dist": { "value": 0.0 },
"fill_perimeter_gaps": { "value": "'everywhere'" },
"fill_outline_gaps": { "value": false },
"filter_out_tiny_gaps": { "value": false },

1
resources/definitions/koonovo_base.def.json
View file

@ -112,7 +112,6 @@
"minimum_support_area": { "value": 2 },
"minimum_interface_area": { "value": 10 },
"fill_perimeter_gaps": { "value": "'everywhere'" },
"fill_outline_gaps": { "value": false },
"filter_out_tiny_gaps": { "value": false },

1
resources/definitions/koonovo_kn3.def.json
View file

@ -129,7 +129,6 @@
"minimum_support_area": { "value": 2 },
"minimum_interface_area": { "value": 10 },
"fill_perimeter_gaps": { "value": "'everywhere'" },
"fill_outline_gaps": { "value": false },
"filter_out_tiny_gaps": { "value": false },

1
resources/definitions/koonovo_kn5.def.json
View file

@ -130,7 +130,6 @@
"minimum_support_area": { "value": 2 },
"minimum_interface_area": { "value": 10 },
"fill_perimeter_gaps": { "value": "'everywhere'" },
"fill_outline_gaps": { "value": false },
"filter_out_tiny_gaps": { "value": false },

1
resources/definitions/liquid.def.json
View file

@ -144,7 +144,6 @@
"retraction_prime_speed": { "value": "35" },
"skin_overlap": { "value": "10" },
"speed_equalize_flow_enabled": { "value": "True" },
"speed_layer_0": { "value": "20" },
"speed_prime_tower": { "value": "speed_topbottom" },
"speed_print": { "value": "35" },

2
resources/definitions/longer_base.def.json
View file

@ -84,7 +84,6 @@
"material_initial_print_temperature": { "value": "material_print_temperature" },
"material_final_print_temperature": { "value": "material_print_temperature" },
"material_flow": { "value": 100 },
"travel_compensate_overlapping_walls_0_enabled": { "value": "False" },
"z_seam_type": { "value": "'back'" },
"z_seam_corner": { "value": "'z_seam_corner_weighted'" },
@ -97,7 +96,6 @@
"infill_wipe_dist": { "value": 0.0 },
"wall_0_wipe_dist": { "value": 0.0 },
"fill_perimeter_gaps": { "value": "'everywhere'" },
"fill_outline_gaps": { "value": false },
"filter_out_tiny_gaps": { "value": false },

8
resources/definitions/maker_made_300x.def.json
View file

@ -49,13 +49,8 @@
"top_bottom_pattern_0": {"value": "'lines'" },
"wall_0_inset": {"value": 0},
"optimize_wall_printing_order": {"value": false },
"outer_inset_first": {"value": false },
"inset_direction": {"value": "'inside_out'" },
"alternate_extra_perimeter": {"value": false },
"travel_compensate_overlapping_walls_enabled": {"value": true },
"travel_compensate_overlapping_walls_0_enabled": {"value": true },
"travel_compensate_overlapping_walls_x_enabled": {"value": true },
"wall_min_flow": {"value": 0},
"fill_perimeter_gaps": {"value": "'everywhere'" },
"filter_out_tiny_gaps": {"value": true },
"fill_outline_gaps": {"value": true },
"xy_offset": {"value": 0},
@ -97,7 +92,6 @@
"speed_layer_0": {"value": 10},
"speed_travel_layer_0": {"value": 50},
"speed_slowdown_layers": {"value": 2},
"speed_equalize_flow_enabled": {"value": false },
"acceleration_enabled": {"value": false },
"acceleration_roofing": {"value": 3000 },
"jerk_enabled": {"value": false },

2
resources/definitions/maker_starter.def.json
View file

@ -78,7 +78,7 @@
"default_value": 0.2
},
"support_pattern": {
"default_value": "ZigZag"
"default_value": "zigzag"
},
"support_infill_rate": {
"value": "15 if support_enable and support_structure == 'normal' else 0 if support_enable and support_structure == 'tree' else 15"

1
resources/definitions/makerbotreplicator.def.json
View file

@ -4,7 +4,6 @@
"inherits": "fdmprinter",
"metadata": {
"visible": true,
"author": "Ultimaker",
"manufacturer": "MakerBot",
"machine_x3g_variant": "r1",
"file_formats": "application/x3g",

2
resources/definitions/mingda_base.def.json
View file

@ -179,7 +179,6 @@
"material_initial_print_temperature": { "value": "material_print_temperature" },
"material_final_print_temperature": { "value": "material_print_temperature" },
"material_flow": { "value": 100 },
"travel_compensate_overlapping_walls_0_enabled": { "value": false },
"z_seam_type": { "value": "'back'" },
"z_seam_corner": { "value": "'z_seam_corner_none'" },
@ -192,7 +191,6 @@
"infill_wipe_dist": { "value": 0.0 },
"wall_0_wipe_dist": { "value": 0.0 },
"fill_perimeter_gaps": { "value": "'everywhere'" },
"fill_outline_gaps": { "value": false },
"filter_out_tiny_gaps": { "value": false },

372
resources/definitions/mixware_hyper_s.def.json Normal file
View file

@ -0,0 +1,372 @@
{
"name": "Hyper S",
"version": 2,
"inherits": "fdmprinter",
"metadata": {
"visible": true,
"author": "Mixware",
"manufacturer": "Mixware",
"file_formats": "text/x-gcode",
"platform": "mixware_hyper_s_platform.stl",
"has_materials": true,
"has_machine_quality": true,
"preferred_material": "generic_pla",
"preferred_quality": "coarse",
"machine_extruder_trains": {
"0": "mixware_hyper_s_extruder_0"
}
},
"overrides": {
"machine_name": {
"default_value": "Hyper S"
},
"machine_start_gcode": {
"default_value": "M140 S{material_bed_temperature} ; Heat bed\nM109 S{material_print_temperature} ; Heat nozzle\nM190 S{material_bed_temperature} ; Wait for bed heating\nG28 ; home all axes\nM117 Purge extruder\nG92 E0 ; reset extruder\nG1 Z5.0 F1000 ; move z up little to prevent scratching of surface\nG1 X0.1 Y20 Z0.3 F5000.0 ; move to start-line position\nG1 X0.1 Y100.0 Z0.3 F1500.0 E15 ; draw 1st line\nG1 X0.4 Y100.0 Z0.3 F5000.0 ; move to side a little\nG1 X0.4 Y20 Z0.3 F1500.0 E30 ; draw 2nd line\nG92 E0 ; reset extruder\nG1 Z5.0 F1000 ; move z up little to prevent scratching of surface"
},
"machine_end_gcode": {
"default_value": "G91; relative positioning\nG1 Z1.0 F3000 ; move z up little to prevent scratching of print\nG90; absolute positioning\nG1 X0 Y200 F1000 ; prepare for part removal\nM104 S0; turn off extruder\nM140 S0 ; turn off bed\nG1 X0 Y220 F1000 ; prepare for part removal\nM84 ; disable motors\nM106 S0 ; turn off fan"
},
"machine_width": {
"default_value": 300
},
"machine_depth": {
"default_value": 300
},
"machine_height": {
"default_value": 400
},
"raft_margin": {
"default_value": 3,
"minimum_value_warning": "0.01"
},
"raft_airgap": {
"default_value": 0.24
},
"brim_width": {
"default_value": 3
},
"machine_heated_bed": {
"default_value": true
},
"material_diameter": {
"default_value": 1.75
},
"top_bottom_pattern": {
"default_value": "zigzag"
},
"ironing_line_spacing": {
"default_value": 0.4
},
"ironing_pattern": {
"default_value": "concentric"
},
"skin_no_small_gaps_heuristic": {
"default_value": false
},
"retraction_hop_enabled": {
"default_value": false
},
"support_enable": {
"default_value": true
},
"support_type": {
"default_value": "buildplate"
},
"support_angle": {
"default_value": 60
},
"support_pattern": {
"default_value": "zigzag"
},
"support_infill_rate": {
"value": 15
},
"gantry_height": {
"value": 25
},
"machine_max_feedrate_x": {
"default_value": 500
},
"machine_max_feedrate_y": {
"default_value": 500
},
"machine_max_feedrate_z": {
"default_value": 10
},
"machine_max_feedrate_e": {
"default_value": 50
},
"machine_max_acceleration_x": {
"default_value": 500
},
"machine_max_acceleration_y": {
"default_value": 500
},
"machine_max_acceleration_z": {
"default_value": 100
},
"machine_max_acceleration_e": {
"default_value": 500
},
"machine_acceleration": {
"default_value": 500
},
"machine_max_jerk_xy": {
"default_value": 10
},
"machine_max_jerk_z": {
"default_value": 0.4
},
"machine_max_jerk_e": {
"default_value": 5
},
"acceleration_print": {
"default_value": 1000
},
"jerk_print": {
"default_value": 10
},
"acceleration_enabled": {
"default_value": false
},
"jerk_enabled": {
"default_value": false
},
"speed_print": {
"default_value": 40.0
},
"optimize_wall_printing_order": {
"default_value": "True"
},
"z_seam_type": {
"default_value": "shortest"
},
"infill_before_walls": {
"default_value": false
},
"infill_sparse_density": {
"default_value": 15
},
"fill_outline_gaps": {
"default_value": false
},
"filter_out_tiny_gaps": {
"default_value": false
},
"retraction_hop": {
"default_value": 0.2
},
"travel_avoid_other_parts": {
"default_value": false
},
"travel_retract_before_outer_wall": {
"default_value": true
},
"retraction_amount": {
"default_value": 2
},
"retraction_enable": {
"default_value": true
},
"retraction_count_max": {
"default_value": 100
},
"cool_fan_enabled": {
"default_value": true
},
"cool_min_layer_time": {
"default_value": 10
},
"skirt_gap": {
"default_value": 8.0
},
"skirt_line_count": {
"default_value": 3
},
"adaptive_layer_height_variation": {
"default_value": 0.04
},
"adaptive_layer_height_variation_step": {
"default_value": 0.04
},
"support_use_towers": {
"default_value": false
},
"support_interface_enable": {
"default_value": true
},
"support_interface_density": {
"default_value": 33.333
},
"support_interface_pattern": {
"default_value": "grid"
},
"support_interface_skip_height": {
"default_value": 0.24
},
"top_bottom_thickness": {
"default_value": 0.8
},
"material_flow": {
"default_value": 100
},
"material_print_temperature": {
"maximum_value_warning": "330"
},
"acceleration_roofing": {
"enabled": "acceleration_enabled and roofing_layer_count > 0 and top_layers > 0"
},
"retraction_speed": {
"default_value": 40,
"maximum_value_warning": "machine_max_feedrate_e if retraction_enable else float('inf')",
"maximum_value": "200"
},
"retraction_retract_speed": {
"maximum_value_warning": "machine_max_feedrate_e if retraction_enable else float('inf')",
"maximum_value": "200"
},
"retraction_prime_speed": {
"maximum_value_warning": "machine_max_feedrate_e if retraction_enable else float('inf')",
"maximum_value": "200"
},
"speed_layer_0": {
"value": "speed_print / 2"
},
"acceleration_travel_layer_0": {
"value": "acceleration_travel"
},
"jerk_travel": {
"value": "jerk_print"
},
"jerk_travel_layer_0": {
"value": "jerk_travel"
},
"skirt_brim_speed": {
"value": "speed_layer_0"
},
"speed_infill": {
"value": "speed_print"
},
"speed_wall": {
"value": "speed_print / 2"
},
"speed_wall_0": {
"value": "speed_wall"
},
"speed_wall_x": {
"value": "speed_wall"
},
"speed_topbottom": {
"value": "speed_print / 2"
},
"speed_roofing": {
"value": "speed_topbottom"
},
"speed_travel": {
"value": "150.0 if speed_print < 60 else 250.0 if speed_print > 100 else speed_print * 2.5"
},
"speed_print_layer_0": {
"value": "speed_layer_0"
},
"speed_travel_layer_0": {
"value": "100 if speed_layer_0 < 20 else 150 if speed_layer_0 > 30 else speed_layer_0 * 5"
},
"speed_prime_tower": {
"value": "speed_topbottom"
},
"speed_support": {
"value": "speed_wall_0"
},
"speed_support_interface": {
"value": "speed_topbottom"
},
"material_initial_print_temperature": {
"value": "material_print_temperature"
},
"material_final_print_temperature": {
"value": "material_print_temperature"
},
"cool_fan_full_at_height": {
"value": "layer_height_0 + 2 * layer_height"
},
"adhesion_type": {
"default_value": "skirt"
},
"meshfix_maximum_travel_resolution": {
"value": "meshfix_maximum_resolution"
},
"support_xy_distance": {
"value": "wall_line_width_0 * 2"
},
"support_xy_distance_overhang": {
"value": "wall_line_width_0"
},
"support_z_distance": {
"value": "layer_height if layer_height >= 0.16 else layer_height * 2"
},
"support_xy_overrides_z": {
"default_value": "xy_overrides_z"
},
"support_interface_height": {
"value": "layer_height * 4"
},
"wall_thickness": {
"value": "line_width * 2"
},
"acceleration_travel": {
"value": 1000
},
"line_width": {
"value": 0.4
},
"speed_z_hop": {
"default_value": 5
},
"retraction_combing_max_distance": {
"default_value": 30
},
"travel_avoid_supports": {
"default_value": true
},
"brim_replaces_support": {
"default_value": false
},
"support_brim_width": {
"default_value": 4
},
"minimum_support_area": {
"default_value": 2
},
"minimum_interface_area": {
"default_value": 10
},
"support_wall_count": {
"value": 1
},
"support_brim_enable": {
"value": false
},
"retraction_combing": {
"value": "all"
},
"retraction_extrusion_window": {
"value": 10,
"maximum_value_warning": "20"
},
"retraction_min_travel": {
"value": 1.5
},
"infill_wipe_dist": {
"value": 0.0
},
"skin_overlap": {
"value": 10.0
},
"infill_overlap": {
"value": 30.0
},
"wall_0_wipe_dist": {
"value": 0.0
}
}
}

1
resources/definitions/ord.def.json
View file

@ -4,7 +4,6 @@
"inherits": "fdmprinter",
"metadata": {
"visible": true,
"author": "Ultimaker",
"manufacturer": "ORD Solutions",
"file_formats": "text/x-gcode",
"machine_extruder_trains":

13
resources/definitions/peopoly_moai.def.json
View file

@ -176,15 +176,6 @@
"skin_outline_count": {
"value": 0
},
"travel_compensate_overlapping_walls_enabled": {
"value": "False"
},
"travel_compensate_overlapping_walls_0_enabled": {
"value": "False"
},
"travel_compensate_overlapping_walls_x_enabled": {
"value": "False"
},
"wall_0_wipe_dist": {
"value": "machine_nozzle_size / 3"
},
@ -218,10 +209,6 @@
"material_flow_layer_0": {
"enabled": false
},
"speed_equalize_flow_enabled": {
"enabled": false,
"value": "False"
},
"draft_shield_enabled": {
"enabled": false,
"value": "False"

1
resources/definitions/punchtec_connect_xl.def.json
View file

@ -4,7 +4,6 @@
"inherits": "fdmprinter",
"metadata": {
"visible": true,
"author": "Ultimaker",
"manufacturer": "Punchtec",
"file_formats": "text/x-gcode",
"machine_extruder_trains":

3
resources/definitions/rigid3d_base.def.json
View file

@ -88,9 +88,6 @@
"wall_0_wipe_dist": { "value": 0.05 },
"optimize_wall_printing_order": { "value": "True" },
"travel_compensate_overlapping_walls_enabled": { "value": "False" },
"travel_compensate_overlapping_walls_0_enabled": { "value": "False" },
"travel_compensate_overlapping_walls_x_enabled": { "value": "False" },
"infill_sparse_density": { "value": 16 },
"infill_wipe_dist": { "value": 0 },

1
resources/definitions/robo_3d_r1.def.json
View file

@ -4,7 +4,6 @@
"inherits": "fdmprinter",
"metadata": {
"visible": true,
"author": "Ultimaker",
"manufacturer": "Robo 3D",
"file_formats": "text/x-gcode",
"platform_offset": [ 0, 0, 0],

51
resources/definitions/sh65.def.json Normal file
View file

@ -0,0 +1,51 @@
{
"version": 2,
"name": "Volumic SH65",
"inherits": "fdmprinter",
"metadata": {
"visible": true,
"author": "Volumic",
"manufacturer": "Volumic",
"file_formats": "text/x-gcode",
"icon": "volumic-icon",
"platform": "SH65_platform.STL",
"has_materials": true,
"has_machine_quality": true,
"machine_extruder_trains":{"0": "sh65_extruder"}
},
"overrides": {
"machine_name": { "default_value": "VOLUMIC SH65" },
"machine_heated_bed": { "default_value": true },
"machine_width": { "default_value": 650 },
"machine_height": { "default_value": 300 },
"machine_depth": { "default_value": 300 },
"machine_center_is_zero": { "default_value": false },
"material_diameter": { "default_value": 1.75 },
"machine_nozzle_size": { "default_value": 0.4 },
"layer_height": { "default_value": 0.1 },
"layer_height_0": { "default_value": 0.1 },
"retraction_amount": { "default_value": 2.40 },
"retraction_speed": { "default_value": 30 },
"adhesion_type": { "default_value": "none" },
"infill_sparse_density": { "default_value": 25 },
"fill_outline_gaps": { "default_value": true },
"retract_at_layer_change": { "default_value": true },
"retraction_combing_max_distance": { "default_value": 200 },
"machine_head_with_fans_polygon": { "default_value": [[-38,30],[38,30],[38,-40],[-38,-40]] },
"machine_max_feedrate_z": { "default_value": 30 },
"machine_max_feedrate_e": { "default_value": 60 },
"machine_max_acceleration_z": { "default_value": 500 },
"machine_acceleration": { "default_value": 2000 },
"machine_max_jerk_xy": { "default_value": 10 },
"machine_max_jerk_z": { "default_value": 0.4 },
"machine_max_jerk_e": { "default_value": 5 },
"machine_gcode_flavor": { "default_value": "RepRap (Marlin/Sprinter)" },
"machine_start_gcode": {
"default_value": "M117 Demarrage\nM106 S0\nM140 S{material_bed_temperature_layer_0}\nM104 T0 S{material_print_temperature_layer_0}\nG28\nG90\nM82\nG92 E0\nG1 Z3 F600\n;M190 S{material_bed_temperature_layer_0}\nM109 T0 S{material_print_temperature_layer_0}\nM300 P350\nM117 Purge\nG1 Z0.15 F600\nG1 E10 F400\nG92 E0\nM117 Impression"
},
"machine_end_gcode": {
"default_value": "M107\nG91\nT0\nG1 E-1\nM104 T0 S0\nG90\nG0 X1 Y190 F5000\nG92 E0\nM140 S0\nM84\nM300"
}
}
}

12
resources/definitions/skriware_2.def.json
View file

@ -110,9 +110,6 @@
"switch_extruder_retraction_speed": {
"value": "30"
},
"travel_compensate_overlapping_walls_enabled": {
"default_value": false
},
"raft_base_acceleration": {
"value": "400"
},
@ -389,9 +386,6 @@
"acceleration_support_infill": {
"value": "400"
},
"travel_compensate_overlapping_walls_0_enabled": {
"value": "False"
},
"support_bottom_material_flow": {
"value": "99"
},
@ -584,9 +578,6 @@
"infill_material_flow": {
"value": "99"
},
"speed_equalize_flow_max": {
"default_value": 40
},
"skin_preshrink": {
"value": "0.0"
},
@ -644,9 +635,6 @@
"skirt_line_count": {
"default_value": 2
},
"travel_compensate_overlapping_walls_x_enabled": {
"value": "False"
},
"jerk_wall_0": {
"value": "5"
},

2
resources/definitions/snapmaker2.def.json
View file

@ -26,7 +26,7 @@
"default_value": true
},
"machine_start_gcode": {
"default_value": "M104 S{material_print_temperature} ;Set Hotend Temperature\nM140 S{material_bed_temperature} ;Set Bed Temperature\nG28 ;home\nG90 ;absolute positioning\nG1 X-10 Y-10 F3000 ;Move to corner \nG1 Z0 F1800 ;Go to zero offset\nM109 S{material_print_temperature} ;Wait for Hotend Temperature\nM190 S{material_bed_temperature} ;Wait for Bed Temperature\nG92 E0 ;Zero set extruder position\nG1 E20 F200 ;Feed filament to clear nozzle\nG92 E0 ;Zero set extruder position"
"default_value": "M104 S{material_print_temperature_layer_0} ;Set Hotend Temperature\nM140 S{material_bed_temperature_layer_0} ;Set Bed Temperature\nG28 ;home\nG90 ;absolute positioning\nG1 X-10 Y-10 F3000 ;Move to corner \nG1 Z0 F1800 ;Go to zero offset\nM109 S{material_print_temperature_layer_0} ;Wait for Hotend Temperature\nM190 S{material_bed_temperature_layer_0} ;Wait for Bed Temperature\nG92 E0 ;Zero set extruder position\nG1 E20 F200 ;Feed filament to clear nozzle\nG92 E0 ;Zero set extruder position"
},
"machine_end_gcode": {
"default_value": "M104 S0 ;Extruder heater off\nM140 S0 ;Heated bed heater off\nG90 ;absolute positioning\nG92 E0 ;Retract the filament\nG1 E-1 F300 ;retract the filament a bit before lifting the nozzle, to release some of the pressure\nG1 Z{machine_width} E-1 F3000 ;move Z up a bit and retract filament even more\nG1 X0 F3000 ;move X to min endstops, so the head is out of the way\nG1 Y{machine_depth} F3000 ;so the head is out of the way and Plate is moved forward"

51
resources/definitions/stream30mk3.def.json Normal file
View file

@ -0,0 +1,51 @@
{
"version": 2,
"name": "Volumic Stream30Pro MK3",
"inherits": "fdmprinter",
"metadata": {
"visible": true,
"author": "Volumic",
"manufacturer": "Volumic",
"file_formats": "text/x-gcode",
"icon": "volumic-icon",
"platform": "STREAM30ULTRA_platform.STL",
"has_materials": true,
"has_machine_quality": true,
"machine_extruder_trains":{"0": "stream30mk3_extruder"}
},
"overrides": {
"machine_name": { "default_value": "VOLUMIC STREAM30PRO MK3" },
"machine_heated_bed": { "default_value": true },
"machine_width": { "default_value": 300 },
"machine_height": { "default_value": 310 },
"machine_depth": { "default_value": 200 },
"machine_center_is_zero": { "default_value": false },
"material_diameter": { "default_value": 1.75 },
"machine_nozzle_size": { "default_value": 0.4 },
"layer_height": { "default_value": 0.1 },
"layer_height_0": { "default_value": 0.1 },
"retraction_amount": { "default_value": 2.40 },
"retraction_speed": { "default_value": 30 },
"adhesion_type": { "default_value": "none" },
"infill_sparse_density": { "default_value": 25 },
"fill_outline_gaps": { "default_value": true },
"retract_at_layer_change": { "default_value": true },
"retraction_combing_max_distance": { "default_value": 200 },
"machine_head_with_fans_polygon": { "default_value": [[-38,30],[38,30],[38,-40],[-38,-40]] },
"machine_max_feedrate_z": { "default_value": 30 },
"machine_max_feedrate_e": { "default_value": 60 },
"machine_max_acceleration_z": { "default_value": 500 },
"machine_acceleration": { "default_value": 2000 },
"machine_max_jerk_xy": { "default_value": 10 },
"machine_max_jerk_z": { "default_value": 0.4 },
"machine_max_jerk_e": { "default_value": 5 },
"machine_gcode_flavor": { "default_value": "RepRap (Marlin/Sprinter)" },
"machine_start_gcode": {
"default_value": "M117 Demarrage\nM106 S0\nM140 S{material_bed_temperature_layer_0}\nM104 T0 S{material_print_temperature_layer_0}\nG28\nG90\nM82\nG92 E0\nG1 Z3 F600\n;M190 S{material_bed_temperature_layer_0}\nM109 T0 S{material_print_temperature_layer_0}\nM300 P350\nM117 Purge\nG1 Z0.15 F600\nG1 E10 F400\nG92 E0\nM117 Impression"
},
"machine_end_gcode": {
"default_value": "M107\nG91\nT0\nG1 E-1\nM104 T0 S0\nG90\nG0 X1 Y190 F5000\nG92 E0\nM140 S0\nM84\nM300"
}
}
}

51
resources/definitions/stream30ultrasc2.def.json Normal file
View file

@ -0,0 +1,51 @@
{
"version": 2,
"name": "Volumic Stream30Ultra SC2",
"inherits": "fdmprinter",
"metadata": {
"visible": true,
"author": "Volumic",
"manufacturer": "Volumic",
"file_formats": "text/x-gcode",
"icon": "volumic-icon",
"platform": "STREAM30ULTRA_platform.STL",
"has_materials": true,
"has_machine_quality": true,
"machine_extruder_trains":{"0": "stream30ultrasc2_extruder"}
},
"overrides": {
"machine_name": { "default_value": "VOLUMIC STREAM30ULTRA SC2" },
"machine_heated_bed": { "default_value": true },
"machine_width": { "default_value": 300 },
"machine_height": { "default_value": 310 },
"machine_depth": { "default_value": 200 },
"machine_center_is_zero": { "default_value": false },
"material_diameter": { "default_value": 1.75 },
"machine_nozzle_size": { "default_value": 0.4 },
"layer_height": { "default_value": 0.1 },
"layer_height_0": { "default_value": 0.1 },
"retraction_amount": { "default_value": 2.40 },
"retraction_speed": { "default_value": 30 },
"adhesion_type": { "default_value": "none" },
"infill_sparse_density": { "default_value": 25 },
"fill_outline_gaps": { "default_value": true },
"retract_at_layer_change": { "default_value": true },
"retraction_combing_max_distance": { "default_value": 200 },
"machine_head_with_fans_polygon": { "default_value": [[-38,30],[38,30],[38,-40],[-38,-40]] },
"machine_max_feedrate_z": { "default_value": 30 },
"machine_max_feedrate_e": { "default_value": 60 },
"machine_max_acceleration_z": { "default_value": 500 },
"machine_acceleration": { "default_value": 2000 },
"machine_max_jerk_xy": { "default_value": 10 },
"machine_max_jerk_z": { "default_value": 0.4 },
"machine_max_jerk_e": { "default_value": 5 },
"machine_gcode_flavor": { "default_value": "RepRap (Marlin/Sprinter)" },
"machine_start_gcode": {
"default_value": "M117 Demarrage\nM106 S0\nM140 S{material_bed_temperature_layer_0}\nM104 T0 S{material_print_temperature_layer_0}\nG28\nG90\nM82\nG92 E0\nG1 Z3 F600\n;M190 S{material_bed_temperature_layer_0}\nM109 T0 S{material_print_temperature_layer_0}\nM300 P350\nM117 Purge\nG1 Z0.15 F600\nG1 E10 F400\nG92 E0\nM117 Impression"
},
"machine_end_gcode": {
"default_value": "M107\nG91\nT0\nG1 E-1\nM104 T0 S0\nG90\nG0 X1 Y190 F5000\nG92 E0\nM140 S0\nM84\nM300"
}
}
}

9
resources/definitions/tinyboy_fabrikator15.def.json
View file

@ -9,7 +9,8 @@
"file_formats": "text/x-gcode",
"platform": "tinyboy_fabrikator15.stl",
"platform_offset": [-95, -3, -46],
"has_materials": false,
"has_materials": true,
"preferred_material": "generic_pla_175",
"has_machine_quality": true,
"preferred_quality_type": "normal",
"machine_extruder_trains":
@ -33,12 +34,10 @@
"gantry_height": { "value": 45 },
"machine_center_is_zero": { "default_value": false },
"machine_start_gcode": {
"default_value": ";Sliced at: {day} {date} {time}\n;Basic settings: Layer height: {layer_height} Walls: {wall_thickness} Fill: {infill_sparse_density}\n;Print time: {print_time}\n;Filament used: {filament_amount}m {filament_weight}g\n;Filament cost: {filament_cost}\n;M190 S{print_bed_temperature} ;Uncomment to add your own bed temperature line\n;M109 S{print_temperature} ;Uncomment to add your own temperature line\nG21 ;metric values\nG90 ;absolute positioning\nM82 ;set extruder to absolute mode\nM107 ;start with the fan off\nG28 X0 Y0 ;move X/Y to min endstops\nG28 Z0 ;move Z to min endstops\nG1 X0.0 Y0.0 Z15.0 F{travel_speed} ;move the printhead up 15mm\nG92 E0 ;zero the extruded length\n;M109 S{print_temperature} ;set extruder temperature\nG1 F200 E30 ;extrude 30mm of feed stock\nG92 E0 ;zero the extruded length again\nG1 F{travel_speed}\n;Put printing message on LCD screen\nM117 Printing..."
"default_value": ";Sliced at: {day} {date} {time}\n;Basic settings: Layer height: {layer_height} Walls: {wall_thickness} Fill: {infill_sparse_density}\n;Print time: {print_time}\n;Filament used: {filament_amount}m {filament_weight}g\n;Filament cost: {filament_cost}\nG21 ;metric values\nG90 ;absolute positioning\nM82 ;set extruder to absolute mode\nM107 ;start with the fan off\nG28 X0 Y0 ;move X/Y to min endstops\nG28 Z0 ;move Z to min endstops\nG1 X0.0 Y0.0 Z15.0 F6000 ;move the printhead up 15mm\nG92 E0 ;zero the extruded length\nM104 S{material_print_temperature} ;set extruder temperature\nM105\nM109 S{material_print_temperature} ;wait for extruder temperature\nG1 F200 E30 ;extrude 30mm of feed stock\nG92 E0 ;zero the extruded length again\nG1 F6000\n;Put printing message on LCD screen\nM117 Printing..."
},
"machine_end_gcode": {
"default_value": ";End GCode\nM104 S0 ;extruder heater off\nM140 S0 ;heated bed heater off (if you have it)\nG91 ;relative positioning\nG1 E-1 F300 ;retract the filament a bit before lifting the nozzle, to release some of the pressure\nG1 Z+0.5 E-5 X-20 Y-20 F{travel_speed} ;move Z up a bit and retract filament even more\nG28 X0 Y0 ;move X/Y to min endstops, so the head is out of the way\nM84 ;steppers off\nG90 ;absolute positioning\n;{jobname}"
"default_value": ";End GCode\nM104 S0 ;extruder heater off\nM140 S0 ;heated bed heater off (if you have it)\nG91 ;relative positioning\nG1 E-1 F300 ;retract the filament a bit before lifting the nozzle, to release some of the pressure\nG1 Z+0.5 E-5 X-20 Y-20 F6000 ;move Z up a bit and retract filament even more\nG28 X0 Y0 ;move X/Y to min endstops, so the head is out of the way\nM84 ;steppers off\nG90 ;absolute positioning\n;{jobname}"
}
}
}

2
resources/definitions/tronxy_x.def.json
View file

@ -83,7 +83,6 @@
"material_initial_print_temperature": { "value": "material_print_temperature" },
"material_final_print_temperature": { "value": "material_print_temperature" },
"material_flow": { "value": 100 },
"travel_compensate_overlapping_walls_0_enabled": { "value": "False" },
"z_seam_type": { "value": "'back'" },
"z_seam_corner": { "value": "'z_seam_corner_weighted'" },
@ -96,7 +95,6 @@
"infill_wipe_dist": { "value": 0.0 },
"wall_0_wipe_dist": { "value": 0.0 },
"fill_perimeter_gaps": { "value": "'everywhere'" },
"fill_outline_gaps": { "value": false },
"filter_out_tiny_gaps": { "value": false },

6
resources/definitions/two_trees_base.def.json
View file

@ -31,8 +31,7 @@
"machine_heated_bed": { "default_value": true },
"material_diameter": { "default_value": 1.75 },
"speed_print": { "value": 50.0 } ,
"speed_infill": { "value": "speed_print" },
"speed_wall": { "value": "speed_print / 2" },
@ -64,11 +63,9 @@
"infill_wipe_dist": { "value": 0.0 },
"wall_0_wipe_dist": { "value": 0.0 },
"fill_perimeter_gaps": { "value": "'everywhere'" },
"fill_outline_gaps": { "value": false },
"filter_out_tiny_gaps": { "value": false },
"retraction_hop_enabled": { "value": "False" },
"retraction_hop": { "value": 0.2 },
"retraction_combing": { "value": "'off' if retraction_hop_enabled else 'noskin'" },
@ -121,6 +118,5 @@
"minimum_interface_area": { "value": 10 },
"top_bottom_thickness": {"value": "layer_height_0 + layer_height * 3" },
"wall_thickness": {"value": "line_width * 2" }
}
}

27
resources/definitions/ultimaker.def.json
View file

@ -40,6 +40,33 @@
{
"value": false,
"enabled": false
},
"skin_angles": {
"value": "[] if infill_pattern not in ['cross', 'cross_3d'] else [20, 110]"
},
"line_width": {
"value": "machine_nozzle_size"
},
"infill_before_walls": {
"value": "False"
},
"retraction_combing": {
"value": "'no_outer_surfaces'"
},
"skin_monotonic" : {
"value": true
},
"speed_equalize_flow_width_factor": {
"value": "110.0"
},
"meshfix_maximum_extrusion_area_deviation": {
"value": "50000"
},
"top_layers": {
"value": "math.ceil(round(top_thickness / resolveOrValue('layer_height'), 4))"
},
"bottom_layers": {
"value": "math.ceil(round(bottom_thickness / resolveOrValue('layer_height'), 4))"
}
}
}

9
resources/definitions/ultimaker2.def.json
View file

@ -86,15 +86,6 @@
},
"machine_acceleration": {
"default_value": 3000
},
"infill_before_walls": {
"value": false
},
"retraction_combing": {
"value": "'no_outer_surfaces'"
},
"skin_monotonic" : {
"value": true
}
}
}

2
resources/definitions/ultimaker2_plus.def.json
View file

@ -35,7 +35,7 @@
"value": "round(machine_nozzle_size / 1.5, 2)"
},
"line_width": {
"value": "round(machine_nozzle_size * 0.875, 2)"
"value": "machine_nozzle_size"
},
"speed_support": {
"value": "speed_wall_0"

6
resources/definitions/ultimaker2_plus_connect.def.json
View file

@ -55,11 +55,11 @@
},
"infill_wipe_dist": { "value": "0" },
"infill_overlap": { "value": "0" },
"infill_pattern": { "value": "'grid'" },
"infill_pattern": { "value": "'zigzag' if infill_sparse_density > 80 else 'grid'" },
"speed_infill": { "value": "speed_print" },
"speed_wall_x": { "value": "speed_wall" },
"layer_height_0": { "value": "round(machine_nozzle_size / 1.5, 2)" },
"line_width": { "value": "round(machine_nozzle_size * 0.875, 2)" },
"line_width": { "value": "machine_nozzle_size" },
"optimize_wall_printing_order": { "value": "True" },
"zig_zaggify_infill": { "value": "gradual_infill_steps == 0" },
"speed_support": { "value": "speed_wall_0" },
@ -81,7 +81,7 @@
"material_bed_temperature_layer_0": { "maximum_value": 110 },
"material_print_temperature": { "maximum_value": 260 },
"meshfix_maximum_resolution": { "value": "(speed_wall_0 + speed_wall_x) / 60" },
"meshfix_maximum_deviation": { "value": "layer_height / 4" },
"meshfix_maximum_deviation": { "value": "layer_height / 4" },
"meshfix_maximum_travel_resolution": { "value": 0.5 },
"prime_blob_enable": { "enabled": true, "default_value": true, "value": "resolveOrValue('print_sequence') != 'one_at_a_time'" }
}

20
resources/definitions/ultimaker3.def.json
View file

@ -84,22 +84,20 @@
"acceleration_enabled": { "value": "True" },
"acceleration_layer_0": { "value": "acceleration_topbottom" },
"acceleration_prime_tower": { "value": "math.ceil(acceleration_print * 2000 / 4000)" },
"acceleration_print": { "value": "4000" },
"acceleration_support": { "value": "math.ceil(acceleration_print * 2000 / 4000)" },
"acceleration_prime_tower": { "value": "math.ceil(acceleration_print * 2000 / 3500)" },
"acceleration_print": { "value": "3500" },
"acceleration_support": { "value": "math.ceil(acceleration_print * 2000 / 3500)" },
"acceleration_support_interface": { "value": "acceleration_topbottom" },
"acceleration_topbottom": { "value": "math.ceil(acceleration_print * 500 / 4000)" },
"acceleration_wall": { "value": "math.ceil(acceleration_print * 1000 / 4000)" },
"acceleration_wall_0": { "value": "math.ceil(acceleration_wall * 500 / 1000)" },
"acceleration_topbottom": { "value": "math.ceil(acceleration_print * 1000 / 3500)" },
"acceleration_wall": { "value": "math.ceil(acceleration_print * 1500 / 3500)" },
"acceleration_wall_0": { "value": "math.ceil(acceleration_wall * 1000 / 3500)" },
"brim_width": { "value": "3" },
"cool_fan_full_at_height": { "value": "layer_height_0 + 4 * layer_height" },
"cool_fan_speed": { "value": "50" },
"cool_fan_speed_max": { "value": "100" },
"cool_min_speed": { "value": "5" },
"infill_before_walls": { "value": false },
"infill_line_width": { "value": "round(line_width * 0.5 / 0.35, 2)" },
"infill_overlap": { "value": "0" },
"infill_pattern": { "value": "'triangles'" },
"infill_pattern": { "value": "'zigzag' if infill_sparse_density > 80 else 'triangles'" },
"infill_wipe_dist": { "value": "0" },
"initial_layer_line_width_factor": { "value": "120" },
"jerk_enabled": { "value": "True" },
@ -121,7 +119,6 @@
"layer_height_0": { "value": "round(machine_nozzle_size / 1.5, 2)" },
"layer_start_x": { "value": "sum(extruderValues('machine_extruder_start_pos_x')) / len(extruderValues('machine_extruder_start_pos_x'))" },
"layer_start_y": { "value": "sum(extruderValues('machine_extruder_start_pos_y')) / len(extruderValues('machine_extruder_start_pos_y'))" },
"line_width": { "value": "round(machine_nozzle_size * 0.875, 3)" },
"machine_min_cool_heat_time_window": { "value": "15" },
"default_material_print_temperature": { "value": "200" },
"material_print_temperature_layer_0": { "value": "material_print_temperature + 5" },
@ -140,7 +137,6 @@
"raft_margin": { "value": "10" },
"raft_surface_layers": { "value": "1" },
"retraction_amount": { "value": "6.5" },
"retraction_combing": {"value": "'no_outer_surfaces'"},
"retraction_count_max": { "value": "10" },
"retraction_extrusion_window": { "value": "1" },
"retraction_hop": { "value": "2" },
@ -149,7 +145,6 @@
"retraction_min_travel": { "value": "5" },
"retraction_prime_speed": { "value": "15" },
"skin_overlap": { "value": "10" },
"skin_monotonic" : { "value": true },
"speed_layer_0": { "value": "20" },
"speed_prime_tower": { "value": "speed_topbottom" },
"speed_print": { "value": "35" },
@ -171,7 +166,6 @@
"top_bottom_thickness": { "value": "1" },
"travel_avoid_distance": { "value": "3 if extruders_enabled_count > 1 else machine_nozzle_tip_outer_diameter / 2 * 1.5" },
"wall_0_inset": { "value": "0" },
"wall_line_width_x": { "value": "round(wall_line_width * 0.3 / 0.35, 2)" },
"wall_thickness": { "value": "1" },
"zig_zaggify_infill": { "value": "gradual_infill_steps == 0" }
}

3
resources/definitions/ultimaker_original.def.json
View file

@ -59,6 +59,9 @@
},
"machine_end_gcode": {
"value": "'M104 S0 ;extruder heater off' + ('\\nM140 S0 ;heated bed heater off' if machine_heated_bed else '') + '\\nG91 ;relative positioning\\nG1 E-1 F300 ;retract the filament a bit before lifting the nozzle, to release some of the pressure\\nG1 Z+0.5 E-5 X-20 Y-20 F9000 ;move Z up a bit and retract filament even more\\nG28 X0 Y0 ;move X/Y to min endstops, so the head is out of the way\\nM84 ;steppers off\\nG90 ;absolute positioning'"
},
"infill_before_walls": {
"value": "False"
}
}
}

22
resources/definitions/ultimaker_s3.def.json
View file

@ -77,22 +77,20 @@
"acceleration_enabled": { "value": "True" },
"acceleration_layer_0": { "value": "acceleration_topbottom" },
"acceleration_prime_tower": { "value": "math.ceil(acceleration_print * 2000 / 4000)" },
"acceleration_print": { "value": "4000" },
"acceleration_support": { "value": "math.ceil(acceleration_print * 2000 / 4000)" },
"acceleration_prime_tower": { "value": "math.ceil(acceleration_print * 2000 / 3500)" },
"acceleration_print": { "value": "3500" },
"acceleration_support": { "value": "math.ceil(acceleration_print * 2000 / 3500)" },
"acceleration_support_interface": { "value": "acceleration_topbottom" },
"acceleration_topbottom": { "value": "math.ceil(acceleration_print * 500 / 4000)" },
"acceleration_wall": { "value": "math.ceil(acceleration_print * 1000 / 4000)" },
"acceleration_wall_0": { "value": "math.ceil(acceleration_wall * 500 / 1000)" },
"acceleration_topbottom": { "value": "math.ceil(acceleration_print * 1000 / 3500)" },
"acceleration_wall": { "value": "math.ceil(acceleration_print * 1500 / 3500)" },
"acceleration_wall_0": { "value": "math.ceil(acceleration_wall * 1000 / 1000)" },
"brim_width": { "value": "3" },
"cool_fan_full_at_height": { "value": "layer_height_0 + 4 * layer_height" },
"cool_fan_speed": { "value": "50" },
"cool_fan_speed_max": { "value": "100" },
"cool_min_speed": { "value": "5" },
"infill_before_walls": { "value": false },
"infill_line_width": { "value": "round(line_width * 0.5 / 0.35, 2)" },
"infill_overlap": { "value": "0" },
"infill_pattern": { "value": "'triangles'" },
"infill_pattern": { "value": "'zigzag' if infill_sparse_density > 80 else 'triangles'" },
"infill_wipe_dist": { "value": "0" },
"jerk_enabled": { "value": "True" },
"jerk_print": { "value": "20", "minimum_value_warning": 20 },
@ -113,7 +111,6 @@
"layer_height_0": { "value": "round(machine_nozzle_size / 1.5, 2)" },
"layer_start_x": { "value": "sum(extruderValues('machine_extruder_start_pos_x')) / len(extruderValues('machine_extruder_start_pos_x'))" },
"layer_start_y": { "value": "sum(extruderValues('machine_extruder_start_pos_y')) / len(extruderValues('machine_extruder_start_pos_y'))" },
"line_width": { "value": "machine_nozzle_size * 0.875" },
"machine_min_cool_heat_time_window": { "value": "15" },
"default_material_print_temperature": { "value": "200" },
"material_standby_temperature": { "value": "100" },
@ -132,7 +129,6 @@
"raft_speed": { "value": "25" },
"raft_surface_layers": { "value": "1" },
"retraction_amount": { "value": "6.5" },
"retraction_combing": { "value": "'no_outer_surfaces'"},
"retraction_count_max": { "value": "10" },
"retraction_extrusion_window": { "value": "1" },
"retraction_hop": { "value": "2" },
@ -140,9 +136,7 @@
"retraction_hop_only_when_collides": { "value": "True" },
"retraction_min_travel": { "value": "5" },
"retraction_prime_speed": { "value": "15" },
"skin_monotonic" : { "value": true },
"skin_overlap": { "value": "10" },
"speed_equalize_flow_enabled": { "value": "True" },
"speed_layer_0": { "value": "20" },
"speed_prime_tower": { "value": "speed_topbottom" },
"speed_print": { "value": "35" },
@ -164,11 +158,9 @@
"travel_avoid_supports": { "value": "True" },
"travel_avoid_distance": { "value": "3 if extruders_enabled_count > 1 else machine_nozzle_tip_outer_diameter / 2 * 1.5" },
"wall_0_inset": { "value": "0" },
"wall_line_width_x": { "value": "round(line_width * 0.3 / 0.35, 2)" },
"wall_thickness": { "value": "1" },
"meshfix_maximum_resolution": { "value": "(speed_wall_0 + speed_wall_x) / 60" },
"meshfix_maximum_deviation": { "value": "layer_height / 4" },
"optimize_wall_printing_order": { "value": "True" },
"initial_layer_line_width_factor": { "value": "120" },
"zig_zaggify_infill": { "value": "gradual_infill_steps == 0" }
}

20
resources/definitions/ultimaker_s5.def.json
View file

@ -79,22 +79,20 @@
"acceleration_enabled": { "value": "True" },
"acceleration_layer_0": { "value": "acceleration_topbottom" },
"acceleration_prime_tower": { "value": "math.ceil(acceleration_print * 2000 / 4000)" },
"acceleration_print": { "value": "4000" },
"acceleration_support": { "value": "math.ceil(acceleration_print * 2000 / 4000)" },
"acceleration_prime_tower": { "value": "math.ceil(acceleration_print * 2000 / 3500)" },
"acceleration_print": { "value": "3500" },
"acceleration_support": { "value": "math.ceil(acceleration_print * 2000 / 3500)" },
"acceleration_support_interface": { "value": "acceleration_topbottom" },
"acceleration_topbottom": { "value": "math.ceil(acceleration_print * 500 / 4000)" },
"acceleration_wall": { "value": "math.ceil(acceleration_print * 1000 / 4000)" },
"acceleration_wall_0": { "value": "math.ceil(acceleration_wall * 500 / 1000)" },
"acceleration_topbottom": { "value": "math.ceil(acceleration_print * 1000 / 3500)" },
"acceleration_wall": { "value": "math.ceil(acceleration_print * 1500 / 3500)" },
"acceleration_wall_0": { "value": "math.ceil(acceleration_wall * 1000 / 1000)" },
"brim_width": { "value": "3" },
"cool_fan_full_at_height": { "value": "layer_height_0 + 4 * layer_height" },
"cool_fan_speed": { "value": "50" },
"cool_fan_speed_max": { "value": "100" },
"cool_min_speed": { "value": "5" },
"infill_before_walls": { "value": false },
"infill_line_width": { "value": "round(line_width * 0.5 / 0.35, 2)" },
"infill_overlap": { "value": "0" },
"infill_pattern": { "value": "'triangles'" },
"infill_pattern": { "value": "'zigzag' if infill_sparse_density > 80 else 'triangles'" },
"infill_wipe_dist": { "value": "0" },
"jerk_enabled": { "value": "True" },
"jerk_print": { "value": "20", "minimum_value_warning": 20 },
@ -115,7 +113,6 @@
"layer_height_0": { "value": "round(machine_nozzle_size / 1.5, 2)" },
"layer_start_x": { "value": "sum(extruderValues('machine_extruder_start_pos_x')) / len(extruderValues('machine_extruder_start_pos_x'))" },
"layer_start_y": { "value": "sum(extruderValues('machine_extruder_start_pos_y')) / len(extruderValues('machine_extruder_start_pos_y'))" },
"line_width": { "value": "machine_nozzle_size * 0.875" },
"machine_min_cool_heat_time_window": { "value": "15" },
"default_material_print_temperature": { "value": "200" },
"material_standby_temperature": { "value": "100" },
@ -141,9 +138,7 @@
"retraction_hop_only_when_collides": { "value": "True" },
"retraction_min_travel": { "value": "5" },
"retraction_prime_speed": { "value": "15" },
"skin_monotonic" : { "value": true },
"skin_overlap": { "value": "10" },
"speed_equalize_flow_enabled": { "value": "True" },
"speed_layer_0": { "value": "20" },
"speed_prime_tower": { "value": "speed_topbottom" },
"speed_print": { "value": "35" },
@ -165,7 +160,6 @@
"travel_avoid_supports": { "value": "True" },
"travel_avoid_distance": { "value": "3 if extruders_enabled_count > 1 else machine_nozzle_tip_outer_diameter / 2 * 1.5" },
"wall_0_inset": { "value": "0" },
"wall_line_width_x": { "value": "round(line_width * 0.3 / 0.35, 2)" },
"wall_thickness": { "value": "1" },
"meshfix_maximum_resolution": { "value": "(speed_wall_0 + speed_wall_x) / 60" },
"meshfix_maximum_deviation": { "value": "layer_height / 4" },

1
resources/definitions/voron2_base.def.json
View file

@ -136,7 +136,6 @@
"layer_height_0": { "resolve": "max(0.2, min(extruderValues('layer_height')))" },
"line_width": { "value": "machine_nozzle_size * 1.125" },
"wall_line_width": { "value": "machine_nozzle_size" },
"fill_perimeter_gaps": { "default_value": "nowhere" },
"fill_outline_gaps": { "default_value": true },
"meshfix_maximum_resolution": { "default_value": 0.01 },
"infill_before_walls": { "default_value": false },

2
resources/definitions/weedo_x40.def.json
View file

@ -210,7 +210,6 @@
"cool_fan_speed": { "value": "50" },
"cool_fan_speed_max": { "value": "100" },
"cool_min_speed": { "value": "7" },
"fill_perimeter_gaps": { "value": "'everywhere'" },
"fill_outline_gaps": { "value": false },
"filter_out_tiny_gaps": { "value": false },
"infill_line_width": { "value": "round(line_width * 0.42 / 0.35, 2)" },
@ -273,7 +272,6 @@
"support_z_distance": { "value": "layer_height if layer_height >= 0.16 else layer_height*2" },
"support_supported_skin_fan_speed": { "value": 100 },
"switch_extruder_retraction_amount": { "value": 0 },
"travel_compensate_overlapping_walls_0_enabled": { "value": "False" },
"travel_avoid_other_parts": { "value": true },
"travel_retract_before_outer_wall": { "value": true },
"top_bottom_thickness": {"value": "line_width * 2" },

4
resources/definitions/winbo_dragonl4.def.json
View file

@ -107,7 +107,6 @@
"speed_wall": { "value": "speed_print*wall_line_width_0/line_width" },
"speed_wall_0": { "value": "math.ceil(speed_wall * 0.6)" },
"speed_wall_x": { "value": "speed_wall" },
"speed_equalize_flow_enabled": { "value": "False" },
"support_angle": { "value": "50" },
"support_xy_distance": { "value": "1" },
"support_z_distance": { "value": "max((0.2 if(0.2%layer_height==0) else layer_height*int((0.2+layer_height)/layer_height)),layer_height)" },
@ -129,7 +128,6 @@
"support_interface_enable": { "value": "True" },
"support_interface_height": { "value": "0.5" },
"support_roof_pattern": { "value": "'concentric'" },
"z_seam_type": { "value": "'shortest'" },
"speed_equalize_flow_max": { "value": "65" }
"z_seam_type": { "value": "'shortest'" }
}
}

4
resources/definitions/winbo_mini2.def.json
View file

@ -107,7 +107,6 @@
"speed_wall": { "value": "speed_print*wall_line_width_0/line_width" },
"speed_wall_0": { "value": "math.ceil(speed_wall * 0.6)" },
"speed_wall_x": { "value": "speed_wall" },
"speed_equalize_flow_enabled": { "value": "False" },
"support_angle": { "value": "50" },
"support_xy_distance": { "value": "1" },
"support_z_distance": { "value": "max((0.2 if(0.2%layer_height==0) else layer_height*int((0.2+layer_height)/layer_height)),layer_height)" },
@ -129,7 +128,6 @@
"support_interface_enable": { "value": "True" },
"support_interface_height": { "value": "0.5" },
"support_roof_pattern": { "value": "'concentric'" },
"z_seam_type": { "value": "'shortest'" },
"speed_equalize_flow_max": { "value": "65" }
"z_seam_type": { "value": "'shortest'" }
}
}

4
resources/definitions/winbo_superhelper105.def.json
View file

@ -96,7 +96,6 @@
"speed_wall": { "value": "speed_print*wall_line_width_0/line_width" },
"speed_wall_0": { "value": "math.ceil(speed_wall * 0.6)" },
"speed_wall_x": { "value": "speed_wall" },
"speed_equalize_flow_enabled": { "value": "False" },
"support_angle": { "value": "50" },
"support_xy_distance": { "value": "1" },
"support_z_distance": { "value": "max((0.2 if(0.2%layer_height==0) else layer_height*int((0.2+layer_height)/layer_height)),layer_height)" },
@ -118,7 +117,6 @@
"support_interface_enable": { "value": "True" },
"support_interface_height": { "value": "0.5" },
"support_roof_pattern": { "value": "'concentric'" },
"z_seam_type": { "value": "'shortest'" },
"speed_equalize_flow_max": { "value": "65" }
"z_seam_type": { "value": "'shortest'" }
}
}

1
resources/definitions/zone3d_printer.def.json
View file

@ -4,7 +4,6 @@
"inherits": "fdmprinter",
"metadata": {
"visible": true,
"author": "Ultimaker",
"manufacturer": "Zone3D",
"file_formats": "text/x-gcode",
"platform_offset": [ 0, 0, 0],

2
resources/extruders/eryone_er20_extruder_0.def.json
View file

@ -18,7 +18,7 @@
"default_value": 1.75
},
"machine_nozzle_offset_x": {
"default_value": -10.0
"default_value": 5
},
"machine_nozzle_offset_y": {
"default_value": 8.0

8
resources/extruders/hellbot_magna_2_230_dual_extruder_0.def.json
View file

@ -13,6 +13,12 @@
"maximum_value": "1"
},
"machine_nozzle_size": { "default_value": 0.4 },
"material_diameter": { "default_value": 1.75 }
"material_diameter": { "default_value": 1.75 },
"machine_extruder_start_code": {
"default_value": "T0 \nG92 E0 \nG1 F1000 E100 \nG92 E0 \nM104 S{material_print_temperature}"
},
"machine_extruder_end_code": {
"default_value": "G92 E0 \nG1 F2500 E-5 \nG1 F2400 X230 Y200 \nG1 F3000 E-100 \nG92 E0 \nG90"
}
}
}

8
resources/extruders/hellbot_magna_2_230_dual_extruder_1.def.json
View file

@ -13,6 +13,12 @@
"maximum_value": "1"
},
"machine_nozzle_size": { "default_value": 0.4 },
"material_diameter": { "default_value": 1.75 }
"material_diameter": { "default_value": 1.75 },
"machine_extruder_start_code": {
"default_value": "T1 \nG92 E0 \nG1 F1000 E100 \nG92 E0 \nM104 S{material_print_temperature}"
},
"machine_extruder_end_code": {
"default_value": "G92 E0 \nG1 F2500 E-5 \nG1 F2400 X230 Y200 \nG1 F3000 E-100 \nG92 E0 \nG90"
}
}
}

8
resources/extruders/hellbot_magna_2_300_dual_extruder_0.def.json
View file

@ -13,6 +13,12 @@
"maximum_value": "1"
},
"machine_nozzle_size": { "default_value": 0.4 },
"material_diameter": { "default_value": 1.75 }
"material_diameter": { "default_value": 1.75 },
"machine_extruder_start_code": {
"default_value": "T0 \nG92 E0 \nG1 F1000 E100 \nG92 E0 \nM104 S{material_print_temperature}"
},
"machine_extruder_end_code": {
"default_value": "G92 E0 \nG1 F2500 E-5 \nG1 F2400 X300 Y250 \nG1 F3000 E-100 \nG92 E0 \nG90"
}
}
}

8
resources/extruders/hellbot_magna_2_300_dual_extruder_1.def.json
View file

@ -13,6 +13,12 @@
"maximum_value": "1"
},
"machine_nozzle_size": { "default_value": 0.4 },
"material_diameter": { "default_value": 1.75 }
"material_diameter": { "default_value": 1.75 },
"machine_extruder_start_code": {
"default_value": "T1 \nG92 E0 \nG1 F1000 E100 \nG92 E0 \nM104 S{material_print_temperature}"
},
"machine_extruder_end_code": {
"default_value": "G92 E0 \nG1 F2500 E-5 \nG1 F2400 X300 Y250 \nG1 F3000 E-100 \nG92 E0 \nG90"
}
}
}

18
resources/extruders/hellbot_magna_SE_extruder.def.json Normal file
View file

@ -0,0 +1,18 @@
{
"version": 2,
"name": "Extruder 1",
"inherits": "fdmextruder",
"metadata": {
"machine": "hellbot_magna_SE",
"position": "0"
},
"overrides": {
"extruder_nr": {
"default_value": 0,
"maximum_value": "1"
},
"machine_nozzle_size": { "default_value": 0.4 },
"material_diameter": { "default_value": 1.75 }
}
}

15
resources/extruders/mixware_hyper_s_extruder_0.def.json Normal file
View file

@ -0,0 +1,15 @@
{
"version": 2,
"name": "Extruder 1",
"inherits": "fdmextruder",
"metadata": {
"machine": "mixware_hyper_s",
"position": "0"
},
"overrides": {
"extruder_nr": { "default_value": 0 },
"machine_nozzle_size": { "default_value": 0.4 },
"material_diameter": { "default_value": 1.75 }
}
}

21
resources/extruders/sh65_extruder.def.json Normal file
View file

@ -0,0 +1,21 @@
{
"version": 2,
"name": "Extruder",
"inherits": "fdmextruder",
"metadata": {
"machine": "sh65",
"position": "0"
},
"overrides": {
"extruder_nr": {
"default_value": 0
},
"machine_nozzle_size": {
"default_value": 0.4
},
"material_diameter": {
"default_value": 1.75
}
}
}

21
resources/extruders/stream30mk3_extruder.def.json Normal file
View file

@ -0,0 +1,21 @@
{
"version": 2,
"name": "Extruder",
"inherits": "fdmextruder",
"metadata": {
"machine": "stream30mk3",
"position": "0"
},
"overrides": {
"extruder_nr": {
"default_value": 0
},
"machine_nozzle_size": {
"default_value": 0.4
},
"material_diameter": {
"default_value": 1.75
}
}
}

21
resources/extruders/stream30ultrasc2_extruder.def.json Normal file
View file

@ -0,0 +1,21 @@
{
"version": 2,
"name": "Extruder",
"inherits": "fdmextruder",
"metadata": {
"machine": "stream30ultrasc2",
"position": "0"
},
"overrides": {
"extruder_nr": {
"default_value": 0
},
"machine_nozzle_size": {
"default_value": 0.4
},
"material_diameter": {
"default_value": 1.75
}
}
}

10062
resources/i18n/cs_CZ/cura.po
View file

File diff suppressed because it is too large Load diff

4
resources/i18n/cs_CZ/fdmextruder.def.json.po
View file

@ -5,9 +5,9 @@
#
msgid ""
msgstr ""
"Project-Id-Version: Cura 4.12\n"
"Project-Id-Version: Cura 4.13\n"
"Report-Msgid-Bugs-To: plugins@ultimaker.com\n"
"POT-Creation-Date: 2021-10-20 16:43+0000\n"
"POT-Creation-Date: 2021-12-10 12:00+0000\n"
"PO-Revision-Date: 2020-02-20 17:30+0100\n"
"Last-Translator: DenyCZ <www.github.com/DenyCZ>\n"
"Language-Team: DenyCZ <www.github.com/DenyCZ>\n"

72
resources/i18n/cs_CZ/fdmprinter.def.json.po
View file

@ -5,9 +5,9 @@
#
msgid ""
msgstr ""
"Project-Id-Version: Cura 4.12\n"
"Project-Id-Version: Cura 4.13\n"
"Report-Msgid-Bugs-To: plugins@ultimaker.com\n"
"POT-Creation-Date: 2021-10-20 16:43+0000\n"
"POT-Creation-Date: 2021-12-10 11:59+0000\n"
"PO-Revision-Date: 2021-04-04 19:37+0200\n"
"Last-Translator: Miroslav Šustek <sustmidown@centrum.cz>\n"
"Language-Team: DenyCZ <www.github.com/DenyCZ>\n"
@ -153,6 +153,16 @@ msgctxt "machine_depth description"
msgid "The depth (Y-direction) of the printable area."
msgstr "Hlouba (Isa Y) plochy k tisku."
#: fdmprinter.def.json
msgctxt "machine_height label"
msgid "Machine Height"
msgstr "Výška zařízení"
#: fdmprinter.def.json
msgctxt "machine_height description"
msgid "The height (Z-direction) of the printable area."
msgstr "Výška (Osa Z) plochy k tisku."
#: fdmprinter.def.json
msgctxt "machine_shape label"
msgid "Build Plate Shape"
@ -193,16 +203,6 @@ msgctxt "machine_buildplate_type option aluminum"
msgid "Aluminum"
msgstr "Hliník"
#: fdmprinter.def.json
msgctxt "machine_height label"
msgid "Machine Height"
msgstr "Výška zařízení"
#: fdmprinter.def.json
msgctxt "machine_height description"
msgid "The height (Z-direction) of the printable area."
msgstr "Výška (Osa Z) plochy k tisku."
#: fdmprinter.def.json
msgctxt "machine_heated_bed label"
msgid "Has Heated Build Plate"
@ -560,8 +560,8 @@ msgstr "Maximální rychlost pro motor ve směru Z."
#: fdmprinter.def.json
msgctxt "machine_max_feedrate_e label"
msgid "Maximum Feedrate"
msgstr "Maximální feedrate"
msgid "Maximum Speed E"
msgstr ""
#: fdmprinter.def.json
msgctxt "machine_max_feedrate_e description"
@ -1730,7 +1730,7 @@ msgstr "Výplňový vzor"
#: fdmprinter.def.json
msgctxt "infill_pattern description"
msgid "The pattern of the infill material of the print. The line and zig zag infill swap direction on alternate layers, reducing material cost. The grid, triangle, tri-hexagon, cubic, octet, quarter cubic, cross and concentric patterns are fully printed every layer. Gyroid, cubic, quarter cubic and octet infill change with every layer to provide a more equal distribution of strength over each direction. Lightning infill tries to minimize the infill, by only supporting the (internal) roofs of the object. As such, the infill percentage is only 'valid' one layer below whatever it needs to support of the model."
msgid "The pattern of the infill material of the print. The line and zig zag infill swap direction on alternate layers, reducing material cost. The grid, triangle, tri-hexagon, cubic, octet, quarter cubic, cross and concentric patterns are fully printed every layer. Gyroid, cubic, quarter cubic and octet infill change with every layer to provide a more equal distribution of strength over each direction. Lightning infill tries to minimize the infill, by only supporting the ceiling of the object."
msgstr ""
#: fdmprinter.def.json
@ -1771,7 +1771,7 @@ msgstr "Oktet"
#: fdmprinter.def.json
msgctxt "infill_pattern option quarter_cubic"
msgid "Quarter Cubic"
msgstr "Čtvrtina krychlove"
msgstr "Čtvrtinově krychlový"
#: fdmprinter.def.json
msgctxt "infill_pattern option concentric"
@ -1781,7 +1781,7 @@ msgstr "Soustředný"
#: fdmprinter.def.json
msgctxt "infill_pattern option zigzag"
msgid "Zig Zag"
msgstr "Zig Zag"
msgstr "Cik-cak"
#: fdmprinter.def.json
msgctxt "infill_pattern option cross"
@ -1801,7 +1801,7 @@ msgstr "Gyroid"
#: fdmprinter.def.json
msgctxt "infill_pattern option lightning"
msgid "Lightning"
msgstr ""
msgstr "Bleskový"
#: fdmprinter.def.json
msgctxt "zig_zaggify_infill label"
@ -2020,41 +2020,41 @@ msgstr "Počet výplňových vrstev, které podporují okraje povrchu."
#: fdmprinter.def.json
msgctxt "lightning_infill_support_angle label"
msgid "Lightning Infill Support Angle"
msgstr ""
msgstr "Úhel podpory bleskové výplně"
#: fdmprinter.def.json
msgctxt "lightning_infill_support_angle description"
msgid "Determines when a lightning infill layer has to support anything above it. Measured in the angle given the thickness of a layer."
msgstr ""
msgstr "Určuje, kdy má vrstva bleskové výplně nad sebou něco, co má podporovat. Zadává se jako úhel a řídí se tloušťkou vrstvy."
#: fdmprinter.def.json
msgctxt "lightning_infill_overhang_angle label"
msgid "Lightning Infill Overhang Angle"
msgstr ""
msgstr "Úhel převisu bleskové podpory"
#: fdmprinter.def.json
msgctxt "lightning_infill_overhang_angle description"
msgid "Determines when a lightning infill layer has to support the model above it. Measured in the angle given the thickness."
msgstr ""
msgstr "Určuje, od jakého úhlu převisu bude vrstva bleskové výplň podporovat model nad sebou."
#: fdmprinter.def.json
msgctxt "lightning_infill_prune_angle label"
msgid "Lightning Infill Prune Angle"
msgstr ""
msgstr "Úhel ústupu bleskové vrstvy"
#: fdmprinter.def.json
msgctxt "lightning_infill_prune_angle description"
msgid "The difference a lightning infill layer can have with the one immediately above w.r.t the pruning of the outer extremities of trees. Measured in the angle given the thickness."
msgid "The endpoints of infill lines are shortened to save on material. This setting is the angle of overhang of the endpoints of these lines."
msgstr ""
#: fdmprinter.def.json
msgctxt "lightning_infill_straightening_angle label"
msgid "Lightning Infill Straightening Angle"
msgstr ""
msgstr "Úhel vyrovnávání bleskové vrstvy"
#: fdmprinter.def.json
msgctxt "lightning_infill_straightening_angle description"
msgid "The difference a lightning infill layer can have with the one immediately above w.r.t the smoothing of trees. Measured in the angle given the thickness."
msgid "The infill lines are straightened out to save on printing time. This is the maximum angle of overhang allowed across the length of the infill line."
msgstr ""
#: fdmprinter.def.json
@ -3250,7 +3250,7 @@ msgstr "Vše"
#: fdmprinter.def.json
msgctxt "retraction_combing option no_outer_surfaces"
msgid "Not on Outer Surface"
msgstr ""
msgstr "Ne na vnějším povrchu"
#: fdmprinter.def.json
msgctxt "retraction_combing option noskin"
@ -5204,7 +5204,7 @@ msgstr "Minimální šířka formy"
#: fdmprinter.def.json
msgctxt "mold_width description"
msgid "The minimal distance between the outside of the mold and the outside of the model."
msgstr ""
msgstr "Minimální vzdálenost mezi vnější stranou formy a modelu."
#: fdmprinter.def.json
msgctxt "mold_roof_height label"
@ -6480,6 +6480,22 @@ msgctxt "mesh_rotation_matrix description"
msgid "Transformation matrix to be applied to the model when loading it from file."
msgstr "Transformační matice, která se použije na model při načítání ze souboru."
#~ msgctxt "machine_max_feedrate_e label"
#~ msgid "Maximum Feedrate"
#~ msgstr "Maximální feedrate"
#~ msgctxt "infill_pattern description"
#~ msgid "The pattern of the infill material of the print. The line and zig zag infill swap direction on alternate layers, reducing material cost. The grid, triangle, tri-hexagon, cubic, octet, quarter cubic, cross and concentric patterns are fully printed every layer. Gyroid, cubic, quarter cubic and octet infill change with every layer to provide a more equal distribution of strength over each direction. Lightning infill tries to minimize the infill, by only supporting the (internal) roofs of the object. As such, the infill percentage is only 'valid' one layer below whatever it needs to support of the model."
#~ msgstr "Vzor výplňového materiálu tisku. Čáry a cik-cak s každou vrstvou obracejí směr výplně, čímž se snižují náklady na materiál. Mřížka, trojúhelník, tri-hexagon, krychle, oktet, čtvrtinově krychlový, křížový a soustředný vzor jsou plně vytištěny v každé vrstvě. Vzory gyroid, krychlový, čtvrtinově krychlový a oktet se mění s každou vrstvou, aby se zajistilo rovnoměrnější rozložení síly v každém směru. Bleskový vzor se snaží minimalizovat množství výplně tím, že podporuje pouze horní povrchy objektu. U bleskového vzoru má procento význam pouze v první vrstvě pod každým povrchem."
#~ msgctxt "lightning_infill_prune_angle description"
#~ msgid "The difference a lightning infill layer can have with the one immediately above w.r.t the pruning of the outer extremities of trees. Measured in the angle given the thickness."
#~ msgstr "Určuje, pod jakým úhlem mezi jednotlivými vrstvami se větve bleskové výplně zkracují."
#~ msgctxt "lightning_infill_straightening_angle description"
#~ msgid "The difference a lightning infill layer can have with the one immediately above w.r.t the smoothing of trees. Measured in the angle given the thickness."
#~ msgstr "Určuje, pod jakým úhlem mezi jednotlivými vrstvami může docházet k vyrovnávání větví bleskové výplně."
#~ msgctxt "infill_pattern description"
#~ msgid "The pattern of the infill material of the print. The line and zig zag infill swap direction on alternate layers, reducing material cost. The grid, triangle, tri-hexagon, cubic, octet, quarter cubic, cross and concentric patterns are fully printed every layer. Gyroid, cubic, quarter cubic and octet infill change with every layer to provide a more equal distribution of strength over each direction."
#~ msgstr "Vzor výplňového materiálu tisku. Směr a cik-cak vyplňují směr výměny na alternativních vrstvách, čímž se snižují náklady na materiál. Mřížka, trojúhelník, tri-hexagon, krychlový, oktet, čtvrtý krychlový, křížový a soustředný obrazec jsou plně vytištěny v každé vrstvě. Výplň Gyroid, krychlový, kvartální a oktet se mění s každou vrstvou, aby se zajistilo rovnoměrnější rozložení síly v každém směru."

9729
resources/i18n/cura.pot
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9914
resources/i18n/de_DE/cura.po
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4
resources/i18n/de_DE/fdmextruder.def.json.po
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@ -4,9 +4,9 @@
#
msgid ""
msgstr ""
"Project-Id-Version: Cura 4.12\n"
"Project-Id-Version: Cura 4.13\n"
"Report-Msgid-Bugs-To: plugins@ultimaker.com\n"
"POT-Creation-Date: 2021-10-20 16:43+0000\n"
"POT-Creation-Date: 2021-12-10 12:00+0000\n"
"PO-Revision-Date: 2021-04-16 15:15+0200\n"
"Last-Translator: Bothof <info@bothof.nl>\n"
"Language-Team: German\n"

84
resources/i18n/de_DE/fdmprinter.def.json.po
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@ -4,9 +4,9 @@
#
msgid ""
msgstr ""
"Project-Id-Version: Cura 4.12\n"
"Project-Id-Version: Cura 4.13\n"
"Report-Msgid-Bugs-To: plugins@ultimaker.com\n"
"POT-Creation-Date: 2021-10-20 16:43+0000\n"
"POT-Creation-Date: 2021-12-10 11:59+0000\n"
"PO-Revision-Date: 2021-04-16 15:16+0200\n"
"Last-Translator: Lionbridge <info@lionbridge.com>\n"
"Language-Team: German <info@lionbridge.com>, German <info@bothof.nl>\n"
@ -53,8 +53,10 @@ msgstr "Start G-Code"
#: fdmprinter.def.json
msgctxt "machine_start_gcode description"
msgid "G-code commands to be executed at the very start - separated by \\n."
msgstr "G-Code-Befehle, die zu Beginn ausgeführt werden sollen getrennt durch \\n."
msgid ""
"G-code commands to be executed at the very start - separated by \n"
"."
msgstr ""
#: fdmprinter.def.json
msgctxt "machine_end_gcode label"
@ -63,8 +65,10 @@ msgstr "Ende G-Code"
#: fdmprinter.def.json
msgctxt "machine_end_gcode description"
msgid "G-code commands to be executed at the very end - separated by \\n."
msgstr "G-Code-Befehle, die am Ende ausgeführt werden sollen getrennt durch \\n."
msgid ""
"G-code commands to be executed at the very end - separated by \n"
"."
msgstr ""
#: fdmprinter.def.json
msgctxt "material_guid label"
@ -146,6 +150,16 @@ msgctxt "machine_depth description"
msgid "The depth (Y-direction) of the printable area."
msgstr "Die Tiefe (Y-Richtung) des druckbaren Bereichs."
#: fdmprinter.def.json
msgctxt "machine_height label"
msgid "Machine Height"
msgstr "Gerätehöhe"
#: fdmprinter.def.json
msgctxt "machine_height description"
msgid "The height (Z-direction) of the printable area."
msgstr "Die Höhe (Z-Richtung) des druckbaren Bereichs."
#: fdmprinter.def.json
msgctxt "machine_shape label"
msgid "Build Plate Shape"
@ -186,16 +200,6 @@ msgctxt "machine_buildplate_type option aluminum"
msgid "Aluminum"
msgstr "Aluminium"
#: fdmprinter.def.json
msgctxt "machine_height label"
msgid "Machine Height"
msgstr "Gerätehöhe"
#: fdmprinter.def.json
msgctxt "machine_height description"
msgid "The height (Z-direction) of the printable area."
msgstr "Die Höhe (Z-Richtung) des druckbaren Bereichs."
#: fdmprinter.def.json
msgctxt "machine_heated_bed label"
msgid "Has Heated Build Plate"
@ -553,8 +557,8 @@ msgstr "Die Maximaldrehzahl für den Motor der Z-Richtung."
#: fdmprinter.def.json
msgctxt "machine_max_feedrate_e label"
msgid "Maximum Feedrate"
msgstr "Maximaler Vorschub"
msgid "Maximum Speed E"
msgstr ""
#: fdmprinter.def.json
msgctxt "machine_max_feedrate_e description"
@ -1259,7 +1263,7 @@ msgstr "Intelligent verbergen"
#: fdmprinter.def.json
msgctxt "z_seam_relative label"
msgid "Z Seam Relative"
msgstr "Realitvwert der Z-Naht"
msgstr "Relativwert der Z-Naht"
#: fdmprinter.def.json
msgctxt "z_seam_relative description"
@ -1723,12 +1727,8 @@ msgstr "Füllmuster"
#: fdmprinter.def.json
msgctxt "infill_pattern description"
msgid "The pattern of the infill material of the print. The line and zig zag infill swap direction on alternate layers, reducing material cost. The grid, triangle, tri-hexagon, cubic, octet, quarter cubic, cross and concentric patterns are fully printed every layer. Gyroid, cubic, quarter cubic and octet infill change with every layer to provide a more equal distribution of strength over each direction. Lightning infill tries to minimize the infill, by only supporting the (internal) roofs of the object. As such, the infill percentage is only 'valid' one layer below whatever it needs to support of the model."
msgstr "Das Muster des Füllmaterials des Drucks. Die Linien- und Zickzackfüllmethode wechseln nach jeder Schicht die Richtung, um Materialkosten zu reduzieren."
" Die Gitter-, Dreieck- Tri-Hexagon-, Würfel-, Octahedral-, Viertelwürfel-, Quer- und konzentrischen Muster werden in jeder Schicht vollständig gedruckt."
" Gyroid-, Würfel-, Viertelwürfel- und achtflächige Füllungen wechseln mit jeder Schicht, um eine gleichmäßigere Verteilung der Stärke in allen Richtungen"
" zu erzielen. Die Einstellung Blitz versucht, die Füllung zu minimieren, indem nur die (internen) Dächer des Objekts gestützt werden. Der gültige Prozentsatz"
" der Füllung bezieht sich daher nur auf die jeweilige Ebene unter dem zu stützenden Bereich des Modells."
msgid "The pattern of the infill material of the print. The line and zig zag infill swap direction on alternate layers, reducing material cost. The grid, triangle, tri-hexagon, cubic, octet, quarter cubic, cross and concentric patterns are fully printed every layer. Gyroid, cubic, quarter cubic and octet infill change with every layer to provide a more equal distribution of strength over each direction. Lightning infill tries to minimize the infill, by only supporting the ceiling of the object."
msgstr ""
#: fdmprinter.def.json
msgctxt "infill_pattern option grid"
@ -2041,9 +2041,8 @@ msgstr "Beschnittwinkel der Blitz-Füllung"
#: fdmprinter.def.json
msgctxt "lightning_infill_prune_angle description"
msgid "The difference a lightning infill layer can have with the one immediately above w.r.t the pruning of the outer extremities of trees. Measured in the angle given the thickness."
msgstr "Der Unterschied, den eine Blitz-Füllschicht zu der unmittelbar darüber liegenden Schicht haben kann, wenn es um den Beschnitt der äußeren Enden von Bäumen"
" geht. Gemessen in dem Winkel, den die Schichtstärke vorgibt."
msgid "The endpoints of infill lines are shortened to save on material. This setting is the angle of overhang of the endpoints of these lines."
msgstr ""
#: fdmprinter.def.json
msgctxt "lightning_infill_straightening_angle label"
@ -2052,9 +2051,8 @@ msgstr "Begradigungswinkel der Blitz-Füllung"
#: fdmprinter.def.json
msgctxt "lightning_infill_straightening_angle description"
msgid "The difference a lightning infill layer can have with the one immediately above w.r.t the smoothing of trees. Measured in the angle given the thickness."
msgstr "Die veränderte Position, die eine Schicht der Blitz-Füllung zu der unmittelbar darüber liegenden Schicht haben kann, wenn es um das Ausrunden der äußeren"
" Enden von Bäumen geht. Gemessen als Winkel der Zweige."
msgid "The infill lines are straightened out to save on printing time. This is the maximum angle of overhang allowed across the length of the infill line."
msgstr ""
#: fdmprinter.def.json
msgctxt "material label"
@ -6479,6 +6477,30 @@ msgctxt "mesh_rotation_matrix description"
msgid "Transformation matrix to be applied to the model when loading it from file."
msgstr "Transformationsmatrix, die beim Laden aus der Datei auf das Modell angewandt wird."
#~ msgctxt "machine_start_gcode description"
#~ msgid "G-code commands to be executed at the very start - separated by \\n."
#~ msgstr "G-Code-Befehle, die zu Beginn ausgeführt werden sollen getrennt durch \\n."
#~ msgctxt "machine_end_gcode description"
#~ msgid "G-code commands to be executed at the very end - separated by \\n."
#~ msgstr "G-Code-Befehle, die am Ende ausgeführt werden sollen getrennt durch \\n."
#~ msgctxt "machine_max_feedrate_e label"
#~ msgid "Maximum Feedrate"
#~ msgstr "Maximaler Vorschub"
#~ msgctxt "infill_pattern description"
#~ msgid "The pattern of the infill material of the print. The line and zig zag infill swap direction on alternate layers, reducing material cost. The grid, triangle, tri-hexagon, cubic, octet, quarter cubic, cross and concentric patterns are fully printed every layer. Gyroid, cubic, quarter cubic and octet infill change with every layer to provide a more equal distribution of strength over each direction. Lightning infill tries to minimize the infill, by only supporting the (internal) roofs of the object. As such, the infill percentage is only 'valid' one layer below whatever it needs to support of the model."
#~ msgstr "Das Muster des Füllmaterials des Drucks. Die Linien- und Zickzackfüllmethode wechseln nach jeder Schicht die Richtung, um Materialkosten zu reduzieren. Die Gitter-, Dreieck- Tri-Hexagon-, Würfel-, Octahedral-, Viertelwürfel-, Quer- und konzentrischen Muster werden in jeder Schicht vollständig gedruckt. Gyroid-, Würfel-, Viertelwürfel- und achtflächige Füllungen wechseln mit jeder Schicht, um eine gleichmäßigere Verteilung der Stärke in allen Richtungen zu erzielen. Die Einstellung Blitz versucht, die Füllung zu minimieren, indem nur die (internen) Dächer des Objekts gestützt werden. Der gültige Prozentsatz der Füllung bezieht sich daher nur auf die jeweilige Ebene unter dem zu stützenden Bereich des Modells."
#~ msgctxt "lightning_infill_prune_angle description"
#~ msgid "The difference a lightning infill layer can have with the one immediately above w.r.t the pruning of the outer extremities of trees. Measured in the angle given the thickness."
#~ msgstr "Der Unterschied, den eine Blitz-Füllschicht zu der unmittelbar darüber liegenden Schicht haben kann, wenn es um den Beschnitt der äußeren Enden von Bäumen geht. Gemessen in dem Winkel, den die Schichtstärke vorgibt."
#~ msgctxt "lightning_infill_straightening_angle description"
#~ msgid "The difference a lightning infill layer can have with the one immediately above w.r.t the smoothing of trees. Measured in the angle given the thickness."
#~ msgstr "Die veränderte Position, die eine Schicht der Blitz-Füllung zu der unmittelbar darüber liegenden Schicht haben kann, wenn es um das Ausrunden der äußeren Enden von Bäumen geht. Gemessen als Winkel der Zweige."
#~ msgctxt "infill_pattern description"
#~ msgid "The pattern of the infill material of the print. The line and zig zag infill swap direction on alternate layers, reducing material cost. The grid, triangle, tri-hexagon, cubic, octet, quarter cubic, cross and concentric patterns are fully printed every layer. Gyroid, cubic, quarter cubic and octet infill change with every layer to provide a more equal distribution of strength over each direction."
#~ msgstr "Das Muster des Füllmaterials des Drucks. Die Linien- und Zickzackfüllmethode wechseln nach jeder Schicht die Richtung, um Materialkosten zu reduzieren. Die Gitter-, Dreieck- Tri-Hexagon-, Würfel-, Octahedral-, Viertelwürfel-, Quer- und konzentrischen Muster werden in jeder Schicht vollständig gedruckt. Gyroid-, Würfel-, Viertelwürfel- und Octahedral-Füllungen wechseln mit jeder Schicht, um eine gleichmäßigere Verteilung der Stärke in allen Richtungen zu erzielen."

9904
resources/i18n/es_ES/cura.po
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4
resources/i18n/es_ES/fdmextruder.def.json.po
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@ -4,9 +4,9 @@
#
msgid ""
msgstr ""
"Project-Id-Version: Cura 4.12\n"
"Project-Id-Version: Cura 4.13\n"
"Report-Msgid-Bugs-To: plugins@ultimaker.com\n"
"POT-Creation-Date: 2021-10-20 16:43+0000\n"
"POT-Creation-Date: 2021-12-10 12:00+0000\n"
"PO-Revision-Date: 2019-03-13 14:00+0200\n"
"Last-Translator: Bothof <info@bothof.nl>\n"
"Language-Team: Spanish\n"

84
resources/i18n/es_ES/fdmprinter.def.json.po
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@ -4,9 +4,9 @@
#
msgid ""
msgstr ""
"Project-Id-Version: Cura 4.12\n"
"Project-Id-Version: Cura 4.13\n"
"Report-Msgid-Bugs-To: plugins@ultimaker.com\n"
"POT-Creation-Date: 2021-10-20 16:43+0000\n"
"POT-Creation-Date: 2021-12-10 11:59+0000\n"
"PO-Revision-Date: 2021-04-16 15:15+0200\n"
"Last-Translator: Lionbridge <info@lionbridge.com>\n"
"Language-Team: Spanish <info@lionbridge.com>, Spanish <info@bothof.nl>\n"
@ -53,8 +53,10 @@ msgstr "Iniciar GCode"
#: fdmprinter.def.json
msgctxt "machine_start_gcode description"
msgid "G-code commands to be executed at the very start - separated by \\n."
msgstr "Los comandos de GCode que se ejecutarán justo al inicio separados por - \\n."
msgid ""
"G-code commands to be executed at the very start - separated by \n"
"."
msgstr ""
#: fdmprinter.def.json
msgctxt "machine_end_gcode label"
@ -63,8 +65,10 @@ msgstr "Finalizar GCode"
#: fdmprinter.def.json
msgctxt "machine_end_gcode description"
msgid "G-code commands to be executed at the very end - separated by \\n."
msgstr "Los comandos de GCode que se ejecutarán justo al final separados por - \\n."
msgid ""
"G-code commands to be executed at the very end - separated by \n"
"."
msgstr ""
#: fdmprinter.def.json
msgctxt "material_guid label"
@ -146,6 +150,16 @@ msgctxt "machine_depth description"
msgid "The depth (Y-direction) of the printable area."
msgstr "Profundidad (dimensión sobre el eje Y) del área de impresión."
#: fdmprinter.def.json
msgctxt "machine_height label"
msgid "Machine Height"
msgstr "Altura de la máquina"
#: fdmprinter.def.json
msgctxt "machine_height description"
msgid "The height (Z-direction) of the printable area."
msgstr "Altura (dimensión sobre el eje Z) del área de impresión."
#: fdmprinter.def.json
msgctxt "machine_shape label"
msgid "Build Plate Shape"
@ -186,16 +200,6 @@ msgctxt "machine_buildplate_type option aluminum"
msgid "Aluminum"
msgstr "Aluminio"
#: fdmprinter.def.json
msgctxt "machine_height label"
msgid "Machine Height"
msgstr "Altura de la máquina"
#: fdmprinter.def.json
msgctxt "machine_height description"
msgid "The height (Z-direction) of the printable area."
msgstr "Altura (dimensión sobre el eje Z) del área de impresión."
#: fdmprinter.def.json
msgctxt "machine_heated_bed label"
msgid "Has Heated Build Plate"
@ -553,8 +557,8 @@ msgstr "Velocidad máxima del motor de la dirección Z."
#: fdmprinter.def.json
msgctxt "machine_max_feedrate_e label"
msgid "Maximum Feedrate"
msgstr "Velocidad de alimentación máxima"
msgid "Maximum Speed E"
msgstr ""
#: fdmprinter.def.json
msgctxt "machine_max_feedrate_e description"
@ -1723,12 +1727,8 @@ msgstr "Patrón de relleno"
#: fdmprinter.def.json
msgctxt "infill_pattern description"
msgid "The pattern of the infill material of the print. The line and zig zag infill swap direction on alternate layers, reducing material cost. The grid, triangle, tri-hexagon, cubic, octet, quarter cubic, cross and concentric patterns are fully printed every layer. Gyroid, cubic, quarter cubic and octet infill change with every layer to provide a more equal distribution of strength over each direction. Lightning infill tries to minimize the infill, by only supporting the (internal) roofs of the object. As such, the infill percentage is only 'valid' one layer below whatever it needs to support of the model."
msgstr "Patrón del material de relleno de la impresión. El relleno de línea y zigzag cambia de dirección en capas alternas, con lo que se reduce el coste de material."
" Los patrones de rejilla, triángulo, trihexágono, cubo, octeto, cubo bitruncado, transversal y concéntrico se imprimen en todas las capas por completo."
" El relleno giroide, cúbico, cúbico bitruncado y de octeto cambian en cada capa para proporcionar una distribución de fuerza equitativa en cada dirección."
" El relleno de iluminación intenta minimizar el relleno, apoyando únicamente las cubiertas (internas) del objeto. Como tal, el porcentaje de relleno solo"
" es \"válido\" una capa por debajo de lo que necesite para soportar el modelo."
msgid "The pattern of the infill material of the print. The line and zig zag infill swap direction on alternate layers, reducing material cost. The grid, triangle, tri-hexagon, cubic, octet, quarter cubic, cross and concentric patterns are fully printed every layer. Gyroid, cubic, quarter cubic and octet infill change with every layer to provide a more equal distribution of strength over each direction. Lightning infill tries to minimize the infill, by only supporting the ceiling of the object."
msgstr ""
#: fdmprinter.def.json
msgctxt "infill_pattern option grid"
@ -1798,7 +1798,7 @@ msgstr "Giroide"
#: fdmprinter.def.json
msgctxt "infill_pattern option lightning"
msgid "Lightning"
msgstr "Lightning (Iluminación)"
msgstr "Iluminación"
#: fdmprinter.def.json
msgctxt "zig_zaggify_infill label"
@ -2041,9 +2041,8 @@ msgstr "Ángulo de recorte de relleno de iluminación"
#: fdmprinter.def.json
msgctxt "lightning_infill_prune_angle description"
msgid "The difference a lightning infill layer can have with the one immediately above w.r.t the pruning of the outer extremities of trees. Measured in the angle given the thickness."
msgstr "La diferencia que puede tener una capa de relleno de iluminación con la inmediatamente superior como cuando se podan las puntas de los árboles. Medido"
" en el ángulo dado el espesor."
msgid "The endpoints of infill lines are shortened to save on material. This setting is the angle of overhang of the endpoints of these lines."
msgstr ""
#: fdmprinter.def.json
msgctxt "lightning_infill_straightening_angle label"
@ -2052,9 +2051,8 @@ msgstr "Ángulo de enderezamiento de iluminación"
#: fdmprinter.def.json
msgctxt "lightning_infill_straightening_angle description"
msgid "The difference a lightning infill layer can have with the one immediately above w.r.t the smoothing of trees. Measured in the angle given the thickness."
msgstr "La diferencia que puede tener una capa de relleno de iluminación con la inmediatamente superior como el suavizado de los árboles. Medido en el ángulo dado"
" el espesor."
msgid "The infill lines are straightened out to save on printing time. This is the maximum angle of overhang allowed across the length of the infill line."
msgstr ""
#: fdmprinter.def.json
msgctxt "material label"
@ -6479,6 +6477,30 @@ msgctxt "mesh_rotation_matrix description"
msgid "Transformation matrix to be applied to the model when loading it from file."
msgstr "Matriz de transformación que se aplicará al modelo cuando se cargue desde el archivo."
#~ msgctxt "machine_start_gcode description"
#~ msgid "G-code commands to be executed at the very start - separated by \\n."
#~ msgstr "Los comandos de GCode que se ejecutarán justo al inicio separados por - \\n."
#~ msgctxt "machine_end_gcode description"
#~ msgid "G-code commands to be executed at the very end - separated by \\n."
#~ msgstr "Los comandos de GCode que se ejecutarán justo al final separados por - \\n."
#~ msgctxt "machine_max_feedrate_e label"
#~ msgid "Maximum Feedrate"
#~ msgstr "Velocidad de alimentación máxima"
#~ msgctxt "infill_pattern description"
#~ msgid "The pattern of the infill material of the print. The line and zig zag infill swap direction on alternate layers, reducing material cost. The grid, triangle, tri-hexagon, cubic, octet, quarter cubic, cross and concentric patterns are fully printed every layer. Gyroid, cubic, quarter cubic and octet infill change with every layer to provide a more equal distribution of strength over each direction. Lightning infill tries to minimize the infill, by only supporting the (internal) roofs of the object. As such, the infill percentage is only 'valid' one layer below whatever it needs to support of the model."
#~ msgstr "Patrón del material de relleno de la impresión. El relleno de línea y zigzag cambia de dirección en capas alternas, con lo que se reduce el coste de material. Los patrones de rejilla, triángulo, trihexágono, cubo, octeto, cubo bitruncado, transversal y concéntrico se imprimen en todas las capas por completo. El relleno giroide, cúbico, cúbico bitruncado y de octeto cambian en cada capa para proporcionar una distribución de fuerza equitativa en cada dirección. El relleno de iluminación intenta minimizar el relleno, apoyando únicamente las cubiertas (internas) del objeto. Como tal, el porcentaje de relleno solo es \"válido\" una capa por debajo de lo que necesite para soportar el modelo."
#~ msgctxt "lightning_infill_prune_angle description"
#~ msgid "The difference a lightning infill layer can have with the one immediately above w.r.t the pruning of the outer extremities of trees. Measured in the angle given the thickness."
#~ msgstr "La diferencia que puede tener una capa de relleno de iluminación con la inmediatamente superior como cuando se podan las puntas de los árboles. Medido en el ángulo dado el espesor."
#~ msgctxt "lightning_infill_straightening_angle description"
#~ msgid "The difference a lightning infill layer can have with the one immediately above w.r.t the smoothing of trees. Measured in the angle given the thickness."
#~ msgstr "La diferencia que puede tener una capa de relleno de iluminación con la inmediatamente superior como el suavizado de los árboles. Medido en el ángulo dado el espesor."
#~ msgctxt "infill_pattern description"
#~ msgid "The pattern of the infill material of the print. The line and zig zag infill swap direction on alternate layers, reducing material cost. The grid, triangle, tri-hexagon, cubic, octet, quarter cubic, cross and concentric patterns are fully printed every layer. Gyroid, cubic, quarter cubic and octet infill change with every layer to provide a more equal distribution of strength over each direction."
#~ msgstr "Patrón del material de relleno de la impresión. El relleno de línea y zigzag cambia de dirección en capas alternas, con lo que se reduce el coste de material. Los patrones de rejilla, triángulo, trihexágono, cubo, octeto, cubo bitruncado, transversal y concéntrico se imprimen en todas las capas por completo. El relleno giroide, cúbico, cúbico bitruncado y de octeto cambian en cada capa para proporcionar una distribución de fuerza equitativa en cada dirección."

2
resources/i18n/fdmextruder.def.json.pot
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@ -3,7 +3,7 @@ msgid ""
msgstr ""
"Project-Id-Version: Uranium json setting files\n"
"Report-Msgid-Bugs-To: plugins@ultimaker.com\n"
"POT-Creation-Date: 2021-10-20 16:43+0000\n"
"POT-Creation-Date: 2021-12-10 12:00+0000\n"
"PO-Revision-Date: YEAR-MO-DA HO:MI+ZONE\n"
"Last-Translator: FULL NAME <EMAIL@ADDRESS>\n"
"Language-Team: LANGUAGE\n"

38
resources/i18n/fdmprinter.def.json.pot
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@ -3,7 +3,7 @@ msgid ""
msgstr ""
"Project-Id-Version: Uranium json setting files\n"
"Report-Msgid-Bugs-To: plugins@ultimaker.com\n"
"POT-Creation-Date: 2021-10-20 16:43+0000\n"
"POT-Creation-Date: 2021-12-10 11:59+0000\n"
"PO-Revision-Date: YEAR-MO-DA HO:MI+ZONE\n"
"Last-Translator: FULL NAME <EMAIL@ADDRESS>\n"
"Language-Team: LANGUAGE\n"
@ -157,6 +157,16 @@ msgctxt "machine_depth description"
msgid "The depth (Y-direction) of the printable area."
msgstr ""
#: fdmprinter.def.json
msgctxt "machine_height label"
msgid "Machine Height"
msgstr ""
#: fdmprinter.def.json
msgctxt "machine_height description"
msgid "The height (Z-direction) of the printable area."
msgstr ""
#: fdmprinter.def.json
msgctxt "machine_shape label"
msgid "Build Plate Shape"
@ -198,16 +208,6 @@ msgctxt "machine_buildplate_type option aluminum"
msgid "Aluminum"
msgstr ""
#: fdmprinter.def.json
msgctxt "machine_height label"
msgid "Machine Height"
msgstr ""
#: fdmprinter.def.json
msgctxt "machine_height description"
msgid "The height (Z-direction) of the printable area."
msgstr ""
#: fdmprinter.def.json
msgctxt "machine_heated_bed label"
msgid "Has Heated Build Plate"
@ -612,7 +612,7 @@ msgstr ""
#: fdmprinter.def.json
msgctxt "machine_max_feedrate_e label"
msgid "Maximum Feedrate"
msgid "Maximum Speed E"
msgstr ""
#: fdmprinter.def.json
@ -1988,9 +1988,7 @@ msgid ""
"patterns are fully printed every layer. Gyroid, cubic, quarter cubic and "
"octet infill change with every layer to provide a more equal distribution of "
"strength over each direction. Lightning infill tries to minimize the infill, "
"by only supporting the (internal) roofs of the object. As such, the infill "
"percentage is only 'valid' one layer below whatever it needs to support of "
"the model."
"by only supporting the ceiling of the object."
msgstr ""
#: fdmprinter.def.json
@ -2359,9 +2357,8 @@ msgstr ""
#: fdmprinter.def.json
msgctxt "lightning_infill_prune_angle description"
msgid ""
"The difference a lightning infill layer can have with the one immediately "
"above w.r.t the pruning of the outer extremities of trees. Measured in the "
"angle given the thickness."
"The endpoints of infill lines are shortened to save on material. This "
"setting is the angle of overhang of the endpoints of these lines."
msgstr ""
#: fdmprinter.def.json
@ -2372,9 +2369,8 @@ msgstr ""
#: fdmprinter.def.json
msgctxt "lightning_infill_straightening_angle description"
msgid ""
"The difference a lightning infill layer can have with the one immediately "
"above w.r.t the smoothing of trees. Measured in the angle given the "
"thickness."
"The infill lines are straightened out to save on printing time. This is the "
"maximum angle of overhang allowed across the length of the infill line."
msgstr ""
#: fdmprinter.def.json

9958
resources/i18n/fi_FI/cura.po
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4
resources/i18n/fi_FI/fdmextruder.def.json.po
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@ -4,9 +4,9 @@
#
msgid ""
msgstr ""
"Project-Id-Version: Cura 4.12\n"
"Project-Id-Version: Cura 4.13\n"
"Report-Msgid-Bugs-To: plugins@ultimaker.com\n"
"POT-Creation-Date: 2021-10-20 16:43+0000\n"
"POT-Creation-Date: 2021-12-10 12:00+0000\n"
"PO-Revision-Date: 2017-08-11 14:31+0200\n"
"Last-Translator: Bothof <info@bothof.nl>\n"
"Language-Team: Finnish\n"

38
resources/i18n/fi_FI/fdmprinter.def.json.po
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@ -4,9 +4,9 @@
#
msgid ""
msgstr ""
"Project-Id-Version: Cura 4.12\n"
"Project-Id-Version: Cura 4.13\n"
"Report-Msgid-Bugs-To: plugins@ultimaker.com\n"
"POT-Creation-Date: 2021-10-20 16:43+0000\n"
"POT-Creation-Date: 2021-12-10 11:59+0000\n"
"PO-Revision-Date: 2017-09-27 12:27+0200\n"
"Last-Translator: Bothof <info@bothof.nl>\n"
"Language-Team: Finnish\n"
@ -149,6 +149,16 @@ msgctxt "machine_depth description"
msgid "The depth (Y-direction) of the printable area."
msgstr "Tulostettavan alueen syvyys (Y-suunta)."
#: fdmprinter.def.json
msgctxt "machine_height label"
msgid "Machine Height"
msgstr "Laitteen korkeus"
#: fdmprinter.def.json
msgctxt "machine_height description"
msgid "The height (Z-direction) of the printable area."
msgstr "Tulostettavan alueen korkeus (Z-suunta)."
#: fdmprinter.def.json
msgctxt "machine_shape label"
msgid "Build Plate Shape"
@ -189,16 +199,6 @@ msgctxt "machine_buildplate_type option aluminum"
msgid "Aluminum"
msgstr ""
#: fdmprinter.def.json
msgctxt "machine_height label"
msgid "Machine Height"
msgstr "Laitteen korkeus"
#: fdmprinter.def.json
msgctxt "machine_height description"
msgid "The height (Z-direction) of the printable area."
msgstr "Tulostettavan alueen korkeus (Z-suunta)."
#: fdmprinter.def.json
msgctxt "machine_heated_bed label"
msgid "Has Heated Build Plate"
@ -556,8 +556,8 @@ msgstr "Z-suunnan moottorin maksiminopeus."
#: fdmprinter.def.json
msgctxt "machine_max_feedrate_e label"
msgid "Maximum Feedrate"
msgstr "Maksimisyöttönopeus"
msgid "Maximum Speed E"
msgstr ""
#: fdmprinter.def.json
msgctxt "machine_max_feedrate_e description"
@ -1726,7 +1726,7 @@ msgstr "Täyttökuvio"
#: fdmprinter.def.json
msgctxt "infill_pattern description"
msgid "The pattern of the infill material of the print. The line and zig zag infill swap direction on alternate layers, reducing material cost. The grid, triangle, tri-hexagon, cubic, octet, quarter cubic, cross and concentric patterns are fully printed every layer. Gyroid, cubic, quarter cubic and octet infill change with every layer to provide a more equal distribution of strength over each direction. Lightning infill tries to minimize the infill, by only supporting the (internal) roofs of the object. As such, the infill percentage is only 'valid' one layer below whatever it needs to support of the model."
msgid "The pattern of the infill material of the print. The line and zig zag infill swap direction on alternate layers, reducing material cost. The grid, triangle, tri-hexagon, cubic, octet, quarter cubic, cross and concentric patterns are fully printed every layer. Gyroid, cubic, quarter cubic and octet infill change with every layer to provide a more equal distribution of strength over each direction. Lightning infill tries to minimize the infill, by only supporting the ceiling of the object."
msgstr ""
#: fdmprinter.def.json
@ -2038,7 +2038,7 @@ msgstr ""
#: fdmprinter.def.json
msgctxt "lightning_infill_prune_angle description"
msgid "The difference a lightning infill layer can have with the one immediately above w.r.t the pruning of the outer extremities of trees. Measured in the angle given the thickness."
msgid "The endpoints of infill lines are shortened to save on material. This setting is the angle of overhang of the endpoints of these lines."
msgstr ""
#: fdmprinter.def.json
@ -2048,7 +2048,7 @@ msgstr ""
#: fdmprinter.def.json
msgctxt "lightning_infill_straightening_angle description"
msgid "The difference a lightning infill layer can have with the one immediately above w.r.t the smoothing of trees. Measured in the angle given the thickness."
msgid "The infill lines are straightened out to save on printing time. This is the maximum angle of overhang allowed across the length of the infill line."
msgstr ""
#: fdmprinter.def.json
@ -6472,6 +6472,10 @@ msgctxt "mesh_rotation_matrix description"
msgid "Transformation matrix to be applied to the model when loading it from file."
msgstr "Mallissa käytettävä muunnosmatriisi, kun malli ladataan tiedostosta."
#~ msgctxt "machine_max_feedrate_e label"
#~ msgid "Maximum Feedrate"
#~ msgstr "Maksimisyöttönopeus"
#~ msgctxt "mold_width description"
#~ msgid "The minimal distance between the ouside of the mold and the outside of the model."
#~ msgstr "Muotin ulkoseinän ja mallin ulkoseinän välinen vähimmäisetäisyys."

10064
resources/i18n/fr_FR/cura.po
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4
resources/i18n/fr_FR/fdmextruder.def.json.po
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@ -4,9 +4,9 @@
#
msgid ""
msgstr ""
"Project-Id-Version: Cura 4.12\n"
"Project-Id-Version: Cura 4.13\n"
"Report-Msgid-Bugs-To: plugins@ultimaker.com\n"
"POT-Creation-Date: 2021-10-20 16:43+0000\n"
"POT-Creation-Date: 2021-12-10 12:00+0000\n"
"PO-Revision-Date: 2021-04-16 15:16+0200\n"
"Last-Translator: Bothof <info@bothof.nl>\n"
"Language-Team: French\n"

82
resources/i18n/fr_FR/fdmprinter.def.json.po
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@ -4,9 +4,9 @@
#
msgid ""
msgstr ""
"Project-Id-Version: Cura 4.12\n"
"Project-Id-Version: Cura 4.13\n"
"Report-Msgid-Bugs-To: plugins@ultimaker.com\n"
"POT-Creation-Date: 2021-10-20 16:43+0000\n"
"POT-Creation-Date: 2021-12-10 11:59+0000\n"
"PO-Revision-Date: 2021-04-16 15:16+0200\n"
"Last-Translator: Lionbridge <info@lionbridge.com>\n"
"Language-Team: French <info@lionbridge.com>, French <info@bothof.nl>\n"
@ -53,8 +53,10 @@ msgstr "G-Code de démarrage"
#: fdmprinter.def.json
msgctxt "machine_start_gcode description"
msgid "G-code commands to be executed at the very start - separated by \\n."
msgstr "Commandes G-Code à exécuter au tout début, séparées par \\n."
msgid ""
"G-code commands to be executed at the very start - separated by \n"
"."
msgstr ""
#: fdmprinter.def.json
msgctxt "machine_end_gcode label"
@ -63,8 +65,10 @@ msgstr "G-Code de fin"
#: fdmprinter.def.json
msgctxt "machine_end_gcode description"
msgid "G-code commands to be executed at the very end - separated by \\n."
msgstr "Commandes G-Code à exécuter tout à la fin, séparées par \\n."
msgid ""
"G-code commands to be executed at the very end - separated by \n"
"."
msgstr ""
#: fdmprinter.def.json
msgctxt "material_guid label"
@ -146,6 +150,16 @@ msgctxt "machine_depth description"
msgid "The depth (Y-direction) of the printable area."
msgstr "La profondeur (sens Y) de la zone imprimable."
#: fdmprinter.def.json
msgctxt "machine_height label"
msgid "Machine Height"
msgstr "Hauteur de la machine"
#: fdmprinter.def.json
msgctxt "machine_height description"
msgid "The height (Z-direction) of the printable area."
msgstr "La hauteur (sens Z) de la zone imprimable."
#: fdmprinter.def.json
msgctxt "machine_shape label"
msgid "Build Plate Shape"
@ -186,16 +200,6 @@ msgctxt "machine_buildplate_type option aluminum"
msgid "Aluminum"
msgstr "Aluminium"
#: fdmprinter.def.json
msgctxt "machine_height label"
msgid "Machine Height"
msgstr "Hauteur de la machine"
#: fdmprinter.def.json
msgctxt "machine_height description"
msgid "The height (Z-direction) of the printable area."
msgstr "La hauteur (sens Z) de la zone imprimable."
#: fdmprinter.def.json
msgctxt "machine_heated_bed label"
msgid "Has Heated Build Plate"
@ -553,8 +557,8 @@ msgstr "La vitesse maximale pour le moteur du sens Z."
#: fdmprinter.def.json
msgctxt "machine_max_feedrate_e label"
msgid "Maximum Feedrate"
msgstr "Taux d'alimentation maximal"
msgid "Maximum Speed E"
msgstr ""
#: fdmprinter.def.json
msgctxt "machine_max_feedrate_e description"
@ -1723,12 +1727,8 @@ msgstr "Motif de remplissage"
#: fdmprinter.def.json
msgctxt "infill_pattern description"
msgid "The pattern of the infill material of the print. The line and zig zag infill swap direction on alternate layers, reducing material cost. The grid, triangle, tri-hexagon, cubic, octet, quarter cubic, cross and concentric patterns are fully printed every layer. Gyroid, cubic, quarter cubic and octet infill change with every layer to provide a more equal distribution of strength over each direction. Lightning infill tries to minimize the infill, by only supporting the (internal) roofs of the object. As such, the infill percentage is only 'valid' one layer below whatever it needs to support of the model."
msgstr "Le motif du matériau de remplissage de l'impression. La ligne et le remplissage en zigzag changent de sens à chaque alternance de couche, réduisant ainsi"
" les coûts matériels. Les motifs en grille, en triangle, tri-hexagonaux, cubiques, octaédriques, quart cubiques, entrecroisés et concentriques sont entièrement"
" imprimés sur chaque couche. Les remplissages gyroïdes, cubiques, quart cubiques et octaédriques changent à chaque couche afin d'offrir une répartition"
" plus égale de la solidité dans chaque direction. Le remplissage éclair tente de minimiser le remplissage en ne soutenant que les plafonds (internes) de"
" l'objet. Ainsi, le pourcentage de remplissage n'est « valable » qu'une couche en dessous de ce qu'il doit soutenir dans le modèle."
msgid "The pattern of the infill material of the print. The line and zig zag infill swap direction on alternate layers, reducing material cost. The grid, triangle, tri-hexagon, cubic, octet, quarter cubic, cross and concentric patterns are fully printed every layer. Gyroid, cubic, quarter cubic and octet infill change with every layer to provide a more equal distribution of strength over each direction. Lightning infill tries to minimize the infill, by only supporting the ceiling of the object."
msgstr ""
#: fdmprinter.def.json
msgctxt "infill_pattern option grid"
@ -2041,9 +2041,8 @@ msgstr "Angle d'élagage du remplissage éclair"
#: fdmprinter.def.json
msgctxt "lightning_infill_prune_angle description"
msgid "The difference a lightning infill layer can have with the one immediately above w.r.t the pruning of the outer extremities of trees. Measured in the angle given the thickness."
msgstr "La différence qu'une couche de remplissage éclair peut avoir avec celle immédiatement au-dessus en ce qui concerne l'élagage des extrémités extérieures"
" des arborescences. Mesuré dans l'angle au vu de l'épaisseur."
msgid "The endpoints of infill lines are shortened to save on material. This setting is the angle of overhang of the endpoints of these lines."
msgstr ""
#: fdmprinter.def.json
msgctxt "lightning_infill_straightening_angle label"
@ -2052,9 +2051,8 @@ msgstr "Angle de redressement du remplissage éclair"
#: fdmprinter.def.json
msgctxt "lightning_infill_straightening_angle description"
msgid "The difference a lightning infill layer can have with the one immediately above w.r.t the smoothing of trees. Measured in the angle given the thickness."
msgstr "La différence qu'une couche de remplissage éclair peut avoir avec celle immédiatement au-dessus en ce qui concerne le lissage des arborescences. Mesuré"
" dans l'angle au vu de l'épaisseur."
msgid "The infill lines are straightened out to save on printing time. This is the maximum angle of overhang allowed across the length of the infill line."
msgstr ""
#: fdmprinter.def.json
msgctxt "material label"
@ -6479,6 +6477,30 @@ msgctxt "mesh_rotation_matrix description"
msgid "Transformation matrix to be applied to the model when loading it from file."
msgstr "Matrice de transformation à appliquer au modèle lors de son chargement depuis le fichier."
#~ msgctxt "machine_start_gcode description"
#~ msgid "G-code commands to be executed at the very start - separated by \\n."
#~ msgstr "Commandes G-Code à exécuter au tout début, séparées par \\n."
#~ msgctxt "machine_end_gcode description"
#~ msgid "G-code commands to be executed at the very end - separated by \\n."
#~ msgstr "Commandes G-Code à exécuter tout à la fin, séparées par \\n."
#~ msgctxt "machine_max_feedrate_e label"
#~ msgid "Maximum Feedrate"
#~ msgstr "Taux d'alimentation maximal"
#~ msgctxt "infill_pattern description"
#~ msgid "The pattern of the infill material of the print. The line and zig zag infill swap direction on alternate layers, reducing material cost. The grid, triangle, tri-hexagon, cubic, octet, quarter cubic, cross and concentric patterns are fully printed every layer. Gyroid, cubic, quarter cubic and octet infill change with every layer to provide a more equal distribution of strength over each direction. Lightning infill tries to minimize the infill, by only supporting the (internal) roofs of the object. As such, the infill percentage is only 'valid' one layer below whatever it needs to support of the model."
#~ msgstr "Le motif du matériau de remplissage de l'impression. La ligne et le remplissage en zigzag changent de sens à chaque alternance de couche, réduisant ainsi les coûts matériels. Les motifs en grille, en triangle, tri-hexagonaux, cubiques, octaédriques, quart cubiques, entrecroisés et concentriques sont entièrement imprimés sur chaque couche. Les remplissages gyroïdes, cubiques, quart cubiques et octaédriques changent à chaque couche afin d'offrir une répartition plus égale de la solidité dans chaque direction. Le remplissage éclair tente de minimiser le remplissage en ne soutenant que les plafonds (internes) de l'objet. Ainsi, le pourcentage de remplissage n'est « valable » qu'une couche en dessous de ce qu'il doit soutenir dans le modèle."
#~ msgctxt "lightning_infill_prune_angle description"
#~ msgid "The difference a lightning infill layer can have with the one immediately above w.r.t the pruning of the outer extremities of trees. Measured in the angle given the thickness."
#~ msgstr "La différence qu'une couche de remplissage éclair peut avoir avec celle immédiatement au-dessus en ce qui concerne l'élagage des extrémités extérieures des arborescences. Mesuré dans l'angle au vu de l'épaisseur."
#~ msgctxt "lightning_infill_straightening_angle description"
#~ msgid "The difference a lightning infill layer can have with the one immediately above w.r.t the smoothing of trees. Measured in the angle given the thickness."
#~ msgstr "La différence qu'une couche de remplissage éclair peut avoir avec celle immédiatement au-dessus en ce qui concerne le lissage des arborescences. Mesuré dans l'angle au vu de l'épaisseur."
#~ msgctxt "infill_pattern description"
#~ msgid "The pattern of the infill material of the print. The line and zig zag infill swap direction on alternate layers, reducing material cost. The grid, triangle, tri-hexagon, cubic, octet, quarter cubic, cross and concentric patterns are fully printed every layer. Gyroid, cubic, quarter cubic and octet infill change with every layer to provide a more equal distribution of strength over each direction."
#~ msgstr "Motif du matériau de remplissage de l'impression. La ligne et le remplissage en zigzag changent de sens à chaque alternance de couche, réduisant ainsi les coûts matériels. Les motifs en grille, en triangle, trihexagonaux, cubiques, octaédriques, quart cubiques et concentriques sont entièrement imprimés sur chaque couche. Les remplissages gyroïde, cubique, quart cubique et octaédrique changent à chaque couche afin d'offrir une répartition plus égale de la solidité dans chaque direction."

10514
resources/i18n/hu_HU/cura.po
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4
resources/i18n/hu_HU/fdmextruder.def.json.po
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@ -4,9 +4,9 @@
#
msgid ""
msgstr ""
"Project-Id-Version: Cura 4.12\n"
"Project-Id-Version: Cura 4.13\n"
"Report-Msgid-Bugs-To: plugins@ultimaker.com\n"
"POT-Creation-Date: 2021-10-20 16:43+0000\n"
"POT-Creation-Date: 2021-12-10 12:00+0000\n"
"PO-Revision-Date: 2020-03-24 09:27+0100\n"
"Last-Translator: Nagy Attila <vokroot@gmail.com>\n"
"Language-Team: AT-VLOG\n"

38
resources/i18n/hu_HU/fdmprinter.def.json.po
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@ -4,9 +4,9 @@
#
msgid ""
msgstr ""
"Project-Id-Version: Cura 4.12\n"
"Project-Id-Version: Cura 4.13\n"
"Report-Msgid-Bugs-To: plugins@ultimaker.com\n"
"POT-Creation-Date: 2021-10-20 16:43+0000\n"
"POT-Creation-Date: 2021-12-10 11:59+0000\n"
"PO-Revision-Date: 2020-03-24 09:43+0100\n"
"Last-Translator: Nagy Attila <vokroot@gmail.com>\n"
"Language-Team: AT-VLOG\n"
@ -155,6 +155,16 @@ msgctxt "machine_depth description"
msgid "The depth (Y-direction) of the printable area."
msgstr "A nyomtatási terület mélysége (Y-irány)."
#: fdmprinter.def.json
msgctxt "machine_height label"
msgid "Machine Height"
msgstr "Nyomtatási magasság"
#: fdmprinter.def.json
msgctxt "machine_height description"
msgid "The height (Z-direction) of the printable area."
msgstr "A nyomtatási terület magassága (Z-irány)."
#: fdmprinter.def.json
msgctxt "machine_shape label"
msgid "Build Plate Shape"
@ -195,16 +205,6 @@ msgctxt "machine_buildplate_type option aluminum"
msgid "Aluminum"
msgstr "Alumínium"
#: fdmprinter.def.json
msgctxt "machine_height label"
msgid "Machine Height"
msgstr "Nyomtatási magasság"
#: fdmprinter.def.json
msgctxt "machine_height description"
msgid "The height (Z-direction) of the printable area."
msgstr "A nyomtatási terület magassága (Z-irány)."
#: fdmprinter.def.json
msgctxt "machine_heated_bed label"
msgid "Has Heated Build Plate"
@ -562,8 +562,8 @@ msgstr "A Z motor maximális sebessége."
#: fdmprinter.def.json
msgctxt "machine_max_feedrate_e label"
msgid "Maximum Feedrate"
msgstr "Adagolás maximum"
msgid "Maximum Speed E"
msgstr ""
#: fdmprinter.def.json
msgctxt "machine_max_feedrate_e description"
@ -1732,7 +1732,7 @@ msgstr "Kitöltési Minta"
#: fdmprinter.def.json
msgctxt "infill_pattern description"
msgid "The pattern of the infill material of the print. The line and zig zag infill swap direction on alternate layers, reducing material cost. The grid, triangle, tri-hexagon, cubic, octet, quarter cubic, cross and concentric patterns are fully printed every layer. Gyroid, cubic, quarter cubic and octet infill change with every layer to provide a more equal distribution of strength over each direction. Lightning infill tries to minimize the infill, by only supporting the (internal) roofs of the object. As such, the infill percentage is only 'valid' one layer below whatever it needs to support of the model."
msgid "The pattern of the infill material of the print. The line and zig zag infill swap direction on alternate layers, reducing material cost. The grid, triangle, tri-hexagon, cubic, octet, quarter cubic, cross and concentric patterns are fully printed every layer. Gyroid, cubic, quarter cubic and octet infill change with every layer to provide a more equal distribution of strength over each direction. Lightning infill tries to minimize the infill, by only supporting the ceiling of the object."
msgstr ""
#: fdmprinter.def.json
@ -2046,7 +2046,7 @@ msgstr ""
#: fdmprinter.def.json
msgctxt "lightning_infill_prune_angle description"
msgid "The difference a lightning infill layer can have with the one immediately above w.r.t the pruning of the outer extremities of trees. Measured in the angle given the thickness."
msgid "The endpoints of infill lines are shortened to save on material. This setting is the angle of overhang of the endpoints of these lines."
msgstr ""
#: fdmprinter.def.json
@ -2056,7 +2056,7 @@ msgstr ""
#: fdmprinter.def.json
msgctxt "lightning_infill_straightening_angle description"
msgid "The difference a lightning infill layer can have with the one immediately above w.r.t the smoothing of trees. Measured in the angle given the thickness."
msgid "The infill lines are straightened out to save on printing time. This is the maximum angle of overhang allowed across the length of the infill line."
msgstr ""
#: fdmprinter.def.json
@ -6480,6 +6480,10 @@ msgctxt "mesh_rotation_matrix description"
msgid "Transformation matrix to be applied to the model when loading it from file."
msgstr "A modellre alkalmazandó átalakítási mátrix, amikor azt fájlból tölti be."
#~ msgctxt "machine_max_feedrate_e label"
#~ msgid "Maximum Feedrate"
#~ msgstr "Adagolás maximum"
#~ msgctxt "infill_pattern description"
#~ msgid "The pattern of the infill material of the print. The line and zig zag infill swap direction on alternate layers, reducing material cost. The grid, triangle, tri-hexagon, cubic, octet, quarter cubic, cross and concentric patterns are fully printed every layer. Gyroid, cubic, quarter cubic and octet infill change with every layer to provide a more equal distribution of strength over each direction."
#~ msgstr "A kitöltés mintázata. A vonal és a cikcakk felváltva cserélgeti az irányát rétegenként, csökkentve ezzel az anyagköltséget. A rács, háromszög, háromhatszög,kocka, oktett, negyed kocka, kereszt és koncentrikus mintákat minden rétegben nyomtatjuk. A gyroid, a kocka, a negyedkocka, és az oktett töltés minden rétegben változik, és így egyenletesebb az erő eloszlása minden irányban."

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