RU2004110891A - METHOD FOR ENERGY ACCUMULATION AND ELECTRODYNAMIC ACCUMULATOR FOR ITS IMPLEMENTATION - Google Patents

Claims (8)

1. The method of energy storage, which consists in rotating an electrically charged object, characterized in that they create a rotating ring of charged particles of the same sign, for example, electrons or protons, and using the magnetic and (or) electric field of a rotating ring of charged particles, hold it in device using either a traveling or changing or constant magnetic and (or) electric field, the source of which is connected to the battery case, acting on the magnetic or electric field of the ring, and for the stored energy and the amount of energy taken off is changed by changing the density, size and speed of rotation of the ring of charged particles, using either a traveling or changing or constant magnetic and (or) electric field, acting on the ring of rotating particles or the parameters of the emission of charged particles in the device . 2. The method of energy storage according to claim 1, characterized in that the rotating ring of charged particles is created in the following way: charged particles are emitted in a sealed chamber, dispersed by electron guns or other accelerators, or otherwise and directed from the outer circumference of the chamber radially or tangentially to the center, and inside the chamber a deflecting magnetic field is created, configured and oriented so that it swirls the charged particles in a spiral or in a circle and keeps the rotating ltso charged particles within the chamber, and the chamber do not create or produce a radial electric field, further accelerating the charged particles and the retaining ring of charged particles inside the chamber. 3. The method of energy storage according to claim 1, characterized in that the amount of energy stored and withdrawn by the battery is changed by changing the speed of rotation of the ring of charged particles, its density and size, which is carried out by changing the intensity of the deflecting magnetic field, the intensity of the radial electric field, speed and the density of the flows of charged particles generated by their sources or accelerators, and the angle of direction of approach of the flows of particles to the rotating ring of charged particles, and change and whether one or more parameters at once. 4. Electrodynamic battery for implementing the method of energy storage according to claim 1, comprising a housing inside which a rotating energy storage device and a sealed cylindrical, conical, ellisoid or other shape chamber are located, characterized in that devices generating flows of charged particles are installed on the outer circumference of the chamber connected to accelerators such as electron guns or other types, directed from the side of the outer circumference of the chamber radially or tangentially to the center, and at the end faces There are permanently fixed either removable deflecting solenoids (coils, electromagnets) and holding focusing solenoids (coils, electromagnets), or combined devices combining deflecting, holding and focusing functions, with a ring electrode installed inside the camera along the circumference of the camera and in the center of the camera a central electrode is installed. 5. The electrodynamic battery according to claim 4, characterized in that the deflecting solenoids (coils, electromagnets) have a cylindrical or conical or other shape, are mounted on the end sides of the chamber above and below and are connected to a power source so that the pole of the magnetic field of the upper solenoid ( coil, electromagnet), facing the ring of charged particles, was opposite to the upper pole of the lower solenoid (coil, electromagnet), also facing the ring of charged particles. 6. The electrodynamic battery according to claim 4, characterized in that the holding and focusing solenoids (coils, electromagnets) are mounted on the upper and lower end surfaces of the chamber opposite the charged particles ring with or without mutual overlap and are connected to a power source so that they the fields directed to the rotating ring of charged particles created a repulsive or attractive force depending on the control signals of the control system, either a traveling or a changing magnetic field. 7. The electrodynamic battery according to claim 4, characterized in that the battery chamber and its solenoids (coils, electromagnets) are surrounded by a ferromagnetic screen made of ferromagnetic metal, ferromagnetic ceramic or ferromagnetic plastic and a biological protective screen that absorbs electromagnetic radiation and other harmful to health radiation. 8. The electrodynamic battery according to claim 4, characterized in that its solenoids (coils, electromagnets) are fully or partially made of superconducting materials and (or) light conductive metals or alloys.