Hi all,
I send (according to my knowledge ? I have not seen it) new idea of permanent magnet rotation motor. Picture and running model in CAD in two versions is in enclosure and also on Youtube. I think it is easy to understand and not so difficult to produce for any workshop. I did not see, why it could not work, but maybe it is some mistake in thoughts. It seems to me all dead points are eliminated by another series of magnets.
Youtube:
http://www.youtube.com/watch?v=kDhWIRbL8tI
http://www.youtube.com/watch?v=ktadxm5miA0
Mirzel
Hi Mirzel,
Nice animation! I think it could work in theory but so far practice has not justified theory with permanent magnet setups... unfortunately.
I attached a picture from one of your videos I grabbed it at a moment when opposite poles are just happen to face each other ( I drew small lines to show where). In this moment of rotation there must be a huge sticky/dead point against rotation and I understand your aim to use 2 more similar arrangements connected to the same shaft to help go through on these dead points but question is how much useful torque remains (if remains) at all? And using stronger and stronger magnets to compensate and increase torque may help (once assuming you have reached self rotatation...) till you reach the best magnets available as the final limit?
Another problem maybe is that stronger magnets have certain volumes and weights and you place them excentrically on the wheels which have supposedly ball bearing shafts so the wear or mechanical load on the bearings can be huge after a certain time.
But all these would not count if your setup is able to run on its own... and the only way to learn about it is to make a prototype. I wish you good luck in this.
rgds, Gyula
@mirzel
I see a big problem. You have them all even in and even out with n to n and the n to s all at the same time, not to mention the 4 times wall.
I do like your approach but first off to have any chance. You are going to have to stagger them out to a 1 3 2 4 firing order and better if there where 6 on each section, but space apart to keep each section of 6 from interrupting the other sets. The other problems I see is allot of friction from moving against each other.
I do find the approach very inventive. Good start.
I hope to be able to show my flutter magnet wheel soon. It use a flutter effect to get past the walls.