In the process of making a test fixture, I decided to add a bore command that works in much the same way as the rdrill (Radial drilling) command. All of the 5/16" counter bores were issued with one command.
This is a part of a magnetic motor design, syncronized directly, this time, with the disks themselves being 2 of the 3 gears. The outside of the disk is 38 teeth designed to interface directly to a stackable 12 tooth pulley, If it works, there will be a video to follow that is proof of concept. This is a public domain project.
http://www.facebo ok.com/groups/151112 751665161/
This is the process for creating the top and bottom pieces of the mult-axis generator. These parts are constant for a 2 shaft version, while the side panels vary in accordance with the number of disks. The documentation for this product can be found at http://www.facebook. com/groups/151112751 665161/
This stage creates spacers and finishes the manufacturing process of the disks that hold the magnets.
All specifications for this design are intentionally published with no secret information such that anyone with the proper skills can make it. See http://www.facebook. com/groups/151112751 665161/ for details.
Manufacturing process for the MAG. This stage drills 13/64" holes to later be tapped 1/4-20. Stainless Steel screws will be used due to magnetic fields.
All specifications for this design are intentionally published with no secret information such that anyone with the proper skills can make it. See http://www.facebook. com/groups/151112751 665161/ for details.
This is the beginning stage of developing a recycling station for the OreTek MicroMill to reform waste polypropylene into a solid. The experiment was a success.
This is an example of contour machining of wood positives for use in thermoforming foot orthotics using a standard 2x12 cut into a 2 foot segment. This is the new perimeter cutout stage, using a 1/4" endmill. It is likely possible to use a 1/4" ball nose endmill for both contour machining and perimeter cutout, but it would be considerably noisier.
Since changing to the new spindle I've been able to make deeper cuts into the plastic. Depth increment (dinc) is now set to 0.1 . Also, now the rpm is controlled by a potentiometer allowing for a 6000-24000 RPM cutting speed. manufacturers spec limits the low end to 100 HZ so the phase inverter is set to 100-400 HZ at 0 to 10 VDC input.
