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If I need to draw a schematic please let me know. But I think I can articulate this.
Ok This is a Bedini type of motor. Multiple coil setup. Picture the rotor...Now picture it flattened out. This means our rotor is now long and lets say 3 inches wide. Like a board with magnets properly spaced, recessed down to flush with top of "rotor". Rotor can have some type of mag bearing, rolling bearing, cable suspension, what have you. At one (or both) end of rotor will have connecting rod to a cylindrical flywheel. spin flywheel and "rotor" could oscillate at different frequencies. Going in a back and forth motion with a "stroke" that is determined by the diameter of flywheel.
Can you see it? Kind of like a steam engine piston and flywheel but with magnets and coil acting as piston and cylinder. I do believe that flywheel would have to be big enough to let multiple magnets pass by to build momentum before it switched direction. Not sure what different direction of magnet movement would do to Bedini charging.
If anyone with more mechanical knowledge than me knows if this is a bad idea let me know. But please let me know why so i can learn something. I can post schematic but it will take me till this evening. What will quickly changing driections of magnets in a Bedini circuit do? I guess this would be considered a linear Bedini pulse motor. Like a linear pulse motor but without the limitations of a solenoid and all the benefits of Bedini charging. Right?
Ok This is a Bedini type of motor. Multiple coil setup. Picture the rotor...Now picture it flattened out. This means our rotor is now long and lets say 3 inches wide. Like a board with magnets properly spaced, recessed down to flush with top of "rotor". Rotor can have some type of mag bearing, rolling bearing, cable suspension, what have you. At one (or both) end of rotor will have connecting rod to a cylindrical flywheel. spin flywheel and "rotor" could oscillate at different frequencies. Going in a back and forth motion with a "stroke" that is determined by the diameter of flywheel.
Can you see it? Kind of like a steam engine piston and flywheel but with magnets and coil acting as piston and cylinder. I do believe that flywheel would have to be big enough to let multiple magnets pass by to build momentum before it switched direction. Not sure what different direction of magnet movement would do to Bedini charging.
If anyone with more mechanical knowledge than me knows if this is a bad idea let me know. But please let me know why so i can learn something. I can post schematic but it will take me till this evening. What will quickly changing driections of magnets in a Bedini circuit do? I guess this would be considered a linear Bedini pulse motor. Like a linear pulse motor but without the limitations of a solenoid and all the benefits of Bedini charging. Right?