L'Arendsian Toroidal Serpentium Flux Motor - Generator - Concept
first, every detail can be cut in half and printed twice due to symmetry - this way half of the detail is flat for matching the print bed ultra smooth self cooling - lubricating motor generator concept. add any number of outer coil ring stands - add or remove oil or air vacuum pump.
add small balls, rollers or oil internally for ultra smooth internal bearings. remove air partially for a partial vacuum, or higher depending on industry needs vs cost. twisted serpent style magnet holders, forcing rotation by use of electromagnetic charged outer coils. two halves of the magnet holder, together with the supporting core form the rotor. the shapes are made so we can add coils around them easily, added 3 varieties of stands for further experimentation. we can add magnets in different ways, but all the same orientation charging them in 3+ phases might be best. ideally, if the stator was made out of metal, much bigger forces could be held inside.
perhaps the rotation will provide eddy currents in a twisted manner, allowing for super soft and silent turning of the twisted serpent core. tiny holes could be cut out of the stator, like a golf ball has dimples, perhaps stimulating a smoother rotation. experiment, experiment, experiment. different locations on the serpentium core can be programmed with different, sequential magnets, individually labelled, coupled according to the Marko Rodin toroidal number theory.
divide the coils in half or quarters, or 8ths, power half of them to power the motor, or power all of them, to power the motor faster. if you use half of them for powering the motor, the other on top of being stabilizing support, half of coil rings can be used to regenerate electric power, gaining back some power from the flywheel motion that already occurs, or when braking, or after finding its radial equilibrium speed, where the motor uses the least amount of power to still maintain its rotatrional speed. if we really take it a step further, we could add toroidally placed hall sensors perhaps. or encode strips of magnets differently, we could try the inverter magnet setup as well, see if totally free rotation is possible, free from all contact during operation.
many industrial applications can be thought of for this type of motor / generator apparatus, therefor experiment, and most importantly, have fun. the concept was quite some work for me to model out completely, hope someone actually likes it.
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included in the kit are all the parts you see, included the max file for further refinement possibilities, or you can of course model and invent your own serpentine magnetic flux core and magnet holder, including its toroidal track and stands etc. but i dont think i have seen this design nor concept anywhere else before. i used this many magnets for demonstrating purposes only, demonstrating the smoothest motor /generator / rotor assembly possible. more magnets allow for smoother rotations, lesser or smaller magnets in the strip can be used for economic reasons.
