or only one if you want, depending of the driving software you are using. ( Mach3-CutViewer tools.cbpp and LinuxCNC CutViewer-tools.cbpp). Return to the parent folder, then open the Post folder and copy the two post processor files. This is the tool library containing specific CutViewer definitions. In the Windows form, open the Tools folder and copy the Tools.xml file that is in the archive (previously unzipped). Start CamBam, then go to the Tools/Browse System Folder menu. Two post-processors to transmit the tools information to the driving software one for Mach3 and one for LinuxCNC It will be easy to add new tools by copy/paste the existing tools. One tool library containing end mills, conical and hemispherical tools. As can be seen, these two lines are in brackets, which means that in the Gcode these are comments that the driving software will skip and which will only be used by CutViewer.įor this to work with CutViewer simulation, these two lines must be located just before the Tnn M6. The first line defines the size and profile of the tool, and the second the color it will have during the simulation. What needs CutViewer is a such information in gcode With some changes in the post processor and a bit of work in the CamBam tool library, you can automate the transmission of this information. (or the right data are not passed to the simulator example, the conical tools) The CutViewer simulator allows to manage tool profile that are not managed by CamBam.
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