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v2.4: update printer, use klicky-probe

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Konstantin Koslowski 2021-10-27 11:58:25 +02:00
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commit 97a84b3338
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klicky-probe.cfg Normal file
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@ -0,0 +1,662 @@
# 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 11-10-2021 01
[gcode_macro _User_Variables]
variable_verbose: True # Enable verbose output
variable_travel_speed: 200 # how fast all other travel moves will be performed when running these macros
variable_dock_speed: 50 # how fast should the toolhead move when docking the probe for the final movement
variable_release_speed: 100 # 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_home_z_height: 20 # Z when homing
variable_allow_g28xy_without_z: 0 # forces the initial G28 to calibrate X Y and Z, otherwise you could only do one axis and potentially hit the bed or gantry (by doing only a G28 Z)
variable_max_bed_y: 250 #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: 208
variable_z_endstop_y: 305
# location to park the toolhead
variable_park_toolhead: False # Enable toolhead parking
variable_parkposition_x: 125
variable_parkposition_y: 125
variable_parkposition_z: 30
#dock location
variable_docklocation_x: 148 # X Dock position
variable_docklocation_y: 305 # Y Dock position
variable_docklocation_z: -128 # Z dock position (-128 for a gantry mount)
variable_dockarmslenght: 30 # Dock arms lenght, toolhead movement necessary to clear the dock arms
#Umbilical to help untangle the umbilical in difficult situations
variable_umbilical_x: 15 #X umbilical position
variable_umbilical_y: 15 #Y umbilical position
variable_umbilical: False #should we untabgle the umbilical
# 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 docklocation_z is zero, use Home Z height for safety
{% if docklocation_z == 0 %}
SET_GCODE_VARIABLE MACRO=_Probe_Variables VARIABLE=docklocation_z VALUE={ home_z_height }
{% endif %}
# 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:
[gcode_macro _Homing_Variables]
gcode:
{% set R = params.RESET|default(0) %}
{% if R %}
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
SET_GCODE_VARIABLE MACRO=_Probe_Variables VARIABLE=probe_lock VALUE={ True }
# Dock probe and lock it
[gcode_macro Dock_Probe_Unlock]
description: Docks Klicky Probe even if it was locked
gcode:
SET_GCODE_VARIABLE MACRO=_Probe_Variables VARIABLE=probe_lock VALUE={ False }
Dock_Probe
# Unlock Probe
[gcode_macro Probe_Unlock]
description: Unlocks Klicky Probe state
gcode:
SET_GCODE_VARIABLE MACRO=_Probe_Variables VARIABLE=probe_lock VALUE={ False }
# Lock Probe
[gcode_macro Probe_Lock]
description: Locks Klicky Probe state
gcode:
SET_GCODE_VARIABLE MACRO=_Probe_Variables VARIABLE=probe_lock VALUE={ True }
# Attach Probe Routine
[gcode_macro Attach_Probe]
description: Attaches Klicky Probe
gcode:
# Get probe attach status
{% set P = printer["gcode_macro _Probe_Variables"].probe_attached %}
{% set L = printer["gcode_macro _Probe_Variables"].probe_lock %}
{% set V = printer["gcode_macro _User_Variables"].verbose %}
# Get Docking location
{% set Dx = printer["gcode_macro _User_Variables"].docklocation_x %}
{% set Dy = printer["gcode_macro _User_Variables"].docklocation_y %}
{% set Dz = printer["gcode_macro _User_Variables"].docklocation_z %}
{% set Da = printer["gcode_macro _User_Variables"].dockarmslenght %}
# Safe Z for travel
{% set Hzh = printer["gcode_macro _User_Variables"].home_z_height|float %}
#Set speed
{% set St = printer["gcode_macro _User_Variables"].travel_speed * 60 %}
#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 < Hzh) %}
G1 Z{Hzh} F1200
{% endif %}
M400 # mandatory to save the new safe position
#allows the docking position to be independent of the Z offset, necessary for bed mounted probes
SAVE_GCODE_STATE name=_attachProbe
SET_GCODE_OFFSET Z=0
# 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!") }
# If probe not attached and locked
{% elif not P and not L %}
{% if V %}
{ action_respond_info("Attaching Probe") }
{% endif %}
G90
{% if (not 'z' in printer.toolhead.homed_axes) %}
{% if V %}
{ action_respond_info("Resetting Z position to zero") }
{% endif %}
SET_KINEMATIC_POSITION Z=0
{% endif %}
{% if (printer.toolhead.position.z < Hzh) %}
G1 Z{Hzh} F1200
{% endif %}
_Umbilical_Path
# Probe entry location
G1 X{Dx} Y{Dy|int - Da|int} F{St}
{% if Dz != -128 %}
#lower to Z dock
G1 Z{Dz} F600
{% endif %}
# pickup from Probe location
G1 X{Dx} Y{Dy} F1800
# Probe entry location
G1 X{Dx} Y{Dy|int - Da|int} F6000
#Go to Z safe distance
{% if (printer.toolhead.position.z < Hzh) %}
G1 Z{Hzh} F600
{% endif %}
_Park_Toolhead
_CheckProbe action=attach
{% elif L %}
{% if V %}
{ action_respond_info("Probe locked!") }
{% endif %}
# Probe attached, do nothing
_CheckProbe action=query
{% else %}
{% if V %}
{ action_respond_info("Probe already attached!") }
{% endif %}
# Probe attached, do nothing
_CheckProbe action=query
{% endif %}
#reverts to the original Z offset
RESTORE_GCODE_STATE name=_attachProbe
# Dock Probe Routine
[gcode_macro Dock_Probe]
description: Docks Klicky Probe
gcode:
# Get probe attach status
{% set P = printer["gcode_macro _Probe_Variables"].probe_attached %}
{% set L = printer["gcode_macro _Probe_Variables"].probe_lock %}
{% set V = printer["gcode_macro _User_Variables"].verbose %}
# Get Docking location
{% set Dx = printer["gcode_macro _User_Variables"].docklocation_x %}
{% set Dy = printer["gcode_macro _User_Variables"].docklocation_y %}
{% set Dz = printer["gcode_macro _User_Variables"].docklocation_z %}
{% set Da = printer["gcode_macro _User_Variables"].dockarmslenght %}
# Safe Z for travel
{% set Hzh = printer["gcode_macro _User_Variables"].home_z_height|float %}
# Set speed
{% set St = printer["gcode_macro _User_Variables"].travel_speed * 60 %}
{% set Sd = printer["gcode_macro _User_Variables"].dock_speed * 60 %}
{% set Sr = printer["gcode_macro _User_Variables"].release_speed * 60 %}
{% set Sz = printer["gcode_macro _User_Variables"].z_drop_speed * 60 %}
M400 # mandatory to save the new safe position
#allows the docking position to be independent of the Z offset, necessary for bed mounted probes
SAVE_GCODE_STATE name=_dockProbe
SET_GCODE_OFFSET Z=0
{% if not 'xyz' in printer.toolhead.homed_axes %}
{ action_raise_error("Must Home X, Y and Z Axis First!") }
# If probe not attached and not locked
{% elif P and not L %}
{% if V %}
{ action_respond_info("Docking Probe") }
{% endif %}
G90
{% if (printer.toolhead.position.z < Hzh) %}
G1 Z{Hzh} F{Sz}
{% endif %}
_Umbilical_Path
# Probe entry location
G1 X{Dx} Y{Dy|int - Da|int} F{St}
{% if Dz != -128 %}
#lower to Z dock
G1 Z{Dz} F600
{% endif %}
# Drop Probe to Probe location
G1 X{Dx} Y{Dy} F{Sd}
# Probe decoupling
G1 X{Dx|int + 40} Y{Dy} F{Sr}
#Go to Z safe distance
{% if (printer.toolhead.position.z < Hzh) %}
G1 Z{Hzh} F600
{% endif %}
_Park_Toolhead
G4 P1000
_CheckProbe action=dock
{% elif L %}
{% if V %}
{ action_respond_info("Probe locked!") }
{% endif %}
# Probe docked, do nothing
_CheckProbe action=query
{% else %}
{% if V %}
{ action_respond_info("Probe already docked!") }
{% endif %}
# Probe docked, do nothing
_CheckProbe action=query
{% endif %}
#reverts to the original Z offset
RESTORE_GCODE_STATE name=_dockProbe
# Quad Gantry Level
[gcode_macro QUAD_GANTRY_LEVEL]
rename_existing: _QUAD_GANTRY_LEVEL
description: Conform a moving, twistable gantry to the shape of a stationary bed with klicky automount
gcode:
{% set V = printer["gcode_macro _User_Variables"].verbose %}
{% if V %}
{ action_respond_info("QG Level") }
{% endif %}
_CheckProbe action=query
Attach_Probe
_QUAD_GANTRY_LEVEL {% for p in params
%}{'%s=%s ' % (p, params[p])}{%
endfor %}
Dock_Probe
# Z Tilt Adjust
#[gcode_macro Z_TILT_ADJUST]
#rename_existing: _Z_TILT_ADJUST
#description:
#gcode:
# {% set V = printer["gcode_macro _User_Variables"].verbose %}
# {% if V %}
# { action_respond_info("Z Tilt Adjust") }
# {% endif %}
#
# _CheckProbe action=query
# Attach_Probe
#
# _Z_TILT_ADJUST {% for p in params
# %}{'%s=%s ' % (p, params[p])}{%
# endfor %}
# G28 Z0
# Dock_Probe
# Screws Tilt Adjust
#gcode_macro SCREWS_TILT_CALCULATE]
#rename_existing: _SCREWS_TILT_CALCULATE
#description:
#gcode:
# {% set V = printer["gcode_macro _User_Variables"].verbose %}
# {% if V %}
# { action_respond_info("Screws Tilt Adjust") }
# {% endif %}
#
# _CheckProbe action=query
# Attach_Probe
#
# _SCREWS_TILT_CALCULATE {% for p in params
# %}{'%s=%s ' % (p, params[p])}{%
# endfor %}
#
# Dock_Probe
# Bed Mesh Calibrate
[bed_mesh]
[gcode_macro BED_MESH_CALIBRATE]
rename_existing: _BED_MESH_CALIBRATE
description: Perform Mesh Bed Leveling with klicky automount
gcode:
{% set V = printer["gcode_macro _User_Variables"].verbose %}
{% if V %}
{ action_respond_info("Bed Mesh Calibrate") }
{% endif %}
_CheckProbe action=query
Attach_Probe
_BED_MESH_CALIBRATE {% for p in params
%}{'%s=%s ' % (p, params[p])}{%
endfor %}
Dock_Probe
# Probe Calibrate
[gcode_macro PROBE_CALIBRATE]
rename_existing: _PROBE_CALIBRATE
description:Calibrate the probe's z_offset with klicky automount
gcode:
{% set Hzh = printer["gcode_macro _User_Variables"].home_z_height|float %}
{% set Sz = printer["gcode_macro _User_Variables"].z_drop_speed * 60 %}
{% set St = printer["gcode_macro _User_Variables"].travel_speed %}
{% 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 %}
# Go to Z safe distance before saving location in order to
# avoid crashing the probe on the bed when coming back
G1 Z{Hzh} F{Sz}
#Protect against PROBE CALIBRATE performed from outside the bed
{% if (printer['gcode_move'].position.y > (My - Oy)) or (printer['gcode_move'].position.x > (Mx - Ox)) or (printer['gcode_move'].position.x < Ox) %}
{ action_raise_error("Must perform PROBE_CALIBRATE with the probe above the BED!!!") }
{% endif%}
M400 # mandatory to save the new safe position
SAVE_GCODE_STATE NAME=_original_nozzle_location
_CheckProbe action=query
Attach_Probe
# Restore nozzle location to probe the right place
RESTORE_GCODE_STATE NAME=_original_nozzle_location MOVE=1 MOVE_SPEED={St}
_PROBE_CALIBRATE {% for p in params
%}{'%s=%s ' % (p, params[p])}{%
endfor %}
#store current nozzle location
SAVE_GCODE_STATE NAME=_original_nozzle_location
Dock_Probe
# Restore nozzle location again at the end
RESTORE_GCODE_STATE NAME=_original_nozzle_location MOVE=1 MOVE_SPEED={St}
# Probe Accuracy
[gcode_macro PROBE_ACCURACY]
rename_existing: _PROBE_ACCURACY
description:Probe Z-height accuracy at current XY position with klicky automount
gcode:
{% set Hzh = printer["gcode_macro _User_Variables"].home_z_height|float %}
{% set Sz = printer["gcode_macro _User_Variables"].z_drop_speed * 60 %}
{% set St = printer["gcode_macro _User_Variables"].travel_speed %}
{% set By = printer["gcode_macro _User_Variables"].max_bed_y %}
{% set Oy = printer['configfile'].config["probe"]["y_offset"]|float %}
# Go to Z safe distance before saving location in order to
# avoid crashing the probe on the bed when coming back
G1 Z{Hzh} F{Sz}
#Protect against PROBE ACCURACY performed from outside the bed
{% if (printer.toolhead.position.y > (By - Oy)) %}
{ action_raise_error("Must perform PROBE_ACCURACY with the probe above the BED!!!") }
{% endif%}
M400 # mandatory to save the new safe position
SAVE_GCODE_STATE NAME=_original_nozzle_location
_CheckProbe action=query
Attach_Probe
# Restore nozzle location to probe the right place
RESTORE_GCODE_STATE NAME=_original_nozzle_location MOVE=1 MOVE_SPEED={St}
_PROBE_ACCURACY {% for p in params
%}{'%s=%s ' % (p, params[p])}{%
endfor %}
#store current nozzle location
SAVE_GCODE_STATE NAME=_original_nozzle_location
Dock_Probe
# Restore nozzle location again at the end
RESTORE_GCODE_STATE NAME=_original_nozzle_location MOVE=1 MOVE_SPEED={St}
# enable to SET_KINEMATIC_POSITION for Z hop
[force_move]
enable_force_move: True
# Homeing Override
[homing_override]
axes: xyz
gcode:
# collect user state variables
_User_Variables
{% set V = printer["gcode_macro _User_Variables"].verbose %}
{% set XYwZ = printer["gcode_macro _User_Variables"].allow_g28xy_without_z %}
{% set Hzh = printer["gcode_macro _User_Variables"].home_z_height|float %}
_CheckProbe action=query
# reset parameters
{% set X, Y, Z = False, False, False %}
# which axes have been requested for homing
{% if not 'X' in params
and not 'Y' in params
and not 'Z' in params %}
{% set X, Y, Z = True, True, True %}
{% else %}
{% if 'X' in params %}
{% set X = True %}
{% endif %}
{% if 'Y' in params %}
{% set Y = True %}
{% endif %}
{% if 'Z' in params %}
{% set Z = True %}
{% endif %}
{% if 'X' in params
and 'Y' in params
and 'Z' in params %}
# reset homing state variables
# if homing all axes
_Homing_Variables reset=1
{% endif %}
{% endif %}
{% if ('z' in printer.toolhead.homed_axes) %}
{% if (printer.toolhead.position.z < Hzh) %}
{% if V %}
{ action_respond_info("Z too low, performing ZHOP") }
{% endif %}
G1 Z{Hzh} F1200
{% endif %}
{% else %}
#checks if it's allowed to do initially G28 X/Y without doing a G28 Z
{% if ( XYwZ == 0) %}
{% if V %}
{ action_respond_info("Z not homed, forcing full G28") }
{% endif %}
SET_KINEMATIC_POSITION X=0 Y=0 Z=0
G1 Z{Hzh} F600
{% set X, Y, Z = True, True, True %}
{% endif %}
{% endif %}
# Home x
{% if X %}
{% if V %}
{ action_respond_info("Homing X") }
{% endif %}
G28 X0
{% endif %}
# Home y
{% if Y %}
{% if V %}
{ action_respond_info("Homing Y") }
{% endif %}
G28 Y0
{% endif %}
# Home z
{% if Z %}
{% if V %}
{ action_respond_info("Homing Z") }
{% endif %}
# if probe is configured as endstop, attach it, else dock the probe if attached
{% if printer['configfile'].config["stepper_z"]["endstop_pin"] == 'probe:z_virtual_endstop' %}
Attach_Probe
{% else %}
Dock_Probe
{% endif %}
_Home_Z
# if probe is configured as endstop, dock it
{% if printer['configfile'].config["stepper_z"]["endstop_pin"] == 'probe:z_virtual_endstop' %}
Dock_Probe
{% endif %}
{% endif %}
_CheckProbe action=query
# park the toolhead
_Park_Toolhead
# umbilical path setup
[gcode_macro _Umbilical_Path]
gcode:
{% set Ux = printer["gcode_macro _User_Variables"].umbilical_x %}
{% set Uy = printer["gcode_macro _User_Variables"].umbilical_y %}
{% set U = printer["gcode_macro _User_Variables"].umbilical %}
{% set Hzh = printer["gcode_macro _User_Variables"].home_z_height|float %}
{% set St = printer["gcode_macro _User_Variables"].travel_speed * 60 %}
{% if U %}
# Used to give the umbilical a better path to follow and coil properly if dock is tight in space
G1 X{Ux} Y{Uy} Z{Hzh} F{St}
{% endif %}
# Home Z Routine
[gcode_macro _Home_Z]
gcode:
{% set Zx = printer["gcode_macro _Probe_Variables"].z_endstop_x %}
{% set Zy = printer["gcode_macro _Probe_Variables"].z_endstop_y %}
{% set Hzh = printer["gcode_macro _User_Variables"].home_z_height|float %}
{% set St = printer["gcode_macro _User_Variables"].travel_speed * 60 %}
{% set Sz = printer["gcode_macro _User_Variables"].z_drop_speed * 60 %}
# if x and y are not homed yet, raise error
{% if not 'xy' in printer.toolhead.homed_axes %}
{ action_raise_error("Must Home X and Y Axis First!") }
{% else %}
{% if (not 'z' in printer.toolhead.homed_axes) %}
{% if V %}
{ action_respond_info("Resetting Z position to zero") }
{% endif %}
SET_KINEMATIC_POSITION Z=0
{% endif %}
# move tool to safe homing position and home Z axis
# location of z endstop
G1 X{Zx} Y{Zy} Z{Hzh} F{St}
G28 Z0
G1 Z{Hzh} F{Sz}
{% 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={ 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 P = printer.probe.last_query %}
{% set V = printer["gcode_macro _User_Variables"].verbose %}
# If triggered (true), probe not attached
{% if P %}
SET_GCODE_VARIABLE MACRO=_Probe_Variables VARIABLE=probe_attached VALUE={ False }
# If not triggered (false), probe attached
{% else %}
SET_GCODE_VARIABLE MACRO=_Probe_Variables VARIABLE=probe_attached VALUE={ True }
{% endif %}
{% if params.ACTION == 'query' %}
SET_GCODE_VARIABLE MACRO=_Probe_Variables VARIABLE=probe_state VALUE={ P }
{% endif %}
# if probe fails to attach/detach
# if not docked
{% if (not P and params.ACTION == 'dock') %}
{ action_raise_error("Probe dock failed!") }
{% endif %}
# if not attached
{% if P and params.ACTION == 'attach' %}
{ action_raise_error("Probe attach failed!") }
{% endif %}
# Park Toolhead Routine
[gcode_macro _Park_Toolhead]
gcode:
{% set P = printer["gcode_macro _User_Variables"].park_toolhead %}
{% set Px = printer["gcode_macro _User_Variables"].parkposition_x %}
{% set Py = printer["gcode_macro _User_Variables"].parkposition_y %}
{% set Pz = printer["gcode_macro _User_Variables"].parkposition_z %}
{% set St = printer["gcode_macro _User_Variables"].travel_speed * 60 %}
{% set V = printer["gcode_macro _User_Variables"].verbose %}
{% if (P and 'xyz' in printer.toolhead.homed_axes) %}
{% if V %}
{ action_respond_info("Parking Toolhead") }
{% endif %}
G90
G1 X{Px} Y{Py} Z{Pz} F{St}
{% endif %}

59
printer.cfg
View file

@ -34,15 +34,16 @@ serial: /dev/serial/by-id/usb-Klipper_stm32f446xx_1E0030000E5053424E363620-if00
[printer]
kinematics: corexy
max_velocity: 300
## regular
max_accel: 3000 # Max 4000
max_accel_to_decel: 1500 # default half of max_accel
max_z_velocity: 30 # Max 15 for 12V TMC Drivers, can increase for 24V
max_z_accel: 500
square_corner_velocity: 5.0
## input_shaper
# max_accel: 7000
# max_accel_to_decel: 3500
# max_z_accel: 7000
##
max_z_velocity: 30 # Max 15 for 12V TMC Drivers, can increase for 24V
max_z_accel: 500
square_corner_velocity: 5.0
#####################################################################
@ -55,6 +56,7 @@ square_corner_velocity: 5.0
[include fans.cfg]
[include input_shaper.cfg]
# [include resonance_test.cfg]
[include klicky-probe.cfg]
#####################################################################
@ -270,9 +272,8 @@ max_temp: 120
#####################################################################
[probe]
## Inductive Probe
## This probe is not used for Z height, only Quad Gantry Leveling
pin: ~PB7
## Microswitch probe
pin: ^PG11
x_offset: 0
y_offset: 25.0
#z_offset: 0
@ -280,7 +281,7 @@ speed: 10.0
samples: 3
samples_result: median
sample_retract_dist: 3.0
samples_tolerance: 0.006
samples_tolerance: 0.01
samples_tolerance_retries: 3
@ -289,7 +290,7 @@ samples_tolerance_retries: 3
#####################################################################
[filament_switch_sensor filament_switch]
switch_pin: ^!PG11
switch_pin: ^!PG12
pause_on_runout: True
# runout_gcode is executed after pause_on_runout
runout_gcode:
@ -310,7 +311,7 @@ beta: 3950
[temperature_sensor chamber]
sensor_type: chamber_temp
sensor_type: chamber
sensor_pin: PF5
min_temp: 0
max_temp: 100
@ -324,12 +325,13 @@ max_temp: 100
[idle_timeout]
timeout: 1800
[safe_z_home]
## XY Location of the Z Endstop Switch
home_xy_position: 208, 305
speed: 100
z_hop: 10
z_hop_speed: 25
## replaced with homing_override in klicky-probe.cfg
# [safe_z_home]
# ## XY Location of the Z Endstop Switch
# home_xy_position: 208, 305
# speed: 100
# z_hop: 10
# z_hop_speed: 25
[bed_mesh]
speed: 500
@ -338,8 +340,9 @@ mesh_min: 40,60
mesh_max: 260,280
fade_start: 0.6
fade_end: 10
probe_count: 9,9
probe_count: 5,5
algorithm: bicubic
# relative_reference_index = ((x points * y points) - 1) / 2
relative_reference_index: 12
[quad_gantry_level]
@ -376,28 +379,24 @@ max_adjust: 10
#*# [bed_mesh default]
#*# version = 1
#*# points =
#*# -0.032500, -0.010000, 0.017500, 0.002500, -0.017500, 0.012500, -0.025000, 0.020000, -0.020000
#*# -0.040000, -0.020000, 0.000000, -0.012500, -0.037500, 0.000000, -0.040000, 0.007500, -0.030000
#*# -0.045000, -0.025000, 0.000000, -0.012500, -0.035000, -0.002500, -0.040000, 0.000000, -0.042500
#*# -0.065000, -0.045000, -0.020000, -0.032500, -0.057500, -0.022500, -0.067500, -0.020000, -0.057500
#*# -0.052500, -0.032500, -0.010000, -0.020000, -0.042500, -0.007500, -0.050000, -0.010000, -0.060000
#*# -0.045000, -0.022500, -0.005000, -0.017500, -0.040000, -0.010000, -0.047500, -0.005000, -0.047500
#*# -0.042500, -0.025000, 0.000000, -0.015000, -0.035000, -0.002500, -0.040000, 0.000000, -0.047500
#*# -0.027500, -0.015000, 0.010000, -0.012500, -0.032500, 0.000000, -0.035000, 0.005000, -0.035000
#*# -0.005000, 0.012500, 0.045000, 0.025000, 0.005000, 0.040000, 0.002500, 0.042500, -0.007500
#*# -0.002500, -0.015000, -0.002500, -0.005000, -0.045000
#*# -0.000000, -0.012500, 0.002500, -0.005000, -0.040000
#*# -0.002500, 0.002500, 0.000000, 0.012500, -0.032500
#*# -0.012500, -0.007500, 0.025000, 0.017500, 0.000000
#*# 0.057500, 0.072500, 0.042500, 0.075000, 0.027500
#*# tension = 0.2
#*# min_x = 40.0
#*# algo = bicubic
#*# y_count = 9
#*# y_count = 5
#*# mesh_y_pps = 2
#*# min_y = 60.0
#*# x_count = 9
#*# x_count = 5
#*# max_y = 280.0
#*# mesh_x_pps = 2
#*# max_x = 260.0
#*#
#*# [stepper_z]
#*# position_endstop = 0.597
#*# position_endstop = 0.817
#*#
#*# [probe]
#*# z_offset = 1.890
#*# z_offset = 7.660