SU788261A1 - Device for redundancy of power supply of three-phase induction motor - Google Patents

Description

The invention relates to instrumentation and is intended to ensure uninterrupted operation of three-phase electric motors when the voltage disappears in one of the phases of the power supply network.

Known devices for protecting three-phase asynchronous motors from the disappearance of voltage in one of the phases of the power supply network, which, when the voltage disappears in one of the phases of the power supply network, when triggered, disconnect the other two phases, thereby protecting the motor from working on two phases [1].

A device is also known that ensures the uninterrupted operation of a three-phase asynchronous electric motor in the event of a voltage failure in one of the phases of the power supply network. In this device, between all three phases of the motor power supply circuit, chains of series-connected capacitors and NC contacts of three current relays connected in different phases are connected [2].

However, the presence of three capacitors increases the size and cost of the device.

The closest in technical essence and the achieved result is a device for protecting a three-phase asynchronous electric motor from the disappearance of voltage in one of the phases of the power supply network, which in the event of a voltage failure in one of the phases of the power supply network ensures uninterrupted operation of the electric motor, putting it into the operation mode of the capacitor motor. The device contains a three-phase network with three inputs, three instantaneous current relays with NC contacts, three circuits consisting of series-connected capacitors and NC contacts, three terminals for connecting a three-phase asynchronous motor.

However, this device is applicable to ensure uninterrupted operation of electric ¹⁵ electric motors with a capacity of not more than 500 watts.

The presence of 3 chains with capacitors included in each phase of the motor for motors with a power of more than 500 W becomes too cumbersome 20 (for transferring a three-phase asynchronous electric motor to the capacitor mode, a capacitor capacity of at least .7 μF per 100 W of electric motor power is required one phase.For 3 phases, three such capacitors are required, which will be microfarads.Therefore, for an electric motor with a power of, for example, 1 kW, a capacitance of 270 microfarads is required, which increases the dimensions, weight and cost of the device Twa.

The purpose of the invention is the reduction of the dimensions, mass and cost of the device.

This goal is achieved by the fact that in the device for redundant power supply of a three-phase asynchronous electric motor, containing three instantaneous current relays installed in phases supplying the electric motor, chains of series-connected disconnecting contacts of current relays connected between all three phases, chains of series-connected pairs of contacts connected in two stars, connected by their rays to the first, second and third phase of the electric motor, while the rays of one of the stars are formed by a reliably connected opening contact of the relay of the first phase and a closing contact of the relay of the second phase, similar contacts of the relays of the second and third, third and first phases, and the rays of the other star are formed in the same way as the corresponding relay contacts of the third and second, first and second, second and third phase, and between the zero points of the stars included electrical capacitance.

The drawing shows a diagram of a device for backup power.

The device contains a three-phase input with three inputs 1, 2 and 3 for connecting the power supply, three instantaneous current relays 4, 5 and 6 with two NC and two NC contacts each (7 - NC relay 4; 8 - NC relay 5; 9 - closing contact of relay 4; 10 - opening contact of relay 6; 11 - opening contact of relay 5; 12 - making contact of relay 6; 13 - making contact of relay 5; 14 - opening contact of relay 4; 15 - opening contact of relay 6; 16 - closing contact of relay 4; 17 - closing contact of relay 6; 18 - opening con relay cycle 5). All contacts are connected in chains: the first chain consists of the opening contact Ί relay 4 and the make contact 8 of the relay 5, the second - from the make contact 11 of the relay 5 and make contact 12 of the relay 6, the third - from make contact 15 of the relay 6 and make contact 16 of the relay 4, the fourth from the make contact 9 of the relay 4 and the make contact 10 of the relay 6, the fifth from the make contact 13 of the relay 5 and the make contact 14 of the relay 4, the sixth from the make contact 17 of the relay 6 and the make contact 18 of the relay 5. First, second and the third chain is connected between oh in one star and connected to three phases. The fourth, fifth, and sixth chains are also connected to another star and connected to the same phases as the first star. Between the zero (common) points of the stars, an electric capacitance 19 is included. Three terminals 20, 21 and 22 are used to connect a three-phase asynchronous motor 23.

The device operates as follows. If there is a voltage applied to the inputs 1, 2 and 3, a current equal to the operating current of the electric motor flows in the windings of the current relays 4, 5 and 6. In this case, the contacts 7-18 are open, and the contacts 8-17 are closed, and the voltage of all three phases is supplied to the terminals 20, 21 and 22.

If the voltage disappears in one of the phases of the power supply, for example, connected to input 1, the current relay 4 is de-energized and instantly trips, closing its contacts 7 and 14, which connect the electric capacitance 19 to terminal 20. In this case, the voltage of the phase connected to input 2, through the winding of the current relay 5 is fed to terminal 21 and through the included contacts 13 and 14 to the capacitance 19, connected by contacts 7 and 8 to terminal 20. From the capacitance, the phase-shifted voltage is supplied to terminal 20. Thus, the motor 23, continuing uninterrupted work y, automatically enters the condenser motor mode.

When a disappeared voltage appears on input 1, the current relay 4 opens its contacts 7 and 14 and disconnects the capacitance 19 from terminal 20, and the motor again operates without interruption in three-phase mode.

In the same way, the proposed device ensures uninterrupted operation of the electric motor when the voltage disappears and in one of the phases of the power supply connected to the inputs 2 and 3 of the device. The connection of the relay contacts in the form of 2 stars will allow the use of one capacity, instead of 3 as in the known device, which will reduce the size, weight and cost of the device.

Claims (2)

1. The patent of the Federal Republic of Germany No. 574860, 21 p 71, 1933. 2. USSR author's certificate number 595824, cl. H 02 H 7/09, 1975.