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z_tilt.cfg
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z_tilt.cfg
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[z_tilt]
z_positions:
-32, 165
425, 165
points:
35, 165
360, 165
horizontal_move_z: 5
speed: 250
retries: 20
retry_tolerance: 0.01
#[z_tilt]
#z_positions:
# A list of X, Y coordinates (one per line; subsequent lines
# indented) describing the location of each bed "pivot point". The
# "pivot point" is the point where the bed attaches to the given Z
# stepper. It is described using nozzle coordinates (the X, Y position
# of the nozzle if it could move directly above the point). The
# first entry corresponds to stepper_z, the second to stepper_z1,
# the third to stepper_z2, etc. This parameter must be provided.
#points:
# A list of X, Y coordinates (one per line; subsequent lines
# indented) that should be probed during a Z_TILT_ADJUST command.
# Specify coordinates of the nozzle and be sure the probe is above
# the bed at the given nozzle coordinates. This parameter must be
# provided.
#speed: 50
# The speed (in mm/s) of non-probing moves during the calibration.
# The default is 50.
#horizontal_move_z: 5
# The height (in mm) that the head should be commanded to move to
# just prior to starting a probe operation. The default is 5.
#retries: 0
# Number of times to retry if the probed points aren't within
# tolerance.
#retry_tolerance: 0
# If retries are enabled then retry if largest and smallest probed
# points differ more than retry_tolerance. Note the smallest unit of
# change here would be a single step. However if you are probing
# more points than steppers then you will likely have a fixed
# minimum value for the range of probed points which you can learn
# by observing command output.
# Multi-stepper axes. On a cartesian style printer, the stepper
# controlling a given axis may have additional config blocks defining
# steppers that should be stepped in concert with the primary
# stepper. One may define any number of sections with a numeric suffix
# starting at 1 (for example, "stepper_z1", "stepper_z2", etc.).
#[stepper_z1]
#step_pin: ar36
#dir_pin: ar34
#enable_pin: !ar30
#step_distance: .005
# See the example.cfg for the definition of the above parameters.
#endstop_pin: ^ar19
# If an endstop_pin is defined for the additional stepper then the
# stepper will home until the endstop is triggered. Otherwise, the
# endstop will home until the endstop on the primary stepper for the
# axis is triggered.
# Stepper phase adjusted endstops. The following additional parameters
# may be added to a stepper axis definition to improve the accuracy of
# endstop switches.
#[stepper_z]
#homing_stepper_phases:
# One may set this to the number of phases of the stepper motor
# driver (which is the number of micro-steps multiplied by
# four). This parameter must be provided if using stepper phase
# adjustments.
#homing_endstop_accuracy: 0.200
# Sets the expected accuracy (in mm) of the endstop. This represents
# the maximum error distance the endstop may trigger (eg, if an
# endstop may occasionally trigger 100um early or up to 100um late
# then set this to 0.200 for 200um). The default is
# homing_stepper_phases*step_distance.
#homing_endstop_phase:
# This specifies the phase of the stepper motor driver to expect
# when hitting the endstop. Only set this value if one is sure the
# stepper motor driver is reset every time the mcu is reset. If this
# is not set, then the stepper phase will be detected on the first
# home and that phase will be used on all subsequent homes.
#homing_endstop_align_zero: False
# If true then the code will arrange for the zero position on the
# axis to occur at a full step on the stepper motor. (If used on the
# Z axis and the print layer height is a multiple of a full step
# distance then every layer will occur on a full step.) The default
# is False.