Abstract

A permanent magnetic force motor. Its stator is composed of permanent magnet cut-in type moving stator units. The moving stator unit cuts in the moving range of a rotor under the action of a driving force P to approach a permanent magnet rotor unit (3). The same polar magnetic fields of two units repulse each other to generate a repulsion F which propels the rotor unit, then the stator unit leaves the range of the rotor to return an original place. This process circulates time after time. F>>P. The driving force P is provided by an external energy source and/or the self-rotation of the rotor. B or/and A1 sections are taken as thrust sections of the rotor unit (3). The kinetic moment M of the rotor is equal to the difference between the summation of thrust moments of every rotor unit (3) and the summation of resistance moments formed by every consume energy so as to propel the rotor to rotate and do work to output energy. The moving stator unit adopts a back-forth stator unit (22), a rotating stator unit (23) and/or a semi-rotating stator unit (24). The permanent magnetic force motor has the advantages of a simple structure, easy manufacturing and low cost.

IPC Classes  ?

• H02N 11/00 - Generators or motors not provided for elsewhereAlleged perpetua mobilia obtained by electric or magnetic means

Abstract

A gravitational motor includes an eccentric rotor and a stator guide rail. The ratio of R2/R1 of the rotor is more than 7. The number (N0) of levers is more than 24. The levers are straight levers (2) or bendable levers (20). The straight levers (2) are fixed levers (3), telescopic levers (4) or movable levers (5). There are or aren't inflections (h and/or s) provided on the upward moving guide rail of the straight levers (2). The bendable levers (20) are half hinged type (21), coil spring type (22) or flat spring type (23). The gravitational motor uses a transient upward moving booster (31) and/or a transient downward moving booster (32 or 32a). The upward moving booster (32 or 32a) can instantaneous act, uses the repulsion of permanent magnets, a chain-hook to pull or raise, or a link-spring to push, and so on. The power source of the boosters is provided by the rotating of the rotor and/or from the outside. The sum of the driving gravitational torques are far more than the sum of the resisting torques, so as to push the rotor to rotate continuously and output energy.

IPC Classes  ?

• F03G 3/00 - Other motors, e.g. gravity or inertia motors
• F03G 3/02 - Other motors, e.g. gravity or inertia motors using wheels with circumferentially-arranged compartments co-operating with solid falling bodies
• F03G 7/10 - Alleged perpetua mobilia

Abstract

A permanent magnetic force motor comprises a rotor and a stator. The rotor or the stator includes at least one permanent magnet unit, and one permanent magnet unit contains one or more permanent magnets. The individual permanent magnet is divided into the face pole piece and the end pole piece according to the ratio of the size of the pole face to the size of the side face. Any two permanent magnets are connected by the lapping, welding, splicing or separating way of the pole face, the side face or the edge of the face pole piece or the end pole piece and the pole face, the side face or the edge of the face pole piece or the end pole piece. The cell magnetic field of one rotor unit is divided into seven regions, in which A region or B region is appointed as a thrust region. Every cell magnetic field is superimposed in the form of vector to form the rotor's magnetic field. The drive torque of the rotor is equal to the difference between the sum of the thrust torque of every region and the sum of every resistance torque, so that the rotor does work to output the energy.

IPC Classes  ?

• H02N 11/00 - Generators or motors not provided for elsewhereAlleged perpetua mobilia obtained by electric or magnetic means