KR20070046575A - Detecting method and apparatus thereof for electric transformer degradation by combining radio frequency identification electronic tag and senser - Google Patents

Abstract

The present invention relates to an effective diagnostic method for preventing failure of a transformer, which is an important device that converts voltage among necessary power facilities required for supplying power from a power plant to a customer, and particularly, internal status information of an active live transformer easily. It relates to a device configuration that can be acquired and stored, and a method of utilizing such information. The internal elements of the transformer are composed of iron core, coil, and insulation material, and deterioration is progressed due to overheating, discharging and gas generation during operation, which can lead to serious accidents such as explosion in case of overload. It is well known that insulation oil, which occupies the most weight among them, is the most sensitive. Therefore, it is possible to determine whether the transformer is normally operated by diagnosis of insulation oil. To ensure stable power supply, KEPCO regularly conducts preventive instantaneous inspections for efficient performance management of transformers that can cause overheating in the event of power overload and prevention of accidents.These preventive inspection management tasks are high at KEPCO's facility management department. It occupies a heavy work load. Preventive instantaneous inspection of the transformer is carried out in the form of visual inspection or measurement by measuring equipment, and since it is not easy to access, it is always accompanied by riding work, special vehicle work, etc. There is also a great difficulty in terms of urgency and work productivity that require a short-term inspection and measurement of the equipment. In addition, in terms of the measurement effect, it is possible to confirm only the transformer state at the time of measurement without temporal continuity, and thus it is difficult to determine whether a transformer abnormality is reliable because it cannot acquire singular data generated during normal operation. In order to solve these problems, the present invention is equipped with a temperature, leakage current, gas generation detection sensor inside the transformer and connected to an RFID (Radio Frequency Identification) radio tag capable of reading and writing the sensing information. After the sensing information is stored, the device and method for reading the stored information of the electronic tag spaced 10m or more through the RFID reader even if you do not ride in the field inspection. Applying the apparatus and method to the instantaneous inspection of transformers is expected to improve the convenience of work and reduce manpower, as well as to sense the sensed time series continuous information, so that it is possible to perform more accurate transformer determination.

Transformer, Sensor, Electronic Tag, RFID Reader, Server

Description

Detecting method and apparatus about for electric transformer degradation by combining Radio Frequency Identification electronic tag and senser}

1 is an overall configuration diagram of a transformer degradation detection device incorporating a sensor to the RFID tag for RFID according to the present invention.

Figure 2 is a connection configuration between the sensor and the electronic tag in accordance with the present invention.

3 is an internal configuration diagram of an electronic tag according to the present invention.

4 is a flowchart of a transformer degradation detection method in which a sensor is coupled to an RFID tag for an RFID according to the present invention.

** SIGNS FOR MAIN PARTS OF THE DRAWINGS **

100: transformer 101: iron core

102: insulating oil 103: coil

104: lead wire 110: sensor part

120: electronic tag 121: IC chip

122: antenna 123: power supply

130: RFID reader 140: server unit

141: Integrated Information Server

The present invention relates to an apparatus and method for effectively applying RF ID (Radio Frequency Identification, RFID, Radio Frequency Identification), which is a basic technology of the ubiquitous sensor network (USN), to a live transformer internal preventive inspection service in operation.

In general, the internal elements of transformers are composed of iron cores, coils, insulating materials, etc., and deterioration may occur due to overheating, discharging, and gas generation during operation, which may lead to serious accidents such as explosion when overloaded. Insulation oil, which accounts for the largest proportion of insulation materials, is the most sensitive. Therefore, diagnosis of the insulation oil can determine most of the normal operation of the transformer.

The internal abnormality inspection technology of the transformer to which the present invention is applied is to detect and analyze the chemical and electrical state of insulating oil through a sensor to detect the abnormality. Conventionally, the preventive instantaneous inspection is performed to prevent the efficient performance management and accident of the transformer in advance. The transformer preventive instantaneous inspection is carried out in the form of visual inspection or measurement by measuring equipment, and since it is not easy to access, it is always accompanied by riding work, special vehicle work, etc. In addition, there was a great difficulty in terms of urgency and work productivity, which require many facilities to be inspected and measured in a short period of time. In addition, in terms of the measurement effect, it is possible to confirm only the transformer state at the time of measurement without temporal continuity, and it is difficult to determine whether the transformer abnormality is reliable because data generated during operation cannot be obtained.

 The present invention has been devised to solve the above problems, in order to effectively and conveniently perform the preventive inspection inside the transformer in operation, the temperature and leakage current, the gas generation sensor is mounted inside the transformer and the sensor information Read / Write is possible Connected to RFID tag for RFID, it stores sensor information of continuous transformer and saves information of electronic tag that is separated by more than 10m through RFID reader without having to ride during on-site inspection. The purpose of this study is to improve the convenience of work during the instantaneous inspection of transformers and to reduce manpower, as well as to identify the time series continuous information of sensor information so that accurate transformer abnormality can be determined.

In the present invention for achieving the above object in the transformer degradation detection device in which a sensor is coupled to the electronic tag for RF ID for acquiring and managing various state information of the transformer difficult to access,

A sensor unit installed inside the transformer to sense chemical and electrical states and temperatures of the transformer;

An electronic tag that receives data sensed by the sensor unit and is transmitted to the outside of a transformer through a lead wire;

An RFID reader which transmits data from the electronic tag and is read through a user interface;

A server unit connected to the RFID reader to receive data;

And an in-house integrated information server configured to manage data of the server unit.

Hereinafter, with reference to the accompanying drawings to describe the present invention in detail.

1 is an overall configuration diagram of a transformer deterioration detecting apparatus incorporating a sensor in an RFID electronic tag according to the present invention.

As shown in FIG. 1, a work site and an office work are largely formed. In the transformer 100 installed in a telephone pole, the electronic tag 120 includes a sensor unit 110 and a lead wire 104 in the transformer 100. Is connected to the outside of the transformer 100 and the sensor unit 110 transmits sensor information to the electronic tag 120 at predetermined time periods. The electronic tag 120 determines the transmitted information and stores it in the storage unit in the tag when abnormal data is above a predetermined reference value. Since the capacity of the storage unit of the electronic tag 120 is limited, it is limited to data and abnormal data of a time zone having the most load of the day. The stored data is read from the RFID reader 130 to the operator through a user interface, and the operator may determine whether to replace the transformer 100 or the insulating oil 102 by determining the data of the stored contents. The RFID reader 130 is configured to query the specifications and history information of the electric pole transformer 100 so as to provide comprehensive information necessary for instantaneous inspection.

The worker may manage the in-house integrated information server 141 by connecting the RFID reader 130 containing the field work results with the server unit 140 in the office.

2 is a diagram illustrating a connection between a sensor and an electronic tag according to the present invention, and FIG. 3 is a diagram illustrating an internal configuration of the electronic tag according to the present invention.

As shown in FIG. 2, the sensor unit 110 for sensing the chemical and electrical states and the temperature of the transformer 100 is attached to a fixing plate and installed to always be in contact with the insulating oil 102 inside the transformer 100. The sensor information is connected to the electronic tag 130 attached to the outside of the transformer 100 through the lead wire 104. The electronic tag 130 may be of various types depending on the purpose, but the active (magnetic power supply), read / write (RW), and on-metal tags of FIG. 3 are applied. The electronic tag 120 is generally composed of an IC chip 121 for data processing and radio wave transmission and reception, an antenna 122 for sensing a frequency, and a data storage unit and a power supply unit 123.

Since the RW type data storage in the electronic tag 120 has a limited storage capacity, only the data meeting certain conditions should be screened and stored, and the screening criteria are sensor data exceeding a reference value and one case per day (maximum load is estimated. Time). The result sensed by a predetermined time period is transmitted to the IC chip 121 via the lead wire 104, the processor in the IC chip 121 is based on the sensor information received by the embedded program in accordance with the logic of FIG. Judgment and selection are made, and the selected information is kept in the data storage unit along with the measurement date and time data.

4 is a flowchart illustrating a transformer degradation detection method in which a sensor is coupled to an RFID electronic tag according to the present invention.

In the flowchart of FIG. 4, when reading sensor information for each time period (S1), the specified time is first checked (S2), and when the designated time is specified, data is transmitted to the storage of the electronic tag 120 (S10). If it is not the time, the type of sensor information is determined (S3) and the type of the sensor information is checked (S4). The sensor information is subjected to the leakage current determination (S5), gas generation determination (S6), temperature determination (S7) and subjected to each determination condition to determine whether or not the reference value or more (S8). If the reference value is greater than the determination result, the data is stored in the storage unit 9 together with the measurement date and time data.

Generally, when leakage current of sensor is 2μA or more in case of leakage current, the total amount of flammable gas (hydrogen, carbon monoxide, ethane, ethylene, etc.) is 400ppm or more in case of gas generation, it is judged abnormal value when it is 75 ℃ or more. (100) Since the reference value may vary greatly depending on the capacity or production specifications, various reference values are allowed to be set by the user. Through such a process, the sensor information stored in the electronic tag 120 is read through the RFID reader 130, and the operator senses the data of the read contents and the reference value and sensing for each transformer 100 stored in the RFID reader 130. With reference to one history, it may be determined whether to replace the transformer 100 or the insulating oil 102.

In addition, the sensor data stored in the electronic tag 120 storage unit may be deleted or a reference value may be changed through a user interface of the RFID reader 130. The RFID reader 130 is configured as a PDA-type portable computer to check the specifications (manufacturer, installation date, replacement history, etc.) of the transformer 100 at any time, and after the field work to measure the data in-house server unit ( It is connected to the comprehensive information server 141 of 140 to enable various statistical analysis tasks.

As described above, the preferred embodiment according to the present invention has been described, but the present invention is not limited to the above-described embodiment, and the present invention is not limited to the scope of the present invention as claimed in the following claims. Anyone with knowledge of the present invention will have the technical spirit of the present invention to the extent that various modifications can be made.

The present invention can easily acquire, store, and utilize the internal state information of a live transformer through the connection of an RFID electronic tag and a sensor to effectively prevent deterioration due to overheating, discharging, and gas generation during operation. It can effectively manage the performance of transformers that can explode due to unexpected overheating and prevent accidents, and improve work productivity by reducing inspection and measurement time.

In addition, by improving the convenience and safety of on-site work by minimizing riding work, it can not only enhance the industrial competitiveness through the improvement of power work efficiency, but also help to improve customer service such as reduction of power failure time. It is possible to determine whether there is a reliable transformer abnormality, so that it is possible to prevent accidents thoroughly, and comprehensive data management is possible through linkage with the in-house integrated information server.

In addition, the present invention has an effect that can be widely applied to the non-contact inspection measurement service using the RFID by connecting the sensor and the electronic tag as well as the transformer inspection measurement service.

Claims (8)

In the transformer deterioration detection device in which a sensor is coupled to an RFID tag for acquiring and managing various status information of a transformer that is difficult to access, A sensor unit installed inside the transformer to sense chemical and electrical states and temperatures of the transformer; An electronic tag that receives data sensed by the sensor unit and is transmitted to the outside of a transformer through a lead wire; An RFID reader which transmits data from the electronic tag and is read through a user interface; A server unit connected to the RFID reader to receive data; Comprehensive internal information server configured to manage the data of the server; Transformer degradation detection device incorporating a sensor to the RFID tag for RFID. The method of claim 1, The sensor unit is a transformer degradation detection device incorporating a sensor to the RFID tag electronic tag, characterized in that for determining the leakage current, gas generation and temperature. The method of claim 1, The electronic tag is a transformer degradation detection device incorporating a sensor to the RFID tag electronic tag, characterized in that using the active (magnetic power supply), Read / Write (RW) type and On Metal (metal attached) type tag. The method of claim 3, Read / Write (RW) type storage of the electronic tag is a transformer degradation detection device incorporating a sensor to the RFID tag electronic tag, characterized in that the storage capacity is limited and selects and stores data that meets a predetermined condition. The method of claim 1, The RFID reader is a transformer degradation detection device incorporating a sensor to the RFID tag electronic tag, characterized in that configured to check the specifications of the transformer (manufacturer, installation year, replacement history, etc.) from time to time. The method of claim 1, The RFID reader is a transformer degradation detection device incorporating a sensor to the RFID tag electronic tag, characterized in that configured to delete the sensor data accumulated in the electronic tag storage unit or a reference value through a user interface (User Interface). In the transformer degradation detection method in which a sensor is coupled to an RFID tag for acquiring and managing various status information of a transformer that is difficult to access, A first step of reading sensor information for each time period by a sensor unit located in the transformer; A second step of checking the sensor information read in the first step with respect to a designated time; A third step of determining a type of sensor information when it is not the time designated in the second step; A fourth step of checking a type by determining a type of sensor information in the third step; A fifth step of determining a leakage current by a type check in the fourth step; A sixth step of determining gas generation by the type check in the fourth step; A seventh step of determining a temperature by type checking in the fourth step; An eighth step of determining whether the reference value is greater than or equal to the reference value in the fifth to seventh steps; And a ninth step of storing the sensor information in the sensor information when the reference value is greater than or equal to the reference value in the eighth step. The method of claim 7, wherein And a tenth step of storing sensor information when the time is designated in the second step, wherein the sensor is coupled to an electronic tag for RFID.

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