SU746929A1 - Device for controlling the induction electric motor - Google Patents

Description

  .1 - The invention relates to automation and is intended for automatic reversing of an asynchronous motor with contact switches when they are actuated by locking mechanisms. There are known devices for controlling an asynchronous electric motor, which contain two magnetic actuators through the power contacts of which the stator windings of the electric motor are connected to a three-phase network and two control buttons. aggressive gases. The closest technical solution to the present invention is a device for controlling an asynchronous electric motor, comprising two magnetic actuators with auxiliary contacts, the windings of which are connected via switch switches made, for example, on triacs, to the terminals for connection to the network, and the control unit with switches travel switches and control buttons 2. However, the device is characterized by insufficient reliability of operation due to the use of electrocontact sensors in it, which must be vnitelno high switching ability, and NOSTA exhibit low reliability. The aim of the invention is to increase the reliability of operation. The goal is achieved by the fact that the control unit is equipped with a resistor and a transformer, the primary winding of which is connected to the terminals for connection to the mains, one of which is connected to one of the secondary windings of the transformer, the second terminal of which is connected to the control switch through a resistor and a closed contact the electrode of the first triac and

the same output of the transformer is the worm of the resistor, the first control loop with the parallel-connected blocking contacts of the first magnetic nyci catcher and the closing contacts of the first direction switch with the same switch with the control electrode of the second simisg-; torus, the control electrode of the first triac through the connected sequential ramming contacts of the second magnetic starter, the disconnecting contacts of the second control button and the second path switch are connected to the output for connecting to the network to which the control electrode is connected via the disconnecting contacts of the second track switch second triac. .

The drawing shows a schematic diagram of the proposed device.

The circuit contains two magnetic starters 1 and 2, the power contacts of the first (not shown) connect the stator. motor windings to a three-phase network for rotation in forward direction, and the second for rotation in the reverse direction, triacs 3 and 4, through which switch 5 and button 6 winding starters are connected to the network (terminals 7 and 8), control buttons 9 and 10 , intended for switching the motor into operation, the path switches 11 and 12, are made, for example, on the magnetic circuit of the small hermetic switching contacts, the transformer 13 and the resistor 14. The track switches used in the device are a reed switch with ayuschim contact, which remotely operates the end effector mounted on the permanent magnet.

The device works as follows.

Applying supply voltage with switch 5, if the path switches are in the states shown in the drawing, both triacs 3 and 4 are locked, because the control circuit of the triac 3 is bridged by the circuit made up by contacts 1.5, 9 and 11, and on the control electrode of the triac 4 through the closing contacts 10, 12 and 16 current from the secondary winding of the transformer 13 does not flow. When the button 9 is pressed, the shunt junction circuit, the control electrode 4satod of the triac is broken. Through the secondary winding of the transformer 13, the resistor 14 and up746929

the equalizing electrode-cathode of the triac current is flowing, causing it to be unlocked, and the magnetic starter is turned on.

The motor begins to rotate. in the forward direction. By its disconnecting contact 15, the magnetic starter 1 opens the circuit, bypassing the control signal to the triac 3, as a result of which the triac is open

and after closing the button-9.

At the same time, with its opening contact 17, the magnetic starter 1 breaks the power supply circuit of the winding of the magnetic starter 2, at the same time eliminating their activation. When triggered by an actuator driven by an electric motor, the trip switch 12, the triac control circuit 3 de-energizes,

starter 1 is turned off. Its power contacts are opened, and contacts 15 and 17 are closed. Through the closure contacts 12 to the secondary winding of the transformer 13, the control electrode of the triac is connected and the magnetic starter 2 is actuated, turning the motor on by its power contacts for reverse rotation. By contacts of 16 magnetic actuator 2 blocks: -

The path switch 12 and the starter 2 are maintained in the on position and after the switching of the contacts 12. At the same time, the contacts 18 of the starter 2 are opened.

When the trip switch 11 is triggered, the simisgor control circuit 4 is bypassed. Triac 4 is locked and the magnetic starter 2 is turned off, closing its contact 18. The opener

the contact of the directional switch 11 kills the control circuit of the triac 3 and it is unlocked by turning on the magnetic starter 1 through the contacts 18 of the actuator 2.

In the future, the operation of the circuit is repeated. To reduce the current flowing through the unit, pins 18 and 17 can be included in the triac control circuits 3 and 4, as shown in

drawing dotted line 19 and 2O.

Thus, the proposed device for controlling an electric motor is characterized by simplicity, high sensitivity, which both makes it easy to use simple low-current track sensors on heroes, as well as reliable operation when installing path switches in aggressive environments.

Claims (1)

Claim A device for controlling an asynchronous electric motor, containing two magnetic starters, with block contacts, ₅ i windings of which are connected through switches made, for example, on triacs, to the terminals for connecting to the network and a control unit for switches with directional switches and control buttons, o ' t is characterized by the fact that, in order to increase the reliability of operation, the control unit of the circuit breaker is equipped with a resistor and a transformer, the primary winding of which is connected to the terminals for connecting to the network, one of which one output of the secondary winding of the transformer is connected, the second output of which is connected through the resistor and the closed contact of the first track switch 20 to the control electrode of the first triac and the same output of the transformer is through the resistor and the first control button with parallel closing block con: the first magnetic the starter and the closing contacts of the first directional switch is connected to the control electrode of the second triac, and the control electrode of the first triac through connected The separately opening contact blocks of the second magnetic starter, the opening contacts of the second control button and the second directional switch are connected to the output for connecting to the network, to which the control electrode of the second triac is connected through the opening contacts of the second directional switch.