The Engraving Machine Settings page can only be configured if the Heidenhain Engraving Machine driver is selected from the General page of the plotter machine, or the Engraving Machine type is selected from the General page of the plotter machine together with either Bosch CC100 Laser, Compumotor WaterJet, General Counter, General Laser, Customer driver, MarbaSet driver or BoxPlan Pinsetter driver.
Machine Attributes - Engraving Settings
General Settings
Plunge feedrate
This is a percentage applied to the actual feedrate when the tool is driven into the material.
Conventional milling
The default direction is clockwise. If this option is unselected, then the path will be created counter-clockwise.
Finished edge first
When milling a shape, the default is to mill from the outside to the inside of the shape. If this option is unchecked then shapes will be milled from the inside to the outside.
Output small arcs as lines
By default small arcs are converted to lines before being output. If this option is unchecked then small arcs will always be output as arcs.
Use tangential entry
The tool will be driven into the material gradually, rather than vertically.
Tangential overlap
This is the horizontal distance that the tool will travel when Use tangential entry is selected.
Conversational mode output
The default output mode is ISO. This option switches to conversational mode.
An example of ISO mode output is given below:-
G0 X-0.446 Y+3.889 Z+50 G40 M
Z+0.5 G40 M
G1 X-0.446 Y+0.889 Z-0.533 F100 M
G3 X+0.446 Y+0.889 X+0 Y+0.889 F500 M
An example of conversational mode output is given below:-
L X-0.446 Y+3.889 Z+50 R0 FMAX M
L Z+0.5 R0 FMAX M
L X-0.446 Y+0.889 Z-0.533 F100 M
CC X+0 Y+0.889
C X+0.446 Y+0.889 DR+ F500 M
Link clearance paths
When an area is being milled out, select this option to join each of the closed paths. This will prevent the tool from being raised and lowered between each path.
Linked clearance path
Unlinked clearance path
Crease channel settings
Number of pecks
Select this option to specify how many passes will be made by the tool to get to the bottom of the crease channel. The size of each peck will be calculated automatically.
For example, the Intermediate drawing for one peck might look like this:-
And the generated code might look like this:-
0 BEGIN PGM ENGSTSP2 MM
1 BLK FORM 0.1 Z X0. Y0. Z-1.
2 BLK FORM 0.2 X+3.786 Y+0.186 Z1.
3 TOOL CALL 1 Z S20000
4 L X+0. Y+0. R0 FMAX
5 L Z+50. R0 FMAX M13 ;Rough tool select
6 L X+23.7 Y+51.907 Z+50 R0 FMAX M
7 L Z+0.5 R0 FMAX M
8 L Z-0.4 R0 F40 M
9 L X+27.3 Y+51.907 Z-0.4 R0 F400 M
10 CC X+27.3 Y+52
11 C X+27.3 Y+52.093 DR+ F200 M
12 L X+23.7 Y+52.093 F400 M
13 CC X+23.7 Y+52
14 C X+23.7 Y+51.907 DR+ F200 M
15 L Z+2.5 R0 FMAX M ;Rough tool off
16 L X+0 Y+0 Z+2.5 R0 FMAX M
17 L Z+50. R0 FMAX M
18 L X+0. Y+0. R0 FMAX M ;Rough tool deselect
19 L M30
20 L M2
21 END PGM ENGSTSP2 MM
But the Intermediate drawing for two pecks might be:-
And the code:-
0 BEGIN PGM ENGSTSP2 MM
1 BLK FORM 0.1 Z X0. Y0. Z-1.
2 BLK FORM 0.2 X+3.893 Y+0.293 Z1.
3 TOOL CALL 1 Z S20000
4 L X+0. Y+0. R0 FMAX
5 L Z+50. R0 FMAX M13 ;Rough tool select
6 L X+23.7 Y+51.854 Z+50 R0 FMAX M
7 L Z+0.5 R0 FMAX M
8 L Z-0.2 R0 F40 M
9 L X+27.3 Y+51.854 Z-0.2 R0 F400 M
10 CC X+27.3 Y+52
11 C X+27.3 Y+52.146 DR+ F200 M
12 L X+23.7 Y+52.146 F400 M
13 CC X+23.7 Y+52
14 C X+23.7 Y+51.854 DR+ F200 M
15 L Z+2.5 R0 FMAX M ;Rough tool off
16 L X+23.7 Y+51.907 Z+2.5 R0 FMAX M
17 L Z+0.5 R0 FMAX M
18 L Z-0.4 R0 F40 M
19 L X+27.3 Y+51.907 Z-0.4 R0 F400 M
20 CC X+27.3 Y+52
21 C X+27.3 Y+52.093 DR+ F200 M
22 L X+23.7 Y+52.093 F400 M
23 CC X+23.7 Y+52
24 C X+23.7 Y+51.907 DR+ F200 M
25 L Z+2.5 R0 FMAX M ;Rough tool off
26 L X+0 Y+0 Z+2.5 R0 FMAX M
27 L Z+50. R0 FMAX M
28 L X+0. Y+0. R0 FMAX M ;Rough tool deselect
29 L M30
30 L M2
31 END PGM ENGSTSP2 MM
Size of peck
Select this option to specify the incremental depth of the tool for each pass. The required number of pecks will be calculated automatically.
Optimise for tool changes
If this option is selected, then all required geometry will be output for one tool before moving on to the next tool. Although this is efficient for tool changes it can add a lot of rapid travel to a job.
The alternative method causes each channel to be milled completely, changing tools as necessary, before moving on to the next channel. This cuts down on rapid travel, and is preferable for machines that can change tools quickly.
Finishing (bottom)
A small amount of material can be left at the bottom of each channel, to be removed by a more accurate Finishing tool. This option specifies the amount to be left.
Finishing (sides)
Similarly, a small amount can be left at the sides of the channel.
Add sloped edges
A chamfer can optionally be added to the top of the channels.
- Slope depth
Specify the required depth of the chamfer.
- Slope offset
Specify the width of the chamfer.
- Tool
Specify from the pulldown list which tool to use for the chamfer. This list will only contain tools that have been specified as Sloping Engraving on the Tool Settings page from the Tool type list.
Add sloped edges
Area clearance settings
Number of pecks
Select this option to specify how many passes will be made by the tool to get to the bottom of the area. The size of each peck will be calculated automatically.
Size of peck
Select this option to specify the incremental depth of the tool for each pass. The required number of pecks will be calculated automatically.
Optimise for tool changes
If this option is selected, then all required geometry will be output for one tool before moving on to the next tool. Although this is efficient for tool changes it can add a lot of rapid travel to a job.
The alternative method causes each area to be milled completely, changing tools as necessary, before moving on to the next area. This cuts down on rapid travel, and is preferable for machines that can change tools quickly.
Finishing (bottom)
A small amount of material can be left at the bottom of each area, to be removed by a more accurate Finishing tool. This option specifies the amount to be left.
Finishing (sides)
Similarly, a small amount can be left at the sides of the area.
Add sloped edges
A chamfer can optionally be added to the top of the area.
- Slope depth
Specify the required depth of the chamfer.
- Slope offset
Specify the width of the chamfer.
- Tool
Specify which tool to use for the chamfer.
Location hole settings
Number of pecks
Select this option to specify how many passes will be made by the tool to get to the bottom of the location holes. The size of each peck will be calculated automatically.
Size of peck
Select this option to specify the incremental depth of the tool for each pass. The required number of pecks will be calculated automatically.
Finishing (bottom)
A small amount of material can be left at the bottom of each hole, to be removed by a more accurate Finishing tool. This option specifies the amount to be left.
Finishing (sides)
Similarly, a small amount can be left at the side of the hole.
Tool positions
Low position
This is the height of the tool before it is driven into the material.
High position
This is the height of the tool for tool changes.
Move position
This is the height of the tool for moving.
The code example below shows the three possible z-axis positions as described above:-
0 G90
1 BEGIN PGM ENGSTSP2 MM
2 BLK FORM 0.1 Z X0. Y0. Z-1.
3 BLK FORM 0.2 X+3.786 Y+0.186 Z1.
4 TOOL CALL 1 Z S20000
5 L X+0. Y+0. R0 FMAX
6 L Z+50. R0 FMAX M13 ;High position = 50mm
7 G0 X+23.7 Y+51.907 Z+50 G40 M
8 Z+0.5 G40 M ;Low position = 0.5mm
9 G1 Z-0.4 G40 F40 M
10 G1 X+27.3 Y+51.907 Z-0.4 G40 F400 M
11 G3 X+27.3 Y+52.093 X+27.3 Y+52 F200 M
12 G1 X+23.7 Y+52.093 F400 M
13 G3 X+23.7 Y+51.907 X+23.7 Y+52 F200 M
14 L Z+2.5 R0 FMAX M ;Rough tool off
15 G0 X+0 Y+0 Z+2.5 G40 M ;Move position = 2.5mm
16 L Z+50. R0 FMAX M
17 L X+0. Y+0. R0 FMAX M ;Rough tool deselect
18 L M30
19 L M2
20 END PGM ENGSTSP2 MM