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Optimization parameter

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QIDI TECH
2024-09-28 16:29:36 +08:00
parent 680346707d
commit cc186748ed
40 changed files with 56 additions and 28 deletions
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2
resources/profiles/X 4 Series/machine/Qidi X-Plus 4 0.4 nozzle.json
View File

@@ -9,7 +9,7 @@
"gcode_flavor": "klipper",
"default_print_profile": "0.20mm Standard @XPlus4",
"printer_settings_id": "Qidi",
"bed_exclude_area": ["0x305", "0x300", "50x300", "50x305", "305x305", "305x305", "305x305", "305x10", "293x10", "293x0", "305x0", "305x10", "305x305"],
"bed_exclude_area": ["0x305", "0x302", "35x302", "35x305", "305x305", "305x305", "305x305", "305x20", "293x20", "293x0", "305x0", "305x20", "305x305"],
"change_filament_gcode": "G1 E{retraction_distances_when_cut[previous_extruder]} F[old_filament_e_feedrate]",
"default_filament_profile": ["QIDI PLA Rapido @Qidi X-Plus 4 0.4 nozzle"],
"deretraction_speed": ["0"],

2
resources/profiles/X 4 Series/machine/Qidi X-Plus 4.json
View File

@@ -7,5 +7,5 @@
"family": "Qidi",
"bed_model": "X-Plus 4_bed.stl",
"hotend_model": "X-Series_gen3_hotend.stl",
"default_materials": "Generic ABS @Qidi X-Plus 4 0.4 nozzle;Generic PLA @Qidi X-Plus 4 0.4 nozzle;QIDI ABS Odorless @Qidi X-Plus 4 0.4 nozzle;QIDI ABS Rapido @Qidi X-Plus 4 0.4 nozzle;QIDI PLA Rapido @Qidi X-Plus 4 0.4 nozzle;QIDI PLA Rapido Matte @Qidi X-Plus 4 0.4 nozzle;QIDI PLA-CF @Qidi X-Plus 4 0.4 nozzle"
"default_materials": "Generic ABS @Qidi X-Plus 4 0.4 nozzle;Generic PLA @Qidi X-Plus 4 0.4 nozzle;QIDI ABS Odorless @Qidi X-Plus 4 0.4 nozzle;QIDI ABS Rapido @Qidi X-Plus 4 0.4 nozzle;QIDI PLA Rapido @Qidi X-Plus 4 0.4 nozzle;QIDI PLA Rapido Matte @Qidi X-Plus 4 0.4 nozzle;QIDI PLA-CF @Qidi X-Plus 4 0.4 nozzle;QIDI PLA Rapido Silk @Qidi X-Plus 4 0.4 nozzle;Generic PLA Silk @Qidi X-Plus 4 0.4 nozzle"
}

2
resources/profiles/X 4 Series/machine/fdm_machine_x_common.json
View File

@@ -34,7 +34,7 @@
"machine_min_extruding_rate": ["0"],
"machine_min_travel_rate": ["0"],
"machine_pause_gcode": "M0",
"machine_start_gcode": "PRINT_START BED=[textured_plate_temp_initial_layer] HOTEND=[nozzle_temperature_initial_layer] CHAMBER=[chamber_temperatures]\nSET_PRINT_STATS_INFO TOTAL_LAYER=[total_layer_count]\nM83\nM140 S[bed_temperature_initial_layer_single]\nM104 S[nozzle_temperature_initial_layer]\nM141 S[chamber_temperatures]\nG4 P3000\nG0 X{max((min(print_bed_max[0] - 12, first_layer_print_min[0] + 80) - 85), 0)} Y{max((min(print_bed_max[1] - 5, 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] - 12, 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] - 5, 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] - 12, 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] - 5, 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] - 12, 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] - 5, 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] - 12, first_layer_print_min[0] + 80) - 85), 0) + 3} Z0\nG1 X{max((min(print_bed_max[0] - 12, first_layer_print_min[0] + 80) - 85), 0) + 6}\nG1 Z1 F600\nSET_PRINT_STATS_INFO CURRENT_LAYER=1",
"machine_start_gcode": "PRINT_START BED=[textured_plate_temp_initial_layer] HOTEND=[nozzle_temperature_initial_layer] CHAMBER=[chamber_temperatures]\nSET_PRINT_STATS_INFO TOTAL_LAYER=[total_layer_count]\nM83\nM140 S[bed_temperature_initial_layer_single]\nM104 S[nozzle_temperature_initial_layer]\nM141 S[chamber_temperatures]\nG4 P3000\nG0 X{max((min(print_bed_max[0] - 12, first_layer_print_min[0] + 80) - 85), 0)} Y{max((min(print_bed_max[1] - 3, 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] - 12, 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] - 3, 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] - 12, 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] - 3, 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] - 12, 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] - 3, 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] - 12, first_layer_print_min[0] + 80) - 85), 0) + 3} Z0\nG1 X{max((min(print_bed_max[0] - 12, first_layer_print_min[0] + 80) - 85), 0) + 6}\nG1 Z1 F600\nSET_PRINT_STATS_INFO CURRENT_LAYER=1",
"max_layer_height": ["0.32"],
"min_layer_height": ["0.08"],
"nozzle_diameter": ["0.4"],