#################################################################### # Probe ##################################################################### [probe] ## Klicky Probe ## This probe is not used for Z height, only bed leveling pin: PWE_DCT x_offset: 9.5 y_offset: 0 z_offset: 14.5 speed: 4 lift_speed: 15 samples: 3 samples_result: median sample_retract_dist: 2 samples_tolerance: 0.01 samples_tolerance_retries: 10 drop_first_result: true ##################################################################### # Menu ##################################################################### ##################################################################### # Macros ##################################################################### # This macro was provided by discord user Garrettwp to whom i give my thanks for sharing it with me. # I have tweaked it a lot. # # this macro is based on the great Annex magprobe dockable probe macros "#Originally developed by Mental, modified for better use on K-series printers by RyanG and Trails" # that macro can be found here https://github.com/Annex-Engineering/Annex-Engineering_Other_Printer_Mods/blob/master/All_Printers/Microswitch_Probe/Klipper_Macros/dockable_probe_macros.cfg # # by standing on the shoulders of giants, lets see if we can see further # Klicky-probe.cfg version 16-11-2021 01 [gcode_macro _User_Variables] variable_verbose: True # Enable verbose output variable_debug: False # Enable Debug output variable_travel_speed: 100 # how fast all other travel moves will be performed when running these macros variable_move_accel: 1000 # how fast should the toolhead accelerate when moving variable_dock_speed: 50 # how fast should the toolhead move when docking the probe for the final movement variable_release_speed: 55 # how fast should the toolhead move to release the hold of the magnets after docking variable_z_drop_speed: 20 # how fast the z will lower when moving to the z location to clear the probe variable_safe_z: 20 # Minimum Z for attach/dock and homing functions # if true it will move the bed away from the nozzle when Z is not homed variable_enable_z_hop: True # set this to false for beds that fall significantly under gravity (almost to Z max) variable_max_bed_y: 120 # maximum Bed size avoids doing a probe_accuracy outside the bed variable_max_bed_x: 120 # maximum Bed size avoids doing a probe_accuracy outside the bed # if a separate Z endstop switch is in # use, specify the coordinates of the switch here (Voron). # Set to 0 to have the probe move to center of bed variable_z_endstop_x: 0 variable_z_endstop_y: 0 #Check the printer specific documentation on klipper Dock/Undock configuration, these are dummy values #dock location variable_docklocation_x: 120 # X Dock position variable_docklocation_y: 0 # Y Dock position variable_docklocation_z: 10 # Z dock position, (-128 for a gantry mount) #The following variables are used if the dock is deployed and retracted via a servo motor variable_enable_dock_servo: False # Set to true if your klicky dock is servo-controlled variable_servo_name: 'NAME' # The name of the dock servo defined in printer.cfg under [servo] variable_servo_deploy: 10 # This EXAMPLE is the value used to deploy the servo fully variable_servo_retract: 11 # This EXAMPLE is the value used to retract the servo fully (initial_angle in [servo] config) variable_servo_delay: 1000 # This is a delay to wait the servo to reach the requested position, be carefull with high values #Dock move, final toolhead movement to release the probe on the dock #it's a relative move Variable_dockmove_x: 0 Variable_dockmove_y: 40 Variable_dockmove_z: 0 #Attach move. final toolhead movement to attach the probe on the mount #it's a relative move Variable_attachmove_x: 30 # Toolhead movement necessary to clear the dock arms Variable_attachmove_y: 0 Variable_attachmove_z: 0 #Umbilical to help untangle the umbilical in difficult situations variable_umbilical: False # should we untangle the umbilical variable_umbilical_x: 15 # X umbilical position variable_umbilical_y: 15 # Y umbilical position # location to park the toolhead variable_park_toolhead: False # Enable toolhead parking variable_parkposition_x: 125 variable_parkposition_y: 125 variable_parkposition_z: 30 variable_version: 1 # Helps users to update the necessary variables, do not update if the variables above are not updated #Below this remark, you normally do not need to configure #Attach move2 Variable_attachmove2_x: 0 # intermediate toolhead movement to attach Variable_attachmove2_y: 0 # the probe on the dock Variable_attachmove2_z: 0 # (can be negative) variable_home_backoff: 10 # how many mm to move away from the endstop after homing variable_override_homing: '' # configures what axis to home first # '' = default klicky behavior (tries to avoid the hitting the dock # 'X' = forces X to home first # 'Y' = forces Y to home first # Do not modify below gcode: {% set Mx = printer['configfile'].config["stepper_x"]["position_max"]|float %} {% set My = printer['configfile'].config["stepper_y"]["position_max"]|float %} {% set Ox = printer['configfile'].config["probe"]["x_offset"]|float %} {% set Oy = printer['configfile'].config["probe"]["y_offset"]|float %} {% set Oz = printer['configfile'].config["probe"]["z_offset"]|float %} # If x, y coordinates are set for z endstop, assign them {% if z_endstop_x != 0 or z_endstop_y != 0 %} SET_GCODE_VARIABLE MACRO=_Probe_Variables VARIABLE=z_endstop_x VALUE={ z_endstop_x } SET_GCODE_VARIABLE MACRO=_Probe_Variables VARIABLE=z_endstop_y VALUE={ z_endstop_y } # if no x, y coordinates for z endstop, assume probe is endstop and move toolhead to center of bed {% else %} SET_GCODE_VARIABLE MACRO=_Probe_Variables VARIABLE=z_endstop_x VALUE={ (Mx * 0.5) - Ox } SET_GCODE_VARIABLE MACRO=_Probe_Variables VARIABLE=z_endstop_y VALUE={ (My * 0.5) - Oy } {% endif %} [gcode_macro _Probe_Variables] variable_probe_attached: False variable_probe_state: False variable_probe_lock: False variable_z_endstop_x: 0 variable_z_endstop_y: 0 gcode: #checks if the variable definitions are up to date [gcode_macro _klicky_check_variables_version] gcode: {% set version = printer["gcode_macro _User_Variables"].version|default(0) %} {% if version != 1 %} { action_raise_error("Please update your klicky variables, there are some functionality changes") } {% endif %} [gcode_macro _KlickyDebug] gcode: {% set message = params.MSG %} {% set debug = printer["gcode_macro _User_Variables"].debug|default(False) %} {% if debug %} { action_respond_info(message) } {% endif %} [gcode_macro _exit_point] gcode: {% set function = 'pre_' ~ params.FUNCTION %} {% set move = params.MOVE|default(0) %}i {% set speed = printer["gcode_macro _User_Variables"].travel_speed %} # mandatory to save the new safe position M400 RESTORE_GCODE_STATE NAME={function} MOVE={move} SET_VELOCITY_LIMIT ACCEL={printer.configfile.settings.printer.max_accel} SET_VELOCITY_LIMIT ACCEL_TO_DECEL={printer.configfile.settings.printer.max_accel_to_decel} RESTORE_GCODE_STATE NAME={function} MOVE={move} MOVE_SPEED={speed} [gcode_macro _entry_point] gcode: {% set function = 'pre_' ~ params.FUNCTION %} {% set move_accel = printer["gcode_macro _User_Variables"].move_accel|default(1000) %} # mandatory to save the new safe position M400 SAVE_GCODE_STATE NAME={function} # removes the Z offset for better bed based docking SET_GCODE_OFFSET Z=0 # all the macros initially assume absolute positioning G90 # set a safe(sane) Acceleration SET_VELOCITY_LIMIT ACCEL={move_accel} [gcode_macro _Homing_Variables] gcode: {% set reset = params.RESET|default(0) %} {% if reset %} SET_GCODE_VARIABLE MACRO=_Probe_Variables VARIABLE=probe_lock VALUE={ False } {% endif %} # Attach probe and lock it [gcode_macro Attach_Probe_Lock] description: Attaches Klicky Probe, can only be docked after unlocking gcode: Attach_Probe _Probe_Lock # Dock probe and lock it [gcode_macro Dock_Probe_Unlock] description: Docks Klicky Probe even if it was locked gcode: _Probe_Unlock Dock_Probe # Unlock Probe [gcode_macro Probe_Unlock] description: Unlocks Klicky Probe state gcode: _KlickyDebug msg="_Probe_Lock setting probe_lock variable to False" SET_GCODE_VARIABLE MACRO=_Probe_Variables VARIABLE=probe_lock VALUE={ False } # Lock Probe [gcode_macro Probe_Lock] description: Locks Klicky Probe state gcode: _KlickyDebug msg="_Probe_Lock setting probe_lock variable to True" SET_GCODE_VARIABLE MACRO=_Probe_Variables VARIABLE=probe_lock VALUE={ True } # Klicky Dock Servo Deploy [gcode_macro _DeployKlickyDock] description: Deploys Klicky servo-controlled dock gcode: {% set enable_dock_servo = printer["gcode_macro _User_Variables"].enable_dock_servo|default(False) %} {% set servo_delay = printer["gcode_macro _User_Variables"].servo_delay|default(1000) %} {% set servo_name = printer["gcode_macro _User_Variables"].servo_name %} {% set servo_deploy = printer["gcode_macro _User_Variables"].servo_deploy|default(360) %} #wait for all the moves to complete M400 {% if enable_dock_servo != False %} _KlickyDebug msg="_DeployKlickyDock Klicky servo configuration enabled" {% if servo_deploy == 360 %} { action_raise_error("Klicky: servo active on klicky-variables, but no servo deploy angle specified") } {% endif %} _KlickyDebug msg="_DeployKlickyDock SET_SERVO SERVO={servo_name|string} ANGLE={servo_deploy|int}" SET_SERVO SERVO={servo_name|string} ANGLE={servo_deploy|int} M400 G4 P{servo_delay|int} _KlickyDebug msg="_DeployKlickyDock SET_SERVO SERVO={servo_name|string} WIDTH=0" SET_SERVO SERVO={servo_name|string} WIDTH=0 {% elif printer["gcode_macro _DeployDock"] is defined %} _KlickyDebug msg="_DeployKlickyDock calling _DeployDock" _DeployDock {% endif %} # Dock Servo Retract [gcode_macro _RetractKlickyDock] description: Retracts Klicky servo-controlled dock gcode: {% set enable_dock_servo = printer["gcode_macro _User_Variables"].enable_dock_servo|default(False) %} {% set servo_delay = printer["gcode_macro _User_Variables"].servo_delay|default(1000) %} {% set servo_name = printer["gcode_macro _User_Variables"].servo_name %} {% set servo_retract = printer["gcode_macro _User_Variables"].servo_retract|default(360) %} #wait for all the moves to complete M400 {% if enable_dock_servo != False %} _KlickyDebug msg="_RetractKlickyDock Klicky servo configuration enabled" {% if servo_retract == 360 %} { action_raise_error("Klicky: servo active on klicky-variables, but no servo retract angle specified") } {% endif %} _KlickyDebug msg="_RetractKlickyDock SET_SERVO SERVO={servo_name|string} ANGLE={servo_retract|int}" SET_SERVO SERVO={servo_name|string} ANGLE={servo_retract|int} M400 G4 P{servo_delay|int} _KlickyDebug msg="_RetractKlickyDock SET_SERVO SERVO={servo_name|string} WIDTH=0" SET_SERVO SERVO={servo_name|string} WIDTH=0 {% elif printer["gcode_macro _RetractDock"] is defined %} _KlickyDebug msg="_RetractKlickyDock calling _RetractDock" _RetractDock {% endif %} # Attach Probe Routine [gcode_macro Attach_Probe] description: Attaches Klicky Probe gcode: # See if the position should be restored after the attach {% set goback = params.BACK|default(0) %} # Get probe attach status {% set probe_attached = printer["gcode_macro _Probe_Variables"].probe_attached %} {% set probe_lock = printer["gcode_macro _Probe_Variables"].probe_lock %} {% set verbose = printer["gcode_macro _User_Variables"].verbose %} # Get Docking location {% set dockmove_x = printer["gcode_macro _User_Variables"].dockmove_x|default(0) %} {% set dockmove_y = printer["gcode_macro _User_Variables"].dockmove_y|default(0) %} {% set dockmove_z = printer["gcode_macro _User_Variables"].dockmove_z|default(0) %} {% set docklocation_x = printer["gcode_macro _User_Variables"].docklocation_x %} {% set docklocation_y = printer["gcode_macro _User_Variables"].docklocation_y %} {% set docklocation_z = printer["gcode_macro _User_Variables"].docklocation_z %} {% set attachmove_x = printer["gcode_macro _User_Variables"].attachmove_x|default(0) %} {% set attachmove_y = printer["gcode_macro _User_Variables"].attachmove_y|default(0) %} {% set attachmove_z = printer["gcode_macro _User_Variables"].attachmove_z|default(0) %} {% set attachmove2_x = printer["gcode_macro _User_Variables"].attachmove2_x|default(0) %} {% set attachmove2_y = printer["gcode_macro _User_Variables"].attachmove2_y|default(0) %} {% set attachmove2_z = printer["gcode_macro _User_Variables"].attachmove2_z|default(0) %} # Safe Z for travel {% set safe_z = printer["gcode_macro _User_Variables"].safe_z %} {% set enable_z_hop = printer["gcode_macro _User_Variables"].enable_z_hop %} # Set speed {% set travel_feedrate = printer["gcode_macro _User_Variables"].travel_speed * 60 %} {% set dock_feedrate = printer["gcode_macro _User_Variables"].dock_speed * 60 %} {% set release_feedrate = printer["gcode_macro _User_Variables"].release_speed * 60 %} {% set z_drop_feedrate = printer["gcode_macro _User_Variables"].z_drop_speed * 60 %} _entry_point function=Attach_Probe # If x and y are not homed {% if not 'xy' in printer.toolhead.homed_axes %} { action_raise_error("Must Home X and Y Axis First!") } _KlickyDebug msg="Attach_Probe Axis homed" # If probe not attached and locked {% elif not probe_attached and not probe_lock %} _KlickyDebug msg="Attach_Probe going to attach probe" {% if verbose %} { action_respond_info("Attaching Probe") } {% endif %} _KLICKY_STATUS_BUSY {% if not 'z' in printer.toolhead.homed_axes %} {% if verbose %} { action_respond_info("Resetting Z position to zero") } {% endif %} _KlickyDebug msg="Attach_Probe Z not homed, setting position as X=Y=Z=0" SET_KINEMATIC_POSITION Z=0 {% if not enable_z_hop %} # Disables safe_z _KlickyDebug msg="Attach_Probe z_hop disabled" {% set safe_z = 0 %} {% endif %} {% endif %} # Prior to saving actual position, check if its necessary to move to a safe Z # that has enought overhead for the attached probe {% if printer.toolhead.position.z < safe_z %} _KlickyDebug msg="Attach_Probe toolhead too low, raising it by {safe_z}mm" {% if verbose %} { action_respond_info("moving to a safe Z distance") } {% endif %} G0 Z{safe_z} F{z_drop_feedrate} {% endif %} {% if not 'z' in printer.toolhead.homed_axes %} #duplicate?? {% if verbose %} { action_respond_info("Resetting Z position to zero, duplicate?") } {% endif %} _KlickyDebug msg="Attach_Probe Z not homed, setting position as X=Y=Z=0" SET_KINEMATIC_POSITION Z=0 {% endif %} {% if printer.toolhead.position.z < safe_z %} #duplicate?? _KlickyDebug msg="Attach_Probe toolhead too low, raising it by {safe_z}mm, duplicate?" G0 Z{safe_z} F{z_drop_feedrate} {% endif %} _Umbilical_Path _entry_point function=Attach_Probe_intern # Probe entry location _KlickyDebug msg="Attach_Probe moving near the dock with G0 X{docklocation_x|int - attachmove_x|int - attachmove2_x|int} Y{docklocation_y|int - attachmove_y|int - attachmove2_y} F{travel_feedrate}" G0 X{docklocation_x|int - attachmove_x|int - attachmove2_x|int} Y{docklocation_y|int - attachmove_y|int - attachmove2_y} F{travel_feedrate} {% if docklocation_z != -128 %} _KlickyDebug msg="Attach_Probe moving near the dock with G0 Z{docklocation_z|int - attachmove_z|int - attachmove2_z|int} F{dock_feedrate}" G0 Z{docklocation_z|int - attachmove_z|int - attachmove2_z|int} F{dock_feedrate} _KlickyDebug msg="Attach_Probe moving near the dock with G0 Z{docklocation_z|int - attachmove_z|int} F{dock_feedrate}" G0 Z{docklocation_z|int - attachmove_z|int} F{dock_feedrate} {% endif %} # if necessary do some actions before moving the toolhead to dock _DeployKlickyDock # Drop Probe to Probe location {% if docklocation_z != -128 %} _KlickyDebug msg="Attach_Probe moving to the dock with G0 Z{docklocation_z} F{dock_feedrate}" G0 Z{docklocation_z} F{dock_feedrate} {% endif %} _KlickyDebug msg="Attach_Probe moving to the dock with G0 X{docklocation_x|int - attachmove2_x|int} Y{docklocation_y|int - attachmove2_y} F{dock_feedrate}" G0 X{docklocation_x|int - attachmove2_x|int} Y{docklocation_y|int - attachmove2_y} F{dock_feedrate} _KlickyDebug msg="Attach_Probe moving to the dock with G0 X{docklocation_x} Y{docklocation_y} F{dock_feedrate}" G0 X{docklocation_x} Y{docklocation_y} F{dock_feedrate} # Probe Attached {% if docklocation_z != -128 %} _KlickyDebug msg="Attach_Probe moving from the dock to G0 Z{docklocation_z|int - attachmove_z|int} F{z_drop_feedrate}" G0 Z{docklocation_z|int - attachmove_z|int} F{z_drop_feedrate} {% endif %} _KlickyDebug msg="Attach_Probe moving from the dock to G0 X{docklocation_x|int - attachmove_x|int} Y{docklocation_y|int - attachmove_y|int} F{release_feedrate}" G0 X{docklocation_x|int - attachmove_x|int} Y{docklocation_y|int - attachmove_y|int} F{release_feedrate} # if necessary do some actions after attaching the probe _RetractKlickyDock # Go to Z safe distance {% if printer.toolhead.position.z < safe_z %} _KlickyDebug msg="Attach_Probe moving to a safe Z position: G0 Z{safe_z} F{z_drop_feedrate}" G0 Z{safe_z} F{z_drop_feedrate} {% endif %} _Park_Toolhead _CheckProbe action=attach _exit_point function=Attach_Probe_intern move={goback} _KLICKY_STATUS_READY {% elif probe_lock %} {% if verbose %} { action_respond_info("Probe locked!") } {% endif %} # Probe attached, do nothing _KlickyDebug msg="Attach_Probe probe locked not attaching probe" _CheckProbe action=query {% else %} {% if verbose %} { action_respond_info("Probe already attached!") } {% endif %} # Probe attached, do nothing _KlickyDebug msg="Attach_Probe probe already attached, doing nothing" _CheckProbe action=query {% endif %} _exit_point function=Attach_Probe # Dock Probe Routine [gcode_macro Dock_Probe] description: Docks Klicky Probe gcode: # See if the position should be restored after the dock {% set goback = params.back|default(0) %} # Get probe attach status {% set probe_attached = printer["gcode_macro _Probe_Variables"].probe_attached %} {% set probe_lock = printer["gcode_macro _Probe_Variables"].probe_lock %} {% set verbose = printer["gcode_macro _User_Variables"].verbose %} # Get Docking location {% set dockmove_x = printer["gcode_macro _User_Variables"].dockmove_x|default(0) %} {% set dockmove_y = printer["gcode_macro _User_Variables"].dockmove_y|default(0) %} {% set dockmove_z = printer["gcode_macro _User_Variables"].dockmove_z|default(0) %} {% set docklocation_x = printer["gcode_macro _User_Variables"].docklocation_x %} {% set docklocation_y = printer["gcode_macro _User_Variables"].docklocation_y %} {% set docklocation_z = printer["gcode_macro _User_Variables"].docklocation_z %} {% set attachmove_x = printer["gcode_macro _User_Variables"].attachmove_x|default(0) %} {% set attachmove_y = printer["gcode_macro _User_Variables"].attachmove_y|default(0) %} {% set attachmove_z = printer["gcode_macro _User_Variables"].attachmove_z|default(0) %} # Safe Z for travel {% set safe_z = printer["gcode_macro _User_Variables"].safe_z|float %} # Set feedrates {% set travel_feedrate = printer["gcode_macro _User_Variables"].travel_speed * 60 %} {% set dock_feedrate = printer["gcode_macro _User_Variables"].dock_speed * 60 %} {% set release_feedrate = printer["gcode_macro _User_Variables"].release_speed * 60 %} {% set z_drop_feedrate = printer["gcode_macro _User_Variables"].z_drop_speed * 60 %} # If axis aren't homed, fail {% if not 'xyz' in printer.toolhead.homed_axes %} { action_raise_error("Must Home X, Y and Z Axis First!") } {% endif %} _KlickyDebug msg="Dock_Probe Axis homed" _entry_point function=Dock_Probe # If probe not attached and not locked {% if probe_attached and not probe_lock %} _KlickyDebug msg="Dock_Probe going to dock probe" {% if verbose %} { action_respond_info("Docking Probe") } {% endif %} _KLICKY_STATUS_BUSY {% if printer.toolhead.position.z < safe_z %} _KlickyDebug msg="Dock_Probe toolhead too low, raising it to {safe_z}mm" G0 Z{safe_z} F{z_drop_feedrate} {% endif %} _Umbilical_Path # Probe entry location _KlickyDebug msg="Dock_Probe moving near the dock with G0 X{docklocation_x|int - attachmove_x|int} Y{docklocation_y|int - attachmove_y|int} F{travel_feedrate}" G0 X{docklocation_x|int - attachmove_x|int} Y{docklocation_y|int - attachmove_y|int} F{travel_feedrate} {% if docklocation_z != -128 %} _KlickyDebug msg="Dock_Probe moving near the dock with G0 Z{docklocation_z|int - attachmove_z|int} F{dock_feedrate}" G0 Z{docklocation_z|int - attachmove_z|int} F{dock_feedrate} {% endif %} # if necessary do some actions before moving the toolhead to dock _DeployKlickyDock # Drop Probe to Probe location _KlickyDebug msg="Dock_Probe moving to the dock with G0 X{docklocation_x} Y{docklocation_y} F{dock_feedrate}" G0 X{docklocation_x} Y{docklocation_y} F{dock_feedrate} {% if docklocation_z != -128 %} _KlickyDebug msg="Attach_Probe moving to the dock with G0 Z{docklocation_z} F{dock_feedrate}" G0 Z{docklocation_z} F{dock_feedrate} {% endif %} # Probe decoupling {% if docklocation_z != -128 %} _KlickyDebug msg="Dock_Probe moving from the dock to G0 Z{docklocation_z|int + dockmove_z|int} F{release_feedrate}" G0 Z{docklocation_z|int + dockmove_z|int} F{release_feedrate} {% endif %} _KlickyDebug msg="Dock_Probe moving from the dock to G0 X{docklocation_x|int + dockmove_x|int} Y{docklocation_y|int + dockmove_y|int} F{release_feedrate}" G0 X{docklocation_x|int + dockmove_x|int} Y{docklocation_y|int + dockmove_y|int} F{release_feedrate} # if necessary do some actions after attaching the probe _RetractKlickyDock #Do an extra move away _KlickyDebug msg="Dock_Probe moving away from the dock to G0 X{docklocation_x|int + dockmove_x|int - attachmove_x|int} Y{docklocation_y|int + dockmove_y|int - attachmove_y|int} F{release_feedrate}" G0 X{docklocation_x|int + dockmove_x|int - attachmove_x|int} Y{docklocation_y|int + dockmove_y|int - attachmove_y|int} F{release_feedrate} # Go to Z safe distance {% if printer.toolhead.position.z < safe_z %} _KlickyDebug msg="Dock_Probe toolhead too low, raising it to {safe_z}mm" G0 Z{safe_z} F{z_drop_feedrate} {% endif %} _Park_Toolhead G4 P1000 _CheckProbe action=dock _KLICKY_STATUS_READY {% elif probe_lock %} {% if verbose %} { action_respond_info("Probe locked") } {% endif %} # Probe docked, do nothing _KlickyDebug msg="Dock_Probe probe locked not docking probe" _CheckProbe action=query {% else %} {% if verbose %} { action_respond_info("Probe already docked") } {% endif %} # Probe docked, do nothing _KlickyDebug msg="Dock_Probe probe already docked, doing nothing" _CheckProbe action=query {% endif %} _exit_point function=Dock_Probe move={goback} # Probe Calibrate [gcode_macro PROBE_CALIBRATE] rename_existing: _PROBE_CALIBRATE description:Calibrate the probe's z_offset with klicky automount gcode: {% set safe_z = printer["gcode_macro _User_Variables"].safe_z|float %} {% set z_drop_feedrate = printer["gcode_macro _User_Variables"].z_drop_speed * 60 %} {% set max_x = printer["gcode_macro _User_Variables"].max_bed_x|float %} {% set max_y = printer["gcode_macro _User_Variables"].max_bed_y|float %} {% set probe_offset_x = printer['configfile'].config["probe"]["x_offset"]|float %} {% set probe_offset_y = printer['configfile'].config["probe"]["y_offset"]|float %} {% if not 'xyz' in printer.toolhead.homed_axes %} { action_raise_error("Must Home X, Y and Z Axis First!") } {% endif %} _KlickyDebug msg="probe_calibrate Axis homed" _KlickyDebug msg="probe_calibrate Variables max_x={max_x},max_y={max_y},probe_offset_x={probe_offset_x},probe_offset_y={probe_offset_y}" # Protect against PROBE CALIBRATE performed from outside the bed {% if printer['gcode_move'].position.y > (max_y - probe_offset_y) or printer['gcode_move'].position.y < - probe_offset_y or printer['gcode_move'].position.x > (max_x - probe_offset_x) or printer['gcode_move'].position.x < - probe_offset_x %} { action_raise_error("Must perform PROBE_CALIBRATE with the probe above the BED, check klicky_variables bed size!") } {% endif%} _CheckProbe action=query G90 Attach_Probe back=1 _KLICKY_STATUS_CALIBRATING_Z _KlickyDebug msg="probe_calibrate calling klipper probe_calibrate" _PROBE_CALIBRATE {% for p in params %}{'%s=%s ' % (p, params[p])}{% endfor %} M118 moving the toolhead 20 mm from the bed _KlickyDebug msg="probe_calibrate Moving Z up by 20mm" TESTZ Z=20 M118 remove manually the probe and continue calibration _KLICKY_STATUS_READY # Probe Accuracy [gcode_macro PROBE_ACCURACY] rename_existing: _PROBE_ACCURACY description:Probe Z-height accuracy at current XY position with klicky automount gcode: {% set safe_z = printer["gcode_macro _User_Variables"].safe_z|float %} {% set z_drop_feedrate = printer["gcode_macro _User_Variables"].z_drop_speed * 60 %} {% set max_x = printer["gcode_macro _User_Variables"].max_bed_x|float %} {% set max_y = printer["gcode_macro _User_Variables"].max_bed_y|float %} {% set probe_offset_x = printer['configfile'].config["probe"]["x_offset"]|float %} {% set probe_offset_y = printer['configfile'].config["probe"]["y_offset"]|float %} {% if not 'xyz' in printer.toolhead.homed_axes %} { action_raise_error("Must Home X, Y and Z Axis First!") } {% endif %} _KlickyDebug msg="probe_accuracy Axis homed" _KlickyDebug msg="probe_accuracy Variables max_x={max_x},max_y={max_y},probe_offset_x={probe_offset_x},probe_offset_y={probe_offset_y}" _entry_point function=PROBE_ACCURACY # Protect against PROBE_ACCURACY performed from outside the bed {% if printer['gcode_move'].position.y > (max_y - probe_offset_y) or printer['gcode_move'].position.y < - probe_offset_y or printer['gcode_move'].position.x > (max_x - probe_offset_x) or printer['gcode_move'].position.x < - probe_offset_x %} { action_raise_error("Must perform PROBE_ACCURACY with the probe above the BED, check klicky_variables bed size!") } {% endif%} _CheckProbe action=query Attach_Probe back=1 _KlickyDebug msg="probe_accuracy calling klipper probe accuracy" _PROBE_ACCURACY {% for p in params %}{'%s=%s ' % (p, params[p])}{% endfor %} Dock_Probe back=1 _exit_point function=PROBE_ACCURACY move=1 # Umbilical path setup [gcode_macro _Umbilical_Path] gcode: {% set umbilical = printer["gcode_macro _User_Variables"].umbilical %} {% set umbilical_x = printer["gcode_macro _User_Variables"].umbilical_x %} {% set umbilical_y = printer["gcode_macro _User_Variables"].umbilical_y %} {% set safe_z = printer["gcode_macro _User_Variables"].safe_z|float %} {% set travel_feedrate = printer["gcode_macro _User_Variables"].travel_speed * 60 %} {% if umbilical %} # Used to give the umbilical a better path to follow and coil properly if dock is tight in space _entry_point function=Umbilical_Path _KlickyDebug msg="_Umbilical_Path moving to G0 X{umbilical_x} Y{umbilical_y} Z{safe_z} F{travel_feedrate}" G0 X{umbilical_x} Y{umbilical_y} Z{safe_z} F{travel_feedrate} _exit_point function=Umbilical_Path {% endif %} # check to see if probe is where it is supposed to be after # attaching/docking maneuver and set homing error or shutdown [gcode_macro _CheckProbe] variable_probe_state: 0 gcode: Query_Probe _SetProbeState action={ params.ACTION } # due to how templates are evaluated, we have query endstops in one # macro and call another macro to make decisions based on the result [gcode_macro _SetProbeState] gcode: {% set query_probe_triggered = printer.probe.last_query %} {% set action = params.ACTION|default('') %} # If triggered (true), probe not attached {% if query_probe_triggered %} SET_GCODE_VARIABLE MACRO=_Probe_Variables VARIABLE=probe_attached VALUE={ False } {% else %} # If not triggered (false), probe attached SET_GCODE_VARIABLE MACRO=_Probe_Variables VARIABLE=probe_attached VALUE={ True } {% endif %} {% if action == 'query' %} SET_GCODE_VARIABLE MACRO=_Probe_Variables VARIABLE=probe_state VALUE={ query_probe_triggered } {% endif %} # If probe fails to attach/detach # If not docked {% if not query_probe_triggered and action == 'dock' %} { action_raise_error("Probe dock failed!") } {% endif %} # If not attached {% if query_probe_triggered and action == 'attach' %} { action_raise_error("Probe attach failed!") } {% endif %} # Park Toolhead Routine [gcode_macro _Park_Toolhead] gcode: {% set park_toolhead = printer["gcode_macro _User_Variables"].park_toolhead %} {% set parkposition_x = printer["gcode_macro _User_Variables"].parkposition_x %} {% set parkposition_y = printer["gcode_macro _User_Variables"].parkposition_y %} {% set parkposition_z = printer["gcode_macro _User_Variables"].parkposition_z %} {% set travel_feedrate = printer["gcode_macro _User_Variables"].travel_speed * 60 %} {% set verbose = printer["gcode_macro _User_Variables"].verbose %} _entry_point function=Park_Toolhead {% if park_toolhead and 'xyz' in printer.toolhead.homed_axes %} {% if verbose %} { action_respond_info("Parking Toolhead") } {% endif %} _KlickyDebug msg="_Park_Toolhead moving to G0 X{parkposition_x} Y{parkposition_y} Z{parkposition_z} F{travel_feedrate}" G0 X{parkposition_x} Y{parkposition_y} Z{parkposition_z} F{travel_feedrate} {% endif %} _exit_point function=Park_Toolhead