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Solar motor with levitating rotor

Little by little a Mondocino motor develops - fascinating!
Author: Klingon77, Germany
Little by little I built a Mendocino motor. What makes it special is its (almost) levitating rotor, which is powered by small solar panels.
The rotor only touches a hard plate axially on one side and levitates otherwise, being carried by permanent magnets.
This is the base body of the rotor, which is made of 2 mm thick transparent polycarbonate.
My 3D CAD made it possible for me to design the pieces shapely and stable. My little CNC milling machine facilitated a speedy fabrication.
The first piece of the rotor is done. Later, the coil wire will be wound into the notches in the corners.
The solar panel is mono-crystalline and has a maximum current of approx. 200 mA at a voltage of approx. 0,5 V.
This translates into a maximum power of approx. 0,1 Watt.
The match shows the small dimensions of the motor.
I milled the pieces a certain way so I could insert the solar panel with little pressure and create a clamp-connection.
Later, the pieces will be glued together for a permanent hold.
Here you can see the completely glued rotor. The axle is made of Plexiglas, because I couldn't find round polycarbonate rods.
I glued a steel sphere (1,2 mm diameter) into the peak (right).
It is hardened and provides a long life expectancy with little wear and tear.
I put two R-10-04-05-N ring magnets on the front and the back of the rotor respectively.
Then I built a mounting for the rotor, also made of polycarbonate. I put another four ring magnets into the depressions of the mounting. The rings in the rotor and the mounting reject each other and keep the rotor levitating.
I used a Q-40-20-05-N block magnet for a stator, which I embedded and glued into a Plexiglas plate.
On this picture you can see the dark wood inlaid work (marquetry) pretty well, which I used for aesthetic reasons.
I embedded a small wooden plate and a tiger's-eye on the side. This semi-precious stone constitutes the counter bearing to the steel sphere of the rotor. That's basically an inlaid work in the inlaid work.
The stone has a Mohs hardness of 6-7. So, it should last for a while when the rotor peak rests on it.
That's how it looks schematically
Here you can see the complete motor with all windings. Only now, when everything was done, did I glue the magnets to the mounting and the rotor.

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