2 fundamentals of path functions, Programming tool movements for workpiece machining – HEIDENHAIN TNC 410 ISO Programming User Manual

HEIDENHAIN TNC 410, TNC 426, TNC 430

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6.2 Fundamentals of Path

Functions

Programming tool movements for workpiece
machining

You create a part program by programming the path functions for the
individual contour elements in sequence. You usually do this by
entering the coordinates of the end points of the contour
elements given in the production drawing. The TNC calculates the
actual path of the tool from these coordinates, and from the tool data
and radius compensation.

The TNC moves all axes programmed in a single block simultaneously.

Movement parallel to the machine axes

The program block contains only one coordinate. The TNC thus moves
the tool parallel to the programmed axis.

Depending on the individual machine tool, the part program is
executed by movement of either the tool or the machine table on
which the workpiece is clamped. Nevertheless, you always program
path contours as if the tool moves and the workpiece remains
stationary.

Example:

The tool retains the Y and Z coordinates and moves to the position
X=100 (see figure at upper right).

Movement in the main planes

The program block contains two coordinates. The TNC thus moves the
tool in the programmed plane.

Example:

The tool retains the Z coordinate and moves in the XY plane to the
position X=70, Y=50 (see figure at center right).

Three-dimensional movement

The program block contains three coordinates. The TNC thus moves
the tool in space to the programmed position.

Example:

N50 G00 X+100 *

N50

Block number

G00

Path function "straight line at rapid traverse"

X+100

Coordinate of the end point

N50 G00 X+70 Y+50 *

N50 G01 X+80 Y+0 Z-10 *

X

Y

Z

100

X

Y

Z

70

50

X

Y

Z

80

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