1 tool movements, Path functions, Fk free contour programming – HEIDENHAIN iTNC 530 (340 49x-01) User Manual
Page 178: Miscellaneous functions m, Subprograms and program section repeats, Programming with q parameters, 1 t ool mo v e ments 6.1 tool movements
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6 Programming: Programming Contours
6.1 T
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6.1 Tool Movements
Path functions
A workpiece contour is usually composed of several contour
elements, such as straight lines and circular arcs. With the path
functions, you can program the tool movements for straight lines and
circular arcs.
FK free contour programming
If a production drawing is not dimensioned for NC and the dimensions
given are not sufficient for creating a part program, you can program
the workpiece contour with the FK free contour programming and
have the TNC calculate the missing data.
With FK programming, you also program tool movements for straight
lines and circular arcs.
Miscellaneous functions M
With the TNC’s miscellaneous functions you can affect
Program run, e.g., a program interruption
Machine functions, such as switching spindle rotation and coolant
supply on and off
Contouring behavior of the tool
Subprograms and program section repeats
If a machining sequence occurs several times in a program, you can
save time and reduce the chance of programming errors by entering
the sequence once and then defining it as a subprogram or program
section repeat. If you wish to execute a specific program section only
under certain conditions, you also define this machining sequence as
a subprogram. In addition, you can have a part program call a separate
program for execution.
Programming with subprograms and program section repeats is
described in Chapter 9.
Programming with Q parameters
Instead of programming numerical values in a part program, you enter
markers called Q parameters. You assign the values to the
Q parameters separately with the Q parameter functions. You can use
the Q parameters for programming mathematical functions that
control program execution or describe a contour.
In addition, parametric programming enables you to measure with the
3-D touch probe during program run.
Programming with Q parameters is described in Chapter 10.
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