Helix, Path contours – polar coordinates 6.5 – HEIDENHAIN TNC 320 (34055x-06) ISO programming User Manual

Path contours – Polar coordinates

6.5

6

TNC 320 | User's Manual for DIN/ISO Programming | 5/2013

189

Helix

A helix is a combination of a circular movement in a main plane and
a linear movement perpendicular to this plane. You program the
circular path in a main plane.

A helix is programmed only in polar coordinates.

Application

Large-diameter internal and external threads

Lubrication grooves

Calculating the helix

To program a helix, you must enter the total angle through which
the tool is to move on the helix in incremental dimensions, and the
total height of the helix.

Thread revolutions n:

Thread revolutions + overrun at start and
end of thread

Total height h:

Thread pitch P times thread revolutions
n

Incremental total angle

H: Thread revolutions x 360° + angle for

beginning of thread + angle for thread
overrun

Starting coordinate Z:

Pitch P times (thread revolutions +
thread overrun at start of thread)

Shape of the helix

The table below illustrates in which way the shape of the helix is
determined by the work direction, direction of rotation and radius
compensation.

Internal thread

Work direction

Direction of rotation

Radius compensation

Right-hand
Left-hand

Z+
Z+

G13

G12

G41

G42

Right-hand
Left-hand

Z–
Z–

G12

G13

G42

G41

External thread

Right-hand
Left-hand

Z+
Z+

G13

G12

G42

G41

Right-hand
Left-hand

Z–
Z–

G12

G13

G41

G42