hi folks;
did anyone tried allready this kind of assembly?
I've made just a drawing for a V-Gate rotor as shown in several YouTube-vid's. with some add-on to think about. This kind of thinking I had allready end of the 70'ties, but I gave up, because
- the magnets I had this time was too weak to fool around with.
- not enought money to invest
- too young @ this time ::) (whatever younth are doing....)
partial view of the rotor:
Side-View
(https://overunityarchives.com/proxy.php?request=http%3A%2F%2Fasiacam.homeftp.net%3A8080%2Fou%2FVG_01.jpg&hash=6be30472fbd5c4422f51b90b6af9b9e96ce90b0e)
Top-View
(https://overunityarchives.com/proxy.php?request=http%3A%2F%2Fasiacam.homeftp.net%3A8080%2Fou%2FVG_02.jpg&hash=01a9074ed642d8c50b2af8a41fbdadc5f4983858)
the orange "L-Coils" should generate some electric energy when they will be affected by the statormagnet during the rotation. this energy should by stored in a capacitor like this principe drawing
(https://overunityarchives.com/proxy.php?request=http%3A%2F%2Fasiacam.homeftp.net%3A8080%2Fou%2FVG_03.jpg&hash=917b709d85a81516aa5f11f381c8f2d2c845d705)
as soon the rotor comes close to the sticky point (center of P-Coil), the switch (transistor?) should unload the capacitor trough the P-Coil to generate a opposite magnetic field on the rotor-magnets. hopefully this should "weaken" the sticky-point strength.
my suggestion is to have a thin wire with many windings around the L-Coils and thicker, less windings on the P-Coil.
I've not the equipment and the knowledge to create coils as shown here.
regards mike