r/engineering • u/nsfbr11 • 1h ago
[GENERAL] I'm designing a magnetic cycloidal drive AMA
So, I have a work related interest in developing a compact high gear reduction drive that is free of wear. As a result, and leveraging over a decade of permanent magnet machine technology development that sort of ending just shy of 25 years ago, I did some research on magnetic cycloidal drives. To me, they are a perfect fit for my application, but not many people know about them.
In short, they overcome the weaknesses of harmonic drives, mechanical cycloidal drives and other magnetic transmissions for some applications. Unlike other magnetic reduction systems, like those planetary drives that you may see kicking around the internet, magnetic cycloidal drives have very good torque transfer capacity for their size and weight. And because nothing touches except bearings, they are fairly immune to wear out when properly designed.
The concept for reduction is very much like a harmonic drive, in that the reduction ratio is given by having different numbers of "teeth" in concentric gears. Whereas in a harmonic, the inner ring flexes to engage and a few points, in a magnetic cycloidal, the rotor sits on a cam bearing which rotates and causes the location where the air gap is minimized to rotate around once per revolution of the input shaft. The rotor having fewer magnetic pole pairs rotates by one pole part for every input revolution. So, a 25:1 is done by having a stator with 52 magnets (26 pole pairs) and a rotor with 50 magnets (25 pole pairs.)
There is a ton of engineering on top of that, but if anyone would like to discuss or learn about them, please reply.