SU773887A1 - Double power supply machine - Google Patents

Description

The invention relates to electrical engineering, in particular to an alternating current electric drive controlled by a thyristor frequency converter and can be used to drive industrial plants of increased power, for example, ore grinding mills. A device is known that contains an asynchronous machine with a multi-phase coil connected to the mains through a switch and an inductor connected directly to the output of the frequency converter, whose input is connected to the output of the power source of the specified converter, the control unit of the frequency converter, whose input is connected to the regulator of the established mode through the switch, to the second input of which the output of the control unit is connected at the start. However, the known device has an installed power of the frequency converter and its power source is greater than what is required for repairs (engine cooling in established modes and also requires the use of a complex turn-on stator in the form of a switch with a short circuit breaker or several switches. The purpose of the invention is to reduce set power and simplification of equipment. The goal is achieved by the fact that one input of the control unit at start is connected to the output of the frequency converter, and its second input is connected to the output of the source power supply of the specified frequency converter.In addition, the control unit, at start-up, is made in the form of a serially connected signal conditioner, the code of which forms the output of the control unit at start-up, a comparison device, the first input of which forms the input of the control unit at start-up, and The constant input of which forms the second input of the control unit during start.

The drawing shows the scheme usgray sgva.

The machine contains an asynchronous machine 1 with a multi-phase coil (stator and inductor (rotor). Through the power off switch 2 with one closing contact per phase (i.e., normal type), the stator of machine 1 is connected to the supply network frequency converter 3, frequency converter 3 is connected to the output of its power source 4. The valves of converter 3 are turned on by converter control system 5. To the input of system 5, which specifies the phase, switch output 6 is fed. The switch has two inputs connected via a diode The output of the regulator 7 of steady state is connected to the first input of the switch. The inputs of regulator 7 include outputs, for example, tachogenerator 8, current transformers 9 and voltage 10 in the stator circuit of machine 1. To the second input of switch b, the output of control unit 11 is connected at start-up. The first input of the control unit at start-up is connected by circuit 12 to the output of frequency converter 3, and the second to circuit 13 to output of power supply 4.

ABOUT

The control unit 11 at start-up contains a signal shaper 14 connected by an input with an output of the comparison device 15, to one input of which connection 12 is fed, and to the second - connection 13, via an AC-to-DC converter 16.

The proposed device works as follows

In the initial position before starting the machine 1, the switch 2 is turned off, and the converter 3, the source 4 and the control components 5-16 are on. At the moment of switching on switch 2 on the rotor of machine 1, and, accordingly, at the output of converter 3 (which is the same for a deaf connection), a voltage appears that increases to a value that is much higher than the voltage of the output of converter 3 in a steady state. The last voltage in amplitude is equal to the amplitude of the output of source 4. This voltage, through converter 16, is continuously compared in device 15 with the rotor nagging. Both voltages are supplied to devices 15, 16 through circuits 12, 13. When the tension of the rotor (circuit 12) is set modulo more than the source voltage (circuit 13)

The output of element 15 is a signal that is converted by shaper 14 into a rectangular signal, the amplitude of which, passing through the diode cammutator b and suppressing the output of regulator 7, sets the phase of the pulse in system 5 corresponding to the mode of inverter converter 3. Suppressing the regulator signal 7 in the switch 6

This is due to the fact that the highest value of the output signal of the element 7 is less than the signal at the output of the imager 14. And the diode switch only passes the largest of the signals. As a result, the valves of the converter 3 turn on and limit the voltage of the rotor to the value of the voltage of source 4. The current in the rotor circuit is determined by the difference between the induced EMF and the voltage

source 4. The voltage of the rotor begins to increase at the time of the current transition zero, therefore on the rotor rings the current and voltage coincide in phase, which means that the action of the converter 3 is equivalent to the introduction of active resistance. At the same time, the current decreases slightly compared to the start-up when the rotor is shorted, and the moment increases significantly. Machine 1 accelerates to the voltage induced in the rotor from the stator and decreases. The signal of circuit 12 becomes less than the signal of circuit 13, devices 15 and 14 do not give out a signal, and regulator 7 comes into operation. Machine

1 switches to the set par bots mode.

Claims (2)

1. A dual power machine containing an asynchronous machine with a multiphase cortex connected to the mains through a switch and an inductor connected directly to the output of the frequency converter, whose input Connected to the power supply output of the specified converter, a control unit of the frequency converter, the input of which is connected to the regulator of the established mode via a switch, to the second input of which the output of the control unit is connected at start-up, which in order to reduce the installed power and simplify the equipment, One input of the control unit at start-up is connected to the output of the frequency converter, and its second input is connected to the output of the power source of the specified frequency converter. 2. The machine according to claim 1, characterized in that the control unit at start-up is made in a Vnde serially connected signal conditioner, the output of which forms the output of the control unit at start-up, the comparison device, the first input of which forms the input of the control unit at start-up, and the variable converter current to a constant, the input of which forms the second input of the control unit at start-up. Sources of information taken into account in the examination 1. USSR Author's Certificate No. 411597, cl. H 02 R 7/46, 1972. .Tit;