KR102335620B1 - Transformer neutral point ground reactor transfer device for power generation during operation - Google Patents

Abstract

The present invention relates to a neutral ground reactor changeover device for a power generation transformer during an operation, and more particularly, to a neutral ground reactor changeover device for a power generation transformer during an operation, which is in a form of a redundancy of the master/slave system, so when the master reactor fails, it is switched to operate as a slave winding. The present invention provides the neutral ground reactor changeover device for the power generation transformer during the operation, which includes a neutral grounding reactor installed between a neutral point of a primary side of the transformer for distributed power connection and a neutral line to adjust a voltage drop of the line and impedance characteristics of a connecting transformer in a transformer type, wherein the master reactor adjusts the impedance with 5Tap, and the winding of the slave is controlled to operate as a slave winding when the reactor of the master fails in the form of a tap-free winding. In addition, information is obtained by measuring the current and voltage across the neutral reactor, and the impedance of the neutral point reactor is calculated so as to be compared with the initial impedance of the neutral point reactor to determine deterioration and deliver the status of the neutral reactor to the user.

Description

Transformer neutral point ground reactor transfer device for power generation during operation

The present invention relates to a transformer neutral point grounding reactor changeover device for power generation during operation, and more particularly, in a redundant form of a main/slave system (master/slave). It relates to a medium power transformer neutral point grounding reactor switching device.

When a problem such as a ground fault occurs in the power system, the three-phase current generates an unbalanced current, and the unbalanced current returns to the neutral point of the transformer.

In a normal accident, the fault current is a relatively large current, and since the large current flows through the neutral point of the transformer, it affects the windings and insulators of the transformer and acts as a factor to deteriorate the transformer.

In such a neutral point reactor, when an accident in the power system occurs, the unbalanced current flows to the neutral point as described above, thereby causing deterioration of the transformer. It is the role of the reactor.

On the other hand, when an accident occurs during operation of the transformer, the neutral-point reactor is exposed to mechanical and electrical shock instead of being protected by the neutral-point reactor.

Here, the electrical shock causes a change in the reactor winding due to rapid heat, and the sudden inflow of current causes mechanical distortion or tensile force due to the inflow of energy, causing resistance and reactance to physically deviate from normal.

In addition, since a large current flows into the neutral point during a power system accident, the ground potential of this neutral point becomes considerably high instantaneously, and the neutral point current also reaches several thousand amperes (A). This phenomenon is reduced and suppressed by the neutral point reactor do.

Relatively, the protective action of such a transformer leads to a condition in which the reactor momentarily deteriorates considerably.

After all, instead of protecting the transformer from electric shock of considerable force, the reactor itself is exposed to the same amount of electric shock.

Of course, it was designed in consideration of the most severe conditions in the specifications and tests at the time of initial design of the reactor.

Failure of these reactors is a condition that exposes the transformer to fault currents.

After all, it is a desirable method of operating a transformer to prevent an accident in advance by detecting the deterioration of the neutral point reactor in advance.

In general, it is not easy to measure the resistance and inductive reactance of a transformer neutral reactor in operation.

When measuring resistance or reactance, a separate power source is generated and applied to the resistance or reactance to be measured. it is common

However, the above-described method has a problem in that it cannot be applied to the neutral point reactor in operation.

This is because a current of several tens of amps always flows in the neutral reactor in operation.

Therefore, in order to prevent a transformer accident in advance, it is in a redundant form, and when the master reactor fails, it is necessary to develop a device that switches to operate as a slave winding.

Korean Patent Publication No. 2004-0025002 Korean Patent No. 1227832 Japanese Patent Laid-Open No. 2005-108963

The present invention has been made to solve the above problems, and is installed between the neutral point and the neutral of the primary side of a transformer for distributed power connection, and the neutral point of the transformer is grounded so that the voltage drop of the line and the impedance characteristics of the connection transformer can be adjusted as a transformer type. An object of the present invention is to provide a reactor changeover device.

In addition, the present invention is in a redundant form of a master/slave system (master/slave), and the master reactor can adjust the impedance, and if the master reactor fails, it is switched to operate as a slave winding during operation. An object of the present invention is to provide a switching device.

In order to solve the above problems, the present invention is installed between the neutral point and the neutral of the primary side of a transformer for distributed power linkage, and includes a neutral grounding reactor capable of adjusting the voltage drop of the line and the impedance characteristics of the linkage transformer as a transformer type. In the power generation transformer neutral point grounding reactor changeover device, it is composed of a master/slave system consisting of a master and a slave, the reactor of the master can adjust the impedance by 5Tap, and the winding of the slave is a tap-free winding type of the master. If the reactor fails, it is controlled to operate as a slave winding.

In the live state in which the master is operating, the impedance state of the neutral point reactor is checked with the series resistance value and series reactance value of the neutral point reactor.

an electromagnetic switch installed between the tap and the ground to generate an electromagnetic force through a control signal from the controller to move the contact point to open and close the current; and a control unit that controls the electromagnetic switch to ‘OFF’ the electromagnetic switch for power reception, and controls the MC to ‘ON’ for power generation.

A voltage measurement circuit that acquires and processes voltage information by measuring the voltage across the neutral reactor used by connecting a reactor in series between the neutral wire of the transformer and the ground, and a current flowing from the clamp-type current transformer to the neutral reactor by measuring the current A current measurement circuit for obtaining and processing information, a deterioration determination unit for obtaining information from the voltage measurement circuit and the current measurement circuit, calculating the impedance of the neutral point reactor, and comparing it with the initial impedance of the neutral point reactor to process and determine deterioration; and a deterioration display unit connected to the deterioration determination unit to inform the user of the state of the neutral point reactor.

The voltage measuring circuit includes an amplifier circuit installed in parallel, a differential amplifier circuit connected to the amplifier circuit, and an A/D converter connected in series to the differential amplifier circuit.

The voltage information passes through a differential amplifier circuit and is converted into a discrete signal through the A/D converter that discretizes the passed signal, and applies the voltage information to a deterioration determination unit in charge of determining reactor deterioration.

The present invention, which is made as described above, obtains information by measuring the current and voltage across the neutral point reactor using the excitation characteristic of the transformer, calculates the impedance of the neutral point reactor, and compares it with the initial impedance of the neutral point reactor to determine deterioration and to give the user Accurately judge the deterioration state of the neutral point reactor.

In addition, in the present invention, it is possible to check the impedance state of the neutral point reactor by the series resistance value and the series reactance value even in the live state while the master is operating.

In addition, in the present invention, since it is possible to determine the deterioration of the reactor only by the magnitude of the voltage information and the current information, the implementation of the device and the precise determination of the deterioration of the reactor are made.

1 is a diagram schematically showing all related concepts of a master and a slave according to an embodiment of the present invention.
2 is a view of a winding state check according to another embodiment of the present invention.
3 is a circuit diagram showing the structure of the apparatus for diagnosing deterioration of a neutral point reactor of a transformer according to the present invention.

In order to fully understand the present invention, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. This example is provided to more completely explain the present invention to those of ordinary skill in the art. Accordingly, the shapes of elements in the drawings may be exaggerated to emphasize a clearer description. It should be noted that the same members in each drawing are sometimes shown with the same reference numerals. In addition, detailed descriptions of well-known functions and configurations determined to unnecessarily obscure the gist of the present invention will be omitted.

1 is a diagram schematically showing all related concepts of a master and a slave according to an embodiment of the present invention.

As shown in FIG. 1, the present invention is in a redundant form of a master/slave system (master/slave), and the master reactor can adjust the impedance, and when the master reactor fails, it is switched to operate as a slave winding.

For example, the present invention is composed of a master/slave system consisting of a master and a slave, the reactor of the master can adjust the impedance by 5Tap, and the winding of the slave is in the form of a no-tap winding. If the reactor of the master fails, the slave Control to operate as a winding.

Installed between the neutral point and the neutral of the primary side of the transformer for distributed power connection according to the present invention, it is a transformer type consisting of a primary winding, a secondary winding, and a tertiary winding. The neutral point is the reactor ground.

The neutral grounding reactor has a redundant type of master/slave system (master/slave), the master reactor can adjust the impedance with 5Tap, and the slave winding is a non-tap winding type and operates as a slave winding when the master reactor fails. will do

In addition, the primary winding checks the impedance state of the neutral point reactor in the live state of the master operation.

It is confirmed by the series resistance value and series reactance value of the neutral reactor.

To this end, the voltage measuring circuit of the diagnostic unit to which the voltage at both ends of the neutral reactor is applied and the clamp-type current transformer for measuring the neutral current flowing in the neutral grounding reactor are connected, and a current measuring circuit installed in parallel in the voltage measuring circuit, the voltage measuring circuit and the current measuring It is composed of a neutral-point reactor deterioration determination unit and a grounding operation unit to which the circuit is connected.

The present invention is an electromagnetic switch (MC) that generates an electromagnetic force through a control signal of a control unit and operates a current by moving a contact point; A control unit that controls the electromagnetic switch (MC) to turn the electromagnetic switch (MC) 'OFF' in the case of power reception, and turns the MC to 'ON' in the case of power generation; to reduce the neutral line circulation current when connected to a distributed power source characterized in that

3 is a circuit diagram showing the structure of the apparatus for diagnosing deterioration of a neutral point reactor of a transformer according to the present invention.

In the present invention, as shown in FIG. 3 , a reactor is connected in series between the neutral wire of the transformer and the ground, and this is referred to as a neutral point reactor (1).

In addition, by measuring the voltage across the neutral point reactor (1) to obtain voltage information and processing the voltage information, the voltage measurement circuit (4), and the current flowing from the clamp-type current transformer (5) to the neutral point reactor (1) Obtaining current information and obtaining information from the current measuring circuit 6, the voltage measuring circuit 4 and the current measuring circuit 6 that processes the current information, calculates the impedance of the neutral reactor 1, and calculates the impedance of the neutral reactor 1 ) by comparison with the initial impedance of a deterioration determination unit 7 for processing and judging deterioration, and a deterioration display unit 8 connected to the deterioration determination unit 7 to inform the user of the state of the neutral point reactor 1 .

As an embodiment, the voltage measuring circuit 4 preferably includes an amplifier circuit installed in parallel, a differential amplifier circuit connected to the amplifier circuit, and an A/D converter connected in series to the differential amplifier circuit.

In general, the voltage across both ends of the neutral reactor 1 has a magnitude of several hundred volts, so in order to satisfy the range that can be read by the A/D converter that discretizes voltage information, the voltage is reduced by 1/100 in the amplifier circuit to receive it. has been

Then, the voltage information passes through the differential amplifier circuit and is converted into a discrete signal through the A/D converter that discretizes the passed signal to the deterioration determination unit 7, which is a part responsible for determining the deterioration of the reactor. Apply voltage information.

Therefore, the present invention obtains information by measuring the current and voltage across the neutral point reactor, calculates the impedance of the neutral point reactor, and compares it with the initial impedance of the neutral point reactor to determine the deterioration and the user can accurately determine the deterioration state of the neutral point reactor have.

In addition, in the present invention, it is possible to check the impedance state of the neutral point reactor by the series resistance value and the series reactance value even in the live state while the master is operating.

In addition, in the present invention, since it is possible to determine the deterioration of the reactor only by the magnitude of the voltage information and the current information, the implementation of the device and the precise determination of the deterioration of the reactor are made.

1: Neutral point reactor
4: voltage measurement circuit
5: Clamp type current transformer
6: current measuring circuit
7: Deterioration determination unit
8: deterioration display part

Claims (5)

Installed between the neutral point and the neutral of the primary side of the transformer for distributed power connection, including a neutral point grounding reactor that can adjust the voltage drop of the line and the impedance characteristics of the connection transformer,
It consists of a master/slave system consisting of a master and a slave,
The neutral grounding reactor of the master can adjust the impedance by 5Tap, and the winding of the slave is in the form of a no-tap winding.
an electromagnetic switch (MC) installed between the tab of the primary winding and the ground to generate an electromagnetic force through a control signal of the controller to move the contact point to open/close the current; and
A control unit that controls the electromagnetic switch (MC) to turn the electromagnetic switch (MC) 'OFF' in the case of power reception, and turns the MC to 'ON' in the case of power generation; Transformer neutral point grounding reactor switching device for power generation during operation, characterized in that it is reduced to below. delete The method according to claim 1,
A voltage measurement circuit (4) for acquiring and processing voltage information by measuring the voltage across the neutral point reactor (1) used by connecting a reactor in series between the neutral wire of the transformer and the ground, and from the clamp-type current transformer (5) Impedance of the neutral reactor (1) by obtaining information from the current measuring circuit (6) that measures the current flowing through the neutral reactor (1) to obtain and process current information, the voltage measuring circuit (4) and the current measuring circuit (6) is connected to a deterioration determination unit 7 that calculates and compares the initial impedance of the neutral point reactor 1 to process and determines the deterioration determination, and the deterioration determination unit 7 to provide the user with the state of the neutral point reactor 1 A transformer neutral point grounding reactor switching device for power generation during operation including a deterioration display unit (8) to inform. 4. The method according to claim 3,
The voltage measuring circuit (4) is an amplifier circuit installed in parallel, a differential amplifier circuit connected to the amplifier circuit, and an A/D converter connected in series to the differential amplifier circuit. Device. 5. The method according to claim 4,
The voltage information passes through a differential amplifier circuit and is converted into a discrete signal while passing through the A/D converter that discretizes the passed signal. Power generation transformer neutral point grounding reactor switching device during operation, characterized in that to apply.

Images