SU1451795A1 - Two-phase performance protecting device for three-phase motor for cases of power cutout circuit breakage - Google Patents

Abstract

The invention relates to electrical engineering and is intended for use in the supply circuits of three-phase electric motors. The purpose of the invention is to increase reliability by simplifying schema 1 and reducing the operational load on the elements. AT

Description

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In the initial state, the melting insert of the power fuse 1 short-circuits the outputs 13 and 14 of chains 2, 3, 4, which shunt the fuse in each phase of the electric motor. Each circuit, shunt fuse 1, consists of a diode. 5s of resistor 6 and zener diode 7, connected in series between pins 13 and 14 of the chain. With a good fuse 1, there is no current in the shunt circuit, the LED (16, 17, 18) of the corresponding photo thyristor optocoupler, connected to the zener diode 7 of the chain, is de-energized, and the photo thyristor of the optocoupler is locked. The reaction body 11 is in a de-energized state, its contact 12, which is included in the control circuit of the electric motor, is closed, which makes it possible to turn on the electric motor. If any of the fuses 1 fails, a voltage appears between the terminals 13, 14 of the corresponding chain 2, 3, 4, the light-emitting diode is triggered, the photo-thyristor of the optocoupler triggers, which causes the response of the response device 11, the opening of contact 12 and the disconnection of the electric motor, 1 or .

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The invention relates to electrical engineering and is intended for use in the supply circuits of three-phase electric motors.

The purpose of the invention is to increase reliability by simplifying the schema and reducing the operating load on the elements.

The drawing shows a diagram of the device.

The device for protection of a three-phase electric motor against operation on two phases of a right and break of the circuit of the power safety device 1, which is included in the power line of the phase of the electric motor against the network, contains shunting chains 2,

3 and 4 according to the number of monitored fuses 1, each of which is made on a diode 5 j resistor 6 and zener diode 7, thyristors 8, 9 and 10 according to the number of monitored fuses 1 and a reactive body 11 with a break contact 12, then outputs for switching on this contact

B: motor control circuit. Each shunt chain 2, 3 and

4 supplied with a first terminal 13 for connection to a fuse terminal

from the network side and the second terminal 14 for connection to the output of the fuse from the side of the electric motor. The first terminal 13 of each shunt chain .2,3 and 4 is connected to its second terminal 14 via a sequence

but the connected mentioned diode 5, resistor 6 and zener diode 7, connected in opposite to diode 5, the device has an additional diode 15. Thyristors 8, 9 and 10 are made in the form of photothyristor optocouplers, each of which has an LED 16, 17, 17, 18 is turned on in opposite direction to the zener diode 7 of the corresponding shunt chain 2, 3 and 4, and the first output of the thyristor B, 9 and 10 is connected to the first terminal 13 of the same shunt. chains 2, 3 and 4. The second pins of thyristors 8, 9 and 10 are interconnected and connected to the first pin of the reacting organ 11 and the first pin of the additional diode 15, the second pins of which are connected to pin 19 to connect to the network zero point. Diodes 5. shunt circuits 2, 3 and 4 and thyristors 8, 9 and 10 are addressed to the first pins of 13 of these chains by the same electrodes. An additional diode 15 is switched on opposite to thyristors 8, 9 and 10. Stabilitrons 7 provide protection of LEDs 16, 17 and 18 against overload when the engine load changes. Diode 15 provides current flow through the response element 11 into the negative half-period of the network voltage due to EMF of electromagnetic induction That increases the reliability of his work. Motor connection

The mains is accessed by contacts 20 of a magnetic starter included in the control circuit of the motor.

The device works as follows.

In the initial operating state, the fuse insert of an operable fuse 1 short-circuits the pins 13 and 14 of chains 2, 3 and 4 in each phase of the electric motor. The photo thyristors 8, 9 and 10 are closed and the winding 11 of the reacting body is de-energized, contact 12 in the motor control circuit is closed, which makes it possible to turn on the electric motor.

Failure of any of the fuses 1, for example, in phase A when the motor is running, leads to the appearance of voltage between the pins 13 and 14 of the shunting chain 2. As a result, a current flows through the LED 16, the photo thyristor 8 opens, which causes the response of the response organ 11. The contacts 12 opens the power supply circuit of the magnetic starter, which by the power contacts 20 disconnects the motor from the mains. Similarly, the device operates when the fuse fails in phase B and C.

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Rete n i

A device for protection of a three-phase electric motor against operation on two phases in case of an open circuit of a power fuse connected to the power supply line of the electric motor phase, containing shunt circuits according to the number of controlled fuses20

carriers, each of which is performed: on the diode, resistor and Zener diode, thyristors on the number of controlled fuses and reacting organ with an opening contact, having outputs to enable this contact in the motor control circuit, and each shunt Q chain is equipped with a first output to connect to the fuse from the side of the network and the second to connect to the output of the fuse from the motor, 15 and the first output of each shunt chain is connected to its second output after A diode, a resistor and a zener diode connected in opposite to a diode, characterized in that, in order to increase reliability by simplifying the circuit and reducing the operating load on the elements, an additional diode was inserted into the device, 25 thyristors are filled in the form of phototristor optocouplers, each of of which the LED is turned on opposite to the zener diode of the corresponding shunt chain, the first 30 output of the thyristor is connected to the first output of the same shunt chain, the second outputs of the thyristors are connected between oh, they are connected to the first one of the reacting organ and the first one of the additional diode, the second terminals of which are connected to the output for connecting to the zero point of the network, while the diodes of the shunt circuits and the thyristors are turned to the first terminals of these chains with the same electrodes, and the additional diode is turned on counter thyristors.

Claims (1)

Claim A device for protecting a three-phase electric motor from operating in two phases when the power fuse circuit included in the power supply line of the motor phase is cut off from the network, containing shunt circuits in the number of monitored fuses, each of which is made on a diode, resistor and zener diode, thyristors in the number of monitored fuses and responding ^{to an} organ with an NC contact having leads for connecting this contact to the motor control circuit, with each shunt ₁₀ circuit provided with a an output terminal for connecting to the fuse terminal on the mains side and a second terminal for connecting to the fuse terminal on the motor side, ₁₅ and the first terminal of each shunt circuit is connected to its second terminal through a series-connected diode, resistor and zener diode connected to the opposite diode, l u2 ₀ sistent in that, to improve the reliability by simplifying the circuit and reducing the operational load on the elements, the device introduced an additional diode 25 are designed as thyristors fototiristornyh optocoupler , Each of which LED is enabled vstrechnoparallelno respective shunt zener chain, the first output 20 of the thyristor is coupled to a first terminal of the shunt same chain, the second terminals of the thyristors are interconnected and connected to the first. the output of the reacting organ and the first output of the additional diode, the second ³⁵ conclusions of which are connected to the output for connection to the network zero point, while the diodes of the bypass circuits and thyristors are turned to the first conclusions of these chains by the same name electrodes ⁴⁰ , and the additional diode is turned on opposite to the thyristors.