RU2613679C2 - Device for regulating voltage and method for its control - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: for voltage regulation device comprising a transformer, one of whose windings comprises in each phase, are connected in series primary and an adjusting part, at least two switching units, one of which is connected with a branch regulating section, and the other switching node is connected to the extreme output adjusting part. Each switching node comprises a thyristor switch, and the ends of the switching nodes are interconnected to form a common point connected to the common points of the switching nodes of other phases. In each phase of the device there is a current transformer connected between the branch portion and the adjusting key thyristor; In addition, the device in each phase can be connected in series reactor and reactor trip unit connected in parallel with thyristor key connected to the output regulating section extreme. Thyristor key management unit is injected to each phase of the device and the other phases thyristor switches. In the method for regulating the voltage of one embodiment of the regulation is carried out by opening the thyristor keys, switching thyristors thyristor keys from one switching node to another is accomplished by pre-closing thyristor thyristor keys one switching node, followed by the opening of the thyristor thyristor keys of another switching node without interrupting passing through the reactor when switching operating current of the transformer. Alternatively, in the method of regulating the voltage, the regulation is carried out by opening the thyristor keys in phases at increasing voltage is performed as follows: in the rest position thyristor keys connected to the extreme terminals regulating section, left open in all phases, and then close the thyristor switch connected to extreme conclusion of the first phase adjustment portion, and open thyristor switch connected to a branch of this phase adjustment, then the keys sequentially switched thyristor in the other phases, similar to switching triac keys in the first phase; wherein the switching thyristor voltage drop on the key is carried out in reverse order.

EFFECT: provision of rich functionality with the introduction of per-phase voltage control in complete control range by switching thyristor keys alternately in each of the primary winding phase.

5 cl, 1 dwg

Description

The invention relates to electrical engineering, in particular to converter technology, and may find application for regulating the voltage of converter transformers.

Known three-phase transformer with phase-by-phase voltage regulation, comprising a network winding, an adjustment winding, consisting of series-connected adjustment steps, the first of which, connected to the transformer output, has a number of turns multiple of three, and switching devices with movable contacts on each phase, when this number of turns of two phases of the network winding is greater than the number of turns of the third phase, respectively, 1/3 and 2/3 of the number of turns of the first stage of the adjustment winding [L. one].

The method of regulation described in [L. 1] of a three-phase transformer consists in alternately switching the moving contacts of the switching device from one symmetrical position, in which an equal number of stages of the adjustment winding in all phases are switched on, to another neighboring symmetrical position, while with an increase in the number of turns, the first switching is carried out in the phase with the least number of turns the second is in the phase with the average number of turns and the third is in the phase with the largest number of turns, and when the number of turns is reduced, the first switching is carried out in phase with the least number of turns, the second - in the phase with the average number of turns and the third - in the phase with the least number of turns.

Described in [L. 1] a three-phase transformer with phase-by-phase voltage regulation is characterized by a rather complicated design, and the voltage regulation method by means of this transformer is characterized by relatively small regulation steps and is associated with a large number of switching operations by a switching device having insufficiently high reliability.

It is also known a device for regulating an alternating voltage, comprising a transformer, one of the windings of which contains the main and adjustment parts connected in series, while the first switching unit is connected between the first output of the transformer and the middle branch of the adjustment part of the winding, and between the extreme terminal of the adjustment part of the winding and the first output the transformer includes a second switching node, while the free output of the main part of the winding is connected to the second output of the transformer [L. 2].

Device for regulating AC voltage according to [L. 2] is characterized by the limited functionality of voltage regulation due to voltage changes within a limited range (by a fixed significant amount).

The invention solves the problem of creating a device for voltage regulation and a method of voltage regulation, characterized by wide functionality due to the introduction of phase-by-phase voltage regulation in the full control range by switching thyristor switches alternately in each phase of the primary winding.

To solve the problem, a voltage regulating device containing a transformer, one of the windings of which contains in each phase the main and adjustment parts connected in series, at least two switching nodes, one of which is connected to the branch of the adjustment part, and the other switching node is connected with the extreme conclusion of the adjustment part, with each switching node contains a thyristor key, and the ends of the switching nodes are interconnected, forming a common point connected to conductive dots switching nodes other phases, it is suggested according to the present invention, to introduce in each phase a current transformer connected between the branch portion and the regulating thyristor key; in addition, a reactor and a reactor shutdown unit connected in parallel with a thyristor switch connected to an extreme terminal of the adjustment part can be connected in series to the device in each phase in series; in addition, a thyristor switch control unit for each phase and thyristor switches for other phases can be inserted into the device.

To solve the problem in a method of regulating voltage by means of a voltage regulating device containing a transformer, one of the windings of which contains in each phase a series of main and adjustment parts, at least two switching nodes, one of which is connected to a branch of the adjustment part, and another switching node is connected to the extreme terminal of the adjustment part, each switching node contains a thyristor key, and the ends of the switching nodes are connected between According to the present invention, it is proposed, according to the present invention, to switch thyristor thyristor thyristors from one switching node to another by previously closing thyristor thyristor thyristor switches of one commutating one, forming a common point connected to a common point of switching nodes of other phases node with the subsequent opening of the thyristor thyristor keys of another switching node, without interrupting passing through the reactor at the time of switching operating current of the transformer.

In addition, to solve the problem in a method of voltage regulation by means of a voltage regulating device comprising a transformer, one of the windings of which contains in each phase the main and adjustment parts connected in series, at least two switching nodes, one of which is connected to the regulation branch parts, and the other switching node is connected to the extreme terminal of the adjustment part, with each switching node containing a thyristor key, and the ends of the switching nodes interconnected, forming a common point connected to a common point of the switching nodes of other phases, at which the regulation is carried out by opening the thyristor keys, it is proposed, according to the present invention, the switching of thyristor keys in phases to increase the voltage as follows: in the initial position, the thyristor keys, connected to the extreme terminals of the adjustment part, leave open in all phases, then close the thyristor switch connected to the extreme terminal of the adjustment part of the first PS and open thyristor switch connected to a branch of this phase adjustment, then the thyristor switch keys sequentially in the other phases, similarly thyristor switching keys in the first phase; at the same time, switching the thyristor switches to lower the voltage is carried out in the reverse order.

The invention is illustrated in the drawing (Fig. 1), which shows a schematic diagram of the inventive device for voltage regulation

A device for controlling AC voltage contains a three-phase transformer 1 having a primary winding 2.

The primary winding 2 in each of the phases 3, 4, 5 has a main 6 and adjustment 7 parts connected in series in each phase 3, 4, 5.

The device also contains two switching nodes 8 and 9, each of which contains a thyristor switch 10, consisting of counter-thyristors 11 connected in parallel.

In this case, the thyristor keys forming the switching unit 9 are connected in parallel with the reactor 12, and the thyristor keys forming the switching unit 8 are connected to the branch 13 of the adjusting part 7 via a current transformer 14.

The switching nodes 8 and 9 of each of the phases 3, 4, 5 are interconnected, forming a common point 15.

The switching nodes 8 and 9 of phase 3 are connected to the switching nodes 8 and 9 of phases 4 and 5.

Thyristor switches 10, forming a switching unit 8 in each of the phases 3, 4, 5 are connected through a current transformer 14 to branch 13 of the adjustment part 7 of the corresponding phases 3, 4, 5, and thyristor switches 10, forming a switching nodes 9, are connected in parallel with the reactor 12 and are connected to the extreme terminals 16 of the adjusting part 7. In addition, the thyristor switches 10 forming the switching nodes 8, 9 are connected to a common point 15 of the connection of the switching nodes 8 and 9 of all three phases 3, 4, 5.

The control unit 17 of the thyristor switches 10 is connected to the thyristors 11 of the switching nodes 8 and 9 in all three phases 3, 4, 5, as well as to the common point 15 of the connection of the switching nodes 8 and 9 of each of the phases: 3, 4, 5.

In addition, the device contains in each phase a shutdown unit 18 of the reactor 12, connected in series with the reactor 12.

The reactor 12 with a series-connected shutdown unit 18 is connected in parallel with the thyristor key 10 of the switching node 9.

Voltage regulation by means of a device for regulating voltage is as follows.

In the initial state, the thyristor keys 10 of the switching node 9 are open, and the thyristor keys 10 of the switching node 8 are closed.

Phase-based voltage regulation to increase the voltage is as follows.

Before closing the switching nodes 8 or 9 open the shutdown unit 18.

With the thyristor switches 10 of the switching unit 9 open, in each phase 3, 4, 5 close the thyristor switch 10 connected to the extreme terminal 16 of the adjustment part 7 of one of the phases, for example phase 3, and open the thyristor switch 10 connected to the branch 13 of the same phase 3, then close the shutdown unit 18. After that, in the same way, thyristor switches 10 are sequentially closed and opened in phase 4 and, finally, in phase 5.

The phase-by-phase voltage regulation for undervoltage is carried out in the reverse order. First, turn off the block 18 and then close the thyristor switches 10 in the switching node 8 and open the thyristor switches 10 in the switching node 9 in phase 5, then in phase 4 and, finally, in phase 3.

When the thyristor switches 10 are opened unexpectedly, one is included in the branch 13 and the other in the terminal 16 of the adjustment part 7, a short circuit current occurs in the circuit of the regulation part 7, which is fixed by the current transformer 14, the signal from which is supplied to the control unit 17 of the thyristor keys 10, which removes the control signal from the thyristors 11 of the thyristor switches 10, and the thyristor switches 10 are closed, the short circuit current disappears, and then the control unit 17 carries out voltage regulation.

Switching the thyristors 11 of the thyristor key 10 of the switching unit 8 is carried out by first closing the thyristors 11 of this switching key with the subsequent opening of the thyristors 11 of the thyristor key 10 of the switching unit 9. The working current is not interrupted, since it passes through the reactor 12.

The thyristors 11 of the thyristor switch 10 of the switching unit 9 are switched in a similar manner: by first closing the thyristors 11 of the switching unit 9 with the subsequent opening of the thyristors 11 of the thyristor switch 10 of the switching unit 8. The working current is not interrupted, since it passes through the reactor 12.

The implementation of the proposed technical solution will allow relatively simple means to provide voltage regulation in a wide range of regulation and thereby significantly expand the functionality of the claimed device and method of voltage regulation.

Currently, NPP Elektromash LLC, Yekaterinburg, is developing documentation and preparing for the production of an AC voltage regulating device designed to regulate voltage on the traction substation tires of AC electrified railways.

Information sources

1. USSR author's certificate No. 706889, IPC H01F 21/12, H01F 29/02, 1979

2. RF patent №2115212, IPC Н02М 5/22, G05F 1/14, 1996

Claims (5)

1. Device for voltage regulation, containing a transformer, one of the windings of which in each phase contains connected in series main and adjustment parts, at least two switching nodes, one of which is connected to the branch of the regulation part, and the other switching node is connected to the extreme terminal adjustment part, with each switching node contains a thyristor key, and the ends of the switching nodes are interconnected, forming a common point connected to the common points of the switching node in other phases, characterized in that it contains in each phase a current transformer connected between the branch of the adjustment part and the thyristor switch. 2. The device for regulating voltage according to claim 1, characterized in that it comprises in each phase a reactor and a reactor shutdown unit connected in series, connected in parallel with a thyristor switch connected to an extreme terminal of the adjustment part. 3. The device for regulating voltage according to claim 1, characterized in that it comprises a thyristor switch control unit for each of the phases and thyristor switches for other phases. 4. A method of voltage regulation by means of a voltage regulating device comprising a transformer, one of the windings of which contains in each phase the main and adjustment parts connected in series, at least two switching units, one of which is connected to the branch of the adjustment part, and the other switching unit connected to the extreme terminal of the adjustment part, with each switching node containing a thyristor key, and the ends of the switching nodes are interconnected, forming a common point, soy inennial with the common point of the switching nodes of other phases, in which the regulation is carried out by opening the thyristor keys, characterized in that the switching of the thyristor keys from one switching node to another is carried out by first closing the thyristors of the thyristor keys of one switching node and then opening the thyristors of the thyristor keys of the other switching node without interrupting the operating current of the transformer passing through the reactor at the time of switching. 5. A method of regulating voltage by means of a voltage regulating device comprising a transformer, one of the windings of which contains in each phase the main and adjustment parts connected in series, at least two switching nodes, one of which is connected to a branch of the adjustment part, and the other switching node connected to the extreme terminal of the adjustment part, with each switching node containing a thyristor key, and the ends of the switching nodes are interconnected, forming a common point, soy inennial with the common point of the switching nodes of other phases, in which the regulation is carried out by opening the thyristor keys, characterized in that the thyristor keys are switched in phases to increase the voltage as follows: in the initial position, the thyristor keys connected to the extreme terminals of the adjustment part are left open all phases, then close the thyristor switch connected to the extreme terminal of the adjustment part of the first phase, and open the thyristor switch connected to the regulator branch part of this phase, then switch the thyristor keys sequentially in other phases, similar to switching thyristor keys in the first phase; at the same time, switching the thyristor switches to lower the voltage is carried out in the reverse order.

Images