KR102206909B1 - Breakdown point detection apparatus of distribution line - Google Patents

Abstract

The present invention relates to a device for detecting a failure point of an overhead distribution line. More specifically, the present invention relates to the device for detecting the failure point of the overhead distribution line which is installed on the overhead distribution line to display whether or not the distribution line is faulty to the outside, so as to protect a light blocking unit from birds while blocking the access of birds to the light blocking unit.

Description

Fault point detection device of overhead distribution line {BREAKDOWN POINT DETECTION APPARATUS OF DISTRIBUTION LINE}

The present invention relates to a device for detecting a failure point of an overhead distribution line, and more particularly, it is installed on an overhead distribution line to indicate to the outside whether or not the distribution line is broken, while blocking the access of the bird to the light block It relates to a device for detecting a fault point of an overhead distribution line for protecting the light blocking part from

Distribution lines include overhead lines and underground lines, and power is supplied to general homes, shops, and small factories through overhead lines.

Underground distribution lines are a method of distributing power cables by laying underground power cables and using them as insulated conductors. Compared to overhead distribution lines, they are good in appearance and have the advantage of fewer breakdowns, but they are expensive in construction cost, equipment, and difficult to construct and repair. There is this.

Domestic distribution lines almost use the overhead line method from an economic point of view, but distribution lines break down frequently, and there is a problem that the condition of each line along roads and alleys must be checked and detected with the naked eye in order to find the broken distribution lines.

In particular, when a failure occurs on a distribution line, which is covered by an obstacle such as a street tree or a building, or a breakdown due to minute scratches occurs on the distribution line, there is a problem that it is difficult to detect the failure section of the distribution line, and it takes a long time to detect.

In addition, when the fault section of the distribution line is complicatedly composed of a number of branch points, it is impossible to identify the fault section with the naked eye or it takes a lot of detection time, and thus, there is a problem that the wide-area power outage time is lengthened.

As a conventional technology that partially improves this problem, Korean Patent Registration No. 10-1482669 (2015.01.14.) discloses a'distribution line failure display device'.

However, such a conventional distribution line failure display device has a problem in that it is contaminated by algae excrement, as well as corrosion, since it is easy for birds to access the light blocking unit.

Korean Patent Registration No. 10-1482669 (2015.01.14.)'Distribution line fault indication device'

The present invention was invented to solve the above-described problems, and an object of the present invention is to display a failure of the distribution line to the outside while being installed on an overhead distribution line, while blocking the access of the current to the light blocking unit. It is to provide a fault point detection device of an overhead distribution line to protect the light-blocking part from

The problem to be solved of the present invention is not limited to those mentioned above, and other problems that are not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the present invention is installed on the overhead distribution line, the control unit 130; A sensing unit 110 for sensing at least one of current, voltage and temperature on the distribution line and outputting sensing data; A failure determination unit 120 for determining whether or not there is a failure on the distribution line using the detection data; A lamp unit 140 turned on under the control of the control unit 130 when it is determined that a failure has occurred on the distribution line; A first communication unit 150 for transmitting failure information including failure status, degree of failure, and failure location of the distribution line to the outside under control of the control unit 130 when it is determined that a failure has occurred on the distribution line; A second communication unit 160 for receiving information on a wide area of a distribution line from a distribution center; And a light blocking unit 190 installed above the lamp unit 140 to block light incident from the outside, and the control unit 130 includes a wide area of the distribution line of the second communication unit 160 In the apparatus for detecting a failure point of an overhead distribution line that controls the lamp unit 140 and the first communication unit 150 to operate when it is determined that a failure has occurred on the distribution line according to the reception of failure information, the protection unit ( 500), a side wall 510 extending upwardly from an upper edge of the light blocking portion 190; A protection plate 520 provided on the sidewall 510; A plurality of anti-seating pins 530 disposed on the protective plate 520; An elevation bar 540 having the upper portion of the seating prevention pin 510 hinge-coupled and the lower portion passing through the protection plate 520; While being coupled to the outside of the lifting bar 540 so as to be positioned between the anti-seating pin 530 and the protective plate 520, while supporting the anti-seating pin 530 from the protective plate 520, contraction and relaxation by external force A spring 550 that allows the seating prevention pin 530 to rise and fall; And a separation preventing member 560 provided below the lifting bar 520 and preventing the lifting bar 540 from being separated from the protection plate 520. A failure point detection of an overhead distribution line, characterized in that Provide the device.

According to the present invention, it is possible to easily recognize a distribution line section in which a failure has occurred from the outside, and by changing the display according to whether a failure has occurred, there is an effect of recognizing the degree of risk from the outside.

In addition, it is possible to protect the light shield from algae, thereby preventing corrosion as well as contamination caused by excrement.

The effects of the present invention are not limited to those mentioned above, and other problems that are not mentioned will be clearly understood by those skilled in the art from the following description.

1 is a use state diagram showing a failure point detection device of an overhead distribution line according to the present invention.
2 is a block diagram showing the configuration of a fault point detection apparatus of an overhead distribution line according to the present invention.
3 is a conceptual diagram schematically showing a fault point detection apparatus of an overhead distribution line according to the present invention.
4 is a perspective view showing a fault point detection device of an overhead distribution line according to the present invention.
5 is a front view showing a state in which a protection unit is provided in the apparatus for detecting a failure point of an overhead distribution line according to the present invention.
6 is a partially enlarged cross-sectional view showing the protection unit in FIG. 5.
And
7 is a partial enlarged view showing the rotation of the seating prevention pin in FIG. 5.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

Referring to FIGS. 1, 2 and 4, a fault point detection device (hereinafter referred to as "detection device") 100 of an overhead distribution line according to the present invention is installed on the overhead distribution line, and the control unit 130, A detection unit 110 that senses at least one of current, voltage, and temperature on a distribution line and outputs detection data, a failure determination unit 120 that determines whether a failure on a distribution line is detected using the detection data, and a breakdown on the distribution line When it is determined that this occurs, the lamp unit 140 is turned on under the control of the control unit 130, and when it is determined that a failure has occurred on the distribution line, the failure information is transmitted to the outside according to the control of the control unit 130. 1 The communication unit 150, the second communication unit 160 receiving wide area fault information of the distribution line from the distribution center 200, the tilt sensor 170 that detects the inclination of the distribution line and outputs the inclination data, and the tension of the distribution line It may be configured to include a tension sensor 180 for sensing and outputting tension data, and a light blocking unit 190 installed above the lamp unit 140 and blocking light incident from the outside.

The sensing unit 110 may be configured to include at least one of a current sensing sensor, a voltage sensing sensor, and a temperature sensing sensor.

The sensing unit 110 outputs sensing data by sensing at least one of current, voltage, and temperature on a distribution line, and whether to operate or not may be determined by the control of the controller 130.

The failure determination unit 120 may determine whether or not there is a failure on a distribution line by comparing data on current, voltage, and temperature included in the sensing data with preset data.

The failure determination unit 120 may determine that a failure has occurred on the distribution line when the value of the sensing data exceeds any one of data set for current, voltage, and temperature.

When the predetermined data is set in stages, the failure determination unit 120 may determine whether or not there is a staged failure by comparing each data value set in stages with detection data.

For example, when the preset data of the current data is set to 1A, 2A, and 3A, for example, the failure determination unit 120 is a warning step when the current value of the sensing data exceeds 1A, and exceeds 2A. In case of failure, it can be judged as a cautionary step, and if it exceeds 3A, it is a dangerous step.

The stepwise failure determination can be made by combining the values of current, voltage and temperature data according to the setting.

Whether the failure determination unit 120 is operated may be determined according to the control of the control unit 130.

When it is determined that a failure has occurred on the distribution line, the lamp unit 140 is turned on and operated under the control of the controller 130.

The lamp unit 140 may be composed of an LED, and operation, color, and illuminance may be determined according to the control of the controller 130.

When it is determined that a failure has occurred on the distribution line, the first communication unit 150 may transmit failure information to an external patrol or the patrol vehicle 400 under the control of the control unit 130.

The first communication unit 150 may transmit failure information using an RF or Zigbee communication method.

The fault information may include information on the location and specifications of the fault indication device of the distribution line, along with information on whether or not the distribution line is faulty and the degree of the fault.

Whether the first communication unit 150 operates may be determined according to the control of the control unit 130.

Alternatively, the first communication unit 150 may return failure information in response to an external request for information.

The first communication unit 150 may return failure information in response to a request for information when a patrol person or a patrol vehicle approaches by using an RFID tag method.

The second communication unit 160 may receive information on a wide area of a distribution line from the distribution center 200.

The second communication unit 160 may receive information on a wide area failure of a distribution line from the distribution center 200 using a CDMA or WiBro communication method.

The control unit 130 controls the operation of the detection unit 110, the failure determination unit 120, the lamp unit 140, and the first communication unit 150, and the color of the lamp unit 140 and At least one of the illuminance can be controlled.

The control unit 130 may control the operation of the lamp unit 140 and the first communication unit 150 using the distribution line wide-area failure information received from the second communication unit 160.

The distribution automation terminal device 300 (FRTU, Feeder Remote Terminal Unit) installed in transformers, switchgear, etc. transmits various status information such as failure information and failure direction of the distributor to the distribution center 200, and the distribution center 200 From this, a wide range of fault-prone areas can be identified.

The distribution center 200 transmits, to the second communication unit 160, wide area failure information of a distribution line including information on a failure area.

The control unit 130 determines whether an area in which the detection device 100 is installed is included in the area where the failure occurs, and controls the lamp unit 140 and the first communication unit 150 to operate only when it is included. I can.

Accordingly, the detection device 100 primarily controls the lamp unit 140 and the first communication unit 150 to operate only when it is determined that a failure has occurred through the distribution automation terminal device 300 to power Consumption can be reduced, and the accuracy of determining whether or not a failure can be improved.

The control unit 130 may control the lamp unit 140 to operate when it is determined that a failure has occurred in the failure determination unit 120.

The control unit 130 may adjust at least one of a color and an illuminance of the lamp unit 140 when the failure determination unit 120 determines whether a failure has occurred in stages.

For example, when a step-by-step failure is classified into warning, caution, and danger stages, the control unit 130 may control the illuminance to increase in the order of warning, caution, and danger.

Alternatively, the controller 130 may control to change from a yellow color to a red color in the order of warning, caution, and danger.

Alternatively, the controller 130 may control the illuminance to increase in the order of warning, caution, and danger, and control the color to change from a yellow color to a red color.

The tilt sensor 170 may detect the tilt of the distribution line and output tilt data.

The inclination sensor 170 detects when the inclination of the distribution line changes due to the inclination of the electric pole and outputs inclination data, and the failure determination unit 120 compares the inclination data with a preset data value to It is possible to determine whether the furnace is broken or not.

In this case, the failure of the distribution line may mean a disconnection or condensation of the distribution line, or a preliminary step with a high probability of failure due to an abnormality occurring in the distribution line.

The tension sensor 180 may sense the tension of the distribution line and output tension data.

The tension sensor 180 can detect when there is a difference in ear canal in the distribution line due to icing and wind pressure, and output tension data, and the failure determination unit 120 compares tension data with a preset data value. It is possible to determine whether the distribution line is broken.

In this case, the failure of the distribution line may mean a disconnection or condensation of the distribution line, or a preliminary step with a high probability of failure due to an abnormality occurring in the distribution line.

Referring to FIG. 3, the patrol or patrol vehicle 400 can easily identify the distribution line where the failure has occurred by checking the light emitted from the lamp unit 140 after arriving near the distribution line determined to have a failure. I can.

In addition, even when it is difficult to check the light emitted from the lamp unit 140 by receiving the failure information transmitted from the first communication unit 150, the patrol or patrol vehicle can easily identify the distribution line where the failure has occurred.

Referring to FIG. 4, by additionally mounting a light blocking unit 190 for blocking light incident from the outside on the upper portion of the lamp unit 140, light emitted from the lamp unit 140 is more easily I can confirm.

The detection device 100 according to the present invention further includes a protection unit 500 for protecting the light blocking unit 190 from birds as shown in FIGS. 5 to 7.

The protection unit 500 prevents contamination or corrosion caused by excrement, etc. generated while the algae stays in the light blocking unit 190 while blocking access of algae to the light blocking unit.

The protection unit 500 includes a sidewall 510 extending upward from an upper edge of the light blocking unit 190, a protection plate 520 provided on the sidewall 510, and the protection plate 520. A plurality of anti-seating pins 530, the seating-preventing pin 510 is hinged on the upper part, and the lower part passes through the protective plate 520, a lifting bar 540, a seating-preventing pin 530 and the protective plate 520 A spring 550 supporting the seating prevention pin 530 from the protection plate 520 while being coupled to the outside of the lifting bar 540 so as to be positioned therebetween, and a separation preventing member 560 provided under the lifting bar 520 Include.

The sidewall 510 forms a cylindrical shape in which the upper and lower portions are opened, and the lower portion is fixed to the upper edge of the light blocking portion 190.

The protective plate 520 is formed as a circular plate and blocks the upper portion of the open sidewall 510.

Accordingly, the sidewall 510 and the protective plate 520 protect the upper portion of the light blocking unit 190 from being exposed to the outside, thereby preventing birds from being settled on the light blocking unit 190.

The sidewall 510 may have a plurality of discharge holes 511 formed around the lower circumference.

The discharge hole 511 allows rainwater, etc. flowing into the interior of the side wall 510 along the lifting bar 520 to be smoothly discharged to the outside without being collected in the light blocking unit 190.

The lifting bar 540 is formed in plural, and is disposed between the protection plate 520 and the light blocking portion 190 while the lower portion passes through the protection plate 520.

The separation preventing member 560 is provided under the lifting bar 520 and prevents the lifting bar 540 from being separated from the protective plate 520.

The seating prevention pin 530 forms a conical shape and prevents the tide from being settled upward.

The seating prevention pin 530 is provided with a rotation bar 570 at the bottom.

The rotation bar 570 is rotatably connected to the upper portion of the lifting bar 520 by the hinge shaft 580 so that the seating prevention pin 530 is rotatable about the hinge shaft 580 by an external force.

The lifting bar 520 may be lowered when an external force is applied to the upper portion of the seating prevention pin 530.

The protective plate 520 forms a space in which the lifting bar 520 can descend between the light blocking part 190 and allows the lifting and descending of the lifting bar 520 to be smoothly performed by external force.

The spring 550 is coupled to the outside of the lifting bar 540 so as to be positioned between the anti-seating pin 530 and the protective plate 520 while supporting the anti-seating pin 530 from the protective plate 520, and the anti-seating pin 530 When an external force is applied to), the settling prevention pin 530 is allowed to descend while being contracted.

When the external force to the seating prevention pin 530 is released, the spring 550 is relaxed so that the seating prevention pin 530 is raised and lowered.

That is, the spring 550, when the tide is to be settled on the upper portion of the seating prevention pin 530, is contracted and relaxed by the external force of the tide so that the seating preventing pin 530 is moved while rising, lowering and rotating.

The settling prevention pin 530 prevents the tide from being settled while being raised and lowered by an external force while being rotated around the hinge shaft 580, and may pose a threat to the tide.

Accordingly, the protection unit 500 may block access of the algae to the light blocking unit 190, thereby preventing contamination or corrosion due to excrement of algae.

What has been described above is only an embodiment for implementing the fault point detection apparatus of an overhead distribution line according to the present invention, and the present invention is not limited to the above-described embodiment, and as claimed in the claims below, Without departing from the gist of the invention, anyone of ordinary skill in the field to which the present invention pertains will have the technical spirit of the present invention to the extent that various changes can be implemented.

100: detection autonomy 110: detection unit
120: failure determination unit 130: control unit
140: lamp unit 150: first communication unit
160: second communication unit 170: tilt sensor
180: tension sensor 190: light blocking part
200: distribution center 300: distribution automation terminal device
400: patrol vehicle 500: protection
510: side wall 520: protective plate
530: anti-settling pin 540: lifting bar
550: spring 560: separation preventing member

Claims (1)

When it is determined that a failure has occurred on the overhead distribution line, the lamp unit 140 is turned on under the control of the controller 130; And a light blocking unit 190 installed above the lamp unit 140 to block light, wherein the apparatus for detecting a failure point of an overhead distribution line,
Further comprising a protection unit 500 for preventing the light blocking unit 190 from the birds while blocking access of the bird to the light blocking unit 190,
The protection part 500,
A sidewall 510 extending upward from an upper edge of the light blocking part 190;
A protection plate 520 provided on the sidewall 510;
A plurality of anti-seating pins 530 disposed on the protective plate 520;
An elevation bar 540 having an upper portion of the seating prevention pin 530 hinge-coupled and a lower portion passing through the protection plate 520;
While being coupled to the outside of the lifting bar 540 so as to be positioned between the anti-seating pin 530 and the protective plate 520, while supporting the anti-seating pin 530 from the protective plate 520, contraction and relaxation by external force A spring 550 that allows the seating prevention pin 530 to rise and fall; And
A failure point detection device of an overhead distribution line, characterized in that it comprises a separation preventing member 560 provided below the lifting bar 540 and preventing the lifting bar 540 from being separated from the protection plate 520 .

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