KR100378530B1 - Foil Sensor Equipment Type Insulating Connecting Case - Google Patents

Abstract

The present invention relates to an insulated connection with a foil sensor for protecting against external noise or electromagnetic waves by incorporating a foil sensor for detecting an abnormality or absence of an ultra-high voltage power cable, wherein a certain portion is bent upwardly to form a predetermined space portion. A copper tube, a polyvinyl chloride anticorrosive layer formed on the outer side of the protective copper tube, and a foil sensor insulation layer on the surface to detect an abnormality or absence of an abnormal high voltage cable. The formed foil sensor and a connector connected to the foil sensor through a through hole on one side of the upper end of the space to transmit the detection signal of the foil sensor.

Description

Foil Sensor Equipment Type Insulating Connecting Case}

The present invention relates to an insulating junction box incorporating a foil sensor, and more particularly, a foil sensor capable of embedding a foil sensor in a space formed by an inner copper plate and an outer polyvinyl chloride (PVC) layer. A built-in insulated junction box.

In general, abnormality such as aging and damage caused by deterioration of ultra high voltage cable is detected by partial discharge test, a non-destructive test method, which diagnoses degradation by measuring partial discharge generated from insulating material. In reality, the present invention is applied to the extent that it determines that the discharge amount of a certain size or less is measured as good.

At this time, the sensor for detecting the presence or absence of abnormality in the partial discharge test method uses a metal foil sensor to detect the partial discharge of the insulating material by winding a thin metal plate.

The foil sensor is attached to a joint portion at which one end of the power cable and one end of the other power cable meet to detect an abnormality.

Here, the upper part of the joint portion is installed on the PVC anticorrosive layer forming the outer side and the protective copper tube forming the inner side, at this time, the foil sensor is attached to the upper portion of the PVC anticorrosive layer forming the outer side of the power cable The presence / absence of the power cable is detected, and a detection signal for the presence / absence of the detected power cable is transmitted to the outside through a connector connected to the foil sensor and monitored.

On the other hand, the foil sensor detects the magnitude of the discharge amount partially discharged from the insulating material of the power cable. The magnitude of the discharge amount is not constant and the variation width of the discharge amount is abnormal by detecting whether the fluctuating width is irregular. If the irregularity, the abnormality such as power cable aging, partial loss, etc. is to measure the abnormality.

Here, since the conventional foil sensor is attached to the upper portion of the PVC anticorrosive layer anyway and detects an abnormality of the power cable, there is a problem that inaccurate detection is performed under the influence of noise or electromagnetic waves transmitted from the outside. .

In addition, since the conventional foil sensor is exposed to the outside without any protective equipment, there is a problem that the foil sensor is corroded or broken by rain or snow due to weather changes.

Accordingly, the present invention has been made in view of the above problems, and a first object of the present invention is to provide a foil sensor built-in insulation junction box that can protect the foil sensor from external noise or electromagnetic waves.

The second object of the present invention is to provide an insulation junction box with a foil sensor capable of embedding a foil sensor in a space portion formed of a protective copper tube and a polyvinyl chloride anticorrosive layer.

The object of the present invention is a protective copper tube which is bent up a predetermined portion to form a predetermined space;

A polyvinyl chloride anticorrosive layer formed on the outer side of the protective copper tube;

A foil sensor embedded in the space part to detect abnormalities of the ultra-high voltage power cable and having a foil sensor insulating layer formed on a surface thereof to block an organic voltage; And

And a connector connected to the foil sensor through a through hole on one side of the upper portion of the space to transmit the detection signal of the foil sensor.

Here, the foil sensor is preferably made of a metal material.

In addition, the foil sensor insulation layer is preferably made of polyethylene.

Other objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and the preferred embodiments associated with the accompanying drawings.

1 is a block diagram of an insulation junction box built-in foil sensor according to the present invention,

2 is a state diagram of the use of the foil-mounted insulation junction box according to the invention.

<Description of the code | symbol about the principal part of drawing>

10: space part

20: protective copper tube 30: polyvinyl chloride (PVC) anticorrosive layer

40: ultra high voltage cable 40a: conductor

40b: cable insulator 40c: aluminum sheath

40d: PVC sheath 50: Foil sensor

55: foil sensor insulation layer 60: connector

70: joint 80: insulated container

100: foil sensor built-in insulation junction box

Prior to the detailed description of the configuration related to the foil sensor built-in insulation junction box according to the present invention, the foil sensor (foil sensor) consistently used in the present invention is a "winding of a metal sheet to sense the amount of partial discharge emitted from the insulating material In the case of a solid insulator of a power device or a cable or a composite insulator including a gas, it is used as a sensor for detecting a discharge amount in a partial discharge test method for diagnosing degradation by measuring a partial discharge generated from an insulating material.

In the present invention, the foil sensor is used as a partial discharge detection sensor that can detect the discharge from the ultra-high voltage cable insulator to detect the abnormality.

Next, the configuration of the foil sensor built-in insulation junction box according to the present invention will be described in detail with the accompanying drawings.

1 is a configuration diagram of a foil sensor built-in insulation junction box according to the invention, Figure 2 is a state diagram of the use of foil sensor built-in insulation junction box according to the present invention.

As shown in Figure 1 and 2, the built-in insulated junction box 100 of a predetermined size to form a cuboid-shaped space portion 10 to form a rectangular parallelepiped portion of the central region that is gently projected upward upward again. A protective copper tube 20 and a polyvinyl chloride (PVC) anticorrosive layer 30 formed on the outer side of the protective copper tube 20 and the like.

Here, the space part 10 is built in a foil sensor 50 for detecting the presence or absence of abnormality of the ultra-high voltage cable 40 by the conventional partial discharge test method, the foil sensor 50 made of a metal material ) Is connected to the connector 60 penetrating through one side of the upper end of the space portion 10, thereby transmitting a discharge signal detected by the power cable 40 to the outside.

On the surface of the foil sensor 50, a foil sensor insulating layer 55 having a polyethylene material is formed on a surface of the foil sensor 50, which may affect the discharge signal of the foil sensor 50 due to an induced voltage applied from the outside. Can be blocked.

In addition, the joint 70 is for connecting between the power cable 40 of the power cable 40, the insulating cylinder 80 is fixed between the protective copper tube 20 and the protective copper tube 20 Blocks the organic current flowing through the protective copper tube (20).

In addition, the power cable 40 located at the lower end of the protective copper tube 20 has a central conductor 40a, a cable insulator 40b formed outside the conductor 40a, and the cable insulator 40b. An aluminum sheath 40c formed on the outside and a polyvinyl chloride (PVC) sheath 40d formed on the outside of the aluminum sheath 40c.

Meanwhile, as described above, the foil sensor 50 senses a partial discharge generated from the cable insulator 40b and transmits it through the connector 60. At this time, the protective copper tube 20 and the It is embedded in the space part 10 made of the PVC anticorrosive layer 30 formed on the outside of the protective copper tube 20 to be cut off from the outside, thereby detecting precise discharge signals without being affected by noise, electromagnetic waves or rainfall and snowfall. You can do

Therefore, the foil sensor 50 from which the influence from the outside is blocked can accurately and accurately detect the presence or absence of the abnormality of the power cable 40.

In addition, the insulating junction box 100 is provided with a pair so as to be symmetrical with the insulator 80 and the joint 70 positioned below the insulator 70 as shown in FIG. It is possible to accurately detect the partial discharge from the cable insulator 40b.

In the foil sensor built-in insulated junction box 100 according to the present invention as described above, the shape of the space portion 10 in the shape of the foil sensor 50 to be embedded in addition to the rectangular parallelepiped, semi-cylindrical, cube, etc. It can be used arbitrarily selected. In addition, the PVC anticorrosive layer 30 may be arbitrarily selected from a flame retardant resin material such as flame retardant polyester, flame retardant polypropylene, etc. in addition to the PVC material.

As described above, according to the present invention, the foil sensor built-in insulation connection has a built-in foil sensor that detects partial discharge, thereby protecting it safely. Therefore, it is relatively insensitive to noise, electromagnetic waves and moisture from corrosion. There is an effect that can receive a good partial discharge detection less. In addition, since the structure using the existing protective copper pipe and PVC anticorrosive layer, it can be easily produced without additional materials, there is an effect of reducing the production cost.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, various other modifications and variations may be made without departing from the spirit and scope of the invention. Accordingly, it is intended that the appended claims cover such modifications and variations as fall within the true scope of the invention.

Claims (3)

A protective copper tube 20 in which a predetermined portion is bent upward to form a predetermined space portion 10; A polyvinyl chloride (polyvinylcloride) anticorrosive layer 30 formed outside the protective copper tube 20; Metal foil sensor is built in the space portion 10 to detect the abnormality or absence of the ultra-high voltage power cable 40, the foil sensor insulation layer 55 of the polyethylene material is formed on the surface to block the organic voltage 50; And Foil sensor built-in insulation junction box characterized in that consisting of; connector 60 is connected to the foil sensor 50 through one side of the upper end of the space portion 10 to transmit the detection signal of the foil sensor 50 . delete delete