KR101303082B1 - Apparatus for detecting partial discharge of portable - Google Patents

Abstract

PURPOSE: A portable partial-discharge detecting system is provided to convert measurement values of an ultra high frequency (UHF) electromagnetic partial-discharge sensor, an ultrasonic corona sensor, a transient earth voltage (TEV) sensor, and a high frequency current transducer (HFCT) sensor into digital signals, thereby analyzing phases, the amount of a discharge, and discharge magnitude with a phase resolved pulse sequence (PRPS) method and a phase resolved partial discharge (PRPD) method and monitoring waveforms, measurement frequency bands, and measurement values of each sensor. CONSTITUTION: A portable partial-discharge detecting system includes a device body (100) transmitting partial discharge measurement values measured by a plurality of sensors inside a distributing board to a portable partial discharge detecting device; and the portable partial discharge detecting device displaying partial discharge measurement data analyzed/processed by converting the partial discharge measurement values received from the device body into digital signals. The device body includes a sensor module (110); and a communication module (120) the partial discharge measurement values applied by the sensor module connected via a signal cable (10) to the portable partial discharge detecting device connected via an information communication network. The sensor module includes an HFCT sensor measuring partial discharges generated in a cable and a cable terminal inside the distributing board; a UHF electromagnetic partial-discharge sensor (112) measuring minute discharges generated by electric devices inside the distributing board; a TEV sensor sensing an internal discharge of the distributing board; and an ultrasonic corona sensor (114) tracing the position of the partial discharges generated by the electric devices inside the distributing board. [Reference numerals] (110) Sensor module; (111) HFTC sensor; (112) UHF sensor; (113) TEV sensor; (114) Ultrasonic corona sensor; (120) Communication module

Description

Portable partial discharge detection device {APPARATUS FOR DETECTING PARTIAL DISCHARGE OF PORTABLE}

The present invention relates to a portable partial discharge detection device, and more particularly, a technology for measuring and analyzing the occurrence of partial discharge by using a plurality of partial discharge detection sensors using respective sensors suitable for detection of deterioration of power equipment inside a switchboard. It is about.

In general, a switchboard having a built-in equipment for supplying power is a closed metal structure, which is not easily accessible from the outside in order to prevent safety accidents (eg electric shock). Most power devices installed inside such switchboards (e.g. transformers, bus bars and breakers, transformers, and power cables) are mostly high voltage devices, and the insulation deteriorates when they are used for a long time. It leads to accidents, resulting in human and material loss.

The power cable is one of the high voltage power equipments, and it is the main equipment in the field and general customers who are mainly in contact with technical staff. There is a lot of research and development going on in technology.

Partial discharge is not the entire dielectric breakdown of the insulator, but the final stage of degradation occurring in the voids present in the insulator in local atmospheric discharges such as corona and internally operated high pressure equipment for long periods of time. Diagnosis of insulators is more accurate than other methods.

Partial discharge shows considerably different characteristics depending on the type of defect in the insulator, the type and size of the applied voltage, the type of the insulator, and the like. That is, the partial discharge has a lot of information about the deteriorated state.

In addition, partial discharge starts when a high voltage is applied to a certain degree, and generates partial discharge signals such as current or sound when partial discharge occurs. However, since the partial discharge signal is very weak, it is measured using a method having high precision. In other words, when a very large stress (high voltage) is applied, an extremely small signal must be measured, which is a significant difficulty. Therefore, even though partial discharges have a great deal of information on insulation degradation and dielectric breakdown, the field application of partial discharges still contains many difficult problems.

Referring to the prior patent No. 10-709694 (system and method for predicting insulation degradation of a switchgear) shown in FIG. 1, a plurality of infrared temperature sensors installed inside the switchgear to obtain a temperature measurement signal corresponding to a partial discharge of each of the internal installation devices. Wow; An indicator installed in the switchgear to receive the temperature measurement signal through a sensor input terminal electrically coupled with the infrared temperature sensor and to convert the temperature measurement signal into a protocol capable of RS485 communication through an analog-digital converter; A communication converter connected with the indicator to convert the protocol of the indicator into a protocol for computer communication; Corresponding to the protocol conversion of the communication converter in order to receive the temperature measurement value changed from the temperature measurement signal in real time, so that the communication converter is interconnected through a network connected to each other, and the reference partial discharge quantity model values are previously Including a plurality of computers set up, the computer detects any one of safety, caution, warning, danger, and accident of insulation deterioration by temperature of the internal installation device by checking the temperature measured value against the standard partial discharge model value. The configuration of displaying on the computer monitoring screen together with the temperature measurement is disclosed.

As described above, the method for measuring the partial discharge of the switchboard discloses a method of measuring the partial discharge of the internal power device and the cable using the respective sensors. This is inefficient and inefficient, and the cost of each piece of equipment is daunting. In addition, there is a limit to storage and movement due to its large volume.

The present invention converts the measured values of an electromagnetic wave (UHF) partial discharge sensor, an ultrasonic corona sensor, a TEV sensor, and a cable HFCT sensor to measure the microdischarges generated from power devices inside the switchboard into digital signals. The purpose of this study is to analyze the phase-discharge amount-discharge size by using Phase Resolved Pulse Sequence (PRPS) and Phase Resolved Partial Discharge (PRPD) techniques, and to monitor waveforms, measurement frequency bands, and measured values according to each sensor.

In addition, the present invention is configured by making the portable partial discharge detection device main body and a plurality of deterioration detection sensors different from the deterioration detection application to be compatible with the main body in order to detect the degradation of the internal power equipment and high-voltage cable in the live state of the high-voltage distribution panel in the live state, The purpose is to easily detect high-pressure equipment deterioration in a live state.

In addition, the present invention by measuring the partial discharge signal generated from the power device and the cable inside the switchboard, the portable device is easy to carry out the measurement by using a partial discharge sensor suitable for the detection of insulation degradation for each power device and at the same time real-time precise analysis, objective The purpose is to provide measurement results to check the degree of deterioration in real time and to predict the possibility of an accident in advance.

The portable partial discharge detection apparatus of the present invention for achieving the technical problem, the apparatus main body 100 for transmitting the partial discharge measurement value measured through a plurality of sensors provided in the switchboard to the portable partial discharge detector (200); And a portable partial discharge detector 200 for converting the partial discharge measurement value received from the apparatus main body 100 into a digital signal to display the analyzed / processed partial discharge measurement data.

In addition, the apparatus main body 100 includes a sensor module 110 for measuring a partial discharge generated from a cable, a cable terminal or a power device inside the switchboard; And a communication module 120 for transmitting the partial discharge measurement value received from the sensor module 110 connected through the signal cable 10 to the portable partial discharge detector 200 connected through the information communication network.

In addition, the sensor module 110, the HFCT (High Frequency Current Transformer) sensor 111 for measuring the partial discharge generated from the cable and the cable terminal inside the switchboard; Ultra High Frequency (UHF) electromagnetic wave sensor 112 for measuring microdischarges generated from power devices inside the switchboard; A transient earth voltage (TEV) sensor 113 for detecting internal discharge of the switchboard; And an ultrasonic corona sensor 114 for tracking the position of the partial discharge generated from the power device inside the switchboard.

In addition, the HFCT sensor 111 is composed of the open and close type of creep type, has a frequency measuring range of 100kHz to 90MHz, detects the discharge current of the high-voltage cable ground line, UHF electromagnetic sensor 112 is a microstrip patch type It is configured, has a frequency measuring range of 300MHz to 3000MHz, detects the electromagnetic discharge signal inside the switchgear of the open structure, the TEV sensor 113 is configured of a C-coupler (magnetic) type, frequency measuring range of 1MHz to 50MHz It detects the internal discharge of the switchgear of the closed structure, the ultrasonic corona sensor 114 is of a microphone type, has a frequency measuring range of 40kHz, characterized in that for detecting the ultrasonic sound inside the switchgear of the open structure. .

In addition, the communication module 120 receives the partial discharge measurement value from the sensor module 110 connected through the signal cable 10, and transmits the received partial discharge measurement value to the portable partial discharge detector 200, The transmission of the partial discharge measurement value to the portable partial discharge detector 200 may be performed either by wired communication (TCP / IP communication or RS-232 communication) or wireless communication (3G, 4G or WIFI) by a signal cable 10 connection. It is characterized by transmitting by.

In addition, the apparatus main body 100, the switching module 130 for switching the connection between the sensor module 110 and the communication module 120; And an amplifying circuit 140 connected to the switching module 130 to amplify the partial discharge measurement value applied thereto, wherein the switching module 130 is based on the switching circuit HFCT sensor of the sensor module 110. (111), the UHF electromagnetic wave sensor 112, the TEV sensor 113 and the ultrasonic corona sensor 114 and the partial discharge measurement value applied through the switching is applied to the amplifier circuit 140, the amplification circuit 140 is The partial discharge measurement value applied from each of the HFCT sensor 111, the UHF electromagnetic wave sensor 112, the TEV sensor 113, and the ultrasonic corona sensor 114 of the sensor module 110 via the switching module 130 is converted into an analog circuit. Based on the filtering and amplification based on the applied to the communication module 120.

)-방전전하량(

)-발생빈도수(

)를 산출하고 방전의 크기(

)를 산출하여 부분방전 측정데이터를 생성하고, 부분방전 측정데이터를 수치화 및 도식화한 부분방전 그래프를 생성하는 분석모듈(220); 및 분석모듈(220)로부터 인가받은 부분방전 측정데이터 및 부분방전 그래프를 디스플레이 회로를 통해 출력하는 디스플레이모듈(230);을 포함한다.In addition, the portable partial discharge detector 200 includes an A / D conversion module 210 for converting a partial discharge measurement value received from the apparatus main body 100 into a digital signal; Phase angle from the partial discharge measurement value received from the A / D conversion module 210 according to the Phase Resolved Partial Discharge (PRPD) technique

) -Discharge charge (

)-Frequency of occurrence (

) And the magnitude of the discharge (

An analysis module 220 for generating a partial discharge measurement data by calculating a) and generating a partial discharge graph in which the partial discharge measurement data is digitized and plotted; And a display module 230 for outputting the partial discharge measurement data and the partial discharge graph received from the analysis module 220 through the display circuit.

In addition, the portable partial discharge detector 200 includes a power module 240 that manages power applied from a battery or an external power supply based on a power circuit; And an internal memory 251 for storing the partial discharge measurement data and the partial discharge graph received from the analysis module 220 and the partial discharge measurement data and the partial discharge graph stored in the internal memory 251 and are detachable. The storage module 250 is configured as an SD memory 252.

According to the present invention as described above, by measuring the cable partial discharge using the HFCT sensor, it is effective to prevent the accident in advance by determining the degree of cable degradation.

In addition, according to the present invention, by using the UHF sensor and the TEV sensor to measure the electromagnetic partial discharge for the power unit inside the fully enclosed switchgear, it is confirmed in real time whether the discharge generated in the power device in the sealed switchgear and the degree of degradation It works.

In addition, according to the present invention, there is an effect of simultaneously confirming the partial discharge generation position to the approximate position using the ultrasonic corona sensor.

In addition, according to the present invention, it is possible to easily manage the internal partial discharge analysis of the switchboard based on the data measured by a Phase Resolved Pulse Sequence (PRPS) or a Phase Resolved Partial Discharge (PRPD) technique, thereby preventing accidents caused by partial discharges. It is possible to prevent the cost of human resources and human resources.

1 is a block diagram showing a conventional switchboard insulation degradation prediction system.
2 is a block diagram showing a portable partial discharge detection apparatus according to the present invention.
3 is a block diagram showing the main body of the portable partial discharge detection apparatus according to the present invention.
Figure 4 is another configuration diagram showing the main body of the portable partial discharge detection apparatus according to the present invention.
5 is a circuit diagram showing a switching circuit of the portable partial discharge detection apparatus according to the present invention.
6 is a circuit diagram showing an analog circuit of the portable partial discharge detection apparatus according to the present invention.
7 is a block diagram showing a partial discharge detector of the portable partial discharge detection apparatus according to the present invention.
8 is a circuit diagram showing a display circuit of the portable partial discharge detection apparatus according to the present invention.
9 is a circuit diagram showing a power circuit of the portable partial discharge detection apparatus according to the present invention.
10 is a circuit diagram showing an SD card connector circuit of the portable partial discharge detection apparatus according to the present invention.

Specific features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, terms and words used in the present specification and claims are to be interpreted in accordance with the technical idea of the present invention based on the principle that the inventor can properly define the concept of the term in order to explain his invention in the best way. It should be interpreted in terms of meaning and concept. It is to be noted that the detailed description of known functions and constructions related to the present invention is omitted when it is determined that the gist of the present invention may be unnecessarily blurred.

As shown in FIG. 2, the portable partial discharge detection device A according to the present invention includes a device body for transmitting a partial discharge measurement value measured through a plurality of sensors provided in a switchboard to the portable partial discharge detector 200 ( 100) and a portable partial discharge detector 200 which converts the partial discharge measurement value received from the apparatus main body 100 into a digital signal and displays the analyzed / processed partial discharge measurement data.

As shown in FIG. 3, the apparatus main body 100 includes a sensor module 110 for measuring partial discharge generated from a cable, a cable terminal, or a power device inside a switchboard, and a sensor module connected through a signal cable 10. It consists of a communication module 120 for transmitting the partial discharge measurement value received from the 110 to the portable partial discharge detector 200 connected through the information communication network.

Specifically, the sensor module 110 measures a high frequency current transformer (HFCT) sensor 111 for measuring partial discharge generated from a cable and a cable terminal inside the high-voltage switchgear, and measures fine discharge generated from a power device inside the switchboard. Ultra high frequency (UHF) electromagnetic wave sensor 112, a transient earth voltage (TEV) sensor 113 for detecting internal discharge of the switchboard, and an ultrasonic corona sensor for tracking the position of the partial discharge generated from the power equipment inside the switchboard ( 114).

At this time, the HFCT sensor 111 is composed of a type of open and close craft type, has a frequency measuring range of 100kHz to 90MHz, detects the discharge current of the high-voltage cable ground line.

In addition, the UHF electromagnetic sensor 112 is configured of a microstrip patch type, has a frequency measuring range of 300 MHz to 3000 MHz, and detects an electromagnetic discharge signal inside an open switchboard.

In addition, the TEV sensor 113 is configured of a C-coupler (magnetic) type, has a frequency measuring range of 1 MHz to 50 MHz, and detects an internal discharge of a switchboard having a sealed structure.

In addition, the ultrasonic corona sensor 114 is configured of a microphone type, has a frequency measuring range of 40 kHz, and detects ultrasonic sound inside the switchboard of an open structure.

Meanwhile, the communication module 120 receives the partial discharge measurement value from the sensor module 110 connected through the signal cable 10, and the portable partial discharge detector 200 connected the received partial discharge measurement value through the information communication network. The partial discharge measurement value is transmitted to the portable partial discharge detector 200 during wired communication (TCP / IP communication or RS-232 communication) or wireless communication (3G, 4G or WIFI) by a signal cable 10 connection. It may be transmitted by any one communication, the present invention is not limited thereto.

In addition, as shown in FIG. 4, the apparatus main body 100 includes a switching module 130 for switching a connection between the sensor module 110 and the communication module 120 provided in the switchboard, and the switching module 130. And an amplifying circuit 140 for amplifying the connected partial discharge measurement value.

Here, the switching module 130 and the HFCT sensor 111, UHF electromagnetic wave sensor 112, TEV sensor 113 and the ultrasonic corona sensor 114 of the sensor module 110 based on the switching circuit shown in FIG. The partial discharge measurement value applied through the switching is applied to the amplifying circuit 140.

In addition, the amplifying circuit 140 is applied from the HFCT sensor 111, the UHF electromagnetic sensor 112, the TEV sensor 113 and the ultrasonic corona sensor 114 of the sensor module 110 via the switching module 130. The received partial discharge measurement value is filtered and amplified based on the analog circuit shown in FIG. 6 and applied to the communication module 120.

Meanwhile, as shown in FIG. 7, the portable partial discharge detector 200 converts the partial discharge measurement value received from the apparatus main body 100 connected through the information communication network into a digital signal. And an analysis module 220 for generating partial discharge measurement data by analyzing / processing a digital signal received from the A / D conversion module 210 and a display module for outputting partial discharge measurement data received from the analysis module 220. 230.

In detail, the A / D conversion module 210 converts the partial discharge measurement value received from the communication module 120 of the device body 100 into a digital signal and applies it to the analysis module 220.

)-방전전하량(

)-발생빈도수(

)를 산출하고, 방전의 크기(

)를 산출하여 부분방전 측정데이터를 생성하고, 부분방전 측정데이터를 수치화 및 도식화한 부분방전 그래프를 생성한다.In addition, the analysis module 220 may determine the phase angle (PB) from the partial discharge measurement value applied from the A / D conversion module 210 according to the phase resolved pulse sequence (PRPS) and phase resolved partial discharge (PRPD) techniques.

) -Discharge charge (

)-Frequency of occurrence (

), And the magnitude of the discharge (

) To generate partial discharge measurement data, and generate a partial discharge graph numerically and graphically.

In addition, the display module 230 is configured to output the partial discharge measurement data and the partial discharge graph received from the analysis module 220 through the display circuit shown in FIG. 8, and the design of the display circuit may be changed.

In addition, the portable partial discharge detector 200 according to the present invention further includes a power module 240 for managing power applied from a battery or an external power supply based on the power circuit shown in FIG. An internal memory 251 for storing the partial discharge measurement data and the partial discharge graph received from the 220 and the partial discharge measurement data and the partial discharge graph stored in the internal memory 251 are stored, and the removable SD memory ( The storage module 250 may be further configured to include a 252.

At this time, the SD memory 252 is configured to store the partial discharge measurement data and the partial discharge graph received from the analysis module 220 by the SD card connector circuit shown in FIG. 10, but the present invention is not limited thereto.

While the present invention has been particularly shown and described with reference to preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It will be appreciated by those skilled in the art that numerous changes and modifications may be made without departing from the invention. And all such modifications and changes as fall within the scope of the present invention are therefore to be regarded as being within the scope of the present invention.

A: Portable Partial Discharge Detection Device
100: device body 110: power module
111: HFCT sensor 112: UHF electromagnetic sensor
113: TEV sensor 114: ultrasonic corona sensor
120: communication module 130: switching module
140: amplification circuit 200: portable partial discharge detector
210: A / D conversion module 220: analysis module
230: display module 240: power module
250: storage module 251: internal memory
252: SD memory

Claims (8)

In the portable partial discharge detection device,
The apparatus main body 100 for transmitting the partial discharge measurement value measured through a plurality of sensors provided in the switchboard to the portable partial discharge detector 200; And
And a portable partial discharge detector 200 for converting the partial discharge measurement value received from the apparatus main body 100 into a digital signal to display the analyzed / processed partial discharge measurement data.
The device body 100,
A high frequency current transducer (HFCT) sensor 111 for measuring a partial discharge generated from a cable inside the switchboard and a cable terminal; Ultra High Frequency (UHF) electromagnetic wave sensor 112 for measuring microdischarges generated from power devices inside the switchboard; A transient earth voltage (TEV) sensor 113 for detecting internal discharge of the switchboard; An ultrasonic corona sensor 114 for tracking the position of the partial discharge generated from the power device inside the switchboard; And
And a communication module 120 for transmitting the partial discharge measurement value received from the sensor module 110 connected through the signal cable 10 to the portable partial discharge detector 200 connected through the information communication network. A portable partial discharge detection device characterized by the above-mentioned. delete delete The method of claim 1,
The HFCT sensor 111 is composed of an open-closed craft type, has a frequency measuring range of 100kHz to 90MHz, detects the discharge current of the high-voltage cable ground line,
The UHF electromagnetic wave sensor 112 is composed of a microstrip patch type, has a frequency measuring range of 300 MHz to 3000 MHz, and detects an electromagnetic discharge signal inside an open switchboard.
The TEV sensor 113 is configured as a C-coupler (magnetic) type, has a frequency measuring range of 1 MHz to 50 MHz, and detects an internal discharge of a switchboard having a sealed structure,
The ultrasonic corona sensor 114 is of a microphone type, has a frequency measuring range of 40kHz, portable partial discharge detection device, characterized in that for detecting the ultrasonic sound inside the switchgear of the open structure. The method of claim 1,
The communication module 120,
Receives a partial discharge measurement value from the sensor module 110 connected through the signal cable 10, and transmits the applied partial discharge measurement value to the portable partial discharge detector 200,
The partial discharge measurement value transmission to the portable partial discharge detector 200 may be performed by any one of wired communication (TCP / IP communication or RS-232 communication) or wireless communication (3G, 4G or WIFI) by a signal cable 10 connection. Portable partial discharge detection device characterized in that the transmission by communication. The method of claim 1,
The device body 100,
A switching module 130 for switching a connection between the sensor module 110 and the communication module 120; And
And an amplifying circuit 140 connected to the switching module 130 to amplify the partial discharge measurement value applied thereto.
The switching module 130 is applied through switching with each of the HFCT sensor 111, the UHF electromagnetic sensor 112, the TEV sensor 113, and the ultrasonic corona sensor 114 of the sensor module 110 based on a switching circuit. The partial discharge measurement value is applied to the amplifying circuit 140, and the amplifying circuit 140 transmits the HFCT sensor 111 and the UHF electromagnetic sensor 112 of the sensor module 110 via the switching module 130. And the partial discharge measurement value applied from each of the TEV sensor 113 and the ultrasonic corona sensor 114 is filtered and amplified based on an analog circuit and applied to the communication module 120. The method of claim 1,
The portable partial discharge detector 200,
An A / D conversion module 210 for converting the partial discharge measurement value received from the apparatus main body 100 into a digital signal;
Phase angle from the partial discharge measurement value applied from the A / D conversion module 210 according to the Phase Resolved Pulse Sequence (PRPS) and Phase Resolved Partial Discharge (PRPD) techniques.

) -Discharge charge (

)-Frequency of occurrence (

) And the magnitude of the discharge (

An analysis module 220 for generating a partial discharge measurement data by calculating a) and generating a partial discharge graph in which the partial discharge measurement data is digitized and plotted; And
And a display module (230) for outputting the partial discharge measurement data and the partial discharge graph received from the analysis module (220) through a display circuit. The method of claim 7, wherein
The portable partial discharge detector 200,
A power module 240 for managing power applied from a battery or an external power device based on the power circuit; And
The internal memory 251 for storing the partial discharge measurement data and the partial discharge graph received from the analysis module 220 and the partial discharge measurement data and the partial discharge graph stored in the internal memory 251 are stored and detachable. Portable partial discharge detection device further comprises; storage module (250) consisting of an SD memory (252).

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