Pulse Motors (Horizontal) for 1/4" or 8mm Shaft

thingiverse

Pulse motors produce little to no heat on the induction coils when properly wired. That makes pla or abs acceptable as materials for these type of motors/generators to be made from. This motor represents a tool for learning about the radiant spike energy that is produced when you pulse DC through a motor or induction coil. Most everyone is familiar with the work of Nikola Tesla. He experimented with pulsed DC and made claims that it was superior to AC. A more recent genius was John Bedini who made his work/designs free to the world for replicating and experimenting with. He had three patents for his work with pulsed DC energy which included work with pulsed motors. US Patent #6392370 US Patent #6545444 US Patent #6677730 He worked closely with individuals on this forum: http://www.energyscienceforum.com/forum.php which may be a good place to start for learning this technology. There are parts for two variations of this motor here. One is for a quarter inch shaft and the other is for a 8mm shaft. Here is a parts list: 1/4" motor: 1/4" smooth rod obtained from http://www.vxb.com/ 6" should be sufficient. 1/4" X 3/4" X 9/32" bearings to fit in the printed bearing ends found at http://www.vxb.com/ 1/2" X 1/4" X 2" neodymium magnets found at http://www.magnet4less.com/ 6-32 X 1/2"L stainless or brass bolts from Lowes X4 (recommended but not necessary) You can just clamp and glue if you choose. 8mm motor: 8mm smooth rod obtained from http://www.vxb.com/ 8mm X 22mm X 7mm bearings found at any skateboard shop or http://www.vxb.com/ magnets are the same as above 6-32 X 1/2"L stainless or brass bolts from Lowes X4 (recommended but not necessary) You can just clamp and glue if you choose. A good choice for a circuit to start with would be :http://www.teslagenx.com/kits/tx-sg4tub.html?category=kits or http://www.teslagenx.com/kits/tx-sg8.html?category=kits The wire and circuit are your choice. It would be easy to run it as an Air Core Bedini SSG. There are four stator positions on this motor. You can use one or all four. The direction of winding only makes it a push or pull type pulse motor. You can also operate it with a "make and break" point such as a commutator or magnetic reed switch. You may need a 1/4" or 8mm drill bit to clear the way in the rotor for your shaft. Also, sand all sharp edges to reduce the risk of cutting or scraping your magnet wire. The optional drill points on the bottom of the motor braces are for installing an outer shell. A section of 4" diameter PVC from your local big box home improvement store should fit the bill nicely. You'll have to rely on some minor fabrication skills for that. Disclaimer: You build and experiment with these models at your own risks. Catastrophic failure of parts moving at a high rate of speed can damage property, and cause injury or death. 01/24/2017 : I added a drill attachment to help make winding coils easier. You will need three 1.25" long 6-32 bolts and one 6-32 nut. It is made to attach to the end of a leg. You made need to sand sharp edges on the attachment to reduce the risk of cutting your wire. Be patient and don't spin too fast as there is a chance that you could yank your wire apart due to the elongated design. Print Settings Printer Brand: Printrbot Printer: Simple White Rafts: Doesn't Matter Supports: Yes Resolution: .2mm Infill: 20% Notes: 1.2mm walls and 1.2mm top and bottom layers printed in Printrbot Snow White pla at 220 degrees with the ceramic extruder The printer is actually a Printrbot Play.