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Tweak some settings for Qidi Q1 Pro and X3 serials printers #5603

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Jun 8, 2024
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Original file line number Diff line number Diff line change
Expand Up @@ -3,7 +3,7 @@
"setting_id": "GFSA04",
"instantiation": "true",
"activate_chamber_temp_control": [
"1"
"0"
],
"fan_max_speed": [
"20"
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Original file line number Diff line number Diff line change
Expand Up @@ -3,7 +3,7 @@
"setting_id": "GFSA04",
"instantiation": "true",
"activate_chamber_temp_control": [
"1"
"0"
],
"fan_max_speed": [
"20"
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Original file line number Diff line number Diff line change
Expand Up @@ -3,7 +3,7 @@
"setting_id": "GFSA04",
"instantiation": "true",
"activate_chamber_temp_control": [
"1"
"0"
],
"fan_max_speed": [
"20"
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4 changes: 2 additions & 2 deletions resources/profiles/Qidi/machine/Qidi Q1 Pro 0.4 nozzle.json
Original file line number Diff line number Diff line change
Expand Up @@ -61,8 +61,8 @@
"112x112"
],
"layer_change_gcode": ";BEFORE_LAYER_CHANGE\n;[layer_z]\nLOG_Z\nG92 E0\n",
"machine_end_gcode": "M141 S0\nM104 S0\nM140 S0\nG1 E-3 F1800\nG91\nG0 Z5 F600\nG90\nG0 X0 Y0 F12000\n{if max_layer_z < max_print_height / 2}G1 Z{max_print_height / 2 + 10} F600{else}G1 Z{min(max_print_height, max_layer_z + 3)}{endif}",
"machine_start_gcode": "PRINT_START BED=[first_layer_bed_temperature] HOTEND=[first_layer_temperature] CHAMBER=[chamber_temperature]\nM83\nM140 S[first_layer_bed_temperature]\nM104 S[first_layer_temperature]\nG4 P3000\nG0 X{max((min(print_bed_max[0], first_layer_print_min[0] + 80) - 85),0)} Y{max((min(print_bed_max[1], first_layer_print_min[1] + 80) - 85),0)} Z5 F6000\nG0 Z[first_layer_height] F600\nG1 E3 F1800\nG1 X{(min(print_bed_max[0], first_layer_print_min[0] + 80))} E{85 * 0.5 * first_layer_height * nozzle_diameter[0]} F3000\nG1 Y{max((min(print_bed_max[1], first_layer_print_min[1] + 80) - 85),0) + 2} E{2 * 0.5 * first_layer_height * nozzle_diameter[0]} F3000\nG1 X{max((min(print_bed_max[0], first_layer_print_min[0] + 80) - 85),0)} E{85 * 0.5 * first_layer_height * nozzle_diameter[0]} F3000\nG1 Y{max((min(print_bed_max[1], first_layer_print_min[1] + 80) - 85),0) + 85} E{83 * 0.5 * first_layer_height * nozzle_diameter[0]} F3000\nG1 X{max((min(print_bed_max[0], first_layer_print_min[0] + 80) - 85),0) + 2} E{2 * 0.5 * first_layer_height * nozzle_diameter[0]} F3000\nG1 Y{max((min(print_bed_max[1], first_layer_print_min[1] + 80) - 85),0) + 3} E{82 * 0.5 * first_layer_height * nozzle_diameter[0]} F3000\nG1 X{max((min(print_bed_max[0], first_layer_print_min[0] + 80) - 85),0) + 3} Z0\nG1 X{max((min(print_bed_max[0], first_layer_print_min[0] + 80) - 85),0) + 6}\nG1 Z1 F600",
"machine_end_gcode": "M141 S0\nM104 S0\nM140 S0\nG1 E-3 F1800\nG0 Z{min(max_print_height, max_layer_z + 3)} F600\nG0 X0 Y0 F12000\n{if max_layer_z < max_print_height / 2}G1 Z{max_print_height / 2 + 10} F600{else}G1 Z{min(max_print_height, max_layer_z + 3)}{endif}",
"machine_start_gcode": "PRINT_START BED=[first_layer_bed_temperature] HOTEND=[first_layer_temperature] CHAMBER=[chamber_temperature]\nM83\nM140 S[first_layer_bed_temperature]\nM104 S[first_layer_temperature]\nG4 P3000\nG0 X{max((min(print_bed_max[0], first_layer_print_min[0] + 80) - 85),0)} Y{max((min(print_bed_max[1], first_layer_print_min[1] + 80) - 85),0)} Z5 F6000\nG0 Z[initial_layer_print_height] F600\nG1 E3 F1800\nG1 X{(min(print_bed_max[0], first_layer_print_min[0] + 80))} E{85 * 0.5 * initial_layer_print_height * nozzle_diameter[0]} F3000\nG1 Y{max((min(print_bed_max[1], first_layer_print_min[1] + 80) - 85),0) + 2} E{2 * 0.5 * initial_layer_print_height * nozzle_diameter[0]} F3000\nG1 X{max((min(print_bed_max[0], first_layer_print_min[0] + 80) - 85),0)} E{85 * 0.5 * initial_layer_print_height * nozzle_diameter[0]} F3000\nG1 Y{max((min(print_bed_max[1], first_layer_print_min[1] + 80) - 85),0) + 85} E{83 * 0.5 * initial_layer_print_height * nozzle_diameter[0]} F3000\nG1 X{max((min(print_bed_max[0], first_layer_print_min[0] + 80) - 85),0) + 2} E{2 * 0.5 * initial_layer_print_height * nozzle_diameter[0]} F3000\nG1 Y{max((min(print_bed_max[1], first_layer_print_min[1] + 80) - 85),0) + 3} E{82 * 0.5 * initial_layer_print_height * nozzle_diameter[0]} F3000\nG1 X{max((min(print_bed_max[0], first_layer_print_min[0] + 80) - 85),0) + 3} Z0\nG1 X{max((min(print_bed_max[0], first_layer_print_min[0] + 80) - 85),0) + 6}\nG1 Z1 F600",
"thumbnails_format": "PNG",
"default_filament_profile": [
"Qidi Generic PLA @Qidi Q1 Pro 0.4 nozzle"
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6 changes: 3 additions & 3 deletions resources/profiles/Qidi/machine/fdm_qidi_x3_common.json
Original file line number Diff line number Diff line change
Expand Up @@ -23,8 +23,8 @@
"210x210/COLPIC",
"380x380/PNG"
],
"thumbnails_format": "PNG",
"machine_start_gcode": "G28\nG0 Z50 F600\nM190 S[first_layer_bed_temperature]\nG28 Z\nG29 ; mesh bed leveling ,comment this code to close it\nG0 X0 Y0 Z50 F6000\nM109 S[first_layer_temperature]\nM83\nG0 Z5 F1200\nG0 X{first_layer_print_min[0]} Y{max(0, first_layer_print_min[1] - 2)} F12000\nG0 Z0.2 F600\nG1 E3 F1800\nG0 Z0.3 F600\nG1 X{min(first_layer_print_min[0] + 30,print_bed_max[0])} E6 F600",
"machine_end_gcode": "M104 S0\nM140 S0\nG92 E0\nG1 E-3 F1800\nG90\n{if max_layer_z < max_print_height / 2}\nG1 Z{max_print_height / 2 + 10} F600\n{else}\nG1 Z{min(max_print_height, max_layer_z + 10)}\n{endif}\nG0 X5 Y{print_bed_max[1]-11} F12000\nM141 S0",
"thumbnails_format": "ColPic",
"machine_start_gcode": "PRINT_START\nG28\nM141 S0\nG0 Z50 F600\nM190 S[first_layer_bed_temperature]\nG28 Z\nG29; mesh bed leveling ,comment this code to close it\nG0 X0 Y0 Z50 F6000\nM109 S[first_layer_temperature]\nM106 P3 S255\nM83\nG4 P3000\nG0 X{max((min(print_bed_max[0], first_layer_print_min[0] + 80) - 85),0)} Y{max((min(print_bed_max[1], first_layer_print_min[1] + 80) - 85),0)} Z5 F6000\nG0 Z[initial_layer_print_height] F600\nG1 E3 F1800\nG1 X{(min(print_bed_max[0], first_layer_print_min[0] + 80))} E{85 * 0.5 * initial_layer_print_height * nozzle_diameter[0]} F3000\nG1 Y{max((min(print_bed_max[1], first_layer_print_min[1] + 80) - 85),0) + 2} E{2 * 0.5 * initial_layer_print_height * nozzle_diameter[0]} F3000\nG1 X{max((min(print_bed_max[0], first_layer_print_min[0] + 80) - 85),0)} E{85 * 0.5 * initial_layer_print_height * nozzle_diameter[0]} F3000\nG1 Y{max((min(print_bed_max[1], first_layer_print_min[1] + 80) - 85),0) + 85} E{83 * 0.5 * initial_layer_print_height * nozzle_diameter[0]} F3000\nG1 X{max((min(print_bed_max[0], first_layer_print_min[0] + 80) - 85),0) + 2} E{2 * 0.5 * initial_layer_print_height * nozzle_diameter[0]} F3000\nG1 Y{max((min(print_bed_max[1], first_layer_print_min[1] + 80) - 85),0) + 3} E{82 * 0.5 * initial_layer_print_height * nozzle_diameter[0]} F3000\nG1 X{max((min(print_bed_max[0], first_layer_print_min[0] + 80) - 85),0) + 12} E{-10 * 0.5 * initial_layer_print_height * nozzle_diameter[0]} F3000\nG1 E{10 * 0.5 * initial_layer_print_height * nozzle_diameter[0]} F3000\n",
"machine_end_gcode": "M141 S0\nM104 S0\nM140 S0\nG1 E-3 F1800\nG0 Z{min(max_print_height, max_layer_z + 3)} F600\nG0 X0 Y0 F12000\n{if max_layer_z < max_print_height / 2}G1 Z{max_print_height / 2 + 10} F600{else}G1 Z{min(max_print_height, max_layer_z + 3)}{endif}",
"scan_first_layer": "0"
}