Programmer V5 EN
This is a multi-channel programming system for turning / milling machines with 3D machine room simulation. ● You create NC programs on the basis of an NC editor with machine macros and an integrated 2.5D CAD / CAM system. ● Templates are stored for different types of processing (bar / chuck ...). ● Program structures are generated automatically. ● The 3D machine space simulation shows the real machining process simultaneously. ● The actual implementation of the NC program is simulated. ● In the event of a collision, the relevant machine components and the associated NC blocks are displayed. What are the extensions of the V5.1 programmer? ● Project history and additional windows for further machine conditions ● Main and subprogram names are displayed in the simulation ● 3D blank (prismatic, rotationally symmetrical) is to be read in the STL format into the simulation ● The current workpiece is to be generated from the simulation as a 3D blank in the STL format ● Gaps can be measured in three dimensions ● NC block run times can be displayed as an EXCEL table
This is a multi-channel programming system for turning / milling machines with 3D machine room simulation.
● You create NC programs on the basis of an NC editor with machine macros and an integrated 2.5D CAD / CAM system.
● Templates are stored for different types of processing (bar / chuck ...).
● Program structures are generated automatically.
● The 3D machine space simulation shows the real machining process simultaneously.
● The actual implementation of the NC program is simulated.
● In the event of a collision, the relevant machine components and the associated NC blocks are displayed.
What are the extensions of the V5.1 programmer?
● Project history and additional windows for further machine conditions
● Main and subprogram names are displayed in the simulation
● 3D blank (prismatic, rotationally symmetrical) is to be read in the STL format into the simulation
● The current workpiece is to be generated from the simulation as a 3D blank in the STL format
● Gaps can be measured in three dimensions
● NC block run times can be displayed as an EXCEL table
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
9 | G codes
Memo
G95 Disables G96 internally, i.e. G95 corresponds to G95 G97.
G96
Enables G95 internally and then may apply the feedrate value in mm/
min.
G153 The reference point in channel 1 (milling spindle) is the centre of rotation
of the B axis and that in channel 2 (disc-type turret) is the tool
mounting.
GOTOB Jump is omitted if the specified label does not exist. A distinction
between jump in forward and backward direction is not made, i.e. GO-
TOB and GOTOF can be used both to jump forwards and backwards.
GOTOF See GOTOB
IC()
Incremental programming is supported for axes (X,Y,Z,C,...) but not for
lengths (I,J,K,...) and the axis of counter spindle Z3.
IF
Condition may only contain arithmetical comparisons of numbers and
'normal' variables. Enquiries e.g. about the machine status or system
variables are not possible. The conditional execution is limited to jump
commands.
L
Jump is omitted if the specified subroutine does not exist. The nesting
depth is not controlled. At the moment, parameter transfer is supported
only for standard subroutines from template_twin500.tnc. The
SAVE option and the repeated run of a subroutine when being called
are not supported.
M336 The chuck is unclamped /even with the spindle running). The spindle
is not clamped, i.e. M336 has the same function as M333.
RET Works in the same way as M17.
S
Assignment of the spindle speed to the active spindle only
(see SETMS)
SPCOF Only the current machining spindle can be addressed.
Position control for spindles 1 and 2 (driven tools) has no effect during
simulation.
SPOS Only the current machining spindle can be addressed.
Position control for spindles 1 and 2 (driven tools) has no effect during
simulation.
126
A-D821UK-1_200420