SU928572A1 - Device for starting and self-starting synchronous electric motor - Google Patents

Description

I

The invention relates to electrical engineering, and more specifically to control circuits of synchronous electric machines, and is intended for starting under load and for self-starting of large synchronous motors having a large load and small input or starting moments, for example, low-speed synchronous motors of piston compressors. A device for starting a synchronous motor, consisting of a starting reactor and switches, is known. The device allows starting the electric motor from a low-voltage network with its gradual increase as the electric motor accelerates to a value close to the nominal value

one.

The disadvantage of this device is that it cannot provide start-up under load and self-start of electric motors, which have a PU with and input moments equal to or lower than the moment of resistance of the mechanism.

about

According to the technical essence, the closest to this invention is a device for starting a synchronous electric motor containing a two-winding power transformer, the first winding of which is used to connect to the motor windings from the neutral side, and the second winding is shorted, the start switch, which input is connected to the power source, and the output to the terminals of the stator winding of the electric motor 15 from the side of the power source, the bypass switch of which is connected to the winding terminals with motor is neutral on the side of the motor, and the output is shorted.

20 The device allows starting the electric motor from undervoltage of the network with its gradual increase as the engine 392 accelerates to a value close to the nominal value G J. The disadvantage of this device is that it does not allow starting under load and self-starting electric motors , the starting and input moments of which are equal to or lower than the moment of resistance of the mechanism. As is well known, the torque developed by an electric motor during start-up decreases in proportion to the square of the voltage applied to its winding. The decrease in voltage occurs due to the flow of the starting current through the elements of the supply network, and the loss of the voltage in them. Therefore, even after the start-up device is shunted, at the end of the start-up of the shunt switch, the voltage on the motor winding is slightly lower than the rated one. As a consequence, it does not provide for starting under load and self-starting of electric motors, the input moments of which are equal to or lower than the moment of resistance of the mechanism. The purpose of the invention is to increase the reliability of start-up by increasing the torque of the electric motor during start-up and self-starting on the stator winding. The goal is achieved by

that in a device for starting and self-starting a synchronous electric motor containing a power two-winding transformer, the first winding of which is connected to the stator winding pins of the electric motor from the neutral side, a start switch whose input is connected to a power source, and the output to the stator winding pins of the electric motor from the power source side , a shunt switch, the input of which is connected to the terminals of the stator winding of the electric motor on the neutral side, and the output is shorted, has also introduced a starting and shunt switches, the inputs of which are connected to the secondary winding of the power transformer, the output of the shunt switch is shorted, and the output of the start switch is connected to the power source.

The drawing shows a diagram of the device for starting and self-starting synchronous motor.

Through the first starting switch 1 of the winding 2 of the stator of the synchronous motor is connected to the power source. The first bypass switch 3 is connected to the windings

again becomes equal to the moment of resistance of the mechanism, turn off the main shunt switch 3 and turn on an additional start switch 7. At the same time, an additional voltage is applied to the stator winding 2 of the electric motor, from the winding C of the power transformer, which increases its torque and ensures synchronization.

After engaging in synchronism, switch 7 is turned off and the shunt switch 3 is turned on, and the electric motor switches to normal operation.

The amount of additional voltage supplied to the stator winding 2 from the side of the power transformer winding is selected so that the total voltage on the stator winding of the electric motor is (1.1-1.2). This provides an increase in the input torque of the electric motor to (1.27 -1, 5) M

Vkhmol

Claims (2)

The total time of switching off the switch 7 and turning on the switch 3 should be within the limits at which the stable operation of the synchronous motor is not disturbed. 4 stator from the neutral side, the first winding of the power two-winding transformer is connected to the stator windings, and the second winding 5 of this transformer is shunted by the switch 6 and is connected to the network through the second start switch 7. The device works as follows. Before starting, the shunt switch 6 is closed, the other switches are open. The start is made by turning on the switch 1, and a reduced voltage is applied to the stator winding 2 of the motor. After the motor is accelerated to the speed at which its moment becomes approximately equal to the moment of resistance of the mechanism, the main shunt switch 3 is turned off and the additional shunt switch 6 is turned off. The power transformer is bridged, the voltage on the stator winding of the synchronous motor increases, the moment it increases increases . its rotational speed. When the subsynchronous speed rotates when the torque of the motor i.e. Q, 2 s. In cases where it is possible to start the electric motor directly from the full voltage of the network, the additional shunt switch 6 may not be installed. In these cases, as in the previous ones, the start of the electric motor is made by turning on the switch 1, but when etrm the switch 3 is closed and 7 is open. After acceleration of the electric motor to a speed at which its moment becomes approximately equal to the moment of resistance of the mechanism, it is turned off switch 3 and turn on switch 7. An increased voltage is applied to the stator winding 2 of the electrode stator, which ensures its retraction and synchronism. After that, turn off the switch 7 and turn on the switch 3, the transfer of the motor to normal operation. , When self-starting, the circuit operates as follows. In normal operation, switches 1 and 3 are closed, 7 are open. When the power supply i (i) disappears, the motor overshoots and its speed decreases. After the power is restored, the self-starting of the electric motor begins, its speed increases to subsynchronous, however, it does not develop enough momentum for synchronization. At this time, switch 7 is turned on, having previously turned off the switch. 3. An increased voltage is applied to the stator winding of the synchronous motor, which ensures that it is synchronized. To go into normal operation, the switch 7 is turned off and the switch 3 is turned on. The presence of the switch 7, through which the winding 5 of the two-winding transformer is connected to a power source, increases the voltage on the stator winding of the blue motor to a value exceeding the nominal value (force stator), which provides an increase in the synchronous torque of the electric motor and increases the reliability of self-starting. Switch 6 starts the motor from undervoltage in the event that this is necessary. It should be noted that it is possible to use a single power transformer for starting several electric motors. The device can be sold on commercially available electrical equipment. Thus, using this device, it is possible to self-launch critical production units with a continuous technological process, for example, reciprocating compressors with low-speed synchronous M1 electric motors, the problem of which self-starting at a certain load (, 7-0.8) is not solved at present. The implementation of self-starting of such units allows to maintain the continuity of technological processes during short-term disappearances and voltage drops in the power supply system, reduces the simple equipment, saves raw materials, and. electricity spent on the restoration of technological processes. The invention is a device for starting and self-starting a synchronous motor, comprising a power two-winding transformer, the primary winding of which is to be connected to the stator winding terminals of the electric motor from the neutral side the stator windings of the motor on the side of the power source, a shunt switch, the input of which is connected to the stator winding terminals of the motor On the neutral side, and the output is short-circuited, characterized in that, in order to increase the reliability of the start-up by increasing the electric motor torque. bodies at start-up and self-start, the second start and shunt switches, whose inputs are connected to the secondary winding of the power transformer, are additionally entered, the output of the shunt switch is shorted, and the output of the second start switch is connected to the power source. Sources of information taken into account during the examination 1. M.S. Slodarzh. Mode of operation, relay protection and automation of synchronous motors. M., Ener1977, - p. 13. 2. Guidelines for the design of electrical industrial installations No. 12, Energie, 1977 .