SU1453568A1 - Multimotor electric drive - Google Patents

Abstract

The invention relates to electrical engineering and can be used in electric drives of general industrial mechanisms requiring mutual redundancy. The purpose of the invention is to simplify the control of the drive. For this purpose, in the circuits of the windings of the relay 44-46, the closure of the contacts 34-36 of the maximum parameter value sensors is entered. Moreover, each relay coil 44-46 can be powered through two of the most possible contacts of sensors controlling the maximum values of the parameters of the mechanisms used. The opening contacts of these relays can be used to disable an industrial mechanism in the event of an emergency. 2 Il.

Description

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The invention relates to electrical engineering and can be used in electric drives of general industrial mechanisms requiring mutual re-transmission.

The purpose of the invention is to simplify the control of the drive.

FIG. An electrical circuit diagram of the power circuits of a multi-motor electric drive is shown; 2 is a circuit diagram of an electric drive control circuit.

The drive (figure 1) contains three asynchronous three-phase electric motors 1-3, three contactor respectively with windings 4-6, power closing contacts 7-9 and the first closing contact 10-12 each, one terminals 7-9 are connected to the pins of the stator windings of the respective electric motor 1-3, and the other pins are connected to the power source, three openings of the contact 13-15, three buttons 16-18 Stop and three buttons 19-21 Start, one output of which is pairwise combined, and each Start button in parallel one of the first closing blocks The contacts are 10-12, respectively, the closure of contacts 22-30, the three sensors of the minimum parameter value with one of the opening contacts 31-33 (Fig.2), the three sensors of the maximum value of the parameter with one of the closing contacts 34-36 each, respectively a switch 37 for three positions with one movable and three fixed contacts, nine relays 38-46 with windings, the first, second and third 38-40 of which with four closing contacts 26, 27,47,48; 25,30,49,50; 28,29,51,52 respectively, each; the fourth, fifth and sixth relays 41-43 - with one of the closing contacts 22-24 each and the seventh, eighth and ninth relay 44-46 - with one of the normally open contacts 13-15, respectively, one output of each of which is connected to another pin of the corresponding button 16-18 Stop, one pin of the first button 16 Stop and button 19 are connected. The start is connected to one pin of the first short circuit, contact 22 of the fourth relay 41, another pin of the closing contact 22 is connected through the first short circuit

pins 25 and 28 of the second and third relays, respectively, are connected to another output of the first Start button 19.

The combined one pins of the second buttons 17 Stop and 20 start buttons are connected to one output of the first closing contact 23 of the fifth relay, the other output of which is connected in parallel through the first closing contact 26 of the first relay and the second closing contact 29 of the third relay to the other of the second button 20 Start , the combined one pins of the third buttons 18 Stop and 21 start buttons are connected to one output of the first 24 contact of the sixth relay, the other output of which is through parallel connected closing contacts 27 and 30 of the first and the second relay is respectively connected to another one of the third Start button 21, one terminals of the second closing block contacts 53-55 of all contactors are integrated and provided with a clip for connecting to a power source, other terminals of the second closing contacts 53-55 through the break contacts 31-33 of the first one , the second and third minimum parameter sensors are connected to the same winding pins of the first, second and third relays 38-40, respectively, the other terminals of which are combined and provided with terminals for connecting to the source chniku power.

One winding pins of the relay 41-43 are connected respectively to the first, second and third fixed contacts of the switch 37, the movable contact of which is connected to the combined other pins of the relay coils 38-40, one terminals of the closing contacts 49 and 51 are connected and connected to one output of the closing contact 34 , one terminals of the closing contacts 47 and 52 are combined and connected to one terminal of the closing contact 35, one terminals of the closing contacts 48 and 50 are combined and connected to one terminal of the closing contact 36, separating the block contacts 5 6-58 of the first second and third contactors, respectively, closing contacts 59- 61 of the fourth, fifth and sixth relays, respectively, one terminal of the opening block contacts 56-58 and one terminal of the closing contact 59-61 are combined and connected to one terminal of the second closing terminal a contact block 53-55 of contactors, other outputs of the opening block contact 56 and the closing contact 59 are combined and connected to another output of the closing contact 34 and to another winding terminal of the fourth relay 41.

The other terminals of the opening blocking contact 57 and the closing contact 60 are combined and connected to another output of the closing contact 35 and to another terminal of the winding of the fifth relay

42, the other terminals of the opening blocking contact 58 and the closure of the contact 61. are interconnected and connected to another side of the closing contact 36 and to another terminal of the winding switch.

43, the other terminals of the third and fourth closure contacts 47 and 48, respectively, are combined and connected to one winding terminal of the seventh relay 44, the other terminals of the closing contacts 49 and 50 are combined and connected to one winding terminal of the eighth relay 45, the other terminals of the closing contacts 51 and 52 are connected and connected to one end of the winding of the ninth relay 46, the other ends of the windings of relay 44-46 are combined and connected to the combined ends of the windings of the relay 38-40, the other end of each of the disconnecting contacts 13-15 is connected to the same phase of the source power supply, the other output of each kiosk 19-21. The start is connected through the winding 4-6 of the corresponding contactor to a different phase of the power source.

Multi-motor drive works as follows.

In the initial state, the switch 37 is in the zero position of the winding 4-6 of all contactors and the windings of all relays 38-46 are de-energized, the electric motors 1-3 are disconnected.

The selection of working (main) electric motors is carried out by pressing buttons 19-21 Start. So, when you press buttons 19 and 20, the Start-up will get power to windings 4 and 5, respectively, of the first and second contactors, which operate, close their power closing contacts 7 and 8, the first 10 and 11, and the second 53 and 54 closing block contacts and open their Open contacts are 56 and 57 respectively. Electric motors I and 2 are connected to the power supply

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and the first and second contactors are self-blocking. Closed contacts 53 and 54 supply power to the windings of the first and second relays 38 and 39, respectively, which operate, which, however, does not affect the operation of the electric drive. The windings, respectively, of the first and second relays 38 and 39 are energized until contacts 31 and 22 are open - the first and second sensors of the minimum parameter value, such as pressure, level, temperature, etc., for example. P.

The opening of the contacts of these sensors occurs when, as a result of the operation of a mechanism (for example, a pump, fan) driven by an electric motor, the values of the parameters monitored by the sensors exceed the set minimum value. After opening the contacts 31

5 and 32 sensors of the minimum value of the winding parameter, respectively, of the first and second relays 38 and 39 are de-energized, and the relays are turned off. The closure of contacts 34 and 35 of the first and second sensors of the maximum value of the parameter occurs when these parameters reach the values corresponding to those set on the sensors. Thereafter, the motor 3 is put into standby mode by setting the switch 37 to the third position. In this case, the winding of the sixth relay 43 along the circuit receives power: a network - a contact 58 - a winding

0 relay 43 - switch contacts

37 - network. The sixth relay operates and closes contacts 61 and 24, self-blocking and preparing the circuit to turn on the third contactor.

When an emergency situation occurs with a mechanism driven by, for example, electric motor 2, the value of the parameter monitored by the sensors decreases, contact 35 of the sensor opens, and when the minimum value of the parameter is reached, the contact 32 of the sensor loops. At the same time, the winding of the second relay 39 is supplied via the circuit: network - contact 54 - contact 32 of the sensor - winding of the relay 39 - network. The second relay operates and closes its contacts 49, 50.25 and 30. The contacts 49.50 and 25 do not affect the operation of the elecro0

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the drive, since open respectively: contact 56 of the first contactor, contact 36 of the sensor n contact 22 of the fourth relay. The contact 30 supplies power to the winding 6 of the third contactor along the circuit: network - contact 15 - button 18, contacts 24 and 30 - winding 6 - network.

The third contactor is activated, it closes its power contacts 9, the first 12 and the second 55 block contacts, and opens its break block contacts 58. The electric motor 3 is connected to the mains and the third contactor is self-blocking. The winding of the third relay AO receives power, which is triggered, which, however, does not affect the operation of the actuator. The power to the winding of the third relay 40 is supplied until contact 33 of the third minimum value sensor is opened, when the monitored value exceeds the set minimum value. After the contact 33 of the sensor is opened, the winding of the third relay 40 is de-energized and the relay is turned off. When the monitored parameter reaches its maximum value, contact 36 of the sensor of the maximum parameter value closes. The winding of the eighth relay 45 along the circuit receives power: network - contact 61 - sensor contact 36 - contact 50 - relay winding 45 - network. The eighth relay operates and opens its contact 14, breaking the power supply circuit of the winding 5 of the second contactor, which disconnects the electric motor 2 from the mains.

In the event of an emergency with a mechanism driven by the electric motor 1, the switching is carried out similarly by means of a pev 38 and a seventh 44 relay. When a running electric motor is disconnected as a result of an overload or short circuit (thermal and maximum relays are not shown), the value of the monitored parameter decreases, and the electric drive operates as described. The rest of the relays serve dp performance of similar switches with other combinations of main and backup electric motors.

Thus, a simplified design of the electric drive is achieved.

(reduction of the number of used relays) due to the appropriate connection of the windings and contacts of the relay and contactors when performing the same operation algorithm.

Claims (1)

Invention Formula Multi-motor electric drive containing three asynchronous electric motors, contactors with coils with two closing contact contacts and power closing contacts, one the pins of which are connected to the pins of the stator windings of the corresponding electric motor, and the other pins are intended to be connected to a three-phase source of power, three each the Stop and Start buttons, one of the outputs of each of which KGs are pairwise combined, the first closing contact of the corresponding contactor is connected in parallel to each Start button, three minimum value sensors a parameter with one opening contact each, three sensors of the maximum value of a parameter with one closing contact each, a switch to three positions with one moving and three fixed contacts, nine relays with windings, the first, second and third of which are each with close contacts, the fourth, fifth and sixth with one contact each, and the seventh, eighth and ninth with one break contact. Each, one output of each of which is connected to another the output of the corresponding Stop button, combined one.; the terminals of the first Stop and Start buttons are connected to one terminal of the first closing contact of the fourth relay, the other terminal which through parallel connected first closing contacts of the second and third relay is connected to another output of the first Start button, the combined one outputs of the second Stop and Start buttons are connected to one output of the first closing contact of the fifth relay, the other output of which is connected through parallel connected first closing contact of the first relay and the second closing contact of the third relay is connected to another output of the second Start button, the combined outputs of the third Stop and Start buttons are connected to one output 7U the first closing contact of the sixth relay, the other output of which is connected through parallel connected second closing contacts of the first and second relays to another output of the third Start button, one output of the second closing contact of all contactors are combined and provided with a terminal dp connected to the power source, the other conclusions of the second closing contact the contact block of the first, second and third contactors is connected via disconnecting contacts of the first, second and third sensors of the minimum parameter value respectively to one By these, the winding pins of the first, second and third relays, respectively, the other terminals of which are combined and provided with a clip for connecting to the power source, one winding pins of the fourth, fifth and sixth relays are connected respectively to the first, second and third fixed contacts of the switch, the movable contact of which is connected to the combined other terminals of the windings of the first, second and third relays, one terminals of the third closing contacts of the second and third relays are combined and connected to one terminal of the closing contact Kta of the first sensor of the maximum value of the parameter, one terminals of the third contact of the contact of the first relay and the fourth contact of the third relay are combined and connected to one output of the closing contact of the second sensor of the maximum value of the parameter, one terminals of the fourth closing contacts of the first and second relay are combined and connected to one output make contact of the third sensor of the maximum value of the parameter, characterized in that, in order to simplify control of the electric drive, each contact is provided with one normally closed auxiliary contact, a fourth, a fifth and sixth switch - a second normally open contact each, some conclusions NC auxiliary contacts of all contactors and one terminal of the second deputies five 0 five 568 eight the four, fifth and sixth relay contacts are combined and connected to the same terminals of the second closing contact of all contactors, other opener contacts of the first contactor and the second closing contact of the fourth relay are combined and connected to another output of the first contact of the maximum sensor parameter and with another winding pin of the fourth relay, the other leads of the disconnecting block contact of the second contactor and the second closing contact of the fifth relay are combined and connected to another output of the closing contact of the second sensor of the maximum value of the parameter and with another output of the winding of the fifth relay, other terminals of the opening contact of the third contactor and the second closing contact of the sixth relay are combined and connected to another output of the closing contact of the third sensor of the maximum value of the parameter and the other end of the winding of the sixth relay; the other conclusions of the third and fourth closing contacts of the first relay are combined and connected to one end of the winding of the seventh relay, The third and fourth terminals of the second relay are combined and connected to one terminal 5 of the winding of the eighth relay, the other terminals of the third and fourth closing contacts of the third relay are combined and connected to one terminal of the winding of the ninth relay, other windings of the seventh, eighth and the ninth relay is combined and connected with the combined winding pins of the first, second and third relays; the other output of each of the opening contacts of the seventh, eighth and ninth relays is designed to be connected to one On the phase of the power source, the other output of each of the Start buttons through the coil of the corresponding contactor is designed to be connected to a different phase of the power source. 0 0 five 0 2U 27 EO Phie.1