RU2006142180A - METHOD AND DEVICE FOR ELECTRIC POWER GENERATION AT THE ACCOUNT OF FERROMAGNETIC MAGNETIC FIELD ENERGY - Google Patents

Claims (3)

1. A method of generating electricity due to the magnetic field of ferromagnets is that a magnetizing coil with a magnetic core (steel, ferrite, a magnetodielectric, or a powder of a permanent magnet, or a magnetized rotor, or other magnetic material) - the inductor magnetizes the ferromagnetic volume (volumes) so that part of the magnetic flux of the magnetized ferromagnetic volume is closed outside the inductor winding, which is achieved by the presence of an air or weakly magnetic gap between the inductor and the magnetized ferrom by a magnetic volume or by the structure of a branched magnetic circuit, as a result of which magnetic field energy arises, which is greater than the magnetizing current source’s work, and which can be converted into electricity during demagnetization (disconnection or decay of the electric current) using an additional removable winding on magnetizable ferromagnetic volumes ; This method can be implemented both on pulsed, direct current, and on alternating (including sinusoidal), when removable windings are connected to the load only when it decreases - the decrease in electric current (demagnetization). 2. A device that implements a method of generating electricity due to the energy of the magnetic field of ferromagnets consists of a magnetizing inductor coil with a magnetic core (steel, iron, ferrite, magneto-dielectric, either from powder or particles of a permanent magnet, or from a rotating magnetized rotor), located nearby magnetized ferromagnetic volume (s), separated from the inductor by a non-magnetic or weakly magnetic gap, or forming a branched magnetic circuit, which forms a short circuit with the inductor th or an open magnetic circuit, and removable windings disposed on magnetizable ferromagnetic screen, which are connected to the load only when demagnetized, disconnected or decline of electrical current; the device can be in the form of a central coil with a magnetic core and magnetizable ferromagnetic volumes located around the inductor (optimally in the form of ferromagnetic rods) with removable windings located on them, while during magnetization (establishing current growth), only the inductor is connected to the current source, and removable windings they are connected only during demagnetization (disconnection or recession of current, decrease), this device can operate on either pulse or alternating current. 3. A device that implements a method of generating electricity from the energy of a magnetic field of a ferromagnet in a parametric manner consists of an inductor, a magnetization coil (demagnetization in magnetic circuits with permanent magnetization or magnetization) and a magnetic circuit with a magnetizing magnet or with permanent magnets and a removable winding, the inductor changes the magnetic resistance of the magnetic circuit due to the transverse saturation (or demagnetization) of the portion of the magnetic circuit of a simple or branched magnetic oh chain (parametric magnetization-demagnetization); the main working magnetic flux through a removable winding is closed outside the inductor winding and the current supplying the inductor does not spend work on it, and the total magnetoelastic energy of the system exceeds the work of the current source, since a significant part of the magnetic field energy is closed outside the inductor winding; the device can be performed on either a simple or branched magnetic circuit, the inductor only changes the magnetic resistance of the magnetic circuit or its part (branch).