Measuring (touch probe cycle 3), 7 a u to matic w o rk piece measur ement – HEIDENHAIN TNC 320 (340 551-01) User Manual

HEIDENHAIN TNC 320

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13.7 A

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piece Measur

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MEASURING (touch probe cycle 3)

Touch probe cycle 3 measures any position on the workpiece in a
selectable direction. Unlike other measuring cycles, Cycle 3 enables
you to enter the measuring path and feed rate directly. Also, the touch
probe retracts by a definable value after determining the measured
value.

1

The touch probe moves from the current position at the entered
feed rate in the defined probing direction. The probing direction
must be defined in the cycle as a polar angle.

2

After the TNC has saved the position, the touch probe stops. The
TNC saves the X, Y, Z coordinates of the probe-tip center in three
successive Q parameters. You define the number of the first
parameter in the cycle.

3

Finally, the TNC moves the touch probe back by that value against
the probing direction that you defined in the parameter MB.

8

Parameter number for result:

Enter the number of

the Q parameter to which you want the TNC to assign
the first coordinate (X).

8

Probe axis:

Enter the reference axis of the working

plane (X for tool axis Z, Z for tool axis Y, and Y for tool
axis X), and confirm with ENT.

8

Probing angle:

Angle, measured from the probing

axis, at which the touch probe is to move. Confirm
with ENT.

8

Maximum measuring path:

Enter the maximum

distance from the starting point by which the touch
probe may move. Confirm with ENT.

8

Feed rate:

Enter the measuring feed rate in mm/min.

8

Maximum retraction path:

Traverse path in the

direction opposite the probing direction, after the
stylus was deflected.

8

REFERENCE SYSTEM (0=ACT/1=REF):

Specify whether

the result of measurement is to be saved in the actual
coordinate system (ACT), or with respect to the
machine coordinate system (REF).

8

To conclude the input, press the ENT key.

Before programming, note the following:

Enter the maximum retraction path MB to be just large
enough to prevent a collision.

If the TNC could not determine a valid touch point, the
fourth result parameter will have the value –1.

Example: NC blocks

5 TCH PROBE 3.0 MEASURING

6 TCH PROBE 3.1 Q1

7 TCH PROBE 3.2 X ANGLE: +15

8 TCH PROBE
3.3 DIST +10 F100 MB:1 REFERENCE SYSTEM:0