screw_dict.items(): if value and x == value[0] and y == value[1]: logging.debug(f"X: {x} Y: {y} Pos: {key}") self.buttons[key].set_label(_("Reference")) logging.info("Error reported by screws_tilt_adjust") if "results" in data["screws_tilt_adjust"]: section ...
screw4: 28, 203 [screws_tilt_adjust] screw1: 76, 31 screw1_name: front left screw screw2: 251, 31 screw2_name: front right screw screw3: 251, 203 screw3_name: rear right screw screw4: 76, 203 screw4_name: rear left screw horizontal_move_z: 10. speed: 50. screw_thread: ...
screw tilt calculate(if you have the required modifications) Z-Tiltto archieve the best first layer possible. Note You will needmechanical calibrationto enshure your X-gantry squarness. After setting up yourAXIS_TWIST_COMPENSATION_CALIBRATEyou can enshure getting the right readings for further calib...
[screws_tilt_adjust] screw1: 76, 31 screw1_name: front left screw screw2: 251, 31 screw2_name: front right screw screw3: 251, 203 screw3_name: rear right screw screw4: 76, 203 screw4_name: rear left screw horizontal_move_z: 10. ...
#If you are using Z-Tilt: #Z_TILT_ADJUST #If you are generating a new bed mesh: BED_MESH_CALIBRATE #If you are loading an existing mesh: #BED_MESH_PROFILE LOAD=default #Move the nozzle near the bed G1 Z5 F3000 #Set and wait for nozzle to reach printing temperature ...
screw tilt calculate (if you have the required modifications) Z-Tilt to archieve the best first layer possible.Note You will need mechanical calibration to enshure your X-gantry squarness. After setting up your AXIS_TWIST_COMPENSATION_CALIBRATE you can enshure getting the right readings for furth...