RU2277290C1 - Device for alternate starting of electric-motor group - Google Patents

Abstract

FIELD: electrical engineering for any fields of national economy such as starting heavy-power units in gas and oil industries.

SUBSTANCE: proposed device for alternate starting of electric motor group has sectionalized three-phase supply mains; first three-phase switching apparatuses, first, second, and third inputs of each of them being connected to one of phase leads of respective section of supply mains; three-phase motors, input of first, second, and third stator phase winding leads of each of them being connected, respectively, to first, second, and third outputs of respective first switching apparatus; second three-phase switching apparatuses; third three-phase switching apparatuses, first, second, and third inputs of each of them being connected, respectively, to first, second, and third inputs of respective second three-phase switching apparatus, these apparatuses being connected to outputs of respective first, second, and third phase windings of respective three-phase motor and first, second, and third outputs of every third three-phase switching apparatus being interconnected; three-phase starting bus whose first, second, and third phase leads are connected, respectively, to first, second, and third outputs of every second three-phase switching apparatus; starting current limiter whose first, second, and third inputs are connected, respectively, to first, second, and third phase leads of starting bus.

EFFECT: enlarged functional capabilities and provision for starting heavy-power motors supplied with power from different sections of supply mains.

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Description

The present invention relates to electrical engineering, in particular to devices for starting electric motors, and can be used to start high-power units, in particular electric drive of gas pumping units.

A device for starting and self-starting a synchronous electric motor (A.S. USSR No. 928572, class N 02 P 1/50, BI No. 18, 1982) containing a mains supply, a first starting switching apparatus, the inputs of which are connected to the corresponding phases of the mains a synchronous electric motor, the input leads of the windings of which are connected from the power supply to the outputs of the first starting switching device, the first shunt switching device, which is connected to the stator windings from the neutral side, a power double-winding transformer p, the first winding is connected to the stator windings of the motor by the neutral and the other two winding power transformer winding shunted second shunt switching device and is connected via the second trigger switching device to the mains.

This device for starting and self-starting a synchronous electric motor, as well as the inventive device for alternately starting electric motors of a group, contains a three-phase supply network, a first three-phase switching device, the first, second and third input of which is connected to one of the phases of the supply network, a three-phase electric motor, inputs of the first , the second and third phase stator windings of which are connected respectively to the first, second and third outputs of the first switching apparatus, the second three-phase switching apparatus aty, third three-phase switching devices. However, the absence of a starting bus and a starting current limiter drastically reduces the functionality of the known device, since it does not allow one device to alternately start each group motor.

The closest in technical essence is the primary switching device (P.Z. Ozol. Automation of compressor stations with electric gas pumping units. Leningrad, Nedra, 1981, p.20, Fig. 1.7), containing the mains, the first three-phase switching devices, the first, the second and third input of each of which is connected to one of the phases of the supply network, three-phase electric motors, the outputs of the phase windings of the stator of each of which are interconnected, the second three-phase switching devices, the first, second and third the strokes of each of which are connected respectively to the input of the first, second and third phase stator windings of the corresponding three-phase electric motor and to the first, second and third outputs of the corresponding first switching device, which disconnects the three-phase switching device, the first, second and third input of which is connected to one of the supply phases network, inrush current limiter, made in the form of a three-phase reactor, the first, second and third inputs of which are connected respectively to the first, second and third output am disconnecting a three-phase switching device, a three-phase starting bus, to the first, second and third phase of which the first, second and third outputs of the second three-phase switching devices and the first, second and third outputs of the inrush current limiter are connected.

This primary switching device, as well as the inventive device for alternately starting the electric motors of the group, contains a three-phase supply network, the first three-phase switching devices, the first, second and third input of each of which is connected to one of the phases of the supply network, three-phase motors, the input of the first, second and the third phase stator windings of each of which is connected respectively to the first, second and third output of the corresponding first switching device, the second three-phase switching devices Ata, a three-phase rail launcher, inrush current limiter, the first, second and third inputs connected respectively to the first, second and third phase of the trigger bus and to the first, second and third outputs of the second phase of each switching device. However, the absence of third three-phase switching devices and their connections with other elements of the device limits the scope of the known device, so it cannot be used for alternately starting electric motors powered from different sections of the supply network, the output voltages of which are not equal to each other. So, for example, suppose that the inrush current limiter is powered from the section with voltage U ₁ , and the electric motor is started, powered by the section with voltage U ₂ , then the electric motor current - I _dw when starting the electric motor through the inrush current limiter will be equal to

I _dv = (U ₀ -E _dv ) :( Z _dv + Z _o ),

where E _dv , Z _dv - respectively, electromotive force and impedance of the engine;

Z _o - impedance of the inrush current limiter.

As the acceleration motor its electromotive force is increased and the time of closure acceleration _dd ≈U E _1, whereas when the first switching device for switching the electric motor is powered by its section motor inrush current occurs, the value of which, as follows from the formula

I _dv = (U ₂ -E _dv ): Z _dv ≈ (U ₂ -U ₁ ): Z _dv ,

is determined by the voltage difference of the sections of the supply network, from which the electric motor and the current limiting circuit of the current limiter are fed. In addition, in this case, the voltage U ₁ is connected to the current limiter, and the voltage U ₂ is connected on the other hand, therefore, an equalizing intersection current, I _о, begins to flow through it

I _o = (U ₂ -U _one ): Z _o .

If the inrush current limiter is made controllable in the form of a thyristor voltage regulator, then since it is completely open at the moment of acceleration termination, its resistance is very small Z _o ≈0 and the current through the inrush current limiter reaches an emergency value, which leads to its exit system.

The basis of the invention is the task of improving the device for alternately starting the electric motors of the group by expanding the scope of its application by introducing third switching devices and new connections into the device.

The problem is solved in that in the known device for alternately starting the electric motors of the group, containing a three-phase supply network, divided into sections, the first three-phase switching devices, the first, second and third input of each of which is connected to one of the phases of the corresponding section of the supply network, three-phase motors , the input of the first, second and third phase stator windings of each of which is connected respectively to the first, second and third output of the corresponding first switching device, second third three-phase switching devices, a three-phase starting bus, a starting current limiter, the first, second and third inputs of which are connected respectively to the first, second and third phases of the starting bus and to the first, second and third outputs of each second three-phase switching device, according to the INVENTION, the third three-phase switching devices, the first, second and third input of each of which is connected respectively to the first, second and third inputs of the corresponding second three-phase switching device ATA, which are connected to the outputs of the first, second and third phase windings of the corresponding three-phase motor, the first, second and third outputs of each third three-phase switching device are interconnected.

The introduction of a group of third switching devices, each of which is intended for one electric motor corresponding to it, into the device for alternately starting electric motors, allows expanding the scope of its application and using this device to start powerful electric motors that are powered from different sections of the mains supply, and, in addition to In addition, apply controlled inrush current limiters, for example, made on the basis of a thyristor voltage regulator, which can be used in control circuits value of the starting current according to a given algorithm.

The drawings show:

figure 1 - diagram of a device for alternately starting the electric motors of the group;

figure 2 - the first embodiment of the inrush current limiter;

figure 3 - the second embodiment of the inrush current limiter.

A device for alternately starting the electric motors of the group (Fig. 1) contains a three-phase supply network 1, divided into sections 1-1, 1-2, ..., 1-i, the first three-phase switching devices 2-1, 2-2, .. ., 2-n, the first, second and third input of each of which are connected to one of the phases of the corresponding section of the supply network 1, three-phase motors 3-1, 3-2, ..., 3-n, the input of the first, second and third the phase windings of the stator of each of which is connected respectively to the first, second and third output of the corresponding switching device 2-1, 2-2, ..., 2-n, the second three-phase mutation devices 4-1, 4-2, ..., 4-n, third three-phase switching devices 5-1, 5-2, ..., 5-n, the first, second and third input of each of which is connected respectively to the first, second and third inputs of the corresponding second three-phase switching device 4-1, 4-2, ..., 4-n, which are connected to the outputs of the first, second and third phase windings of the corresponding three-phase motor 3-1, 3-2, ..., 3-n, the first, second and third outputs of each third three-phase switching device 5-1, 5-2, ..., 5-n are interconnected, a three-phase start a bus 6, to the first, second and third phase of which the first, second and third outputs of each second three-phase switching device 4-1, 4-2, ..., 4-n, inrush current limiter 7, the first, second and the third inputs of which are connected to the first, second and third phase of the start-up bus 6. Figure 1 also shows a bus 8 connected to the fourth inputs of the switching devices 2-1, 2-2, ..., 2-n, 4-1, 4-2, ..., 4-n, 5-1, 5-2, ..., 5-n, and designed to supply switching signals for switching devices 2-1, 2-2, ..., 2- n, 4-1, 4-2, ..., 4-n, 5-1, 5-2, ..., 5-n if any motor control unit.

The inrush current limiter 7 can be made uncontrollable - figure 2 or controlled - figure 3. Uncontrolled inrush current limiter - figure 2 contains a reactor 9 with phase windings 9-1, 9-2 and 9-3, an input bus 10, which is connected to the first terminals of the phase windings 9-1, 9-2 and 9-3, this second terminals of the phase windings 9-1, 9-2 and 9-3 are interconnected. Controlled current limiter - figure 3 contains a thyristor voltage regulator 11, a control unit 12, the first outputs of which are connected to the second (control) inputs of the thyristor voltage regulator 11, input buses 13 that are connected to the first inputs of the thyristor voltage regulator 11, the outputs of which are connected between themselves, information buses 14, which are connected to the inputs of the control unit 12. In addition, figure 3 shows the output buses 15, which are connected to the second outputs of the control unit 12 and which are used to issue branching signals, for example, to automatically turn on or off the corresponding switching devices of one of 2-1, 2-2, ..., 2-n, 4-1, 4-2, ..., 4-n, 5-1, 5-2, ..., 5-n, as well as if the control unit 12 is also used to control when starting the electric motor other elements of the electric motor, for example, an excitation unit.

A device for alternately starting the electric motors of the group operates as follows.

A device for alternately starting up group electric motors starts only one group electric motor, since the simultaneous starting of more than one high-power electric motor is unacceptable both in terms of technological limitations and the power supply network limitations due to the high magnitude of the starting currents, and the group electric motor can be started if in the group there are already working electric motors, it is allowed, since the current consumed by the electric motors working in the nominal mode is much less than the starting one. The initial state of the device for alternately starting the electric motors of the group depends on the state of the electric motors, if all the motors are not working, then all the switching devices 2-1, 2-2, ..., 2-n, 4-1, 4-2, ... , 4-n, 5-1, 5-2, ..., 5-n are open if any motors are turned on and in operation, for example 3-k and 3-m (k≤n, m≤n) , then the corresponding first 2-k and 2-m and third 5-k and 5-m switching devices are closed, and the second 4-k and 4-m switching devices are open, that is, the working first and third switching devices are closed station devices and the second switching devices corresponding to them are open.

To start the electric motor, for example 3-j, it is necessary to sequentially close the second 4-j switching device, and then the first 2-j switching device. In this case, the outputs of the 3-j motor through the second 4-j switching device are connected to the starting bus 6, and through it to the starting current limiter 7, then the inputs of the 3-j motor through the first 2-j switching device are connected to the corresponding section of the supply network 1 -h (h≤i). The start of the 3-j motor starts, during which the inrush current is limited by the inrush current limiter 7. When using the uncontrolled current limiter 7 option, made on a three-phase reactor, the inrush current is not controlled, its value at start-up depends only on the total impedance of the 3-j electric motor and inrush current limiter 7 and from the EMF of the electric motor 3-j. When using the option of a controlled current limiter 7 made on a thyristor voltage regulator 11, pulses providing the specified law of inrush current change are supplied to its control inputs from the first outputs of the control unit 12. At the end of the start-up, when the 3-j electric motor accelerates to a steady speed close to the nominal one, and the starting current also decreases to a steady-state value corresponding to this speed, the third 5-j switching device is closed, which shunts the starting bus 6 and the starting current limiter 7. After that, the second 4-j switching device is opened. A device for alternately starting the electric motors of the group is ready to start the next engine.

In the inventive device, the start-up of any electric motor of the group is ensured, regardless of which section of the supply network it is connected to, using one current limiter. The flow of intersectional surge current is excluded due to the fact that the starting current limiter is connected to the starting bus, which at the end of the start is disconnected both from the electric motor and from that section of the supply network to which the electric motor is connected.

Claims (1)

A device for alternately starting up group electric motors, comprising a three-phase supply network divided into sections, first three-phase switching devices, the first, second and third input of each of which is connected to one of the phases of the corresponding section of the supply network, three-phase electric motors, input of the first, second and third phase stator windings of each of which is connected respectively to the first, second and third output of the corresponding first switching device, second three-phase switching devices, three-phase th starting bus, starting current limiter, the first, second and third inputs of which are connected respectively to the first, second and third phases of the starting bus and to the first, second and third outputs of each second three-phase switching device, characterized in that the third three-phase switching devices, the first, second and third input of each of which are connected respectively to the first, second and third inputs of the corresponding second three-phase switching device, which are connected to the outputs respectively In the first, second and third phase windings of the corresponding three-phase motor, the first, second and third outputs of each third three-phase switching device are interconnected.

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