HEIDENHAIN TNC 620 User Manual page 462

12
Programming: Multi-Axis Machining
12.6 Three-dimensional tool compensation
12.6 Three-dimensional tool
compensation (option 9)
Introduction
The TNC can carry out a three-dimensional tool compensation (3-
D compensation) for straight-line blocks. Apart from the X, Y and Z
coordinates of the straight-line end point, these blocks must also
contain the components NX, NY and NZ of the surface-normal
vector.
Further Information:
If you want to carry out a tool orientation, these blocks also require
a normalized vector with the components TX, TY and TZ that
determines the tool orientation,
Further Information:
The straight-line end point, the components for the surface normals
as well as those for the tool orientation must be calculated by a
CAM system.
Possible applications
Use of tools with dimensions that do not correspond with the
dimensions calculated by the CAM system (3-D compensation
without definition of the tool orientation).
Face milling: compensation of the cutter geometry in the
direction of the surface-normal vector (3-D compensation with
and without definition of the tool orientation). Cutting is usually
with the end face of the tool.
Peripheral milling: compensation of the cutter radius
perpendicular to the direction of movement and perpendicular to
the tool direction (3D radius compensation with definition of the
tool orientation). Cutting is usually with the lateral surface of the
tool.
462
Definition of a normalized vector, page 463
Definition of a normalized vector, page 463
HEIDENHAIN | TNC 620 | Conversational Programming User's Manual | 10/2015