KR20190023884A - Test terminal device measuring partial discharge and method for measuring partial discharge - Google Patents

Abstract

The present invention relates to a test terminal device for measuring partial discharge and a method for measuring partial discharge, wherein two ground wires are connected in parallel to a high-pressure power cable and switches are provided at one side of the ground wires respectively, and a partial discharge measurement system can be easily installed by inserting insulators into the switches to interrupt the current.

Description

Technical Field [0001] The present invention relates to a test terminal device and a method for measuring a partial discharge,

The present invention relates to a test terminal apparatus and a partial discharge measuring method for partial discharge measurement.

Partial discharge refers to a partial surface discharge caused by a high electric field on the surface of an insulator or an internal discharge occurring in a void or bubble existing in an insulator. When a partial discharge occurs, deterioration of the insulator due to voltage stress advances do.

In order to prevent such a deterioration phenomenon, as shown in FIG. 1, a CT or a HFCT is installed on a ground line (or a shield wire) of a high-voltage power cable and then a portion connected to a current transformer or a high frequency current transformer Partial discharge was detected by the discharge measurement system.

However, high-voltage cables used in nuclear power plants are subjected to high voltage voltages such as 4.16 kV, 6.6 kV, 13.8 kV and 22 kV. Therefore, it is necessary to measure a partial discharge after installing a current transformer or a high-frequency current transformer in a ground line in the state in which a voltage for operating a nuclear power plant is applied. This means that a detection source or an operator may be charged with high voltage during partial discharge measurement, And the like.

FIG. 1 is a conceptual diagram for measuring a partial discharge by installing a partial discharge measuring system on a high-voltage power cable.

1, a conventional partial discharge measuring system 500 includes a high-voltage power cable 200 shield installed in a load center or a current transformer 400 or a high-frequency current transformer installed in a ground line connected in parallel at a sheath The partial discharge measuring system 500 determines whether the partial discharge is detected by the rear current transformer 400 or the high frequency current transformer.

Since such a partial discharge measurement is performed by installing a partial discharge measurement system during the operation of the nuclear power plant, there may be an accident that the detection source is electrocuted or a failure of the nuclear power plant may occur.

Therefore, there is a need for measures to ensure safety in measuring partial discharge of high-voltage cables at nuclear power plants.

Korea Patent Publication No. 10-2009-0081772

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a partial discharge measuring system on a high-voltage cable to measure partial discharge safely.

According to an aspect of the present invention, there is provided a partial discharge measuring method comprising the steps of: connecting a switch of a test terminal to two ground lines branched in parallel in a power cable; Inserting an insulator into a switch connected to one ground line; Installing a current transformer and a partial discharge measuring system on the ground line into which the insulator is inserted; Inserting the insulator into a switch connected to another ground line; And measuring a partial discharge of the power cable by measuring one ground line with the partial discharge measuring system.

In order to attain the above object, a test terminal device for partial discharge measurement according to the present invention is a test terminal provided in a power cable penetrating the inside of a load center, wherein the power cable is branched in parallel and provided with a ground line, A first switch connected to the ground line; A second switch connected in parallel to said power cable and having another ground line, said second switch being connected to said another ground line; And an insulator for interrupting a current flowing to the first switch or the second switch when the first switch or the second switch is connected by a closed circuit.

The insulator is inserted into the first switch or the second switch connected to one of the first ground wire and the second ground wire to interrupt the current and the first ground wire or the second ground wire, And a partial discharge measuring system is installed and inserted into the other one of the first ground wire and the second ground wire where the current transformer and the partial discharge measuring system are not installed and the current is cut off by removing the inserted insulator, And the partial discharge is measured.

The test terminal device and the partial discharge measuring method for the partial discharge measurement according to the present invention can safely measure the partial discharge. In the present invention, a switch is provided in parallel in the power cable to form two parts of a grounding line that can be closed, and one side is connected to a switch by a heat-generating body so that the corresponding grounding line is open. Thus, after installing the partial discharge measurement system on the opened ground line, the insulator is connected to the switch of the other part, and the partial discharge measurement system is installed by safely installing the partial discharge measuring system, Can be measured.

FIG. 1 is a conceptual diagram for measuring a partial discharge by installing a partial discharge measuring system on a high-voltage power cable.
2 is a block diagram of a load center in which a test terminal is installed for partial discharge measurement in accordance with an embodiment of the present invention.
3 is a flowchart illustrating a partial discharge measuring method according to an embodiment of the present invention.
4 is a conceptual diagram of a load center in which a test terminal is installed for partial discharge measurement in a plurality of power cables according to an embodiment of the present invention.
5 is a view schematically showing one form in which an insulator is inserted by extending a pair of ground lines in the test terminal shown in FIG.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, some configurations which are not related to the gist of the present invention may be omitted or compressed, but the configurations omitted are not necessarily those not necessary in the present invention, and they may be combined by a person having ordinary skill in the art to which the present invention belongs. .

2 is a block diagram of a load center in which a test terminal is installed for partial discharge measurement in accordance with an embodiment of the present invention.

2, a test terminal device for partial discharge measurement according to an embodiment of the present invention includes a first ground line 210 branched in parallel in a high-voltage power cable 200 inside a load center 300, And the second ground line 220, respectively. The test terminal 100 apparatus includes a first switch 110, a second switch 120, and an insulator 130.

Here, the first ground line 210 and the second ground line 220 are formed by branching from a shielding portion that surrounds the insulating material among a conductor, an insulating material, a shield, or a sheath portion constituting the power cable 200.

The first switch 110 is electrically connected to one side of the first ground line 210.

The second switch 120 is electrically connected to the second ground line 220.

The insulator 130 is formed in such a shape that a handle is formed and can be coupled to the switch and the inspecting circle is inserted into the first switch 110 or the second switch 120 to connect the first ground line 210 or the second ground line 210. [ It is possible to cut off the current flowing in the power supply 220.

3 is a flowchart illustrating a partial discharge measuring method according to an embodiment of the present invention.

3, the switches of the test terminal 100 are respectively connected to two ground lines which are branched in parallel at the shield or sheath portion that initially surrounds the insulating material of the power cable 200. [ A ground line (or shield line) is connected to the ground and is called a first ground line 210 and a second ground line 220 for identification. A switch connected to each ground line is connected to the first switch 110 and the second ground line 220, 2 switch 120. In this case,

Thereafter, the insulator 130 is inserted into the switch connected to one ground line. <S22> Here, one ground line may be the first ground line 210, or may be the second ground line 220. FIG. It is assumed that the insulator 130 is inserted into the second switch 120 connected to the second ground line 220 for convenience.

By inserting the insulator 130 into the second switch 120, various currents such as the circulating current, the video current, and the fault current of the nuclear power plant flow through the first ground line 210 and the second ground line 220, No current flows in the power cable 200 in the nuclear power plant.

The insulator 130 may be inserted into the second switch 120 connected to the second ground line 220 by the first switch 110 connected to the first ground line 210. Accordingly, when the insulator 130 is inserted into the first switch 110, various currents such as a circulating current, a video current, and an accident current of the nuclear power plant flow into the second ground line 220, No current flows in the power cable 200 in the power cable 200.

As described above, in the present invention, the insulator 130 is inserted into the second switch 120 connected to the second ground line 220 to interrupt the current. However, in the power cable 200, It is possible to cut off the current by inserting the branched two ground wires into either one of the switches with the insulator 130 without particularly distinguishing them.

The current transformer 400 and the partial discharge measuring system 500 are installed on the second ground line 220 into which the insulator 130 is inserted S23 When the insulator 130 is inserted into the second switch 120, Since the ground line 220 is an open circuit and no current flows, the detection source can easily install the current transformer 400 and the partial discharge measurement system 500 on the second ground line 220.

At this time, the current transformer 400 is connected between the second ground line 220 and ground, and the current transformer 400 and the partial discharge measuring system 500 are also connected to each other through the terminals. In addition, the partial discharge measurement system 500 may comprise an oscilloscope, a spectrum analyzer, and a computer.

The insulator 130 is inserted into the first switch 110 connected to the first ground line 210. When the insulator 130 is inserted into the first switch 110, the first switch 110 is connected The first ground line 210 becomes an open circuit and the current does not flow. On the contrary, the second ground line 220 flows through the second ground line 220 when the closed circuit is in the power cable 200.

Finally, the second ground line 220 is measured by the partial discharge measuring system 500 to measure the partial discharge of the power cable 200. <S25> After the measurement of the partial discharge is completed, And the second ground line 220 is formed as an open circuit in a normal state.

That is, after the partial discharge measurement is completed, the insulator 130 inserted in the first switch 110 is detached from the first switch 110 and inserted into the second switch 120, and then the current transformer 400 and the partial discharge The measurement system 500 is released from the second ground line 220.

Through this series of processes, the partial discharge measurement system 500 can be easily installed in the high-voltage power cable 200, and partial discharge can be measured.

4 is a conceptual diagram of a load center in which a test terminal is installed for partial discharge measurement in a plurality of power cables according to an embodiment of the present invention.

As shown in FIG. 4, in the present invention, a test terminal 100 may be installed in a plurality of power cables 200 in a load center 300 to measure a partial discharge. For example, the three power cables 200 are formed with a first ground line 210 and a second ground line 220, which are branched in parallel, and each of the first ground line 210 and the second ground line 220, The first switch 110 and the second switch 120 are connected.

The insulator 130 is inserted into the second switch 120 connected to the second ground line 220 so that the second ground line 220 is formed as an open circuit and then the second ground line 220 is connected to the second ground line 220. [ 220 and the insulator 130 are detached from the second switch 120 and inserted into the first switch 110 so that each power cable 200 is connected to the first switch 110, The partial discharge can be measured.

5 is a view schematically showing one form in which the insulator 130 is inserted by enlarging a pair of ground lines in the test terminal shown in FIG.

5, the insulator 130 according to an exemplary embodiment of the present invention has a knob portion and is formed in a shape similar to that of the first switch 110 and the second switch 120, 130 can be inserted into the first switch 110 and the second switch 120 so that the detecting source separates the insulator 130 inserted in the first switch 110 and the second switch 120, The insulator 130 inserted into the second switch 120 may be removed and inserted into the first switch 110. [

The insulator 130 may be directly inserted into or detached from the detection source, but may be inserted into the first switch 110 and the second switch 120 through a button provided outside the test terminal 100.

For example, insulators 130 are disposed on the same line of the first switch 110 and the second switch 120 inside the test terminal 100, respectively. The insulator 130 is disposed outside the test terminal 100 As shown in Fig. The insulator 130 can be inserted into the first switch 110 or the second switch 120 by pressing the button associated with the first switch 110 or the second switch 120 once again, The insulator 130 may be separated from the first switch 110 or the second switch 120 by pressing the same button.

A method of inserting the insulator 130 into the first switch 110 connected to the first ground line 210 and the second switch 120 connected to the second ground line 220 may be variously implemented.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, And additions should be considered as falling within the scope of the claims of the present invention.

100: Test Terminal
110: first switch
120: second switch
130: Insulator
200: Power cable
210: first ground line
220: second ground line
300: Road Center
400: Current transformer
500: Partial discharge measurement system

Claims (3)

Connecting switches of the test terminals to two ground lines respectively branched in parallel in the power cable;
Inserting an insulator into a switch connected to one ground line;
Installing a current transformer and a partial discharge measuring system on the ground line into which the insulator is inserted;
Inserting the insulator into a switch connected to another ground line; And
And measuring a partial discharge of the power cable by measuring one ground line with the partial discharge measuring system.
A test terminal provided in a power cable penetrating the inside of a load center,
A first switch connected in parallel to the power cable and having a ground line and connected to the ground line;
A second switch connected in parallel to said power cable and having another ground line, said second switch being connected to said another ground line; And
And an insulator for blocking a current flowing to the first switch or the second switch when the first switch or the second switch is connected by a closed circuit.
The method according to claim 1,
Wherein the insulator is inserted into the first switch or the second switch connected to one of the first ground line and the second ground line,
A current transformer and a partial discharge measuring system are installed on the first ground line or the second ground line,
And the partial discharge of the power cable is measured by inserting the insulator into the remaining one of the first ground wire or the second ground wire where the current transformer and the partial discharge measuring system are not installed, For a partial discharge measurement.

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