SU1034121A1 - Device for automatic standby of power source of three-phase induction motor - Google Patents

Abstract

DEVICE FOR AUTOMATIC RESERVATION OF THE POWER SOURCE OF A THREE-PHASE ASYNCHRONOUS MOTOR, containing a three-phase on-line relay with closing contact, magnetic starter, the first terminals of which are connected to the network phase terminals, to the zero output. and through the disconnecting contact of the second contactor - the middle point of the star-connected stator windings of the induction motor, the first winding terminal of which through the closing contact CT of the second contactor is connected to the second output of the contact of the Magnetic 1 actuator connected to the output of the G phase of the network / the second output of the coil of the first contactor is connected to the output of the C phase, the first output of the control key is connected to the second output of the coil of the magnetic actuator, the first outputs of the breaker and the first contact the first contactor is connected to the terminals of phases B and C of the network, respectively, and the latter are interconnected, characterized in that, in order to be simplified, and. device design and increase its reliability in working, the second section of the winding of the second contactor at (O is connected to the phase terminal & network through the closing contact of the three-phase relay with the voltage, and the second output of the control key is connected to the junction point of the second contacts of the first contacts g of the second contactor, while the second and third pins of the stator winding are connected to the second pins of the contacts of the magnetic starter connected 00 to the pins of phases A and 8.

Description

The invention relates to the automation of power supply systems and can be applied to automatically reserve the power supply of a three-phase asynchronous motor with a fan load when one of the phases of the supply network is disconnected. A device for automatic backup is known: a three-phase asynchronous motor power source with a fan load, containing a three-phase asynchronous motor, the stator windings of which are connected in a star, an engine speed relay, a three-phase voltage relay, three minimum voltage relays, a magnetic starter the key to turn on his coil, three contacts. Pa, the first terminals of the coils and the breaking contacts of which are connected to the zero terminal of the power source Cl3. A: The shortcomings of the known device are the design complexity and low reliability of operation due to. the presence of a motor speed relay; a minimum voltage relay of twenty seven relay and contactor contacts; The closest to the present invention is a device for automatic backup of a three-phase asynchronous motor source, containing a three-phase asynchronous motor, the stator windings of which are connected in a star, a three-phase voltage relay, a magnetic starter, a key, three contactors, the first terminals of the coils and the first terminals of the first open contacts of which are connected to the zero terminal of the power supply, The same pins of co-contact coils are connected to the mains phases, the second pins of the first opening contacts of the contactors are connected to the midpoint of the stator motor windings, and the second opening contacts of each of the contactors are connected in parallel to the closing contact of the three-phase voltage relay, the second contact of one of the contactors the first pin is connected to the same phase wire of the network as the coil of this contactor, the third break contact of this contactor is connected to the other by the first The second phase of the network, and the second outputs of these Contacts are connected to the first output of the closing contact T1e) of the ex-phase voltage relay 23. The drawbacks of the device are the design complexity and poor performance; reliability of operation due to the presence of a third contactor and seven contactors. The purpose of the invention is to simplify the design and increase the reliability of the device. The goal is achieved by the fact that, in an automatic backup device, a three-phase asynchronous motor power source containing a three-phase voltage relay with a closing contact, a magnetic starter, the first terminals of which are connected to the phase terminals of the network, the first are connected to the zero output of the network. the leads of the magnetic starter coils, the two contactors, and through the disconnecting contact of the second contactor, the middle point of the star-connected stator windings of the induction motor, the first output of the contactor The second terminal of the coil of the first contactor is connected to the phase output from the network, the first terminal of the control key is connected to the second output of the coil of the magnetic starter / first opening and closing contacts of the second contactor through the closing contact of the second contactor connected to the second output of the contact of the magnetic actuator. the first closing contact of the first contactor is connected to the outputs of the phases of the Vis network, respectively, and the second are interconnected, the second output winding of the second contactor is connected to the output of the phases b make contact network through a three-phase voltage relay, the second output control key is connected to the junction of the second pin contacts of the first contactor, the second and third terminals of the stator windings are connected to the second terminal contacts the magnetic actuator connected to the terminals A and 8 phases. The drawing shows a schematic diagram of an apparatus for automatically backing up the power source of a three-phase motor. The device contains an asynchronous motor, the stator winding and 1 of which with leads 2-4 is connected by a star, a three-phase voltage relay 5 with a closing contact b, a magnetic starter with a coil 7, contacts 8 and output terminals 9-11, two contactors with coils 12 and 13 and respectively pins corresponding to them 14-17, control key 18. The first terminals of the magnetic starter coils, the first and second contactors and the first output of the opening contact 17 of the second contactor are connected to the zero output of the network, while the second output of the coil 7 is connected to the second output of the control key 18, the first output of which is connected to the connection point of the second opening contacts 15 and the first closing 14 contacts of the first contactor, the first terminals of which are connected to the mains phases, the second output of the coil 12 of the first contactor is connected to the phase of the network to which its first circuit is connected The first contact 14, for example, to phase G, the second output of the coil 13 of the second contactor through the closing contact 6 of the three-phase voltage relay 5 is connected to the phase of the network / to which the first contact opens the opening contact of the first contactor, for example to the phase B, the second output of the opening contact 17 of the second the contactor is connected to the midpoint of the star of the stator winding 1 of the engine.

The first terminal 4 of the stator winding 1 of the engine is connected to the contact 11 of the magnetic starter via the second closing contact 16 of the first contactor, and the second 2 and third third leads of the stator winding are connected to the second 9 and third 10 terminals of the magnetic starter.

The device works as follows.

When a three-phase voltage is applied to the terminals A, C and C, the three-phase voltage relay 5 and the contactor with the coil 12 are triggered, contacts 6, 14 and 16 are closed and the contact 15 is closed. Contact B closes the second fixture with coil 13 and the last opens contact 17, the middle point of the star is disconnected from the zero output of the network. When the control key 18 is closed, the voltage is applied to the coil 7 of the magnetic starter, the latter closes its contacts 8, and the engine starts.

When the voltage of one of the mains supply phases, for example C, disappears, the three-phase voltage relay 5 opens its contact B. The coil 13 of the second contactor is de-energized and the latter closes its contact 17. In this case, the voltage of phases A and B is applied to two. the phase windings of the engine, since the midpoint of the star of the stator winding of the engine is connected to zero of the power source through the closed contact 17, and the engine continues to operate. Despite the disappearance of the phase C voltage, the magnetic starter with the coil 7 and the first contactor with the coil 12 are not released, as voltage is applied to their coils1 through the closed contacts 8 and 16 induced by the magnetic field in the third phase winding of the motor phase windings from the power supply voltage applied to them.

When the control key 18 is opened, the coil 7 of the magnetic starter is de-energized, the last time it closes its contacts 8 and the engine stops, while the coil 12 of the first contactor is de-energized and it opens the contacts 14 and 16 and. contact 15.

When the control circuit Kjho4a 18 is reclosed, the voltage of the phase B is applied to the coil 7 of the magnetic actuator, it operates and closes the contact 8, while the voltage of phases A and B is applied to the stator winding phases and the motor starts. the first contactor with the coil 12 and the three-phase voltage relay are triggered, contacts 14, 16 and b are closed and contact 15 is opened. With the contact b closed, the second contactor with coil 13 is activated and opens contact 17, i.e. the circuit automatically returns to its original state (which was present in the presence of three-phase mains voltage and the motor starts. working in full phase mode; press.

When the supply voltage fails, the three-phase relay 5 opens the contact b, the second contactor with the coil 13 releases and closes contact 17 connecting the center point of the star stator winding of the motor to the zero output of the power source and the engine continues to work.

In the absence of phase A voltage, the engine is started and stopped by closing and opening the device key 18.

When the voltage of phase A of the network is restored, the three-phase relay 5 of the voltage is activated and closes its contact b, the second contactor operates and opens contact 17, i.e. the circuit returns again. IB initial state, the motor starts to operate in full phase mode. .

Similar switching occurs with the disappearance and restoration of the voltage of phase B of the network.

The proposed device for automatic backup and power supply of a three-phase asynchronous motor with fewer elements per contactor and fewer contacts (nine instead of sixteen in the circuit performs the same functions as the known device.

The device is simpler in construction and reliable in operation.

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Claims (1)

DEVICE FOR AUTOMATIC RESERVATION OF A POWER SUPPLY OF A THREE-PHASE ASYNCHRONOUS MOTOR, containing a three-phase voltage relay with a closing contact, a magnetic starter, the first terminals of which contacts are connected to the phase terminals of the network, the first terminals of the contactors of the second magnetic contact are connected to the zero terminal. the contactor is the midpoint of the stator windings of the induction motor connected by a star, the first output of the winding of which through the make contact of the second about the contactor is connected to the second terminal of the contact of the magnetic <starter connected to the terminal of phase G of the network, the second terminal of the coil of the first contactor is connected to the terminal of phase G of the network, the first terminal of the control key is connected to the second terminal of the coil of the magnetic starter, the first conclusions of the opening and first closing contacts the first contactor is connected to the terminals of phases B and C 'of the network, respectively, and the second are interconnected, with the exception that, in order to simplify the design of the device and increase its reliability in operation, the second when the second terminal of the winding of the second contactor is connected to the terminal of phase B of the network through the make contact of the three-phase voltage relay, and the second terminal of the control key is connected to the connection point of the second terminal of the contacts of the first contactor, while the second and third terminals of the stator winding are connected to the second terminal of the magnetic contacts starter connected to the terminals of phases A and B.