WO2020031369A1 - Device for specifying generation point of corona discharge, and method for specifying generation point of corona discharge - Google Patents

Abstract

[Solution] This device, which specifies a generation point of corona discharge in a power transmission and distribution line, includes: a sound detection device which detects a sound in an ultrasonic frequency band; and an image-capturing device which captures an ultraviolet-band image of a point at which the sound in the ultrasonic frequency band is detected.

Description

Corona discharge occurrence location specifying device, corona discharge occurrence location method

The present invention relates to a corona discharge occurrence location specifying device and a corona discharge occurrence location specifying method.

For example, there is known a technique of detecting sound in a frequency band of an ultrasonic wave generated from corona discharge and specifying a position where corona discharge is generated from a direction in which the sound is detected (for example, see Patent Document 1). In addition, a technique for specifying a corona discharge generation position from an image in an ultraviolet region is known (for example, see Patent Document 2).

JP-A-9-233679 JP 2005-241624 A

However, in the former case, it is difficult to accurately specify the corona discharge generation position because it depends only on the information indicating the direction of sound detection in the ultrasonic frequency band. Also, in the latter case, there is a problem that the power consumption is wastefully increased because it is necessary to constantly capture an image in the ultraviolet region regardless of the occurrence of corona discharge.

Therefore, the present invention provides a corona discharge location that can accurately identify the location of the corona discharge while suppressing the power consumption in order to solve radio wave interference and noise caused by the corona discharge at an early stage. It is an object of the present invention to provide an identification device and an occurrence location identification method.

The main invention for solving the above-mentioned problems is an apparatus for identifying a location of a corona discharge in a transmission and distribution line, and a sound detection apparatus for detecting a sound in an ultrasonic frequency band, and for identifying a location of a corona discharge. And a photographing device for photographing an image in an ultraviolet region at a point where a sound in the frequency band of the ultrasonic wave is detected.

の 他 Other features of the present invention will be apparent from the accompanying drawings and the description of this specification.

According to the present invention, it is possible to accurately specify a location where corona discharge occurs while suppressing power consumption.

It is a figure which shows the example of installation of the generation | occurrence | production location identification apparatus of corona discharge which concerns on this embodiment. FIG. 2 is a block diagram illustrating a corona discharge occurrence location specifying device according to the embodiment. 4 is a flowchart illustrating an operation of the corona discharge occurrence location specifying device according to the embodiment.

、 At least the following matters will be made clear by the description in this specification and the accompanying drawings.

=== Corona discharge ===
For example, transmission and distribution lines installed on a tower are insulated by surrounding air. However, when the peak value of the potential gradient on the surface of the transmission and distribution line reaches about 30 kV / cm, the surrounding air loses the insulating power, and the partial discharge accompanied by dimming and sound from the surface of the transmission and distribution line ( Corona discharge occurs. Although corona discharge is affected by various factors such as deterioration of transmission and distribution lines and weather, the occurrence of corona discharge causes power loss, radio interference, communication obstruction, electric wire corrosion, and the like. Therefore, it is necessary for the electric power company to identify the location of the corona discharge at an early stage and to take measures to prevent the corona discharge from occurring.

=== Example of installation of occurrence location identification device ===
FIG. 1 is a diagram showing an installation example of a corona discharge occurrence location specifying device according to the present embodiment.

The generation location identification device 1 detects the sound in the frequency band of the ultrasonic wave, and the ultraviolet light at the detection point of the sound so that the worker of the power company can perform the operation for preventing the corona discharge from being generated. This is a device that captures an image of an area. The occurrence location identification device 1 is configured to include the sound detection device 10 and the imaging device 20 in order to realize the above functions. Although details of the sound detection device 10 and the imaging device 20 will be described later, the sound detection device 10 is configured to detect sound in the frequency band of ultrasonic waves when corona discharge occurs from the surface of the transmission and distribution line 100. Each of the photographing devices 20 is attached to a predetermined position of the steel tower 200 so that an image in an ultraviolet region can be photographed when corona discharge occurs from the surface of the transmission and distribution line 100. It is desirable that the photographing device 20 includes a wide-angle camera capable of photographing the transmission and distribution line 100 in a wide range.

=== Configuration of Occurrence Point Identification Device ===
FIG. 2 is a block diagram illustrating the corona discharge occurrence location specifying device according to the present embodiment.

The occurrence location specifying device 1 is configured to include the sound detection device 10 and the photographing device 20 in order to specify the occurrence location of the corona discharge.

<Sound detection device>
Corona discharge is generated with sound in the frequency band of ultrasonic waves (20 kHz band). Therefore, the sound detection device 10 is a device that detects sound in an ultrasonic frequency band toward the transmission and distribution line 100 in order to roughly specify a location where corona discharge occurs.

The sound detection device 10 includes an input unit 101, an extraction unit 102, a determination unit 103, a storage unit 104, and an output unit 105.

The input unit 101 is a unit for acquiring the sound around the transmission and distribution line 100.

The extraction unit 102 is a unit that extracts only the sound in the frequency band of the ultrasonic wave from the sound acquired by the input unit 101. That is, when the sound in the frequency band of the ultrasonic wave is extracted, it can be considered that there is a possibility that corona discharge has occurred. Note that the extraction unit 102 is configured to include, for example, a band filter capable of extracting only a sound in a 20 kHz band.

The determination unit 103 determines whether the sound extracted by the extraction unit 102 is a sound caused by corona discharge, and determines that the sound extracted by the extraction unit 102 is a sound caused by corona discharge. And a means for generating a determination signal including information indicating the intensity of the ultrasonic wave. For example, the function of the determination unit 103 is realized by software processing of a microprocessor.

The storage unit 104 has, for example, a first storage area 104A, a second storage area 104B, and a third storage area 104C. The first storage area 104A stores in advance program data for the determination unit 103 to determine whether the sound extracted by the extraction unit 102 is a sound caused by corona discharge. In addition, the second storage area 104B stores, as table data to be referred to when the determination unit 103 determines whether or not the sound extracted by the extraction unit 102 is a sound caused by corona discharge, a value associated with the corona discharge. Typical pattern data and the like regarding sound in the frequency band of the sound wave are stored in advance. In the third storage area 104C, work data and the like obtained in the process of determining whether the sound extracted by the extracting unit 102 is a sound caused by corona discharge or the like is sequentially stored. That is, the determination unit 103 determines whether or not the sound acquired by the input unit 101 is a sound in the frequency band of the ultrasonic wave caused by the corona discharge while appropriately referring to the table data according to the decoding result of the program data. I do. Note that the storage unit 104 may be a single storage unit formed by dividing the first to third storage areas 104A to 104C into the same storage area, or the first to third storage areas 104A to 104C. A plurality of storage units that form the 104C in separate storage areas may be used.

The output unit 105 is a unit that outputs a determination signal generated from the determination unit 103.

Thus, by detecting the sound in the frequency band of the ultrasonic wave, it is possible to roughly specify the location where the corona discharge occurs.

<Photographing device>
The image capturing device 20 is a device that captures an image of an ultraviolet region at a point where sound in a frequency band of an ultrasonic wave is detected, triggered by a determination signal output from the sound detecting device 10.

The imaging device 20 includes an input unit 201, a UV camera unit 202, a control unit 203, a storage unit 204, and an output unit 205.

The input unit 201 is a unit that acquires the determination signal output from the sound detection device 10.

The UV camera unit 202 is a unit that captures an image of the transmission and distribution line 100 at a point where sound in the frequency band of the ultrasonic wave is detected as an image in the ultraviolet region. It is preferable that the UV camera unit 202 includes a wide-angle lens that can photograph the transmission and distribution line 100 over a wide range.

The control unit 203 is a unit that controls a shooting operation of the UV camera unit 202 in accordance with a predetermined condition, triggered by the determination signal acquired by the input unit 201. For example, the function of the control unit 203 is realized by software processing of a microprocessor.

The storage unit 204 has, for example, a first storage area 204A, a second storage area 204B, and a third storage area 204C. In the first storage area 204A, program data for controlling the shooting operation of the UV camera unit 202 is stored in advance. In the second storage area 204B, typical pattern data related to an image in the ultraviolet region of corona discharge and the like are stored in advance as table data to be referred to when the control unit 203 controls the photographing operation of the UV camera unit 202. ing. In the third storage area 204C, a video (moving image, still image) of the ultraviolet region of the transmission and distribution line 100 photographed by the UV camera unit 202 is stored as data. That is, the control unit 203 controls the photographing operation of the UV camera unit 202 while appropriately referring to the table data according to the decoding result of the program data. Note that the storage unit 204 may be a single storage unit formed by dividing the first to third storage areas 204A to 204C into the same storage area, or the first to third storage areas 204A to 204C. A plurality of storage units that form the storage unit 204C in a separate storage area may be used.

The output unit 205 is a unit that outputs the video data stored in the storage unit 204 as a basis for specifying a location where a corona discharge has occurred.

(4) As described above, by verifying the video data stored in the storage unit 204, it is possible to accurately specify the location where the corona discharge occurs.

=== Operation of occurrence location identification device ===
FIG. 3 is a flowchart illustrating the operation of the corona discharge occurrence location specifying device according to the present embodiment. The main part of the operation in FIG. 3 is the control unit 203.

First, the control unit 203 determines whether a determination signal including information indicating the intensity of the ultrasonic wave has been input to the input unit 201 (step S1). When the determination signal including the information indicating the intensity of the ultrasonic wave has not been input to the input unit 201 (step S1: NO), the control unit 203 executes the determination operation of step S1 again.

Next, when a determination signal including information indicating the intensity of the ultrasonic wave is input to the input unit 201 (step S1: YES), the control unit 203 determines whether the intensity of the ultrasonic wave is equal to or more than a predetermined value. (Step S2). When the intensity of the ultrasonic wave is less than the predetermined value (step S2: NO), the determination operation of step S1 is executed again.

Next, when the intensity of the ultrasonic wave is equal to or more than the predetermined value (step S2: YES), the control unit 203 generates a start signal for starting the UV camera unit 202 (step S3). The UV camera unit 202 is activated according to the activation signal.

Next, the control unit 203 acquires an image of the transmission and distribution line 100 in the ultraviolet region captured by the UV camera unit 202 (step S4).

Next, the control unit 203 determines whether or not the image in the ultraviolet region of the transmission and distribution line 100 is an image indicating corona discharge by image processing with reference to the table data (step S5). When the image in the ultraviolet region of the transmission and distribution line 100 is not an image indicating corona discharge (step S5: NO), the control unit 203 stops supplying power to the UV camera unit 202 (step S6), and proceeds to step S1. Execute the judgment operation again.

Next, when the image in the ultraviolet region of the transmission and distribution line 100 is an image indicating corona discharge (step S5: YES), the control unit 203 generates a shooting start signal for the UV camera unit 202 to start shooting. (Step S7). The UV camera unit 202 starts shooting according to a shooting start signal.

Next, the control unit 203 acquires an image in the ultraviolet region of the transmission and distribution line 100 captured by the UV camera unit 202 (step S8).

Next, the control unit 203 stores the image in the ultraviolet region of the transmission and distribution line 100 photographed by the UV camera unit 202 in the third storage area 204C of the storage unit 204 (step S9).

Next, the control unit 203 determines whether the intensity of the ultrasonic wave is less than a predetermined value (Step S2). When the intensity of the ultrasonic wave is less than the predetermined value (Step S10: YES), the control unit 203 executes the operation of Step S6 again. When the intensity of the ultrasonic wave is equal to or more than the predetermined value (step S10: NO), the control unit 203 executes the operation of step S8 again.

=== Summary ===
As described above, the corona discharge occurrence location specifying device 1 according to the present embodiment includes the sound detection device 10 that detects sound in the frequency band of the ultrasonic wave, and the ultrasonic wave generation device 1 that specifies the location of the corona discharge. And a photographing device 20 for photographing an image in the ultraviolet region at a point where a sound in the frequency band is detected.

(4) Further, triggered by the sound detection device 10 detecting the sound in the ultrasonic frequency band, the imaging device 20 starts capturing an image in the ultraviolet region at the point where the sound in the ultrasonic frequency band is detected.

Further, the photographing device 20 is activated when the sound detection device 10 detects the sound in the ultrasonic frequency band, and the image in the ultraviolet region at the point where the sound in the ultrasonic frequency band is detected causes the corona discharge. Shooting is started when it is determined that the image is the one shown.

Further, when determining that the image in the ultraviolet region at the point where the sound in the frequency band of the ultrasonic wave is detected is not the image indicating corona discharge, the imaging device 20 stops the operation without starting the imaging.

(4) The photographing device 20 stops photographing when the sound detection device stops detecting the sound in the ultrasonic frequency band.

According to the present embodiment, it is possible to accurately specify the location of the corona discharge while suppressing the power consumption.

発 生 Furthermore, the occurrence location identification device 1 includes a storage unit 205 that stores a video captured by the imaging device 20. According to the present embodiment, the location of the corona discharge can be specified with high accuracy by reading the image of the ultraviolet region of the transmission and distribution line 100 from the storage unit 205 and analyzing it.

Furthermore, the sound detection device 10 and the imaging device 20 are installed on a steel tower 200 on which the transmission and distribution line 100 is installed. According to the present embodiment, the location of the corona discharge can be specified with high accuracy by capturing an image in the ultraviolet region of the transmission and distribution line 100 at a short distance.

音 Furthermore, the sound detection device 10 includes a band filter for extracting sound in the frequency band of the ultrasonic wave.

撮 影 Furthermore, the imaging device 20 determines whether or not the image in the ultraviolet region is an image showing corona discharge based on predetermined reference data.

Note that the above-described embodiment is for the purpose of facilitating the understanding of the present invention, and is not for limiting and interpreting the present invention. The present invention can be modified and improved without departing from the spirit thereof, and the present invention also includes equivalents thereof.

DESCRIPTION OF SYMBOLS 1 Occurrence point identification device 10 Sound detection device 20 Imaging device 101, 201 Input unit 102 Extraction unit 103 Judgment unit 104, 204 Storage unit 105, 205 Output unit 202 UV camera unit 203 Control unit

Claims (10)

1. An apparatus for identifying a location of a corona discharge in a transmission and distribution line,
   A sound detection device that detects sound in an ultrasonic frequency band,
   An imaging device that captures an image in the ultraviolet region at a point where sound in the frequency band of the ultrasonic wave is detected, in order to specify the location where the corona discharge occurs,
   A corona discharge generation location specifying device comprising:
2. The imaging device, when triggered by the sound detection device detecting sound in the frequency band of the ultrasonic wave, starts capturing an image of an ultraviolet region at a point where sound in the frequency band of the ultrasonic wave is detected. 2. The device according to claim 1, wherein the corona discharge is generated.
3. The imaging device is activated when the sound detection device detects the sound in the frequency band of the ultrasonic wave, and the image in the ultraviolet region at the point where the sound in the frequency band of the ultrasonic wave is detected causes corona discharge. 3. The apparatus according to claim 2, wherein photographing is started when it is determined that the image is an image to be displayed.
4. The imaging device, when it is determined that the image in the ultraviolet region at the point where the sound in the frequency band of the ultrasonic wave is detected is not an image indicating corona discharge, stops the operation without starting imaging. The corona discharge occurrence location specifying device according to claim 3.
5. The corona discharge according to any one of claims 1 to 4, wherein the photographing device stops photographing when the sound detection device stops detecting sound in the frequency band of the ultrasonic wave. Occurrence point identification device.
6. The corona discharge occurrence location specifying device according to any one of claims 1 to 5, further comprising a storage device that stores a video image captured by the imaging device.
7. The corona discharge occurrence location specifying device according to any one of claims 1 to 6, wherein the sound detection device and the photographing device are installed on a steel tower on which the power transmission and distribution line is installed. .
8. The corona discharge occurrence location specifying device according to any one of claims 1 to 7, wherein the sound detection device includes a band filter that extracts a sound in a frequency band of the ultrasonic wave.
9. 9. The imaging device according to claim 1, wherein the imaging device determines whether or not the image in the ultraviolet region is an image indicating corona discharge based on predetermined reference data. 2. A corona discharge generation point specifying device according to 1.
10. The sound detector detects sound in the ultrasonic frequency band,
    In order to identify the location of the corona discharge in the transmission / distribution line, an imaging device captures an image in the ultraviolet region at a point where sound in the frequency band of the ultrasonic wave is detected. Identification method.

Images