SU1584058A1 - Ac electric drive - Google Patents

Abstract

The invention relates to electrical engineering and can be used in the ore-dressing, petroleum and other industries. The aim of the invention is to increase reliability by protecting the thyristors of the direct frequency converter from overvoltages. To this end, the electric drive is provided with a contactor 10 with power closing contacts 11 for shorting the rotor winding of the induction motor 1 and the auxiliary contact 13 connected to the coil 14 of the stator coil tripping solenoid 14. In the power supply circuit of the direct frequency converter 3, a voltage relay coil 18 is connected, the disconnecting contact 17 of which and the closing contact 16 of the opening solenoid are used to connect the coil 19 of the contactor 10 to the AC source. This allows, in the event of an accident of the control system 5, not to disconnect the engine from the network, but to transfer it to the squirrel-cage mode. Auxiliary contact 13 protects the thyristors of the converter 3 from overvoltages in the event of a network failure. 1 il.

Description

The invention relates to electro ···.

technology and can be applied in mining, oil and other industries.

The chain of the invention is to increase reliability by protecting the thyristors directly of the frequency converter from overvoltage.

The drawing shows a diagram | AC electric drive.

An asynchronous AC electric drive comprises a motor 1 with a phase rotor, the stator winding of which is connected to the network through a switch 2 with one terminal directly. The rotor winding of the motor 1 is connected to one of the outputs directly of the frequency converter 3, the other outputs connected through 2 transformer 4 to the network.

The control input of the converter 3 is connected to the output of the control system 5, built on a vertical principle, the input of which is connected to the 2 output of the automatic excitation controller 6. The inputs of the latter are connected to the outputs of the sensors 7- ^ of the rotor position, stator current, and stator voltage of the induction motor, respectively. · Voltage sensor 9 can be connected to transformer 4.

The electric drive is equipped with a contact, rum 10, power closing contacts. 11 which is connected. Conclusions with the massacre.

torus 12. Instead of a resistor, a short circuit can be installed. The block contact 13 of the contactor 10 is connected between the coil 14 of the disconnect solenoid of the circuit breaker 2 and the make contact 15 of this solenoid, the second make contact 16 of which and the make contact 17 of the relay 18 of the voltage control of the converter are used to connect the coil T9 of the contactor 10 to an AC source.

The electric drive operates by the following shift is determined by the excitation controller 6, which, in accordance with the signals of the sensors 7--9, generates a sinusoidal voltage of the sliding frequency ⁵ , whose amplitude is proportional. amount of slip. Changes in this amplitude reach | twenty times the value. When the slip is close to zero, the rotor current is intermittent in view of the small time constants of the rotor winding for low and medium power machines.

Disconnection is carried out by closing the contacts 15 and 16 of the control key. The coil 19 of the contactor 10 is turned on and the block contact 13 is supplied with voltage to the shutdown solenoid 1.4 of the switch 2.

If the moment of disconnection of the stator circuit occurred at a dead time of converter 3, then, due to the principle of constant flow coupling, there would be a significant increase in voltage on the rotor, which could lead to breakdown of thyristors in the case when contactor 10 is open. When the contactor 10 is closed, a current is induced in the rotor circuit, which preserves the flux linkage of the machine, and the voltage on the rotor does not exceed the nominal voltage.

In the event of a disappearance of the supply voltage of the converter 3 due to co. A short circuit or other reasons, the relay 18 closes the contact 17 and turns on the contactor 10. The motor 1 operates without speed control, and continues to rotate the driven mechanism. The motor does not turn off, ‘- since terminal 15 is open.

The technical and economic efficiency of the invention consists in increasing reliability: a standby mode is provided in case of an accident in the frequency converter and thyristors are protected against overvoltage.

Claims (1)

The claims of the way. When voltage is applied to the turnip drive 18, the voltage control opens the block contact 13, after turning on the switch 2, the motor 1 enters an adjustable mode. The converter 3 changes the excitation voltage when:., The speed changes. This is achieved by the phase shift of the pulses of the control system 5. Value An AC drive containing an asynchronous motor with a phase rotor, a switch for connecting the stator winding of the induction motor to the network, equipped with a trip circuit, a direct frequency converter, one output connected to the phase terminals of the rotor winding of the asynchronous motor 1584058 la, matching transformer for connecting the second terminals of the frequency converter to network, - the control system, the output connected to the control input of the direct frequency converter, and the input to the output at the field controller, rotor position, current and voltage sensors of the stator winding of an induction motor, the outputs of which are connected to the corresponding inputs of the field controller, characterized in that, in order to increase reliability by protecting the thyristors of the direct frequency converter from overvoltage, voltage monitoring relays with a coil connected between the matching transformer and the second terminals of the direct frequency converter and the breaking contact, a contactor with a coil, power ykayuschimi contacts shorting pins phase induction motor rotor winding and auxiliary contact in series to the trip circuit breaker, provided with a closure. contact in parallel with the relay opening contact 15 voltage control, while these contacts are designed to connect the coil of the contactor to the network.