Advanced Search

 
Hey everyone,

I am retrofitting a CNC Plasma Pipe Cutting with 6-axis. XYZABC. I am wondering what Kinematics module to use. I have encountered two types of pipe cutting machines.

1. The pipe is placed in a chuck and rotates the a-axis
2. Plasma torch head navigates around the pipe.

These to me are totally different calculations and I would assume would be handled by the CAM software? Would i just use genhexkins and the rest is just mapping each axis and joint?

What I am trying to understand is who is in control of the machine path, the CAM software or the linuxcnc kins module. 
I want to cut a line in the pipe at point x1=0 a1= 300deg to x2=100 a2=300deg, who calculates that trajectory?
 

I am - for an EMCO Compact-5 CNC Lathe, with 6-position Auto Tool Changer (3 + 3 tools).
I am still setting up the hardware, getting close though.
The 4-quadrant variable speed thyristor DC motor controller is built and tested. I am now working on mounting the box and fitting for the ATC controller. Then it's just the limit, home, and emergency stop switches.
My setup is based around using Probe Basic Lathe... especially being able to make parts using the conversational mode - which for me is a game-changer!

PCW wrote:

Does sound like an EMI issue.

Have you tried debouncing the limit switch signals?
 ( This can be done with the hal debounce component or with some
hardware, a hal parameter )

This seems the most likely problem and a simple solution. I did go through your Hal and ini files shared earlier and could not see anything obvious wrong.

I probably wouldn't add a max limit signal if I was sharing a single home/limit switch but I don't think that will make any difference. Are you using proximity sensors or switches? normally open or closed? if prox sensors, are they pnp or npn?

See if you can install a wifi dongle on your garage pc and get it on your network. Then you should be able to create a network share of your home folder you can reach from your main PC to configure and share Gcode files

Probably been over 10 years since i last tried Xenomai, and on one PC it was better than RTAI, but on all others (4 or 5 PC's) it was worse regarding latency, and on 2 it did not boot.
Not good memories, but that is all i have.

If those are the same files being called repeatedly, try VCP panel, pretty sure it can run MDI and gcode:
linuxcnc.org/docs/html/gui/pyvcp.html
linuxcnc.org/docs/html/gui/pyvcp-examples.html
in google

Any official ISO, and any official LinuxCNC deb/install has several included sims (simulators) that you can use on any PC, even without installing them, just boot from the USB stick and use for testing (and even run actual machines).

Moved to "driver boards".
I am pretty sure they are perfectly usable, but you should wait for someone with more authority to reply as i have never actually used any of those.
Thank you.

When did you download the ISO?
Can you download it again and give it another try?

RNJFAB wrote:

Couldn't find any spots showing voltage.

Strange, there is always, always some small readings of a few Volts, so i would venture a guess at measuring at the wrong places, although there are no right places, but still, one lead from DVM to electronic/control ground or zero, be it Mesa board and/or power supply "negative" side, the other on grounds on power supply, case if metal, wire shield, etc.
And you will have to find a DVM with memory or use a scope to check the mains voltage when the plasma triggers.

Does sound like an EMI issue.

Have you tried debouncing the limit switch signals?
 ( This can be done with the hal debounce component or with some
hardware, a hal parameter )

I am currently having the same problem. After it telling me what my key was everything else I did much the same as michaeln I kept getting conflict messages, could not examine sources, etc. I am new to this so where and how would I remedy my key issue.and I don't have the Synaptic option that I can find.

It’s been a little over 10 years since I last used LinuxCNC; back then it was for a one‑off prototyping project at work. Now that I’m retired, I’m thinking about getting back into it for some hobby projects.While going through some old boxes, I found some MESA cards I had kept as spares: 5I22, 7I33TA, and 3 × 7I42TA. They were stored properly and should be in good condition. I’m not sure how current this generation of hardware is anymore, and I’m reluctant to start a new build around something that is obsolete. Before I decide what to do with them, I wanted to ask: do these boards still have practical value for anyone running older systems? If so, I’d likely sell them rather than let them sit unused.As for new projects, I’m considering a few possibilities:

• 3‑axis router, for wood and softer materials. Likely steppers, though I may look at servos depending on what I decide for requirements.
• I have a CO₂ Iradion laser + PSU, new in the box. Could be a candidate for a laser cutter/engraver build, or I may just try to sell it if there’s still a market, as my primary interest is the router.
• Guitar pickup winder, something I’ve always wanted to build, and a simple way to get back into LinuxCNC.

Before I dive into researching current LinuxCNC‑based routers, laser systems, or pickup winders (does anyone know of one), I figured I’d ask here first. Any pointers on modern hardware choices, project examples, or insight into whether the MESA boards I have are still useful would be appreciated.

I am.

However, my lathe is not completely finished and I'm finding that I will need to heavily modify PB or switch to another GUI (likely Flex) as my configuration and GUI preferences are pretty specific.