JPH067146B2 - Partial discharge measurement method - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a partial discharge measuring method for diagnosing insulation deterioration of a power cable, and more particularly to an insulation connection part of a long cable in a live state or its vicinity ( Below, simply "insulated connection"
Say. ), It relates to a partial discharge measuring method adapted to detect the partial discharge which occurs in (1).

[Prior art]

3 (a) and 3 (b) show a conventional partial discharge measurement method,
(a) is a connection diagram thereof, and (b) is an equivalent circuit diagram of (a). The test cable 4 is connected by an intermediate connection portion 8, one end connection portion 3a is connected to the high-voltage power supply 1 via the high frequency blocking coil 2, and the other end connection portion 3b is a coupling capacitor 5 and It is connected to the detection impedance 6. A partial discharge measuring device 7 is connected to both ends of the detection impedance 6 so as to detect a potential difference generated at both ends of the detection impedance 6.

In addition, 4a in (b) in the figure is the capacitance of the sample cable 4.

Here, when measuring the partial discharge of the insulator of the test cable 4, the operation of the power cable 4 is stopped and the test voltage is applied from the high-voltage power supply 1 to measure the partial discharge. At this time, a high-frequency pulse is induced in the conductor of the power cable 4 by the partial discharge generated from the insulator, and the coupling capacitor 5
Is output to the detection impedance 7 via. The partial discharge measuring instrument 7 detects the pulsating voltage generated across the detection impedance 7 based on the high frequency pulse. The detected data is subjected to predetermined data processing, and thereby the insulation deterioration of the test cable 4 is diagnosed.

[Problems to be Solved by the Invention]

However, according to the conventional method of measuring partial discharge, when measuring partial discharge in the insulated connection part of a long transmission cable system, the location where the partial discharge occurs is far away from the coupling capacitor, so high-frequency pulses due to partial discharge are transmitted to the coupling capacitor. There is a problem that it will be attenuated by the time it arrives.

Further, there is a problem that the detection sensitivity of the high frequency pulse is lowered due to the influence of external noise and the large capacitance of the entire cable.

Furthermore, there is a problem in that preparation for measurement is troublesome, such as using a coupling capacitor that can withstand a high voltage, and it is impossible to always perform measurement in a live state.

Therefore, a first object of the present invention is to provide a partial discharge measuring method capable of detecting partial discharge in a long cable with high sensitivity.

A second object of the present invention is to provide a partial discharge measuring method which does not require special parts for measuring partial discharge such as a coupling capacitor.

A third object of the present invention is to provide a partial discharge measuring method capable of always measuring in a live state.

[Means for Solving the Problems]

In order to achieve the above object, the present invention provides an insulating connection (IJ
The detection electrode is provided on one of the separated metal sheaths (B part), and one end of the detection impedance is connected to the one metal sheath via the detection electrode, and is generated at both ends of the detection impedance based on a predetermined high frequency pulse. There is provided a partial discharge measuring method characterized by measuring a potential difference.

Further, since a high voltage may be applied to the metal sheath, the detection electrode may be provided on the metal sheath of the insulating connection part via an anticorrosion layer.

Further, one of the metal sheaths may be trimmed at one location to provide a detection electrode, and the detection impedance may be connected to the detection electrode and the series capacitor means may be connected to the detection electrode, which may be connected to the other of the trimmed metal sheaths. .

As described above, by performing the measurement in the vicinity of the partial discharge, the measurement can be performed with high sensitivity, and it is not necessary to prepare a coupling capacitor or the like, which facilitates the measurement.

〔Example〕

 Hereinafter, the partial discharge measuring method of the present invention will be described in detail.

FIG. 1 shows a first embodiment of the present invention, and shows a method for measuring the partial discharge generated in the insulator of the insulating connection portion (IJB portion).

The insulation connection shown in FIG. 1 is composed of a conductor 9, an inner semiconductive layer (not shown), a cable insulator 11, an outer semiconductive layer 12, a metal sheath 13, and a vinyl sheath 20. ing. Further, the auxiliary electrode 16 is provided on the vinyl sheath 20 and the capacitor is formed on the metal sheath 13 at one of the above-mentioned insulating connection portions where the metal sheath 13 and the like are separated. The jumper wire 14 is provided between the auxiliary electrode 16 and one of the insulating connection portions where the metal sheath 13 is separated.
The detection impedance 6 is connected via the, and the partial discharge measuring instrument 7 is connected to both ends of the detection impedance 6.

In the above configuration, when a partial discharge is generated in the cable insulator 11, a partial discharge signal (high frequency pulse) is output to the detection impedance 6 from one of the insulation connection portions where the metal sheath 13 is separated or the auxiliary electrode 16, and the detection impedance 6 is detected. The high frequency pulse is measured by the partial discharge measuring instrument 7 based on the potential difference generated at both ends of 6.

That is, the insulating connection portion is formed of the metal sheath 13 due to a ground fault or the like.
Since a high voltage may be applied to the auxiliary electrode 16, a capacitor having a high dielectric strength is formed using the auxiliary electrode 16 and the metal sheath 13 as electrodes, so that the partial discharge signal of the auxiliary electrode 16 part is detected. ing.

FIG. 2 shows a second embodiment of the present invention.

One of the metal sheaths 13 is trimmed by a trimming portion 18 to form a detection electrode 15. This is because the metal sheath independent piece is formed by providing the metal sheath edge cutting portion 18, and thus this metal piece is used as the detection electrode. At both ends of this detection electrode 15,
The detection impedances 6a and 6b are connected, and the capacitor 17 and the gapless arrester 19 are connected to the ground side thereof, respectively.

That is, in this embodiment, the capacitor 17 is used as a coupling capacitor instead of using the auxiliary electrode, the electrostatic capacity of the gapless arrester (for example, ZnO element) 19 is used as a coupling capacitor, and it is used for surge voltage protection. Is also used.

〔The invention's effect〕

As described above, according to the partial discharge measuring method of the present invention, since the metal sheath separated in advance at the insulating connection portion is used, the partial discharge is highly sensitive without using special means such as a coupling capacitor. Can be detected.

Further, the partial discharge can be constantly measured even in a live state.

[Brief description of drawings]

FIG. 1 is an explanatory view showing a first embodiment of the present invention, FIG. 2 is an explanatory view showing a second embodiment of the present invention, FIG. 3 (a),
(b) is an explanatory view showing a conventional partial discharge measuring method. Explanation of code 1 …… High voltage power supply 2 …… High frequency blocking coil 3a, 3b …… Terminal connection part 4 …… Power cable 5 …… Coupling capacitor 6 …… Detection impedance 7 …… Partial discharge measuring instrument 8 …… Intermediate connection Part 9 ... Conductor 11 ... Cable insulating layer 12 ... External semi-conductive layer 13 ... Metal sheath 14 ... Jumper wire 15 ... Detection electrode 16 ... Auxiliary electrode 17 ... Capacitor 18 ... Metal sheath edge section 19 …… Gapless arrester 20 …… Vinyl sheath

Claims (2)

[Claims] 1. A partial discharge measuring method for measuring a partial discharge generated in an insulator of a power cable or a power cable insulating connection portion to which a high voltage is applied, wherein the insulating connection portion is on one of the separated metal sheaths. A detection electrode is provided, one end of the detection impedance is connected to the one metal sheath via the detection electrode, and the other end of the detection impedance is connected to the other metal sheath to connect to the partial discharge. A partial discharge measuring method, characterized in that a potential difference generated at both ends of the detection impedance is measured by a high frequency pulse based thereon. 2. The partial discharge measuring method according to claim 1, wherein the detection electrode is provided on the metal sheath of the insulating connection portion via an anticorrosion layer.