JP2510182Y2 - Partial discharge detection device in insulating gas - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION A. Field of Industrial Application The present invention relates to an insulating gas partial discharge detection device used for predictive maintenance of gas insulated power equipment.

B. Outline of the Invention The present invention is a device for detecting partial discharge in an insulating gas, in which a movable sensor holder is attached to a detection opening of a tank via a gas valve, and an ultrasonic sensor is installed in the holder. During measurement, a sensor etc. is placed in the detection opening through the valve to detect a wide range of partial discharge with high sensitivity, while pulling out of the valve for inspection and replacement so that inspection and replacement can be performed easily. It is the one.

C. Conventional technology Gas-insulated power equipment, eg gas-insulated switchgear (GIS)
In, the internal partial discharge (corona discharge) is detected to perform predictive maintenance. In that case, the predictive maintenance sensor is generally installed outside the tank in order not to reduce the reliability of the power equipment.However, if the sensor is installed outside the tank of the power equipment, the There is a limit to information collection due to noise.

For this reason, as shown in FIG. 3, it is considered that an opening 21A for detection is provided in the tank 21 of the electric power equipment, and the ultrasonic sensor 23 is attached to the opening 21A via the valve 22. The ultrasonic sensor 23 is housed in a case 24 formed of an ultrasonic absorbing material, and the lead wire 25 is pulled out.

With such a configuration, when the valve 22 is opened,
Ultrasonic waves due to partial discharge at the corona generation source x (where the conductor 26 is located) in the tank 21 pass through the valve 22 and the sensor 23
Is reached and detected. Also, when checking or replacing the sensor 23, close the valve 22 and keep the insulating gas in the tank 21.
If it is isolated from 27, it will not affect power equipment.

D. Problem to be solved by the invention However, when the sensor 23 is mounted via the valve 22 in this way, the sensor 23 is located at the back of the detection opening 21A of the tank 21, so that the detection sensitivity and detection There is a range problem.

An object of the present invention is to provide an insulating gas partial discharge detection device which allows easy inspection and replacement of the sensor, has high sensitivity and can detect a wide range.

E. Means for Solving the Problems The present invention is directed to a partial gas discharge detection device in a gas in which a detection opening is provided in a tank of a gas-insulated power device and an ultrasonic sensor is attached to the opening through a gas valve. , Attach a movable sensor holder to the gas valve,
An ultrasonic sensor is installed in the holder so as to be movable in the detection opening through the gas valve.

F. Action During measurement, the ultrasonic sensor moves through the valve into the detection opening, and the ultrasonic waves generated by the partial discharge in the tank are reliably detected.

Also, at the time of inspection and replacement, the sensor is pulled out of the valve and the valve is closed. Therefore, the sensor can be easily inspected and replaced without impairing the function of the power device.

G. Embodiment Hereinafter, the present invention will be described in detail based on an embodiment shown in the drawings.

FIGS. 1 and 2 (a) and (b) show an embodiment of the present invention, in which a detection opening 1A is provided in the tank of the gas-insulated electric power equipment 1, and the gas valve 2 is provided in this opening 1A. The movable sensor holder 3 is attached via the, and the ultrasonic sensor 4 is installed in the holder 3.

In the movable sensor holder 3, a fixed flange 3B is attached to one end of a cylinder 3A, a movable flange 3C is axially slidably accommodated in the cylinder 3A, and a bellows 3D is interposed between both flanges 3B and 3C. The structure is such that the ends are closely fixed.

The ultrasonic sensor 4 is attached to the inner surface of the movable flange 3C of the holder 3 while being housed in a case 5 formed of an ultrasonic absorbing material, and the lead wire 7 is drawn out via a gas seal type connector 6. Further, the case 5 is covered with a wire mesh 8 and is grounded.

A hole 3E into which the ultrasonic sensor 4, the case 5 and the like can be inserted is formed in the central portion of the fixed flange 3B of the holder 3. Further, the gas valve 2 is
The size is such that the ultrasonic sensor 4, the case 5, etc. can be inserted.

At the time of measurement, the valve 2 is in the open state, and FIG. 2 (b)
As described above, the movable flange 3C is pushed in and the bellows 3D is contracted, and the case 5 penetrates the valve 2, that is, the ultrasonic sensor 4 is positioned in the detection opening 1A.

Therefore, when partial discharge occurs in the tank, ultrasonic waves due to the discharge are accurately detected.

On the other hand, at the time of inspection or replacement, the movable flange 3C is pulled so that the case 5 is positioned in the cylinder 3A as shown in FIG. 2 (a). After this, the valve 2 is closed. In this state, the fixed flange 3B is removed from the valve 2 and the sensor 4 is inspected or replaced. After inspection or replacement, attach the valve 2 again and put it in the measurement state.

H. Effect of the Invention As described above, according to the present invention, the ultrasonic sensor is installed in the movable sensor holder, and it is positioned in the detection opening of the tank through the gas valve during measurement. A wide range of partial discharges can be detected with high sensitivity. In addition, since the sensor etc. can be pulled out of the valve, the detection opening can be closed by closing the valve, and the ultrasonic sensor can be easily inspected and replaced without impairing the function of the electric power equipment. it can. Further, by covering the area of the sensor case with a wire mesh and grounding it, it is possible to shield the sensor and prevent induction from a conductor.

[Brief description of drawings]

FIG. 1 is a structural explanatory view showing an embodiment of a partial discharge detecting device in an insulating gas according to the present invention, and FIGS. 2 (a) and 2 (b) are views showing a structure of a movable sensor holder of the same embodiment during measurement and FIG. 3 is a cross-sectional view at the time of inspection / replacement, and FIG. 1 ... Gas-insulated power equipment, 1A ... Tank detection opening, 2
… Gas valve, 3… Movable sensor holder, 3A… Cylinder, 3B… Fixed flange, 3C… Movable flange, 3D… Bellows, 3E… Hole, 4… Ultrasonic sensor, 5… Sensor case, 6… Gas seal type Connector, 7 ... Lead wire, 8 ... Wire mesh.

Claims (1)

(57) [Scope of utility model registration request] 1. In a gas partial discharge detection apparatus in which a detection opening is provided in a tank of a gas-insulated power equipment and an ultrasonic sensor is attached to the opening through a gas valve, the gas valve is movable. Attach the sensor holder,
An insulating gas partial discharge detection device, wherein an ultrasonic sensor is movably installed in the holder through the gas valve and into the detection opening.