Programming manual
CNC 8055
CNC 8055i
PROBING
12.
·M· & ·EN· MODELS
SOFT: V02.2X
·329·
PROBE 11. Circular part centering canned cycle.
12.13 PROBE 11. Circular part centering canned cycle.
Cycle that, with a digital probe, minimizes the preparation time of circular part calculating the real
coordinates of the center and of the surface of the part.
(PROBE 11, J, X, Y, Z, K, L, B, D, E, H, F, Q)
Initial conditions
• The probe must properly calibrated in radius and length.
• The probe position before the first probing movement must be as centered as possible in X and Y.
Considerations for the cycle
• After the probing movements, the probe withdraws from the part in G0 before moving to the safety
Z position.
• Depending on the PRBMOD variable, no error is issued in the following cases, even if machine
parameter PROBERR=YES.
When a G75 probing move finishes before the probe has touched part.
When a G76 probing move finishes but the probe is still touching the part.
Parameters
[ X±5.5 ] X coordinate where probing will begin
X coordinate of the probe position where the first probing move will start.
If not programmed, it will assume the current X position of the probe.
[ Y±5.5 ] Y coordinate where probing will begin
Y coordinate of the probe position where the first probing move will start.
If not programmed, it will assume the current Y position of the probe.
[ Z±5.5 ] Z coordinate where probing will begin
Z coordinate of the probe position where the first probing move will start.
If not programmed, it will assume the current Z position of the probe.
[ J5.5 ] Diameter of the circular part.
If not programmed or programmed with a 0 value, it generates the corresponding error message.
[ K1 ] Axis and direction of the first probing movement.
The values are:
•For X+ : 0
• For X- : 1
•For Y+ : 2
• For Y- : 3
If not programmed, it assumes 0.
[ L1 ] It indicates whether the part surface is measured or not
• Value 0: It is not measured
• Value 1: It is measured
• If not programmed, a value of 0 is assumed
[ B5.5 ] Part approaching distance in each probing movement.
If not programmed or programmed as 0, it assumes the approach distance value from the probe
starting position to the part.
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