JPH085701A - Ordinary connecting section for power cable - Google Patents

Abstract

PURPOSE:To provide an ordinary connecting section for power cable in which a signal generated by partial discharge can be easily detected outside a connecting box when the partial discharge occurs. CONSTITUTION:An external shielding layer 3 which electrically connects the metallic shielding layers of two power cables 1 to each other is provided with a slit (opening) 4. A connecting box 10 is constituted of a pair of metallic pipes 5a and 5b and an insulating pipe 6 put between the pipes 5a and 5b and the pipes 5a and 5b are electrically connected to each other through a bonded wire 7. When partial discharge occurs, a wide-band signal (partial discharge signal) is generated and propagated in the length direction of the cables 1. When the signal is generated, part of the signal leaks out of an external shielding layer 3 through the slit 4, because the slit 4 is formed through the layer 3 and further leaks out of the connecting box 10 through the insulating pipe 6. Therefore, the partial discharge can be detected when a partial discharge sensor is provided on the outside of the box 10.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a normal connecting portion of a power cable for connecting a pair of power cables, and more particularly to a normal connecting portion of a power cable which can easily detect a partial discharge.

[0002]

2. Description of the Related Art Conventionally, as a partial discharge detecting device for detecting a partial discharge (PD) generated in a power cable, there is a partial discharge detecting device using, for example, a tuning type detection method and a method using an AE (acoustic emission) sensor. Proposed.

A tuned detector using the tuned detection method is
A coupling capacitor and a detection impedance are connected in series between the inner conductor of the end portion of the power cable and the metal shield layer, and the potential difference generated across the detection impedance is taken out by a tuning amplifier having a tuning frequency of several hundred kHz. It was done like this.

However, this tunable detection device has a problem that it is difficult to detect the signal under the hot line because it is necessary to take out a signal from the inner conductor of the power cable, and a dedicated coupling capacitor is also required. . In addition, since the tuning frequency of this device is several hundred kHz, it is easily affected by ambient noise, and although good detection accuracy can be obtained in experiments in a shielded room, it is difficult to apply it to a cable after installation. There are also drawbacks.

On the other hand, the detection device using the AE sensor is
Although an AE sensor detects elastic waves propagating inside the insulator by partial discharge, this device is not affected by electrical noise, but it is strong because the ultrasonic waves have straightness. It has directivity, and there is a problem that the detection sensitivity is extremely lowered depending on the detection position.

As a method for detecting partial discharges that solves these drawbacks, a metal shield layer is insulated in a connection portion of a power cable, and a potential difference generated between both metal shield layers sandwiching the insulating portion when a partial discharge occurs is calculated by using the above-mentioned metal A detection method has also been proposed in which detection is performed using a detection impedance connected between shield layers (“Partial discharge test results for the Minamiikegami 275kV CV cable line”; Katsuta et al., Institute of Electrical Engineers, Insulation Material Research Material EIM-90-20). .

However, this method is limited in its application only to the connection portion where the metal shielding layer is insulated, and since the metal shielding layer is in the non-grounded state, it is not safe in the event of a short circuit accident. There is. In addition, there is a drawback that the device becomes large and requires skill in measurement.

Therefore, the inventors of the present application detected a broadband signal (hereinafter, referred to as a partial discharge signal) generated by partial discharge and propagating in the inner conductor of the power cable and the metal shield layer in the cable longitudinal direction by the resonance circuit. We proposed a resonance type partial discharge detection device (Japanese Patent Application No. 2-310197). In this resonance type partial discharge detection device, the resonance circuit is configured by an electrode arranged on the outer peripheral surface of the sheath of the power cable and forming a coupling capacitance with the metal shielding layer of the power cable, and a coil connected to this electrode. , As a partial discharge sensor.

[0009]

However, when the above-mentioned resonance type partial discharge detection device is applied to the ordinary connection portion of the power cable, there are the following problems. That is, in the normal connection portion of the power cable, the metal shield layers of the power cable are electrically connected by an external shield layer such as copper tape, and the partial discharge signal is provided outside the external shield layer due to the external shield layer. Do not leak to. Therefore, conventionally, as shown in FIG. 2, when a plurality of power cables 11 are connected by a normal connecting portion 12 and an insulating connecting portion 13, a partial discharge sensor is installed in the insulating connecting portion 13 or in the vicinity thereof, It is necessary to detect the partial discharge signal generated at the ordinary connecting portion 12 and propagating in the longitudinal direction of the cable 11 at the insulating connecting portion 13. Further, when the power cables of all lines are normally connected at the connection portion like the connection portion of the triplex power cable, it is necessary to detect the partial discharge signal at the terminal end portion 14 of the power cable 11, as shown in FIG. There is. However, in any of the methods shown in FIGS. 2 and 3, since the partial discharge signal generated at the normal connection portion is detected at a position separated from the normal connection portion, the partial discharge signal is attenuated and the measurement sensitivity is lowered. There is a point. Further, since the partial discharge signal passing through the plurality of connecting portions is detected, it is difficult to evaluate the position (connecting portion) where the partial discharge occurs.

The present invention has been made in view of the above problems, and it is an object of the present invention to provide a normal connecting portion of a power cable which can easily detect a signal due to partial discharge when partial discharge occurs. And

[0011]

A normal connection portion of a power cable according to the present invention is formed with a reinforcing insulating layer formed around the inner conductor connecting portions of a pair of power cables and around the reinforcing insulating layer. An ordinary power cable having an outer shield layer for electrically connecting between the metal shield layers of the pair of power cables, and a tubular connection box surrounding these inner conductor connecting portions, the reinforcing insulating layer and the outer shield layer. In the connection part, the external shielding layer is provided with an opening through which a signal generated by partial discharge can leak, and the connection box is an insulating tube,
A pair of metal cylinders arranged on both sides of this insulating cylinder, and
It is characterized by being constituted by a conductive material which electrically connects a pair of metal cylinders.

[0012]

In the present invention, the external shielding layer formed around the reinforcing insulating layer is provided with the opening through which the signal generated by the partial discharge can leak, and the junction box is the insulating cylinder and the insulating cylinder. It is composed of a pair of metal cylinders arranged on both sides of. Therefore, the partial discharge signal generated by the partial discharge and propagating in the cable longitudinal direction leaks through the opening of the external shielding layer and further leaks to the outside of the junction box through the insulating cylindrical portion of the junction box. Thus, if the partial discharge sensor is arranged outside the connection box, the partial discharge signal can be detected. In this case, since the pair of metal cylinders of the connection box are electrically connected by the conductive material, the sheath potential of the power cable is the same on both sides of the connection box.

[0013]

Embodiments of the present invention will now be described with reference to the accompanying drawings. FIG. 1 is a schematic view showing a normal connecting portion of a power cable according to an embodiment of the present invention. The inner conductors of the two power cables 1 are electrically connected to each other, and the reinforcing insulating layer 2 is formed around the inner conductor connecting portion. A conductive outer shield layer 3 is formed around the reinforcing insulating layer 2, and the outer shield layer 3 electrically connects the metal shield layers of each power cable. Further, the outer shielding layer 3 is provided with a slit (opening) 4 spirally extending from the one power cable 1 side to the other power cable 1 side, and the reinforcing insulating layer 2 is provided in the slit 4 portion. Exposed. The inner conductor connecting portion, the reinforcing insulating layer 2 and the outer shielding layer 3 provided around the inner conductor connecting portion are housed in a tubular connection box 10. The junction box 10 includes a pair of metal cylinders 5a and 5b and the metal cylinder 5a.
It is constituted by an insulating cylinder 4 arranged between a and 5b. The metal tubes 5a and 5b are electrically connected by a bond wire 7.

For example, when a partial discharge is generated at the position indicated by symbol A in FIG. 1, a high-frequency signal (partial discharge signal) is generated by this partial discharge, and this partial discharge signal passes through the inner conductor of the cable and the metal shielding layer. Propagate in the longitudinal direction of the cable. In this case, in this embodiment, since the slit 4 is provided in the external shielding layer 3, a part of the partial discharge signal leaks to the outside of the external shielding layer 3 through the slit 4, and further the insulating cylinder. It leaks to the outside of the junction box 10 via 6. Therefore, the partial discharge can be detected by installing the partial discharge sensor outside the connection box 10.

As the partial discharge sensor, for example, a connection box 1
It is possible to use a sensor composed of an antenna for receiving a partial discharge signal leaked from 0 and a resonance circuit connected to this antenna. However, the type of sensor is not particularly limited as long as it can detect the partial discharge signal leaking from the connection box 10.

In this embodiment, the partial discharge signal leaks to the outside of the junction box 10 through the slit 4 provided in the external shielding layer 3 and the insulating tube 6 provided in the junction box 10 as described above. The partial discharge can be detected even in the normal connection part. In addition, since it is possible to detect the partial discharge that has occurred at the normal connection part in the vicinity of its generation point,
Good sensitivity can be obtained. Furthermore, for example, by installing partial discharge sensors in all cable connections,
It is possible to easily evaluate the position where the partial discharge occurs.

[0017]

As described above, according to the present invention, since an opening is provided in the outer shielding layer and a part of the connection box is made of an insulating cylinder, it occurs in the normal connection part. It is possible to detect the partial discharge with a partial discharge sensor arranged outside the junction box. In addition, for example, by installing the partial discharge sensors in all the cable connection portions, it is possible to easily evaluate the position where the partial discharge occurs.

[Brief description of drawings]

FIG. 1 is a schematic view showing a normal connecting portion of a power cable according to an embodiment of the present invention.

FIG. 2 is a schematic diagram showing an example of a conventional method of measuring a partial discharge of a power cable and its problems.

FIG. 3 is a schematic diagram showing another example of a conventional method of measuring a partial discharge of a power cable and its problems.

[Explanation of symbols]

 1, 11; Power cable 2; Reinforcement insulation layer 3; External shielding layer 4; Slits 5a, 5b; Metal cylinder 6; Insulation cylinder 7; Bond wire 10; Junction box 12; Normal connection part 13; Insulation connection part

Claims (1)

[Claims] 1. A reinforcing insulating layer formed around the inner conductor connecting portion of a pair of power cables, and a metal shield layer of the pair of power cables formed around the reinforcing insulating layer are electrically connected. In an ordinary connection portion of a power cable having an outer shield layer that performs the internal conductor connection portion, a reinforcing insulation layer, and a tubular connection box that surrounds the outer shield layer, a signal generated by partial discharge in the outer shield layer. Is provided with an opening through which leakage can occur, and the connection box electrically connects an insulating cylinder, a pair of metal cylinders arranged on both sides of the insulating cylinder, and the pair of metal cylinders. A normal connection part of a power cable, which is composed of a conductive material.