DIY CNC touch probe

diy_cnc_touchprobe

[Dennis] recently invested some money in the Tormach Tooling System for his CNC’d Sieg SX3 mill in order to make his tool changes easier. While the kit allows him to easily account for height offsets while changing tools, he has no quick, reliable means of locating the spindle in relation to his workpiece. Tired of manually finding the edges of his workpiece for each axis, he built himself a DIY touch probe to automate the process.

The theory behind the probe’s operation is pretty simple. In the probe’s housing, three conductive rods are mounted perpendicular to the probe tip. Each rod rests between two metal balls forming a complete circuit. When the probe touches the edge of his milling material, the circuit is broken, sending a signal to his CNC control box.

The probe is comprised of several different parts, milled from either aluminum or black delrin. [Dennis] says that after everything was assembled, the runout on the probe was unacceptable, so he made a few tweaks, and now the runout has been reduced to about 0.00025” – well within acceptable tolerance limits for any work he will be doing.

Be sure to check out his site, as there are plenty more pictures of the probe’s construction, as well as additional video.

In the meantime, continue reading to see a quick video of the finished probe in action.

Comments

  1. Hackerspacer says:

    Awesome!

  2. James says:

    Oh for a CNC machine, if only.

  3. Daley says:

    The timing on this is perfect – it’s right on the heels of the other recent DIY CNC posts, and this particular build is beautiful in its simplicity and effectiveness.

    Well done guys!

  4. Macpod says:

    Looks very professional

  5. FinalTrigger says:

    Very sweet build. Looks great and effective. Great Job!

  6. Gijs (TD-er) says:

    .00025″ or in normal dimensions a little over 6 micron.
    That’s quite impressive.

    I work at a company that makes such (3D) CMM-machines and the accuracy is about 3 um (in 3D) for our machines. (precision or repetition is well under the 1 um)
    But our machines are built using really a lot of granite (for mass), metals which are heated for several hours (to relieve the stress in the metal), calibration room of 20.0 degree (Celcius), very expensive calibration equipment, etc.
    Also the probe-head we’re using costs 1000 euro each.

    And then to see a hack like this which achieves results like this…. I can only say “WOW!!!”

  7. hoore says:

    Just order the parts here and save your time and effort: http://www.pa-international.com.au/index.php?option=com_content&view=article&id=130&Itemid=169
    Unless done for plesure…

  8. John Minasian says:

    Hi ,

    I just built a probe from an article in the “Digital Machinist”, I centered it and did concentrically adjust it. I am using it on my Tormach 1100 , and can’t get it to repeat. How do you tweak your probe to make it repeat? Looks like you made a nice probe and I like the tip you put on.
    Thanks.

    John

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