3 datum ridge center (cycle 409, din/iso: g409), Cycle run, Please note while programming – HEIDENHAIN TNC 320 (34055x-06) Cycle programming User Manual

DATUM RIDGE CENTER (Cycle 409, DIN/ISO: G409) 15.3

15

TNC 320 | User's Manual Cycle Programming | 5/2013

289

15.3

DATUM RIDGE CENTER (Cycle 409,
DIN/ISO: G409)

Cycle run

Touch Probe Cycle 409 finds the center of a ridge and defines its
center as datum. If desired, the TNC can also enter the coordinates
into a datum table or the preset table.

1 The TNC positions the touch probe at rapid traverse (value from

FMAX column) following the positioning logic (See "Executing
touch probe cycles", page 259) to the starting point

1

. The TNC

calculates the touch points from the data in the cycle and the
safety clearance from the

SET_UP column of the touch probe

table.

2 Then the touch probe moves to the entered measuring height

and runs the first probing process at the probing feed rate
(column

F

).

3 Then the touch probe moves at clearance height to the next

touch point

2

and probes the second touch point.

4 Finally the TNC returns the touch probe to the clearance height

and processes the determined datum depending on the cycle
parameters Q303 and Q305 (See "Characteristics common to all
touch probe cycles for datum setting", page 284) and saves the
actual values in the Q parameters listed below.

5 If desired, the TNC subsequently measures the datum in the

touch probe axis in a separate probing.

Parameter number

Meaning

Q166

Actual value of measured ridge width

Q157

Actual value of the centerline

Please note while programming:

Danger of collision!

To prevent a collision between touch probe and
workpiece, enter a

high

estimate for the ridge width.

Before a cycle definition you must have programmed
a tool call to define the touch probe axis.

If you set a datum (Q303 = 0) with the touch probe
cycle and also use probe in TS axis (Q381 = 1), then
no coordinate transformation must be active.