1 introduction, 1intr oduction 1.1 introduction – HEIDENHAIN iTNC 530 (34049x-08) Cycle programming User Manual

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Fundamentals / overviews

1.

1

Intr

oduction

1.1 Introduction

Frequently recurring machining cycles that comprise several working

steps are stored in the TNC memory as standard cycles. Coordinate

transformations and several special functions are also available as

cycles.
Most cycles use Q parameters as transfer parameters. Parameters

with specific functions that are required in several cycles always have

the same number: For example, Q200 is always assigned the set-up

clearance, Q202 the plunging depth, etc.

Danger of collision!

Cycles sometimes execute extensive operations. For

safety reasons, you should run a graphical program test

before machining.

If you use indirect parameter assignments in cycles with

numbers greater than 200 (e.g. Q210 = Q1), any change in

the assigned parameter (e.g. Q1) will have no effect after

the cycle definition. Define the cycle parameter (e.g. Q210)

directly in such cases.
If you define a feed-rate parameter for fixed cycles greater

than 200, then instead of entering a numerical value you

can use soft keys to assign the feed rate defined in the
TOOL CALL

block (FAUTO soft key). You can also use the

feed-rate alternatives FMAX (rapid traverse), FZ (feed per

tooth) and FU (feed per rev), depending on the respective

cycle and the function of the feed-rate parameter.
Note that, after a cycle definition, a change of the FAUTO

feed rate has no effect, because internally the TNC

assigns the feed rate from the TOOL CALL block when

processing the cycle definition.
If you want to delete a block that is part of a cycle, the TNC

asks you whether you want to delete the whole cycle.