Helical interpolation, 5 p ath cont ours—p o lar c oor dinat e s – HEIDENHAIN iTNC 530 (34049x-08) ISO programming User Manual

HEIDENHAIN iTNC 530

233

6.5 P

ath cont

ours—P

o

lar

c

oor

dinat

e

s

Helical interpolation

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.
For calculating a helix that is to be cut in an upward direction, you need

the following data:

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.

Y

X

Z

CC

Thread revolutions n Thread revolutions + thread overrun at

thread beginning and end

Total height h

Thread pitch P times thread revolutions n

Incremental total

angle H

Number of revolutions times 360° + angle for

beginning of thread + angle for thread

overrun

Starting coordinate Z Pitch P times (thread revolutions + thread

overrun at start of thread)

Internal thread

Work
direction

Direction of
rotation

Radius
comp.

Right-handed

Left-handed

Z+

Z+

G13
G12

G41
G42

Right-handed

Left-handed

Z–

Z–

G12

G13

G42
G41

External thread

Right-handed

Left-handed

Z+

Z+

G13
G12

G42
G41

Right-handed

Left-handed

Z–

Z–

G12

G13

G41
G42