SU1658355A2 - Device for starting asynchronous motor - Google Patents

Abstract

The invention relates to electrical engineering and can be used in electric drives of lifting mechanisms. The aim of the invention is to increase reliability. A device for starting an asynchronous motor 1 with a phase rotor contains a rectifying bridge 2, a choke 3, an inverter 4, a retpsor 10 and a capacitor 9. An additional resistor 17 is connected to the input of the inverter 4, and a relay with a coil 16 is connected to the output of the current sensor 11 through an inertial unit 15 with a limited input voltage. This device allows an unstressed and intensive start of the asynchronous electric motor 1. At the initial start-up time, the device, with automatic selection of backlash and clearances in the gears of the mechanism, starts at the constant moment of the engine. At the same time, the voltage on the power elements of the circuit is markedly reduced, which increases the blockage of the device as a whole. 2 Il. SS (L

Description

The invention relates to electrical engineering and can be used in electric drives of lifting mechanisms.

The aim of the invention is to increase reliability.

FIG. 1 shows a diagram of the device; in fig. 2 - characteristics of the motor.

The device for starting the asynchronous motor 1 contains a three-phase bridge rectifier 2, the input of which is intended for connection to the phases of the rotor winding of the motor. The cathode output of the rectifier 2 through the choke 3 is connected to one output of the inverter 4, made on the thyristors 5-8 in the form of a four-shoulder bridge, the diagonal of which includes

parallel-connected capacitor 9 and resistor 10. The anode output of the three-phase bridge rectifier 2 is connected via a current sensor 11 to another output of inverter 4. The device also contains an inverter thyristor control unit 12. The output of current sensor 11 is connected to one input of comparison element 13, the other input of which is intended to be connected to a reference signal. The output of the comparison element 13 through the closing contact 14 of the relay is connected to the input of the thyristor control unit 12 5-8 of the inverter 4. The output of the current sensor 11 is also connected to the input of the inertial unit 15 with a limited output voltage, the output of the unit 15 is connected to one output terminal of the relay coil 16, another conclusion of which

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ate

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designed to connect to the ground. An additional resistor 17 is connected to the terminals of the inverter 4.

The device works as follows.

After applying voltage to the stator of the asynchronous motor 1 at the first moment, the control voltages from the control unit 12 are not supplied to the thyristors 5-8, since the closing contact 14 of the relay is not yet closed. Therefore, the rectified rotor current flows through the circuit: a rectifying bridge 2, a smoothing choke 3, and an additional resistor 17. The resistance of this resistor 17 is selected so as to obtain characteristic 18 (Fig. 2). According to this characteristic, the electric motor chooses gaps and clearances in the gears of the mechanism. When the rectified rotor current reaches Ij, the voltage at the output of current sensor 11 is sufficient to operate the relay with the coil 16. After the relay operates, it closes its contact 14 and control voltages are applied to the thyristors 5-8. The resistance of the resistor 10 is chosen so that at the minimum switching frequency of the thyristors 5-8 to obtain a characteristic 19 (Fig. 2). Having a characteristic 19, and by applying negative feedback on the rectified motor rotor current, a characteristic 20 can be obtained. Since the resistance of resistor 10 corresponding to characteristic 19 is less than the resistance of resistor 17 corresponding to characteristic 18, the voltage on the power circuit elements will be /, less. Condenser in

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with

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The feedback circuit of the inertial unit 15 serves so that the relay with coil 16 does not operate from the transient current and the initial start time of the electric drive, and the zener diode serves to limit the voltage at the input of the relay when the drive accelerates according to characteristic 20.

Thus, this device allows, automatically selecting the backlash and gaps in the gears of the mechanism, to carry out an unstressed and intensive start of the electric drive without increasing the voltage on the power circuit elements. In this connection, the reliability of the device is increased.

Claims (1)

Invention Formula Device for starting an asynchronous motor St. IP 610279, characterized in that, in order to increase reliability, an additional resistor, a current sensor, a relay with a coil and a closing contact, a reference element and an inertial unit with a limited output voltage, the input of which is connected to the output of the current sensor connected between a rectifier and an inverter, the output of the inertial unit with a limited output voltage is connected to one output of the relay coil, the other output of which is intended to be connected to ground, the output of the current sensor is connected to one input of the element compared and, the other input of which is intended for supplying a driving voltage, and the output through the closing contact of the relay is connected to the inverter control unit, an additional resistor is connected parallel to the inverter. 20 l Fig-z