KR101051101B1 - Offset displacement analysis system for ultra high voltage cables - Google Patents

Abstract

The offset displacement analysis system of the ultra-high voltage cable according to the present invention includes: a plurality of displacement sensors installed on the cable to sense an amount of movement of the cable; A data logger for collecting and measuring the sensed data from the displacement sensors; A data transceiver for receiving the measured data from the data logger and transmitting it remotely by radio; And a data processor for storing and analyzing data transmitted from the data transceiver.

This enables long-term measurement to ensure the reliability of the power supply according to safety management, to identify the subtle signs of abnormality caused by external environmental factors, and to automatically and continuously monitor the behavior occurring during the cable operation period in the power port. Therefore, scientific and systematic maintenance can be performed.

Description

Offset Displacement Analysis System for Ultra High Voltage Cables {SYSTEM FOR ANALYSIS OFF-SET DISPLACEMENT OF EXTRA HIGH VOLTAGE CABLE}

The present invention relates to an offset displacement analysis system for an ultra high voltage cable, and more particularly, to an offset displacement analysis system for an ultra high voltage cable for analyzing an offset change amount of a transmission cable in a power port.

In order to absorb thermal expansion due to linear maintenance and load fluctuations, power cables are designed for power sphere design, laying design and offset design based on the electrical and mechanical characteristics of the cable.

Although it is installed according to the design value at the time of installation, the new cable is forcibly snaked and offset so that the cable takes a long time to settle in that form.

During this period, the cable may float on the slide due to the nature of its original return, or if the crete breaks or moves because it cannot handle its force, the softened portion bursts in the case of an oil-insulated cable. Oil leaks can also occur.

Even if there are no signs, it is necessary to check that the cable is bent within the allowable range.

This is because if an insulator, a semiconducting layer, a metal sheath, etc. in the cable are bent forcibly and broken, if the cable is bent beyond the allowable range, the degradation phenomenon such as partial discharge will proceed.

In this case, not only the power quality is deteriorated but also the life of the cable is shortened, and there is a problem that the cable may burst and disrupt the power supply.

The present invention has been made to solve the above problems, and compares how the currently installed cables differ from the calculations at the time of design, and checks whether the cable contracts and expands within the allowable range when the load is applied to the accident. It is an object of the present invention to provide a system for offset displacement analysis of ultra-high voltage cables that can prevent and systematically operate the equipment.

It is also an object of the present invention to provide a system for offset displacement analysis of ultra-high voltage cables which can periodically check the state of the cable and determine the timing of maintenance and repair.

Offset displacement analysis system of the ultra-high voltage cable of the present invention is installed in the cable a plurality of displacement sensors for detecting the movement amount of the cable; A data logger for collecting and measuring the sensed data from the displacement sensors; A data transceiver for receiving the measured data from the data logger and transmitting it remotely by radio; And a data processor for storing and analyzing data transmitted from the data transceiver.

The displacement sensors may be installed in the inlet portion of the cable, the offset start portion where the straight section ends, the inflection portion and the junction box to which the cables are connected.

The displacement sensors may sense the movement amount in the longitudinal direction of the cable and the movement amount in a direction perpendicular to the traveling direction of the cable.

The displacement sensor includes a contact portion contacting the surface of the cable and a detector coupled to the contact portion to sense an amount of movement of the cable.

The contact portion may have a “b” shape and one surface may be in contact with the surface of the cable in parallel, and the other surface may be disposed to be perpendicular to the traveling direction of the cable.

The detector may be in contact with one surface of the contact unit to detect an amount of movement in the longitudinal direction of the cable.

The detector may be in contact with the other surface of the contact unit to detect the width movement amount of the cable.

The data logger includes a converter configured to convert the sensed data into a read signal, a controller configured to measure the read signal, control the measurement process, and a storage to store the measured signal.

The data transceiver may receive the measured data over the wire from the data logger.

According to the offset displacement analysis system of the ultra-high voltage cable of the present invention, the reliability of the power supply according to the safety management through long-term measurement, the prior grasp of minute abnormal signs caused by external environmental factors, and the behavior generated during the cable operation period in the power port Can be monitored automatically, continuously and over time, allowing for scientific and systematic maintenance.

 Hereinafter, the offset displacement analysis system of the ultrahigh voltage cable of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view schematically showing an offset displacement analysis system of an ultra-high voltage cable according to an embodiment of the present invention, FIG. 2 is a view schematically showing a state in which displacement sensors of FIG. 1 are installed on a cable, and FIG. 2 is a view schematically showing the direction in which the displacement sensor 2 is installed on the cable.

1 to 3, the offset displacement analysis system 100 of the ultra-high voltage cable according to the present invention includes a plurality of displacement sensors 120, a data logger 130, a data transceiver 140, and a data processor. And 150.

The plurality of displacement sensors 120 may be installed in the cable 110 in the power port to detect the movement amount of the cable 110 at all times.

The plurality of displacement sensors 120 may detect a thermal expansion and repetition occurring repeatedly in the cable 110 due to a temperature change due to a load change, that is, to detect a stretch amount of the cable 110. 161 and the cable 110 may be installed at a portion where the offset starts at the same time as the straight line section ends.

In addition, the cable 110 may be installed at the start point and the end point of the inflection portion, respectively, to detect the offset of the cable 110.

In addition, the displacement sensor 120 may be installed in the junction box 111 to which the cable 110 and the cable 110 are connected, and the displacement sensors 120 installed in the junction box 111 may be connected to the cable 110. The amount of movement in the height direction of the junction box 111 may be accompanied by the expansion and contraction of the).

The displacement sensors 120 may be installed in a direction perpendicular to the advancing direction of the cable 110 and the advancing direction of the cable 110 when installed in the cable 110.

In detail, the displacement sensor 120 includes a contact part 121 that may be formed in a “b” shape and a sensing part 122 coupled to the contact part 121.

One surface 121a of the “b” shaped contact portion 121 may be disposed and contacted in a direction parallel to the cable, and the other surface 121b may be disposed in a direction perpendicular to the cable 110.

When the displacement sensors 120 are installed in the advancing direction of the cable 110, the sensing unit 122 is a surface disposed in a direction perpendicular to the cable 110 of the “b” type contact part 121 ( 121b) detects the movement amount of the cable 110 in the longitudinal direction.

When the displacement sensors 120 are installed in a direction perpendicular to the advancing direction of the cable 110, the sensing unit 122 is in a direction parallel to the cable 110 among the “b” type contact parts 121. The amount of movement in the width direction of the cable 110 is sensed by contacting the disposed and contacted surface 121a.

The data logger 130 is electrically connected to the displacement sensors 120 to collect and measure data sensed by the displacement sensors 120.

The data logger 130 measures a conversion unit (not shown) capable of measuring the sensed data, that is, converts it into a readable signal, measures the signal converted by the conversion unit, and measures the measurement process as a whole. A control unit (not shown) for controlling and a storage unit (not shown) for storing the measured data.

The data transceiver 140 may receive data measured from the data logger 130 through a wired network such as a serial communication method or an optical communication method, and receive the received data to a remote data processor 150 using an RF method or a CDMA. It can transmit by wireless, such as a system.

In this case, when the measurement data is transmitted to the data processing unit 150 by the CDMA method, it is suitable for a large city because of its large capacity, and there is a simple advantage of reducing the number of cells and frequency planning due to the wider service area.

The data processor 150 may store and analyze data transmitted from the data transceiver 140.

In detail, the data processing unit 150 receives the movement amount data detected from the cable 110 in the power port and adjusts the movement amount of the cable 110 due to factors such as demand for power amount according to time, period, region, and temperature. I can figure it out.

The offset displacement analysis system 100 of the ultra-high voltage cable as described above may be utilized in various fields.

For example, when completing the cable 110 hanging work in the subway construction, when the cable is backfilled by mistake, the cable 110 is pressed a lot and the cable 110 is pulled a lot. This causes the cable 110 to be pushed as a whole. If this is left, the offset of the connection section may be misaligned, and in severe cases, the cable 110 may be dropped. In this case, since the displacement of the cable 110 suddenly changes significantly by utilizing this system, it is possible to prevent failure in case of emergency.

In addition, when the cable 110 is laid, the offset design is performed. The design value and offset after the cable 110 is stabilized after a certain period of time may be used as a reference when designing the cable 110 offset. have.

Therefore, according to the offset displacement analysis system 100 of the ultra-high voltage cable as described above, the reliability of the power supply according to the safety management through long-term measurement, the prior grasp of minute abnormal signs caused by external environmental factors and the cable in the power port ( 110. The behavior generated during the operation period can be monitored automatically, continuously, and in the long run, enabling scientific and systematic maintenance.

Reference numeral 160 denotes a wall inside the power bulb.

1 is a schematic view showing an offset displacement analysis system of an ultra-high voltage cable according to an embodiment of the present invention.

FIG. 2 is a schematic view showing the displacement sensors of FIG. 1 installed on a cable; FIG.

3 is a view schematically showing a direction in which the displacement sensor of FIG. 2 is installed on a cable;

Claims (9)

A plurality of displacement sensors installed on a cable to sense a movement amount of the cable; A data logger for collecting and measuring data sensed from the displacement sensor; A data transceiver for receiving said data from said data logger and transmitting it remotely by radio; And A data processor for storing and analyzing the data transmitted from the data transceiver; Including, The displacement sensor is offset displacement analysis system of the ultra-high voltage cable, characterized in that for detecting the movement in the longitudinal direction of the cable and the movement in the direction perpendicular to the traveling direction of the cable. The method according to claim 1, The displacement sensor is an offset displacement analysis system of the ultra-high voltage cable, characterized in that installed in the pipeline entry portion, the offset start portion where the straight section ends, the inflection portion and the junction box to which the cables are connected. delete The method according to claim 1, The displacement sensor includes a contact portion in contact with the surface of the cable and the offset displacement analysis system of the ultra-high voltage cable, characterized in that for detecting the amount of movement of the cable coupled to the contact portion. The method according to claim 4, The contact portion has a "b" shape, one side is in contact with the surface of the cable in parallel, the other side is disposed in the perpendicular to the direction of travel of the cable offset displacement analysis system of the high voltage cable. The method according to claim 5, The sensing unit is in contact with one surface of the contact portion offset displacement analysis system of the high-voltage cable, characterized in that for sensing the amount of movement in the longitudinal direction of the cable. The method according to claim 5, The sensing unit is in contact with the other surface of the contact portion offset displacement analysis system of the high-voltage cable, characterized in that for detecting the width movement amount of the cable. The method according to claim 1, The data logger includes a conversion unit for converting the data into a read signal, a control unit for measuring the read signal, controlling the measurement process, and a storage unit storing the read signal. Displacement analysis system. The method according to claim 1, And the data transceiver receives the data from the data logger on a wired line.

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