RU2016140604A - WAYS OF WIRELESS POWER TRANSMISSION OF ELECTRIC POWER - Google Patents

Claims (7)

1. The method of wireless transmission of power electricity, which consists in the fact that the energy in the form of ellipsoids having a phase shift and (or) different values of the magnetic strengths linearly emitted by the emitters through two parallel channels at the destination are induced in the receiving conductive plates connected to the load. 2. The method according to p. 1, characterized in that the energy is induced by inductances. 3. The method according to p. 1, characterized in that the conductive plate is electrically connected to a transformer emitter. 4. The method according to p. 1, characterized in that the energy transfer occurs along coaxially located channels, while the conductive plates are isolated from each other and are also located coaxially. 5. A method of creating an ellipsoidal radiation of electric energy, which consists in the fact that two emitting inductances with the same parameters are used with right and left windings connected in parallel, for example, to a rectified pulse voltage, which emit linearly the total energy, which is an ellipsoid under the condition of their coaxial position and changes in the direction of one of the inductances in the opposite direction, while the horizontal axis of the ellipsoids has a length equal to the wavelength of the voltage pulse, and the di The ellipse meter is functionally dependent on the forces caused by the lateral actions of the electric field strength vectors. 6. A method of manufacturing a transformer emitter, which consists in the fact that two magnetic circuits of the emitter are made of an insulated rectangular section (tape) of electrical steel wire, which is wound, for example, clockwise on a conductive pipe, which is one of the plates of the coaxial capacitor, alternately forming one coil of large diameter, which accounts for, for example, two turns of small diameter, after winding one magnetic circuit, is similarly wound counterclockwise in a magnetic circuit, after which the magnetic circuits are connected in parallel to the terminals of the voltage source, after which, depending on the direction of the radiation, one of the magnetic circuits is turned 180 degrees, after which the primary coils of the transformer are wound on the bundles formed by coils of large diameter, while the direction of the magnetic transformer flows must coincide with the direction of the magnetic field strengths formed by winding wires of electrical steel, after which make with a copper wire, the winding of the secondary coils, the load of which is emitting inductances according to paragraph 5 of the formula and the feedback coils connected in series to them, while the magnetic flux formed by the feedback coils must coincide with the main magnetic flux of the transformer. 7. The method according to p. 6, characterized in that the feedback coils are connected in parallel to the secondary windings.