SU1129708A1 - Process for adjusting electric motor by switching motor windings from delta connection to star connection and vice versa - Google Patents

Abstract

THE METHOD OF MANAGING THE ELECTRIC MOTOR BY SWITCHING HIS WINDOWS FROM THE STAR CIRCLE TO THE TRIANGLE CIRCUIT AND BACK, in which the motor phase winding ends of the electric motor are disconnected from the common connection point and connected to the beginning of the motor windings of the drivers and the motor drivers on the electric windings of the motor windings of the electric motor from the common connection point and their connection to the beginning of the phase windings of the drivers and the motor drivers on the motor; current surges, first disconnect the ends of the first winding from the ends of two other windings and connect it to the beginning of the second winding, then disconnect the end of the second from the end of the third winding and connect to the beginning of the third windings, the end of the third winding is connected to the beginning of the first winding and -. light a triangle circuit, and switching from a triangle circuit to a star circuit is started by disconnecting the end of the first winding from the beginning of the second winding, then the end of the second winding is disconnected from the beginning of the third winding U and connected to the end of the first winding, and the end of the third winding is disconnected from the beginning of the first winding and; they are connected to the junction point by the end of the first and second windings, and all switchings are carried out at the moment the current in the windings passes through zero.

Description

111 The invention relates to electrical engineering and can be used to regulate the loading of an electric motor in AC electric drives with a wide range of load variation. There is a known method of controlling an electric motor by switching its windings from the Circuit to the delta and vice versa circuits, in which short-term disconnection of the motor windings from the mains supply is performed and the windings are connected according to a triangle or a star Li. In the known method, the switching of the windings of an electric motor is carried out at arbitrary, with respect to the supply voltage, times which leads to current surges in the supply network. This deficiency is exacerbated by the intermittent nature of the current in the motor windings during switching. The closest to the invention in technical essence and the achieved result is a method of controlling an electric motor by switching its windings from the star to the delta and vice versa schemes, which disconnect the ends of the phase windings of the electric motor from the common connection point and connect them to the beginnings of the adjacent phase windings of the electric motor 2. In the known method, the current in the windings is intermittent, which, in the absence of synchronization of the moment of switching on the windings with the supply voltage, leads to on the appearance of inrush current in the windings and in the power supply network. The purpose of the invention is to reduce inrush currents. This goal is achieved by the method of controlling an electric motor by switching its windings from the star to the delta and vice versa schemes, which disconnect the ends of the phase windings of the electric motor from the common connection point and connect them to the beginnings of the adjacent phase windings of the electric motor, first disconnect the horse the first winding from the ends of two other windings and connecting it to the beginning of the second phase winding, then disconnecting the end of the second winding from the end of the third winding and connecting the third winding to the beginning The third winding is connected to the beginning of the first winding and the delta circuit is received, and the switching from the triangle circuit to the star circuit is started by disconnecting the end of the first winding from the beginning of the second winding, then the end of the second winding is disconnected from the beginning of the third winding and connected to the end of the first winding and the end of the third winding is switched on from the beginning of the first winding and connected to the connection point of the ends of the first and second windings, and all switching is carried out at the time of current transition in the windings through zero. The drawing shows a device that implements this method. The device contains the first and second triacs 1 and 2, some of the conclusions of which are connected to the beginnings of the first and second windings 3 and 4, and the other conclusions are connected by a drive and connected to the end of the third winding 5, the beginning of the windings 3, 4 and 5 are connected to the terminals 6, 7 and 8 for connecting the supply detm to one of the third, fourth, and fifth triacs 9, 10, and 11, the other output of the third triac 9 is connected to the end of the third winding 5, the other output of the fourth triac 10 is connected to the end of the first winding 3, another vs rd of that simistor 11. connected to the end of the second winding 4, control unit 12, one input of which is connected to terminal 13 for connecting the source of the reference signal, three other inputs are connected to terminals 6, 7 and 8 for connecting the power supply network, and the outputs are connected to control electrodes of drivers 1-5, Device works as follows. In the absence of control pulses, the triacs 1, 2 and 9-11 are closed, windings 3-5 are disconnected and the motor is stationary. In stationary mode of operation, the electric motor operates when the windings are connected according to the star circuit, which corresponds to the on state. Triac 1 and 2 are used. To switch the windings 3-5 to the delta circuit, disconnect the triac 1 and turn on the triac 10, thereby disconnecting the end of the first winding 3 from the connection point of the two other windings 4 and 5 and connecting the end

3 11297084

; the first winding 3 to the beginning of the second about-use of the invention allows the coils 4; Then disconnect the triac 2et to ensure the switching of the windings

and include a triac 11, getting the circuit of the motor when passing into

incomplete triangle. Further current through zero value and

include the triac 9 and get the circuit5 to provide continuous excitation

connect triangle. Switch motor, thanks to

From the delta-to-schematic circuit, the inrush current decreases sharply when ne star is produced in the inverse order of the -closures.

Claims (1)

METHOD FOR MANAGING THE ELECTRIC MOTOR BY SWITCHING ITS WINDING FROM THE STAR CIRCUIT TO THE TRIANGLE AND BACK, in which the ends of the phase windings of the electric motor are disconnected from the common connection point and connected to the beginnings of the adjacent phase windings of the electrics inrush current, first disconnect the ends of the first winding from the ends of two other windings and connect it to the beginning of the second winding, then disconnect the end of the second winding from the end of the third winding and connect to the beginning of the third th winding, the end of the third winding is connected to the beginning of the first winding and a triangle circuit is obtained, and the switching from the triangle circuit to the star circuit is started by disconnecting the end of the first winding from the beginning of the second winding, then the end of the second winding is disconnected from the beginning of the third winding I and connected to the end of the first winding ! and the end of the third winding is disconnected from the I beginning of the first winding and _; connect | to the connection point by the end of the first and] second windings, and all switching is carried out at the moment of transition of the current in the windings through a zero value. 80Sh1T> 1 1129708 2