RU2000109693A - MAGNETIC FLOW AMPLIFIER AND POWER ELECTROTECHNICAL DEVICES ON ITS BASIS - Google Patents

Claims (8)

1. The magnetic flux amplifier in an electrical device, made in the form of an oscillating circuit, consisting of a power supply circuit from an AC source, connected in parallel to the inductance coil circuit with a core and capacitance, and with the formation of a common magnetic receiver / converter of the amplified magnetic flux to provide useful loads on the electrical device, characterized in that the inductor has a transformer type core and they, together with the capacitance, are selected based on tanovlenii a general magnetic circuit of the magnetic induction value, close to the limit of its complete magnetic saturation in a range of loads from no-load to rated power of the electrical device.  2. An alternating current electric heater including an inductor and a heated element that has magnetic coupling with an inductor, characterized in that it contains a core connected to the capacitor in parallel with the inductor, and the inductor, core and capacitance are selected based on the formation of oscillatory circuit in accordance with the conditions of p. 1 and an additional condition - the core has a mechanical break and is mounted in the specified gap with the formation of a magnetic circuit; ent of a material with high magnetic permeability and high ohmic resistance, and, preferably, - with a large area of the magnetic hysteresis loop.  3. A low-current electric drive of direct current, including a direct current source, a direct current motor, connected to the excitation winding to one of the terminals of the current source, connected in a circuit between the electric motor and the other terminal of the current source in parallel with a core diode and inductor, characterized in that it additionally contains a capacitance included in the circuit parallel to the diode and inductor, and the inductor, core and capacitance are selected based on the formation of an oscillatory circuit by them and in accordance with the conditions of claim 1 and the additional condition, the inductance of the core inductance coil is selected in the range from 0.1 to 2 of the motor inductance. 4. Medium-voltage direct current electric drive, including a power supply circuit from a direct current source, a direct current electric motor connected to an excitation winding to one of the power supply circuit terminals, connected to the primary and secondary inductors with a common core connected to the circuit between the electric motor and the other power supply circuit terminal, characterized the fact that on the basis of the primary inductor is formed, with an additional parallel connection of capacitance to it, an oscillatory circuit in accordance with the conditions of paragraph 1 and additional conditions: the secondary inductor is connected to the supply circuit through a diode connected between the secondary inductor and the supply circuit terminal or an unbranched portion of the oscillatory circuit, the ratio of the number of turns of the primary inductor to the number of turns of the secondary inductor is U _k / U _p , where U _k - voltage in the oscillatory circuit, W, U _p - voltage of the current source, W, inductance of the primary inductor with the core selected in the range from 0.1 to 2 inductances of the electric motor. 5. A high-power electric drive, including a direct current power supply circuit, a direct current electric motor connected to an excitation winding to one of the power supply terminals, connected to the primary and secondary inductors with a common core, connected to the circuit between the electric motor and the other power supply terminal, characterized in that on the basis of the primary and secondary inductors, oscillatory circuits are formed, with an additional parallel connection of capacitors to them, in accordance with the conditions of paragraph 1 and additional conditions: parallel to the secondary inductor and capacitance, a diode is included in the circuit, the ratio of the number of turns of the primary inductor to the number of turns of the secondary inductor is U _m / U _p , where u _m is the maximum voltage on the primary inductor at the time of circuit breakdown, U _p - the operating voltage of the diode and capacitor, W, the inductance of the primary inductor with a core is selected in the range from 0.1 to 2 inductances of the electric motor.  6. An electromagnetic alternating current device consisting of an inductor with a core, characterized in that on the basis of the inductor, with an additional parallel connection of capacitance to it, an oscillatory circuit is formed in accordance with the conditions of paragraph 1.  7. A pulse transformer, consisting of a power circuit from a pulse current source, primary and secondary windings with a common core, characterized in that on the basis of the primary coil, with an additional parallel connection of capacitance to it, an oscillatory circuit is formed in accordance with the conditions of paragraph 1 and an additional condition: a diode is connected in series to the output circuit of the secondary coil.  8. An asynchronous electric motor, consisting of a power supply circuit from an alternating current source, a stator with working windings forming parallel oscillatory circuits, and a rotor having magnetic coupling with the stator, characterized in that its oscillatory circuits are formed in accordance with the conditions of Clause 1.