KR102365956B1 - Apparatus and method for generating selective partial discharge signal - Google Patents

Abstract

The present invention relates to an apparatus for generating a selective partial discharge signal, comprising: a partial discharge signal type input unit for receiving a partial discharge signal type corresponding to a type of test; a partial discharge cell mapping unit that maps the partial discharge cells corresponding to the partial discharge signal types based on a lookup table storing information on the partial discharge cells corresponding to the partial discharge signal types; When partial discharge cell mapping information is input from the partial discharge cell mapping unit while the partial discharge cell selection preparation signal is input from the partial discharge signal type input unit, at least one partial discharge cell corresponding to the partial discharge cell mapping information Partial discharge cell multi-selection unit to select; and a partial discharge signal output unit that, when at least one or more partial discharge cells are selected, drives the selected partial discharge cells and outputs an independent partial discharge signal or a composite partial discharge signal.

Description

Apparatus and method for generating a selective partial discharge signal {APPARATUS AND METHOD FOR GENERATING SELECTIVE PARTIAL DISCHARGE SIGNAL}

The present invention relates to an apparatus and method for generating a selective partial discharge signal, and more particularly, after configuring a plurality of partial discharge cells capable of generating a characteristic partial discharge signal in one insulator chamber, a required type of partial discharge signal It relates to an apparatus and method for generating a selective partial discharge signal, which enables generation of an independent partial discharge signal or a complex partial discharge signal by selecting at least one partial discharge cell according to the type of the partial discharge cell.

In general, power facilities such as power plants and substations include a variety of power devices such as a generator, a gas insulated switchgear, a gas insulated transformer, and an oil immersed transformer. Since a high-voltage current flows in such a power device, partial discharge occurs as a precursor to a failure of the power device.

In this way, when a partial discharge occurs in the power device, there is a possibility of reaching insulation breakdown, and finally, the operation of the entire power facility may be stopped. Therefore, it is essential to establish a configuration to prevent failure of power equipment by diagnosing the occurrence of partial discharge early and taking appropriate measures. do.

However, since these partial discharge signals have very irregular and complex waveforms, it is impossible to generate all of the various types of partial discharge signals using a single partial discharge signal generator. Therefore, in the prior art, a separate partial discharge signal generating device capable of generating a partial discharge signal of a specific signal type for each type was developed and used.

As such, testing using partial discharge cells is an essential procedure when designing a partial discharge diagnosis system for power equipment. Depending on the power facility, partial discharge signal measurement and diagnostic tests are performed using 4 to 6 types of partial discharge cells for each type. and the sensor sensitivity and accuracy of the results were evaluated.

Therefore, in the conventional test for a partial discharge signal generating device of a power device, it takes a lot of time to replace the partial discharge cell during the test, and due to the characteristics of the partial discharge signal generating device that must be individually manufactured according to the type of partial discharge signal to be simulated, the total The production cost is very high, and when repairing the partial discharge cell, resources (eg, insulating oil, SF ₆ gas, electrode, insulator, etc.) are consumed significantly, and the complex partial discharge signal (partial discharge that occurs by mixing various types of partial discharge signals at once) There is a problem in that the circuit configuration for generating the signal) becomes complicated.

Therefore, there is a need for a partial discharge signal generating device that can easily select a partial discharge signal for each type, is easy to repair, can save resources consumed in maintenance, and can easily generate various types of complex partial discharge signals. .

The background technology of the present invention is disclosed in Korean Patent Registration No. 10-1692529 (registration on December 28, 2016, an apparatus and method for generating a simulated partial discharge signal).

According to one aspect of the present invention, the present invention was created to solve the above problems, and after configuring a plurality of partial discharge cells capable of generating each characteristic partial discharge signal in one insulator chamber, the required type An object of the present invention is to provide an apparatus and method for generating a selective partial discharge signal, which selects at least one partial discharge cell according to the type of partial discharge signal of .

According to an aspect of the present invention, there is provided an apparatus for generating a selective partial discharge signal, comprising: a partial discharge signal type input unit for receiving a partial discharge signal type corresponding to a type of test; a partial discharge cell mapping unit that maps the partial discharge cells corresponding to the partial discharge signal types based on a lookup table storing information on the partial discharge cells corresponding to the partial discharge signal types; When partial discharge cell mapping information is input from the partial discharge cell mapping unit while the partial discharge cell selection preparation signal is input from the partial discharge signal type input unit, at least one partial discharge cell corresponding to the partial discharge cell mapping information Partial discharge cell multi-selection unit to select; and a partial discharge signal output unit that, when at least one or more partial discharge cells are selected, drives the selected partial discharge cells and outputs an independent partial discharge signal or a composite partial discharge signal.

In the present invention, the partial discharge signal type input unit may receive a type of test, and when the type of test is input, information on the type of test and the partial discharge signal type corresponding thereto is stored in a lookup table. Based on the input, it is characterized in that the partial discharge signal type corresponding to the type of the test is automatically changed and received.

In the present invention, the partial discharge cell mapping unit independently maps one partial discharge cell or complexly maps a plurality of partial discharge cells in response to the partial discharge signal type.

In the present invention, the partial discharge cell multi-selection unit selects at least one partial discharge cell corresponding to the partial discharge cell mapping information from among a plurality of partial discharge cells included in the composite partial discharge cell, and the composite partial discharge The cell is characterized in that it includes a plurality of partial discharge cells each capable of generating a characteristic partial discharge signal within one insulator chamber.

In the present invention, the plurality of partial discharge cells, it is characterized in that it includes at least two or more of a creepage discharge cell, a protruding electrode cell, an insulator void cell, a free conductor cell, a floating conductor cell, and an interwinding discharge cell.

According to another aspect of the present invention, there is provided a method for generating a selective partial discharge signal, the method comprising: receiving, by a partial discharge signal type input unit, a partial discharge signal type corresponding to a type of test; mapping, by a partial discharge cell mapping unit, the partial discharge cell corresponding to the partial discharge signal type based on a lookup table storing information on the partial discharge cell corresponding to the partial discharge signal type; When partial discharge cell mapping information is input from the partial discharge cell mapping unit while the partial discharge cell selection preparation signal is input from the partial discharge signal type input unit to the partial discharge cell multi-selection unit, the partial discharge cell mapping information corresponding to the selecting at least one partial discharge cell; and when the partial discharge signal output unit selects at least one partial discharge cell as described above, driving the selected partial discharge cell to output an independent partial discharge signal or a composite partial discharge signal.

In the present invention, in the step of receiving the partial discharge signal type, the partial discharge signal type input unit may receive a type of test, and when the type of test is input, the type of the test and a part corresponding thereto It is characterized in that the partial discharge signal type corresponding to the type of the test is automatically changed and received based on a lookup table in which information on the discharge signal type is stored.

In the present invention, in the step of mapping the partial discharge cell corresponding to the partial discharge signal type, the partial discharge cell mapping unit independently maps one partial discharge cell corresponding to the partial discharge signal type or a plurality of partial discharge cells. It is characterized in that the discharge cells are complexly mapped.

In the present invention, in the step of selecting at least one partial discharge cell corresponding to the partial discharge cell mapping information, the partial discharge cell multi-selection unit may include, among a plurality of partial discharge cells included in the complex partial discharge cell, the partial discharge cell. At least one partial discharge cell corresponding to the discharge cell mapping information is selected, wherein the composite partial discharge cell includes a plurality of partial discharge cells each capable of generating a characteristic partial discharge signal in one insulator chamber do it with

In the present invention, the plurality of partial discharge cells, it is characterized in that it includes at least two or more of a creepage discharge cell, a protruding electrode cell, an insulator void cell, a free conductor cell, a floating conductor cell, and an interwinding discharge cell.

According to one aspect of the present invention, after configuring a plurality of partial discharge cells each capable of generating a characteristic partial discharge signal in one insulator chamber, at least one or more parts according to the type of partial discharge signal of the required type A discharge cell is selected so that it can generate an independent partial discharge signal or a complex partial discharge signal.

1 is an exemplary diagram showing a schematic configuration of an apparatus for generating a selective partial discharge signal according to an embodiment of the present invention;
FIG. 2 is an exemplary view showing the types of a plurality of partial discharge cells in FIG. 1;
3 is a flowchart illustrating a method for generating a selective partial discharge signal according to an embodiment of the present invention.
4 is an exemplary view for explaining the schematic shape of the selective partial discharge signal generating device in FIG. 1 .
5 is an exemplary view for explaining a schematic shape of the selective partial discharge signal generating device in FIG. 4 .
6 is an exemplary view showing a schematic shape of the selective partial discharge signal generating device disposed in the insulator chamber in FIG. 1 .

Hereinafter, an embodiment of an apparatus and method for generating a selective partial discharge signal according to the present invention will be described with reference to the accompanying drawings.

In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of the user or operator. Therefore, definitions of these terms should be made based on the content throughout this specification.

1 is an exemplary diagram illustrating a schematic configuration of an apparatus for generating a selective partial discharge signal according to an embodiment of the present invention.

As shown in FIG. 1 , the selective partial discharge signal generating apparatus according to the present embodiment includes a partial discharge signal type input unit 110 , a partial discharge cell mapping unit 120 , a partial discharge cell multiple selection unit 130 , and a complex It includes a partial discharge cell 140 , and a partial discharge signal output unit 150 .

The partial discharge signal type input unit 110 receives a partial discharge signal type corresponding to the type of test. Also, the partial discharge signal type input unit 110 may receive a type of test. That is, when the type of test is input, the partial discharge signal type input unit 110 may automatically change and receive the partial discharge signal type corresponding to the type of the test. To this end, the partial discharge signal type input unit 110 may store information on the type of the test and the partial discharge signal type corresponding thereto in the form of a lookup table.

The partial discharge cell mapping unit 120 maps and stores information on partial discharge cells corresponding to the partial discharge signal type in the form of a lookup table.

In this case, the partial discharge cells corresponding to the partial discharge signal type may correspond independently or a plurality of partial discharge cells may respond in combination.

Accordingly, the partial discharge cell mapping unit 120 corresponds to at least one partial discharge cell 140a to 140c according to the type of the partial discharge signal.

For example, if it is a type A signal (partial discharge signal), cells (partial discharge cells) 1 and 4 correspond, if it is a type B signal (partial discharge signal), cells (partial discharge cells) 3, 4, and 5 correspond, and a type C signal If it is a (partial discharge signal), cells (partial discharge cells) 2 and 6 correspond.

The partial discharge cell multi-selection unit 130 receives partial discharge cell mapping information from the partial discharge cell mapping unit 120 while the partial discharge cell selection preparation signal is input from the partial discharge signal type input unit 110 . In this case, a partial discharge cell corresponding to the partial discharge cell mapping information is selected.

In addition, the partial discharge cell multi-selection unit 130 may include at least one partial discharge cell corresponding to the partial discharge cell mapping information among the plurality of partial discharge cells 140a to 140c included in the complex partial discharge cell 140 . select

Here, the composite partial discharge cell 140 includes a plurality of partial discharge cells each capable of generating characteristic partial discharge signals in one insulator chamber.

For example, the plurality of partial discharge cells, as shown in FIG. 2, include a creepage discharge cell (a), a protruding electrode cell (b), an insulator void cell (c), a free conductor cell (d), and a floating conductor cell (e). ), and interwinding discharge cells f. FIG. 2 is an exemplary view for explaining the types of a plurality of partial discharge cells in FIG. 1 .

When at least one partial discharge cell is selected as described above, the partial discharge signal output unit 150 drives the selected partial discharge cell to output an independent partial discharge signal or a composite partial discharge signal.

3 is a flowchart illustrating a method for generating a selective partial discharge signal according to an embodiment of the present invention.

Referring to FIG. 3 , the partial discharge signal type input unit 110 receives a test type or partial discharge signal type ( S101 ). For example, when a type of test is input, the partial discharge signal type input unit 110 may automatically change and receive a partial discharge signal type corresponding to the type of test.

When a test type or partial discharge signal type is input through the partial discharge signal type input unit 110, the partial discharge cell mapping unit 120 maps a partial discharge cell corresponding to the test type or partial discharge signal type. (S102).

For example, one partial discharge cell may independently correspond to the partial discharge signal type, or a plurality of partial discharge cells may respond in combination.

When the partial discharge cell mapping corresponding to the test type or partial discharge signal type is completed as described above, partial discharge cell mapping information is input to the partial discharge cell multi-selector 130 ( S103 ).

Meanwhile, when partial discharge cell mapping information is input from the partial discharge cell mapping unit 120 while the partial discharge cell selection preparation signal is input from the partial discharge signal type input unit 110 (S104), the partial discharge cell multi-selection The unit 130 selects a partial discharge cell corresponding to the partial discharge cell mapping information (S105).

Accordingly, the partial discharge signal output unit 150 selects the partial discharge cells from among the plurality of partial discharge cells 140a to 140c included in the composite partial discharge cell 140 through the partial discharge cell multi-selection unit 130 . At least one partial discharge cell corresponding to the mapping information is selectively driven to output an independent partial discharge signal or a complex partial discharge signal (S106).

Accordingly, in the present embodiment, replacement of partial discharge cells is not required during testing, at least one or more of a plurality of partial discharge cells can be simply selected to output a desired type of complex partial discharge signal, and resources consumed for maintenance are reduced This has the effect of simply generating a complex partial discharge signal (a partial discharge signal generated at once by mixing various types of partial discharge signals).

4 is an exemplary view for explaining a schematic shape of the selective partial discharge signal generating device in FIG. 1 , and more specifically, a schematically showing a side cross-section of the selective partial discharge signal generating device.

However, it should be noted that the shape of the device for generating a selective partial discharge signal shown in FIG. 4 is for illustrative purposes only and is not intended to limit the present invention.

4, the selective partial discharge signal generating device according to the present embodiment, to which a high voltage is applied from the uppermost portion, includes a high-voltage part electrode 1 made of aluminum having a plurality of connector holes, and an electrode support insulator made of an epoxy material ( 2), an electrode coupling fixing member 3 (eg, screw) for fastening the high-voltage part electrode 1 and the supporting insulating material 2, and a high-voltage jumper wire 1', wherein the high-voltage jumper wire 1 ') can be connected to a plurality of partial discharge cells.

Here, the upper insulating plate 6, the upper insulating plate 6 where the upper electrodes of the plurality of partial discharge cells are located, the fixing member 4 for fastening the support (eg, screws), the support 5, and aluminum from the lower part of the device It consists of a ground electrode (7) made of a material.

5 is an exemplary view for explaining a schematic shape of the selective partial discharge signal generating device in FIG. 4 , and more specifically, a schematic top plan view of the selective partial discharge signal generating device.

However, it should be noted that the shape of the device for generating a selective partial discharge signal shown in FIG. 5 is for illustrative purposes only and is not intended to limit the present invention.

At this time, since the cross-sectional area occupied by the upper and lower electrodes is different depending on the coupling type, an unintended leakage current or partial discharge signal due to floating conductors may occur in the device. Therefore, in this embodiment, in order to suppress the occurrence of such partial discharge signals, partial discharge cells having a relatively large area (eg, free conductor cell 8, floating conductor cell 10, and interwinding discharge cell 12) is placed at the vertex of an imaginary quadrilateral, and partial discharge cells occupying a relatively small area (eg, corona cells 9, creepage discharge cells 11, and void defects 13) are placed between them. Thus, it is possible to secure the dielectric strength between cells.

6 is an exemplary view showing a schematic shape of the selective partial discharge signal generating device disposed in the insulator chamber in FIG. 1, and more specifically, schematically showing a side cross-section of the insulator chamber and the selective partial discharge signal generating device It is also an example.

Referring to FIG. 6 , the selective partial discharge signal generating device according to the present embodiment is disposed inside the insulator chamber 29, and the high voltage applying line 30 is fixed to the bushing 31 for the insulator chamber designed in an oval shape. It is connected to the bushing electrode 32 so that a voltage can be applied to the device high-voltage electrode. In addition, a grounding circuit is formed through a grounding wire 34 by fastening the grounding bar electrode 33 to the lower grounding electrode.

In this case, an insulating material such as a designated gas (SF ₆ ) or insulating oil is injected to create the same environment as the circuit breaker inside the insulator chamber 29 and to suppress a leakage current that may occur at a point where a partial discharge cell is not disposed.

As described above, in the present embodiment, after configuring a plurality of partial discharge cells capable of generating a characteristic partial discharge signal in one insulator chamber, at least one partial discharge cell is selected according to the type of partial discharge signal of the required type Accordingly, there is an effect of generating an independent partial discharge signal or a complex partial discharge signal.

Accordingly, in this embodiment, it is not necessary to perform partial discharge cell replacement during the test, so the time required for partial discharge cell replacement does not occur, and it is not necessary to manufacture an individual partial discharge signal generating device according to the type of partial discharge signal to be simulated, When repairing a partial discharge cell, it is necessary to perform maintenance on only one device, so resources (eg, insulating oil, SF ₆ gas, electrode, insulator, etc.) can be saved, and the circuit configuration for generating a complex partial discharge signal is simplified. It works.

As described above, the present invention has been described with reference to the embodiment shown in the drawings, but this is merely exemplary, and various modifications and equivalent other embodiments are possible therefrom by those skilled in the art to which the art pertains. will understand the point. Therefore, the technical protection scope of the present invention should be defined by the following claims.

1: high voltage part electrode 1': high voltage jumper wire
2: electrode support insulator 3, 4: fixing member
5: support 6: insulation plate
7: ground electrode 29: insulator chamber
30: high voltage applying wire 31: bushing
32: chamber bushing electrode 33: ground rod electrode
34: ground wire 110: partial discharge signal type input unit
120: partial discharge cell mapping unit 130: partial discharge cell multiple selection unit
140: composite partial discharge cells 140a ~ 140c, 8 ~ 13: partial discharge cells
150: partial discharge signal output unit

Claims (10)

a partial discharge signal type input unit for receiving a partial discharge signal type corresponding to the type of test;
a partial discharge cell mapping unit that maps partial discharge cells corresponding to the partial discharge signal types based on a lookup table storing information on partial discharge cells corresponding to the partial discharge signal types;
When partial discharge cell mapping information is input from the partial discharge cell mapping unit while the partial discharge cell selection preparation signal is input from the partial discharge signal type input unit, at least one partial discharge cell corresponding to the partial discharge cell mapping information Partial discharge cell multi-selection unit to select; and
Selective partial discharge comprising a; when at least one or more partial discharge cells are selected as described above, a partial discharge signal output unit for driving the selected partial discharge cell and outputting an independent partial discharge signal or a complex partial discharge signal; signal generator.
According to claim 1, wherein the partial discharge signal type input unit,
You can input the type of test,
When the type of test is entered,
Selective partial discharge signal generating device, characterized in that the partial discharge signal type corresponding to the type of test is automatically changed and received based on a lookup table in which information on the type of the test and the partial discharge signal type corresponding thereto is stored .
According to claim 1, wherein the partial discharge cell mapping unit,
Selective partial discharge signal generating apparatus, characterized in that in response to the partial discharge signal type independently maps one partial discharge cell or a plurality of partial discharge cells in a complex manner.
According to claim 1, wherein the partial discharge cell multi-selection unit,
selecting at least one partial discharge cell corresponding to the partial discharge cell mapping information from among a plurality of partial discharge cells included in the complex partial discharge cell,
The composite partial discharge cell,
A selective partial discharge signal generating apparatus comprising a plurality of partial discharge cells each capable of generating a characteristic partial discharge signal in one insulator chamber.
According to claim 4, wherein the plurality of partial discharge cells,
A selective partial discharge signal generator comprising at least two or more of a creepage discharge cell, a protruding electrode cell, an insulator void cell, a free conductor cell, a floating conductor cell, and an interwinding discharge cell.
receiving, by a partial discharge signal type input unit, a partial discharge signal type corresponding to a type of test;
mapping, by a partial discharge cell mapping unit, a partial discharge cell corresponding to the partial discharge signal type based on a lookup table storing information on the partial discharge cell corresponding to the partial discharge signal type;
When partial discharge cell mapping information is input from the partial discharge cell mapping unit while the partial discharge cell selection preparation signal is input from the partial discharge signal type input unit by the partial discharge cell multi-selection unit, the partial discharge cell mapping information corresponding to the selecting at least one partial discharge cell; and
When the partial discharge signal output unit selects at least one partial discharge cell as described above, driving the selected partial discharge cell to output an independent partial discharge signal or a composite partial discharge signal; How to generate a discharge signal.
The method of claim 6, wherein in the step of receiving the partial discharge signal type,
The partial discharge signal type input unit,
You can input the type of test,
When the type of test is entered,
Selective partial discharge signal generating method, characterized in that the partial discharge signal type corresponding to the type of test is automatically changed and received based on a lookup table in which information on the type of the test and the corresponding partial discharge signal type is stored .
7. The method of claim 6,
In the step of mapping the partial discharge cell corresponding to the partial discharge signal type,
The partial discharge cell mapping unit,
A method for generating a selective partial discharge signal, characterized in that in response to the partial discharge signal type, one partial discharge cell is independently mapped or a plurality of partial discharge cells are complexly mapped.
The method of claim 6, wherein in the step of selecting at least one or more partial discharge cells corresponding to the partial discharge cell mapping information,
The partial discharge cell multi-selection unit,
selecting at least one partial discharge cell corresponding to the partial discharge cell mapping information from among a plurality of partial discharge cells included in the complex partial discharge cell,
The composite partial discharge cell,
A method for generating a selective partial discharge signal comprising a plurality of partial discharge cells each capable of generating a characteristic partial discharge signal in one insulator chamber.
The method of claim 9, wherein the plurality of partial discharge cells,
A method for generating a selective partial discharge signal, comprising at least two or more of a creepage discharge cell, a protruding electrode cell, an insulator void cell, a free conductor cell, a floating conductor cell, and an interwinding discharge cell.

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