SU801211A1 - Device for starting induction squirrel-cage rotor electric motor - Google Patents

Description

The invention relates to electrical engineering and can be used to start an asynchronous motor with a squirrel cage rotor from a network of comparable power when it is operated in conjunction with a consumer sensitive to voltage dips. A device for starting an asynchronous electric motor with a short-throttle-curved rotor from a network of comparable power is known. gon motor times l. The drawback of the device is that the installed power of the auxiliary units is overestimated and voltage failures are observed, due to which the load capacity of the joint mechanisms of other mechanisms is reduced. The circuit of the invention is to reduce the installed power of the power supply network and the accelerating motor by reducing voltage dips. The goal is ensured by the fact that the device for starting an asynchronous motor is equipped with a regulator with two inputs, one of which is connected to the output of the current sensor in the stator circuit of the accelerating electric motor, the other input to the tachogenerator, and the output of the specified regulator of the electromagnetic clutch. The drawing shows a block diagram of a device for starting a portable squirrel-cage electric motor with a short-circuited rotor. The device contains an accelerating motor -1, kinematically connected with an asynchronous motor 2 with a short-circuited rotor through an electromagnetic clutch 3, the winding 4 of which is excited through a regup tor 5 and the current sensor 6 is connected to the starter 7 connected to a tacho generator 8 through an amplifier 9 , an intermediate relay 10 and an automaton 11 connecting the asynchronous electric drive j 2 to the network. The device works as follows. When the accelerating motor 1 is turned on by the starter 7, the regulator 5 and the amplifier 9 simultaneously receive power. During the start of the accelerating motor; w 1 the load current signal of the accelerating motor, acting through the current sensor 6 curtains 5, minimizes the current excitation in the excitation winding 4 of the electromagnetic clutch 3. The electromagnetic clutch 3 is then disconnected, thereby providing easier start-up of the accelerating motor 1. With a decrease in the current in the accelerating electric motor 1 circuit, the action The current from the current sensor 6 to the regulator 5 is attenuated, which means that the transmitted moment from the accelerating motor to the asynchronous motor 2 increases, which will begin to accelerate. The magnitude of the excitation current, and therefore the magnitude of the transmitted moment from the accelerating ectroDBT1Gatel 1 to the asyn chronous electric motor 2, determining the acceleration and the final acceleration rate, is determined by the setpoint of the regulator 5, which is set taking into account the overload capacity of the accelerating electrowig 1. As the asynchronous electric motor goes 2, a signal proportional to the acceleration rate is received from the tachogenerator B to the amplifier 9, where it is compared with the reference setpoint, which determines the maximum speed Acceleration asynchronous motor 2. Upon reaching the induction motor 2 predetermined rotational speed voltage on tachogenerator 8 postupak present on the amplifier 9, ensures actuation 1O intermediate relay, which includes its automatic closing contacts 11, the induction motor when connected to the network. At the same time, the automaton 11 bypasses the contacts of the intermediate relay 1O with its auxiliary closure contacts, thereby eliminating its further influence on the asynchronous motor 2 connected to the network, and breaking off the control circuit of the actuator with auxiliary opening contacts. 7, providing the entire starting circuit. The invention is a device for starting an asynchronous motor with a short-circuited rotor containing a booster ram, kinematically connected to an asynchronous motor through an electromagnetic clutch fitted with a winding wind, a tachogenerator mounted on the asynchronous motor shaft, and a current sensor in a raser circuit. that, in order to reduce the installed network power in the booster motor by reducing voltage dips, the device It is equipped with a regulator with two inputs, one of which is connected to the output of the current sensor, the other to the tachogenerator, and the output of the specified regulator is connected to the excitation winding of the electromagnetic coupling. Sources of information taken into account during the examination 1. Andreev, V.P., et al. Fundamentals of electric drives, M.-Jl., Gosenergoizdat, 1963, p. 652.

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Claims (1)

Claim A device for starting asynchronous electric motor with squirrel cage rotor, comprising a booster motor, kinematically connected to the induction motor through an electromagnetic ^m ufTU / provided with the excitation winding, a tachogenerator, mounted on the shaft of the induction motor, and a current sensor in the stator circuit the booster motor on Whitlock and sistent with the that, in order to reduce the installed power of the network and the accelerating motor by reducing voltage dips, the device is equipped with a regulated ohm with two inputs, one connected to the output of the current sensor, and the other - to the tachogenerator, and the output of said controller is connected to the excitation winding of the electromagnetic clutch.