anycubic_i3_mega_s.def.json 10 KB

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  1. {
  2. "version": 2,
  3. "name": "Anycubic i3 Mega S/Pro",
  4. "inherits": "fdmprinter",
  5. "metadata":
  6. {
  7. "visible": true,
  8. "author": "Nils Hendrik Rottgardt",
  9. "manufacturer": "Anycubic",
  10. "file_formats": "text/x-gcode",
  11. "platform": "anycubic_i3_mega_s_platform.3mf",
  12. "has_machine_quality": true,
  13. "has_materials": true,
  14. "has_variants": false,
  15. "machine_extruder_trains": { "0": "anycubic_i3_mega_s_extruder_0" },
  16. "preferred_quality_type": "normal"
  17. },
  18. "overrides":
  19. {
  20. "acceleration_enabled": { "value": false },
  21. "acceleration_print": { "value": 1500 },
  22. "acceleration_roofing": { "enabled": "acceleration_enabled and roofing_layer_count > 0 and top_layers > 0" },
  23. "acceleration_travel": { "value": 3000 },
  24. "acceleration_travel_layer_0": { "value": "acceleration_travel" },
  25. "adhesion_type": { "value": "'none' if support_enable else 'skirt'" },
  26. "brim_replaces_support": { "value": false },
  27. "cool_fan_full_at_height": { "value": "layer_height_0 + 2 * layer_height" },
  28. "cool_fan_speed": { "value": 100 },
  29. "cool_fan_speed_0": { "value": 30 },
  30. "cool_min_layer_time": { "value": 10 },
  31. "gantry_height": { "value": "0" },
  32. "infill_before_walls": { "value": false },
  33. "infill_overlap": { "value": 15.0 },
  34. "infill_sparse_density": { "value": 25 },
  35. "jerk_enabled": { "value": true },
  36. "jerk_print": { "value": 8 },
  37. "jerk_travel": { "value": 10 },
  38. "jerk_travel_layer_0": { "value": "jerk_travel" },
  39. "machine_acceleration": { "value": 3000 },
  40. "machine_center_is_zero": { "default_value": false },
  41. "machine_depth": { "default_value": 210 },
  42. "machine_end_gcode": { "default_value": "M104 S0 ; Extruder off \nM140 S0 ; Heatbed off \nM107 ; Fan off \nG91 ; relative positioning \nG1 E-5 F300 ; retract a little \nG1 Z+10 E-5 ; X-20 Y-20 F{travel_xy_speed} ; lift print head \nG28 X0 Y0 ; homing \nG1 Y180 F2000 ; reset feedrate \nM84 ; disable stepper motors \nG90 ; absolute positioning \nM300 S440 P200 ; Make Print Completed Tones \nM300 S660 P250 ; beep \nM300 S880 P300 ; beep" },
  43. "machine_gcode_flavor": { "default_value": "RepRap (Marlin/Sprinter)" },
  44. "machine_heated_bed": { "default_value": true },
  45. "machine_height": { "default_value": 205 },
  46. "machine_max_acceleration_e": { "value": 10000 },
  47. "machine_max_acceleration_x": { "value": 3000 },
  48. "machine_max_acceleration_y": { "value": 2000 },
  49. "machine_max_acceleration_z": { "value": 60 },
  50. "machine_max_feedrate_x": { "default_value": 500 },
  51. "machine_max_feedrate_y": { "default_value": 500 },
  52. "machine_max_feedrate_z": { "default_value": 8 },
  53. "machine_max_jerk_e": { "value": 5 },
  54. "machine_max_jerk_xy": { "value": 10 },
  55. "machine_max_jerk_z": { "value": 0.4 },
  56. "machine_name": { "default_value": "Anycubic i3 Mega S/Pro" },
  57. "machine_start_gcode": { "default_value": ";Profil Homepage: https://github.com/NilsRo/Cura_Anycubic_MegaS_Profile\n\n;Slicer Information - (Support for OctoPrint Slicer Estimator)\n;Slicer info:material_guid;{material_guid}\n;Slicer info:material_id;{material_id}\n;Slicer info:material_brand;{material_brand}\n;Slicer info:material_name;{material_name}\n;Slicer info:filament_cost;{filament_cost}\n;Slicer info:material_bed_temperature;{material_bed_temperature}\n;Slicer info:material_bed_temperature_layer_0;{material_bed_temperature_layer_0}\n;Slicer info:material_print_temperature;{material_print_temperature}\n;Slicer info:material_print_temperature_layer_0;{material_print_temperature_layer_0}\n;Slicer info:material_flow;{material_flow}\n;Slicer info:layer_height;{layer_height}\n;Slicer info:machine_nozzle_size;{machine_nozzle_size}\n;Slicer info:wall_thickness;{wall_thickness}\n;Slicer info:speed_print;{speed_print}\n;Slicer info:speed_topbottom;{speed_topbottom}\n;Slicer info:travel_speed;{travel_speed}\n;Slicer info:support;{support}\n;Slicer info:retraction_speed;{retraction_speed}\n;Slicer info:retraction_amount;{retraction_amount}\n;Slicer info:layer_height;{layer_height}\n;Slicer info:infill_pattern;{infill_pattern}\n;Slicer info:infill_sparse_density;{infill_sparse_density}\n;Slicer info:cool_fan_enabled;{cool_fan_enabled}\n;Slicer info:cool_fan_speed;{cool_fan_speed}\n;Slicer info:sliced_at;{day} {date} {time}\nG21 ; metric values \nG90 ; absolute positioning \nM82 ; set extruder to absolute mode \nM900 K0 ; disable lin. adv. if not set in GCODE\nM107 ; start with the fan off \nM140 S{material_bed_temperature_layer_0} ; Start heating the bed \nG4 S60 ; wait 1 minute \nM104 S{material_print_temperature_layer_0} ; start heating the hot end \nM190 S{material_bed_temperature_layer_0} ; wait for bed \nM109 S{material_print_temperature_layer_0} ; wait for hotend \nM300 S1000 P500 ; BEEP heating done \nG28 X0 Y10 Z0 ; move X/Y to min endstops \nM420 S1 ; Enable leveling \nM420 Z2.0 ; Set leveling fading height to 2 mm \nG0 Z0.15 ; lift nozzle a bit \nG92 E0 ; zero the extruded length \nG1 X50 E20 F500 ; Extrude 20mm of filament in a 5cm line. \nG92 E0 ; zero the extruded length again \nG1 E-2 F500 ; Retract a little \nG1 X50 F500 ; wipe away from the filament line\nG1 X100 F9000 ; Quickly wipe away from the filament line" },
  58. "machine_width": { "default_value": 210 },
  59. "material_bed_temperature": { "maximum_value_warning": 110 },
  60. "material_bed_temperature_layer_0": { "maximum_value_warning": 110 },
  61. "material_diameter": { "default_value": 1.75 },
  62. "material_final_print_temperature": { "value": "material_print_temperature" },
  63. "material_print_temperature": { "maximum_value_warning": 260 },
  64. "material_print_temperature_layer_0":
  65. {
  66. "maximum_value_warning": 260,
  67. "value": "material_print_temperature + 5"
  68. },
  69. "meshfix_maximum_deviation": { "value": 0.05 },
  70. "minimum_interface_area": { "value": 10 },
  71. "minimum_support_area": { "value": 2 },
  72. "optimize_wall_printing_order": { "value": "True" },
  73. "retraction_amount": { "value": 6 },
  74. "retraction_combing": { "value": "'off'" },
  75. "retraction_combing_max_distance": { "value": 30 },
  76. "retraction_hop": { "value": 0.075 },
  77. "retraction_hop_enabled": { "value": true },
  78. "retraction_hop_only_when_collides": { "value": true },
  79. "retraction_min_travel": { "value": 1.5 },
  80. "retraction_prime_speed": { "maximum_value_warning": 60 },
  81. "retraction_retract_speed": { "maximum_value_warning": 60 },
  82. "retraction_speed":
  83. {
  84. "maximum_value_warning": 60,
  85. "value": 30
  86. },
  87. "skirt_brim_speed": { "value": "speed_layer_0" },
  88. "skirt_gap": { "value": 5.0 },
  89. "skirt_line_count": { "value": 2 },
  90. "speed_layer_0": { "value": "speed_topbottom if speed_topbottom < 20 else 20" },
  91. "speed_prime_tower": { "value": "speed_topbottom" },
  92. "speed_print": { "value": 50.0 },
  93. "speed_roofing": { "value": "speed_topbottom" },
  94. "speed_support": { "value": "speed_wall_0" },
  95. "speed_support_interface": { "value": "speed_topbottom" },
  96. "speed_travel":
  97. {
  98. "maximum_value": 200.0,
  99. "maximum_value_warning": 150.0,
  100. "value": 100.0
  101. },
  102. "speed_travel_layer_0": { "value": "speed_travel" },
  103. "speed_wall_x": { "value": "speed_wall" },
  104. "speed_z_hop": { "value": 8 },
  105. "support_angle": { "value": "math.floor(math.degrees(math.atan(line_width / 2.0 / layer_height)))" },
  106. "support_brim_enable": { "value": true },
  107. "support_brim_width": { "value": 4 },
  108. "support_infill_rate": { "value": "0 if support_enable and support_structure == 'tree' else 20" },
  109. "support_interface_density": { "value": 33.333 },
  110. "support_interface_enable": { "value": true },
  111. "support_interface_height": { "value": "layer_height * 4" },
  112. "support_interface_pattern": { "value": "'grid'" },
  113. "support_interface_skip_height": { "value": 0.2 },
  114. "support_pattern": { "value": "'zigzag'" },
  115. "support_structure": { "value": "'tree'" },
  116. "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)" },
  117. "support_type": { "value": "'buildplate' if support_structure == 'tree' else 'everywhere'" },
  118. "support_use_towers": { "value": false },
  119. "support_wall_count": { "value": 1 },
  120. "support_xy_distance": { "value": "wall_line_width_0 * 2" },
  121. "support_xy_distance_overhang": { "value": "wall_line_width_0" },
  122. "support_xy_overrides_z": { "value": "'xy_overrides_z'" },
  123. "support_z_distance": { "value": "layer_height if layer_height >= 0.16 else layer_height * 2" },
  124. "top_bottom_thickness": { "value": "layer_height_0 + layer_height * math.floor(1.2 / layer_height)" },
  125. "travel_avoid_other_parts": { "value": true },
  126. "travel_avoid_supports": { "value": true },
  127. "travel_retract_before_outer_wall": { "value": true },
  128. "wall_thickness": { "value": "line_width * 3 if line_width < 0.6 else line_width * 2" }
  129. }
  130. }