SU838993A1 - Device for regulating induction electric motor rotational speed - Google Patents

Description

The invention relates to electrical engineering, in particular to an AC electric drive ¹ with pulse speed control and can be used in the electric drive of the welding unit,

The closest in technical essence and the achieved result to the invention is a device for controlling the rotation speed of an induction motor, containing a rectifier, the shoulders of which are assembled from five diodes and one thyristor according to the Larionov circuit, while the input terminals of the rectifier are connected to the terminals of the phase windings of the electric motor, and the output of the rectifier connected to the shunt thyristor [1]. '

The disadvantage of this device is the limited range of speed control of the electric motor.

The purpose of the invention is the expansion of regulation of the speed of rotation of the electric motor.

This goal is achieved by the fact that an optocoupler thyristor with a control circuit consisting of a resistor, an LED, a capacitor and a separation diode is inserted into the device for controlling the rotation speed of the induction motor, the optocoupler thyristor being connected by an anode to the thyristor anode in the rectifier arm and to the cathode of the separation diode, the cathode of the optocoupler thyristor is connected to the cathode of the thyristor in the rectifier arm, one of the terminals of the resistor is connected to the rectifier group and to one of the capacitor plates, second second terminal of the resistor connected to the anode of the LED, the cathode of which is connected to the anode of the diode and the spacer on the other capacitor plate.

The drawing shows a diagram of a device.

The device consists of a rectifier bridge 1, made according to the Larionov circuit on diodes 2-6 and thyristor 7, an optocoupler thyristor 8, the anode and cathode of which are connected respectively to the anode and cathode of the thyristor 7, the shunt thyristor 9 and the control circuit of the optocoupler thyristor 8, consisting from the LED 10, the resistor 11, the capacitor 12 and the separation diode 13. The anode of the group of valves of the rectifier bridge 1 is connected to the cathode of the shunt. Thyristor 9 and the cathode of the separation diode 13, the anode of which is connected to the cathode of the LED 10 and one of clutches capacitor 12, the second plate of which is connected to one terminal of the resistor 11 and the cathode of the rectifier bridge group of valves 1 and the second terminal of the resistor 11 is connected; with the anode of LED 10.,

The device operates as follows.

After applying voltage to the motor windings, current does not flow in them, since the thyristor 9 is closed, so the rotor remains stationary. ' The voltage at the output of the bridge .1 is applied to the control circuit of the optocoupler thyristor 8, which opens under the influence of the control light flux emitted by the LED 10. In this case, the voltage at the output of the rectifier bridge increases. After the control pulse is applied to the thyristor 9, the latter opens and closes the output of the rectifier bridge 1, current flows through the motor windings, and its rotor accelerates. In this case, the voltage at the output of the bridge 1 decreases. To maintain the optocoupler thyristor in the open state, a capacitor 12 is used, which is discharged through a resistor 11 and an LED 10. After the rotor of the electric motor is accelerated to the required rotation speed, its regulation is carried out

838993 4 'by applying control pulses alternately to thyristors 7 and 9.

Claims (1)

(54) An apparatus for controlling ASINHYUNNOGO MOTOR SPEED pas .gruppa valve bridge rectifying unit 1 soellnena with the cathode of the shunt and the cathode 9 .tiristora separating diode 13, whose anode is connected to the cathode of the LED 10, and one of the capacitor plates 12, the second plate of which is connected to one output of the resistor 11 and the cathode valve group of the rectifying bridge 1 ,. and the second terminal of the resistor 11 is connected; with the anode of the led 10. The device operates as follows. After applying voltage to the motor windings, the current does not flow into them, since the thyristor 9 is closed, so the rotor remains stationary: The voltage at the output of the bridge, 1 is applied to the control circuit by an optocoupler thyristor 8j which is opened by a control light beam emitted by the LED 10 At the same time, the voltage at the output of the rectifier bridge increases. After supplying the control pulse to the thyristor 9, the latter opens and closes the output of the rectifying bridge 1, a current begins to flow through the motor windings and its rotor accelerates. In this case, the voltage at the output of bridge 1 decreases. To keep the optocoupler thyristor open, the capacitor 12 is used, which is discharged through resistor 11 and LED 10. After the rotor of the electric motor accelerates to the required rotational speed, it is controlled 4 by applying control pulses alternately to the thyristors 7 and 9. Formula of the Invention A device for controlling the speed of rotation of an asynchronous electric motor, comprising a rectifier whose shoulders are assembled from five diodes and one thyristor according to the Larionov scheme, and the input terminals The rectifier coils are connected to the phase windings of the electric motor, and the rectifier output is connected to a bypass thyristor, characterized in that, in order to expand the range of rotational speed control, an optical thyristor with a control circuit consisting of a resistor, an LED, a capacitor and diode diode, with the opto-thyristor anode connected to the thyristor anode in the rectifier arm and cathode separating diode, the cathode of the Optronic thyristor is connected to the thyristor cathode in the straightener shoulder, one and terminals of the resistor connected to the cathode group "Sing rectifier and one of the plates of the capacitor, the second terminal of the resistor connected to the anode of the LED, the cathode of which is connected to the anode of the diode and the spacer on the other capacitor plate. Sources of information taken into account during the examination 1. Elektrotechnik, Czechoslovakia, Prague, 1978, No. 7, p. -200-203.