SU813652A1 - Device for reexcitation of hysteresis electric motor - Google Patents

Description

The invention relates to electrical engineering and can be used in a synchronous electric drive with a hysteresis electric motor.

A device for pulsed overexcitation of a hysteresis motor by discharging a capacitor into the phases of the motor [1].

The disadvantage of this device is the difficulty of performing alternating current switches used to match pulsed and main sources.

The closest technical solution to the invention is a device containing an inverter output connected to an electric motor, and a transformer with primary and secondary windings, a capacitor that is connected through a diode to the secondary winding of the transformer, and a discharge key [2].

The disadvantage of this device is the low reliability due to the presence of a diode in series with the inverter power circuit. The decrease in the reliability of the device caused by the presence of a diode is due to the fact that when the above diode fails, the whole device as a whole becomes inoperative. When the power factor is less than 0.53 (and the power factor of the hysteresis motor in different operating modes ranges from 0.2-1), the diode ₅ prevents the recovery of the reactive energy of the inverter-electric motor system into a direct current source, overvoltages occur on the transistors of the inverter, leading to the failure of the latter.

The purpose of the invention is to increase the reliability of the device.

This goal is achieved by the fact that the transformer is equipped with an additional secondary winding, and the primary winding of the transformer is connected in series to the power supply circuit of the inverter, and an additional secondary winding through the discharge key is connected to the capacitor.

The drawing shows a diagram of a device for overexcitation of a hysteresis motor.

The hysteresis motor 1 is connected to the output of the voltage inverter 2. The primary winding 3 of the pulse transformer is connected in series to the power supply circuit of the inverter. Cumulative con

J 3652, the capacitor 4 is connected in series with the discharge key 5. In parallel with the circuit of the capacitor and the discharge key, a second secondary winding 6 of the pulse transformer is connected. The capacitor is shunted in series with a diode 7 and a first secondary winding 8 of a pulse transformer.

The device operates as follows. The ripple current flowing through the inverter’s power supply circuit through the primary j winding of the transformer, transforming into the winding 8, charges the storage capacitor 4. When the discharge switch 5 closes, the energy stored on the capacitor is transformed through the winding 6 into the inverter power circuit in the form of a short pulse ¹ sa, which overexcites the hysteresis motor. Since the pulse repetition frequency is below the frequency overexcitation engine power, then during the pause between pulses in the capacitor ₂ nakap- Lebanon energy quite sufficient for the overexcitation of the motor. The necessary parameters of the overexcitation pulses are provided by the corresponding ratio of the number of turns of the windings 3, 6 and 8 of the pulse transformer and the mode. : bit key operation 5.

When the motor is overexcited, its power factor tends to unity, the inverter load nature approaches the active, current ripple along the circuit. the inverter power is reduced. In this mode, winding 3 connected in series works as a smoothing choke.

The use of a pulse transformer in the proposed device increases the reliability of the electric drive, since the failure of the switching elements does not lead to a complete failure of the electric drive.

Claims (2)

(54) DEVICE TO RELEASE THE HYSTERESIC ELECTRIC MOTOR Sensor 4 is connected in series with the discharge key 5. Parallel to the circuit from the capacitor and the discharge key, the second secondary winding 6 of the pulse transformer is connected. The capacitor is shunted by a series-connected diode 7 and the first secondary winding 8 of a pulse transformer. The device operates as follows. The pulsating current flowing through the inverter supply through the primary winding of the transformer, transforming into winding 8, charges the storage capacitor 4. When the discharge switch 5 closes, the energy stored on the capacitor is transformed through winding 6 into the inverter power circuit in the form of a short impulse that overexcits the hysteresis motor. Since the frequency of the following pulses of over-excitation is lower than the frequency of the power supply of the engine, during the inter-pulse pause time energy is accumulated on the capacitor, it is quite sufficient to over-excite the electric motor. The necessary parameters of the traveling impulse pulses are provided by the appropriate correlation of the number of internal windings 3, 6 and 8 of the pulse transformer and the operating mode of the discharge switch 5. When the motor is overexcited, the power factor of the inverter decreases to one, the current ripple along the inverter power supply decreases. In this mode, successively turned on winding 3 works as a smoothing choke. The use of an impulse transformer in the proposed device increases the reliability of the electric drive, since the output of the switching elements does not lead to a complete failure of the electric drive. Apparatus of the Invention A device for over-excitation of a hysteresis electric motor comprising a transformer with primary and secondary windings, a voltage inverter, an output connected to an electric motor, a capacitor that is connected via a diode to the secondary winding of a transformer, and a dongle that is different in that in order to increase reliability , the transformer is provided with an additional secondary winding, with its primary winding being connected in series to the inverter power supply circuit, and an additional secondary winding sformatora through the discharge switch is connected to the capacitor. Sources of information taken into account in the examination 1. Tarasov VN. Miniaturization of devices for the excitation of hysteresis electric motors. Proceedings of MEI, 1978, vol. 291, p. 72 - 77. 2. USSR author's certificate for application number 1676848, cl. H 02 R 7/36, 1971. / go about ka