KR100882871B1 - Device for supervising power lines - Google Patents

Abstract

An object of the present invention is to detect the presence or absence of abnormality in the power supply line, and if an abnormality occurs quickly to find the location where the abnormality occurs, cut off the power only a portion of the section, including the section where the abnormality occurred, It is to provide a power line monitoring device that minimizes the damage caused by power interruption by supplying the power supply. In order to achieve this object, the present invention includes a plurality of power lines for transmitting power; A plurality of regional monitoring distribution panels connected to the plurality of power lines to monitor a power supply state of the power lines; A plurality of load devices operated by receiving power from the plurality of regional monitoring distribution panels; A line monitoring distribution panel connected to one end of the plurality of power lines, wherein the plurality of power lines are divided into a plurality of sections, and the line monitoring distribution panel detects an abnormality of the power lines, and when an abnormality occurs in the power lines. Finds a section in which the abnormality occurs while sequentially supplying power to the plurality of sections, and supplies power to a section before the section in which the abnormality occurs without supplying power to the power lines of the subsequent sections from the abnormality occurrence It provides a power line monitoring device for supplying.

Description

Device for supervising power lines

1 is a block diagram of a power line monitoring apparatus according to an embodiment of the present invention.

2 is a block diagram of a power line monitoring apparatus according to another embodiment of the present invention.

The present invention relates to a power line monitoring apparatus for monitoring a power line for transmitting power, and more particularly, to a power line monitoring apparatus for monitoring and controlling an abnormality of a power line connected to a plurality of load devices.

All devices operating with electricity are powered by power supplied from the outside. For example, low-power devices such as radios and cell phones receive power from batteries or accumulators, while high-power devices such as equipment used in factories use power from power lines that transmit commercial voltages of 100 to 240 volts. It is operated by receiving.

The power supply device for supplying such a commercial voltage to the power line is provided with an earth leakage breaker, and when an abnormality such as a short circuit or disconnection occurs in the power line, the earth leakage breaker automatically operates to cut off the power supplied to the power line. Preventing personal injury or equipment damage due to abnormality of the power line.

However, when the electric power supplied to the electric power line is cut off by the earth leakage breaker, since the electric power supply is cut off to the whole electric power line, it is difficult to know at what point of the electric power line the abnormality occurred at this time. In addition, load devices connected to the power line cannot receive power until the fault is located and repaired. In addition, when the abnormal point is located where it is difficult to repair, the power supply may be kept off for a long time. When the power is cut off, the load device connected to the power line does not work, thereby providing various inconveniences to the user and may cause a lot of material damage.

Accordingly, an object of the present invention is to detect the presence or absence of an abnormality in the power line to which power is supplied, and if an abnormality occurs, quickly find the location where the abnormality occurs, and cut off the power only a part of the interval, including the abnormality interval, In order to provide power line monitoring, power line monitoring devices that minimize the damage caused by power interruption are minimized.

The present invention to achieve the above object,

A plurality of power lines for transmitting power; A plurality of regional monitoring distribution panels connected to the plurality of power lines to monitor a power supply state of the power lines; A plurality of load devices operated by receiving power from the plurality of regional monitoring distribution panels; A line monitoring distribution panel connected to one end of the plurality of power lines, wherein the plurality of power lines are divided into a plurality of sections, and the line monitoring distribution panel detects an abnormality of the power lines, and when an abnormality occurs in the power lines. Finds a section in which the abnormality occurs while sequentially supplying power to the plurality of sections, and supplies power to a section before the section in which the abnormality occurs without supplying power to the power lines of the subsequent sections from the abnormality occurrence It provides a power line monitoring device for supplying.

In order to achieve the above object, the present invention also provides

A plurality of power lines; A plurality of regional monitoring distribution panels connected to the plurality of power lines to monitor a power supply state of the power lines; A plurality of load devices operating by receiving power from the plurality of regional monitoring distribution panels; And a line monitoring distribution panel connected to both ends of the plurality of power lines, wherein the plurality of power lines are divided into a plurality of sections, and the line monitoring distribution panel first supplies power from the first section to the last section of the plurality of sections. Detecting abnormality of power lines arranged in the plurality of sections while supplying sequentially, and detecting abnormality of power lines arranged in the plurality of sections while supplying power in reverse order from the last section to the first section. In addition, when an abnormality is detected, the power line monitoring device is characterized in that the power is cut off only in the section in which the abnormality occurs, and the power is supplied to all the sections in which the abnormality has not occurred.

Preferably, the line monitoring panel is connected to one end of the power line for monitoring the abnormal state of the power line; A second monitoring unit connected to the other ends of the power lines to detect an abnormal state of the power lines; And a common connection between the first monitoring unit and the second monitoring unit, and supplying power to the plurality of sections sequentially through the first monitoring unit to detect an abnormality of power lines disposed in the plurality of sections. While the power is supplied to the plurality of sections in the reverse order through the second monitoring unit, the presence or absence of power lines disposed in the plurality of sections is detected, and when an abnormality is detected, the power is cut off only in the section in which the abnormality has occurred. In addition, all sections in which the abnormality does not occur are provided with a line monitoring controller for supplying power.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Like reference numerals in the drawings denote like elements.

1 is a block diagram of a power line monitoring apparatus 101 according to an embodiment of the present invention. Referring to FIG. 1, the power line monitoring apparatus 101 includes a plurality of external power lines 121, a plurality of internal power lines 122, a plurality of regional monitoring distribution panels 131a to 131n, and a plurality of load devices ( 141a to 141n and a line monitoring distribution panel 111 connected to one end of the plurality of internal power lines 122.

The plurality of external power lines 121 and the plurality of internal power lines 122 transmit power. The external power lines 121 receive power from a power plant (not shown) and transmit the power to the internal power lines 122. Power transmitted through the external power lines 121 and the internal power lines 122 generally has a commercial voltage of 110 volts or 220 volts. The internal power lines 122 are divided into a plurality of sections L1 to Ln. That is, the first section L1 between the track monitoring panel 111 and the first regional monitoring panel 131a, and the second section L2 between the first regional monitoring panel 131a and the second regional monitoring panel 132a. ) And the like.

The plurality of regional monitoring distribution panels 131a to 131n are connected to the internal power lines 122. A plurality of load devices 141a to 141n are connected to the plurality of regional monitoring distribution panels 131a to 131n. That is, one load device is connected to one regional monitoring distribution panel. Each of the load devices 141a to 141n includes one of a street lamp, a heating device, equipment for producing a product, and the like. The plurality of regional monitoring distribution panels 131a to 131n supply power to the plurality of load devices 141a to 141n, monitor power of the internal power lines 122, and also through the internal power lines 122. Communicate with track monitoring panel. The plurality of regional monitoring distribution panels 131a to 131n include a plurality of auxiliary switching elements 133a to 133n, a plurality of power line communication devices 135a to 135n, and a plurality of auxiliary current detectors 137a to 137n. It is provided. The last regional monitoring panel 131n may not include the auxiliary switching element 133n.

Here, the plurality of power line communication devices 135a to 135n are connected to the internal power lines 122 before and after the plurality of auxiliary switching elements 133a to 133n. By doing so, power is stably supplied to the plurality of power line communication devices 135a to 135n initially. That is, when no abnormality occurs in the internal power lines 122, the power is supplied from the first section L1 to the last section Ln + 1, and only when the abnormality occurs in a specific section, the internal power lines 122. Power is supplied at both ends. In addition, since the plurality of auxiliary switching elements 133a to 133n are all turned off before power is supplied to the internal power lines 122, a plurality of power lines are initially provided to supply power to the internal power lines 122. The auxiliary switching elements 133a to 133n are sequentially turned on by the communication devices 135a to 135n to supply power to the internal power lines 122 in all sections. The plurality of regional monitoring panel boards 131a to 131n perform the same structure and function, so that the first regional monitoring panel board 131a will be described for convenience of description. The first regional monitoring panel 131a includes a first auxiliary switching element 133a, a first power line communication device 135a, and a first auxiliary current detector 137a.

The first auxiliary switching element 133a switches the power lines 122 between the first regional monitoring panel 135a and the second regional monitoring panel 133b. That is, the first auxiliary switching element 133a is turned on or off under the control of the first power line communication device 135a. When the first auxiliary switching device 133a is turned on, power is supplied to the power lines 122 in the second section. When the first auxiliary switching device 133a is turned off, power is supplied to the power lines 122 in the second section. It doesn't work. The first auxiliary switching element 133a is turned off immediately after the power supplied to the first regional monitoring power distribution board 135a is cut off, and is turned on under the instruction of the first power line communication device 135a. The first auxiliary switching element 133a is preferably composed of a relay, a silicon controlled rectifier, a triac, or the like.

The first auxiliary current detector 137a is connected between the first power line communication device 135a and the first load device 141a to supply current from the first power line communication device 135a to the first load device 141a. The amount is detected and transferred to the first power line communication device 135a.

The first power line communication device 135a is connected to the line monitoring distribution board 111, the first auxiliary switching element 133a, and the first load device 141a. The first power line communication device 135a receives an instruction from the line monitoring distribution panel 111 to control the switching of the first auxiliary switching element 133a and to supply power to the first load device 141a. In addition, the first power line communication device 135a inputs an output signal of the first auxiliary current detector 137a to determine a short circuit and a disconnection between the first regional monitoring power distribution board 135a and the first load device 141a. If it is determined that there is a short circuit or disconnection, the result is notified to the track monitoring panel 111.

The line monitoring distribution board 111 operates by receiving power from the external power lines 121 and monitors the abnormality of the internal power lines 122. The line monitoring panel 111 detects a section in which an abnormality occurs while supplying power sequentially from the first section L1 when an abnormality occurs in the internal power lines 122, and includes a section after which the abnormality occurs. The internal power lines 122 of the section are not supplied with power, and power is supplied to the section before the section in which the abnormality occurs.

The line monitoring panel 111 includes a main switching element 113, a plurality of main current transformers 114, a zero cross transformer 116, and a line monitoring controller 117. .

The main switching element 113 is connected to the internal power lines 122 and is turned on or off under the control of the line monitoring controller 117. When the main switching device 113 is turned on, power is supplied to the plurality of regional monitoring panel boards 131a to 131n through the internal power lines 122, and when the main switching device 113 is off, the plurality of regional monitoring panel boards ( No power is supplied to 131a to 131n. The main switching element 113 is preferably composed of a magnetic contact.

The main current detector 114 is connected to one of the internal power lines 122 between the main switching element 113 and the first regional monitoring panel 135a to detect the amount of current flowing through the internal power lines 122.

The image current transformer 116 is commonly connected to the power lines 122 between the main switching element 113 and the first regional monitoring panel 135a to detect a current difference between the internal power lines 122.

The line monitoring controller 117 is connected to the external power lines 121, the main switching element 113, the main current detector 114, and the image current transformer 116. The line monitoring controller 117 operates by receiving power supplied through the external power lines 121. The line monitoring controller 117 receives an output signal of the main current detector 114 and an output signal of the image current transformer 116 to determine whether the internal power lines 122 are abnormal. When an abnormality of the internal power lines 122 is detected, the line monitoring controller 117 turns off the main switching element 113 within a set time, for example, 0.03 seconds, and then detects a section in which the abnormality occurs. After turning on 113, the power supply 122 sequentially supplies power to the power lines 122 of the plurality of sections L1 to Ln, and detects a section in which the abnormality occurs, and includes a section after which the abnormality occurs. Power is supplied to the power lines 122 in the section before the section in which the abnormality occurs without supplying power to the power lines 122 in the section.

Abnormal states of the internal power lines 122 include a short circuit, a short circuit, a disconnection.

First, a description will be given of how the line monitoring controller 117 detects a short circuit of the internal power lines 122. Initially, the line monitoring controller 117 turns on the main switching element 113 to supply power to the internal power lines 122. At this time, the image current transformer 116 compares the amount of current of each of the internal power lines 122 and detects the difference and transmits the difference to the line monitoring controller 117. The line monitoring controller 117 receives the output signal of the image current transformer 116 and determines that there is no short circuit in the internal power lines 122 when there is no difference in the amount of current between the internal power lines 122, and the difference is predetermined. If it is above the level, it is determined that there is a short circuit in the internal power lines 122. The line monitoring controller 117 keeps the main switching element 113 on if there is no short circuit in the internal power lines 122, and if it is determined that there is a short circuit in the internal power lines 122, the line monitoring controller 117 maintains the main power within a predetermined time, for example, 0.03 seconds. The switching element 113 is turned off. When the main switching element 113 is turned off, power supply to the internal power lines 122 is cut off, so that the plurality of regional monitoring distribution panels 131a to 131n do not all operate. As a result, all of the auxiliary switching elements 133a to 133n provided in the plurality of regional monitoring distribution panels 131a to 131n are turned off. When the auxiliary switching devices 133a to 133n are turned off, power is not supplied to the power lines 122 in all sections.

The line monitoring controller 117 turns on the main switching element 113 to detect a shorted section. When the main switching element 113 is turned on, power is supplied to the power lines 122 and the first regional monitoring panel 135a in the first section. At this time, the line monitoring controller 117 receives the output signal of the image current transformer 116 to determine the presence or absence of a short circuit of the power lines 122 of the first section. If there is a short circuit in the first section L1, the line monitoring controller 117 turns off the main switching element 113 within a set time, for example, 0.03 seconds, and manages the power line monitoring device 101 (not shown). ), A short circuit occurs in the first section L1 through wireless or wired communication. If there is no short circuit in the first section L1, the line monitoring controller 117 sends the first auxiliary switching element 133a to the first regional monitoring distributor 135a while keeping the main switching element 113 on. I command you to turn it on. Accordingly, power is supplied to the power lines 122 and the second regional monitoring panel 131b of the second section L2. In this state, the line monitoring controller 117 receives the output signal of the video current transformer 116 and determines whether there is a short circuit of the power lines 122 in the second section L2. If there is a short circuit, the main switching element 113 is turned off and the control center is notified that a short circuit has occurred in the second section L2. Then, the main switching element 113 is turned on to supply power to the power lines 122 of the first section L1. At this time, since the first auxiliary switching device 133a is turned off, power is not supplied to the subsequent internal power lines 122 including the second section L2. If there is no short circuit in the second section L2, the process is performed until the last section Ln, whereby the section in which the short circuit occurs may be found.

As such, power is not supplied to the internal power lines 122 of the section including the section in which the short circuit occurs, but is continuously supplied to the internal power lines 122 of the section in which the short circuit has not occurred. Therefore, it is possible to reduce the time loss required to find the section in which the short circuit has occurred, and also to reduce the material loss by continuously supplying electric power in the section in which the short circuit has not occurred.

Next, a description will be given of how the line monitoring controller 117 detects a short circuit of the internal power lines 122. The short circuit refers to interconnection of internal power lines 122. Initially, the line monitoring controller 117 turns on the main switching element 113 to supply power to the internal power lines 122. Then, the main current detector 114 detects the amount of current flowing through the internal power lines 122 and transmits it to the line monitoring controller 117. The line monitoring controller 117 inputs an output signal of the main current detector 114 to check the magnitude of the current flowing through the internal power lines 122. At this time, the line monitoring controller 117 determines that the internal power lines 122 are not short-circuited if the magnitude of the current flowing in the internal power lines 122 is within a set range, and the line monitoring controller 117 determines the If the size is greater than or equal to the set range, it is determined that the internal power lines 122 are shorted. The line monitoring controller 117 keeps the main switching element 113 on when the internal power lines 122 are not shorted, and immediately turns off the main switching element 113 when the power lines 122 are shorted. . When the main switching element 113 is turned off, power supply to the internal power lines 122 is cut off, so that the plurality of regional monitoring distribution panels 131a to 131n do not all operate. As a result, all of the auxiliary switching elements 133a to 133n provided in the plurality of regional monitoring distribution panels 131a to 131n are turned off, so that power is not supplied to the internal power lines 122 in all sections L1 to Ln.

If the internal power lines 122 are shorted, the line monitoring controller 117 turns on the main switching element 113 that is off and proceeds to find the shorted section. In this case, since the process of detecting the shorted sections of the internal power lines 122 by the line monitoring controller 117 is similar to the process of detecting the shorted sections, redundant description thereof will be omitted.

In conclusion, the line monitoring controller 117 can immediately find the section in which the short circuit occurred, and prevent the power to be supplied to the internal power lines 122 in the section after the short circuit, and before the section in which the short circuit occurred. Internal power lines 122 continue to be powered. Therefore, the time loss to find the section in which the short circuit occurs is reduced, and the physical loss can be reduced by continuing to supply power to the section in which the short circuit does not occur.

In addition, a method of detecting the disconnection of the internal power lines 122 by the line monitoring controller 117 will be described. Disconnection means that one of the internal power lines 122 is broken. Initially, the line monitoring controller 117 turns on the main switching element 113 to supply power to the internal power lines 122. Then, the main current detector 114 detects the amount of current flowing through the internal power lines 122 and transmits it to the line monitoring controller 117. The line monitoring controller 117 inputs an output signal of the main current detector 114 to check the magnitude of the current flowing through the internal power lines 122. At this time, if the magnitude of the current detected by the main current detector 114 is within the set range, it is determined that the internal power lines 122 are not disconnected, and the magnitude of the current detected by the main current detector 114 is less than the set range. In this case, the internal power lines 122 are determined to be disconnected. For example, assuming that the local power distribution panel is normally operated, 100 [mA] current flows in the internal power line. If there are eight regional monitoring distribution panels, the main current detectors 114 each have 800 [mA]. To detect the current. The line monitoring controller 117 keeps the main switching element 113 on when the internal power lines 122 are not disconnected, and turns off the main switching element 113 when the internal power lines 122 are disconnected. . When the main switching element 113 is turned off, power supply to the internal power lines 122 is cut off, so that the plurality of regional monitoring distribution panels 131a to 131n do not all operate. As a result, all of the auxiliary switching elements 133a to 133n provided in the plurality of regional monitoring distribution panels 131a to 131n are turned off, so that power is not supplied to the internal power lines 122 in all sections L1 to Ln.

If the internal power lines 122 are disconnected, the line monitoring controller 117 turns on the main switching element 113 that is off and proceeds to find the disconnected section. In this case, the process of detecting the disconnected sections of the internal power lines 122 by the line monitoring controller 117 is similar to the process of detecting the shorted sections, and thus redundant description thereof will be omitted.

In conclusion, the line monitoring controller 117 can immediately find the section in which the disconnection occurred, and also, the power is not supplied to the internal power lines 122 in the section after the disconnection occurs, but the disconnection does not occur. Power is continuously supplied to the internal power lines 122 in the uninterrupted section. Therefore, it is possible to reduce the time loss in finding the section in which disconnection has occurred.

2 is a block diagram of a power line monitoring apparatus 201 according to another embodiment of the present invention. Referring to FIG. 2, the power line monitoring apparatus 201 includes a plurality of external power lines 221, a plurality of internal power lines 222, a plurality of regional monitoring distribution panels 231a to 231n, and a plurality of load devices ( 241a to 241n and a line monitoring distribution panel 211 connected to one end and the other end of the plurality of internal power lines 222.

The plurality of external power lines 221 and the plurality of internal power lines 222 transmit power, and each of the plurality of external power lines 221 and 222 is preferably composed of two power lines. The external power lines 221 transmit the power supplied from the power plant to the internal power lines 222. Power transmitted through the external power lines 221 and the internal power lines 222 generally has a commercial voltage of 110 volts or 220 volts. The internal power lines 222 are divided into a plurality of sections LL1 to LLn + 1. That is, the first section LL1 between the track monitoring panel 211 and the first regional monitoring panel 231a, and the second section LL2 between the first regional monitoring panel 231a and the second regional monitoring panel 231b. ), The n-th regional monitoring panel 231n and the track monitoring panel 211 are divided into a (n + 1) th section LLn + 1.

The plurality of regional monitoring distribution panels 231a to 231n are connected to the internal power lines 222. A plurality of load devices 241a to 241n are connected to the plurality of regional monitoring distribution panels 231a to 231n. That is, one load device is connected to one regional monitoring distribution panel. The load devices 241a to 241n each include one of a street lamp, a heating device, a device for producing a product, and the like. The plurality of regional monitoring distribution panels 231a to 231n supply power to the plurality of load devices 241a to 241n, monitor the power of the internal power lines 222, and also through the internal power lines 222. Communicates with the line monitoring distribution board 211. Since the plurality of regional monitoring panel boards 231a to 231n have the same configuration and function as the plurality of regional monitoring panel boards 231a to 231n illustrated in FIG. 1, a duplicate description thereof will be omitted.

The line monitoring distribution panel 211 operates by receiving power from the external power lines 221 and monitors the abnormality of the internal power lines 222. When an abnormality occurs in the internal power lines 222, the line monitoring distribution panel 211 detects a section in which an abnormality occurs while supplying power sequentially from the first section LL1, and then again (n + 1) section LLn +. After detecting the abnormal occurrence section while supplying power in reverse order from 1), the power lines 222 of all the sections in which the abnormality does not occur are not supplied with power to the power lines 222 of the abnormality occurrence section. Supplies power.

The line monitoring panel 211 includes a first monitoring unit 251, a second monitoring unit 261, and a line monitoring controller 271.

The first monitoring unit 251 is connected to one end of the power lines 222 to detect an abnormal state of the power lines 222. The first monitoring unit 251 includes a first main switching element 253, a first main current detector 254, and a first image current transformer 256.

The first main switching element 253 is connected to the internal power lines 222 and is turned on or off under the control of the line monitoring controller 271. When the first main switching element 253 is turned on, power is supplied to the plurality of regional monitoring distribution boards 231a to 231n through the internal power lines 222. Power is not supplied to the monitoring power distribution boards 231a to 231n. The first main switching element 253 is preferably composed of a magnetic contact.

The first main current detector 254 is connected to the power line 222 between the first main switching element 253 and the first local monitoring distribution panel 231a to detect the current amounts of the internal power lines 222.

The first image current transformer 256 is commonly connected to the power lines 222 between the first main switching element 253 and the first local monitoring distribution panel 231a to detect a current difference between the internal power lines 222. do.

The second monitoring unit 261 is connected to the other ends of the power lines 222 to detect an abnormal state of the power lines 222. The second monitoring unit 261 includes a second main switching element 263, a second main current detector 264, and a second image current transformer 266.

The second main switching element 263 is connected to the internal power lines 222 and is turned on or off under the control of the line monitoring controller 271. When the second main switching element 263 is turned on, power is supplied to the plurality of regional monitoring distribution panels 231a to 231n through the internal power lines 222, and when the second main switching element 263 is turned off, the plurality of regions Power is not supplied to the monitoring power distribution boards 231a to 231n. The second main switching element 263 is maintained in the off state when there is no abnormality in the internal power lines 222. The second main switching element 263 is preferably composed of a magnetic contact.

The second main current detector 264 is connected to the power line 222 between the second main switching element 263 and the n-th regional monitoring panel 231n to detect the amount of current of the internal power lines 222.

The second image current transformer 266 is commonly connected to the power lines 222 between the second main switching element 263 and the n-th regional monitoring panel 231n to detect a current difference between the internal power lines 222. .

The line monitoring controller 271 is connected to the first monitoring unit 251 and the second monitoring unit 261 in common, operates by receiving power from the external power lines 221, and operates the first monitoring unit 251. While supplying power to the plurality of sections LL1 to LLn + 1 sequentially, the power lines 222 are detected and the plurality of sections LL1 to LLn + 1 are detected through the second monitoring unit 261. Power supply 222 is detected while supplying power in reverse order, and when an abnormality is detected, the power is cut off only in the section in which the abnormality occurs, and power is supplied to all sections in which the abnormality does not occur. do. That is, the line monitoring controller 271 receives the output signals of the first and second main current detectors 254 and 264 and the output signals of the first and second image current transformers 256 and 266, thereby causing an abnormality of the internal power lines 222. If the abnormality of the internal power lines 222 is detected, the first main switching element 253 and / or the second main switching element 263 are turned off within a predetermined time, for example, 0.03 seconds, and then the Internal power lines 222 of the plurality of sections LL1 to LLn + 1 after turning on the first main switching device 253 and / or the second main switching device 263 to find a section in which an abnormality has occurred. The section in which the abnormality occurred is detected while supplying power sequentially or in reverse order.

Abnormal conditions of the internal power lines 222 include a short circuit, a short circuit, a disconnection.

First, a description will be given of how the line monitoring controller 271 detects a short circuit of the internal power lines 222. Initially, the line monitoring controller 271 turns on the first main switching element 253 and turns off the second main switching element 263 to supply power to the internal power lines 222. At this time, the first image current transformer 256 compares the amount of current of each of the internal power lines 222 with each other, detects the difference, and transmits the difference to the line monitoring controller 271. The line monitoring controller 271 receives the output signal of the first current transformer 256 and determines that there is no short circuit in the internal power lines 222 when there is no difference in the amount of current between the internal power lines 222. If the difference is greater than or equal to a predetermined level, it is determined that there is a short circuit in the internal power lines 222. The line monitoring controller 271 maintains the first main switching element 253 on and the second main switching element 263 off when the internal power lines 222 have no short circuit, and the internal power lines 222. If it is determined that there is a short circuit, the first main switching element 253 is turned off within a predetermined time, for example, 0.03 seconds. When the first main switching element 253 is turned off, power supply to the internal power lines 222 is cut off, so that the plurality of regional monitoring distribution panels 231a to 231n do not operate. As a result, all of the auxiliary switching elements 233a to 233n provided in the plurality of regional monitoring distribution panels 231a to 231n are turned off. When the auxiliary switching devices 233a to 233n are turned off, power is not supplied to the internal power lines 222 of all the sections LL1 to LLn + 1.

The line monitoring controller 271 turns on the first main switching element 253 to find a shorted section. When the first main switching element 253 is turned on, power is supplied to the power lines 222 and the first regional monitoring panel 231a in the first section LL1. At this time, the line monitoring controller 271 receives the output signal of the first current transformer 256 and determines whether there is a short circuit of the power lines 222 of the first section LL1. If there is a short circuit in the first section LL1, the line monitoring controller 271 turns off the first main switching element 253 within a set time, for example, 0.03 seconds, and transmits the first main switching element 253 to the control center via wireless or wired communication. Notify that a short circuit has occurred in the section LL1. If there is no short circuit in the first section LL1, the line monitoring controller 271 performs the auxiliary switching device 233a of the first regional monitoring panel 231a while keeping the first main switching device 253 on. I command you to turn it on. Accordingly, power is supplied to the power lines 222 and the second regional monitoring panel 231b of the second section LL2. In this state, the line monitoring controller 271 receives the output signal of the first current transformer 256 and determines whether there is a short circuit in the power lines 222 of the second section LL2. If there is a short circuit in the second section LL2, the first main switching device 253 is turned off and the control center is notified that a short circuit has occurred in the second section LL2, and then the first main switching device 253 is used. Is turned on to supply power to the power lines 222 of the first section LL1. At this time, since the auxiliary switching element 233a provided in the first regional monitoring panel 231a is turned off, power is not supplied to subsequent internal power lines 222 including the second section LL2. If there is no short circuit in the second section LL2, the process proceeds to the last section LLn + 1. Therefore, it is possible to find out the section in which the short circuit occurs, the power is cut off from the section after the short circuit occurs, and the power is supplied to the section before the short circuit.

As such, when a section in which a short circuit occurs is detected, the line monitoring controller 271 searches for a section in which the short circuit occurs in the reverse order as follows. To this end, the line monitoring controller 271 turns on the second main switching element 263. When the second main switching device 263 is turned on, power is supplied to the power lines 222 and the n-th regional monitoring panel 231n in the (n + 1) th section. At this time, the line monitoring controller 271 receives the output signal of the second image current transformer 266 and determines whether the power lines 222 of the power lines 222 of the (n + 1) th period LLn + 1 are present. If there is a short circuit in the (n + 1) th section LLn + 1, the line monitoring controller 271 turns off the second main switching element 263 within a set time, for example, 0.03 seconds, and stops all the progress. Therefore, power is not supplied to the (n + 1) th section LLn + 1 from this point on. If there is no short circuit in the (n + 1) th section LLn + 1, the line monitoring controller 271 assists the n-th regional monitoring panel 231n while keeping the second main switching element 263 on. Command to turn on the switching element 233n. Accordingly, power is supplied to the power lines 222 and the (n-1) th local monitoring distribution panel 231n-1 in the nth section LLn. In this state, the line monitoring controller 271 receives the output signal of the second image current transformer 266 and determines whether there is a short circuit in the power lines 222 of the n-th section LLn. If there is a short circuit, the line monitoring controller 271 instructs the n-th regional monitoring panel 231n to turn off the auxiliary switching element 233n. Therefore, power is cut off in the n-th section LLn, and power is supplied to the internal power lines 222 thereafter including the n-th section LLn. If there is no short circuit in the nth section LLn, the process is performed for the preceding sections.

In this manner, the section in which the short circuit occurs can be detected immediately, and the power supply is cut off only in the power lines 222 in the section in which the short circuit occurs, and power is supplied to the power lines 222 in all sections in which the short circuit does not occur. . Therefore, it is possible to reduce the time loss required to find the section in which the short circuit has occurred, and also to reduce the physical loss by continuously supplying electric power to all sections in which the short circuit has not occurred.

Next, a description will be given of how the line monitoring controller 271 detects a short circuit of the internal power lines 222. Initially, the line monitoring controller 271 turns on the first main switching element 253 and turns off the second main switching element 263 to supply power to the internal power lines 222. Then, the first main current detector 254 detects the amount of current flowing through the internal power lines 222 and transmits it to the line monitoring controller 271. The line monitoring controller 271 inputs an output signal of the first main current detector 254 to check the magnitude of current flowing through the internal power lines 222. At this time, the line monitoring controller 271 determines that the internal power lines 222 are not short-circuited if the magnitude of the current flowing in the internal power lines 222 is within a set range, and the current flowing through the internal power lines 222 is determined. If the size is larger than the set range, the internal power lines 222 are determined to be shorted. The line monitoring controller 271 maintains the first main switching element 253 on when the internal power lines 222 are not shorted, and immediately after the internal power lines 222 are shorted, the first main switching element. Turn off (253). When the first main switching element 253 is turned off, power supply to the internal power lines 222 is cut off, so that the plurality of regional monitoring distribution panels 231a to 231n do not operate. As a result, the auxiliary switching elements 233a to 233n of the plurality of regional monitoring panel boards 231a to 231n are all turned off, so that power is not supplied to the power lines 222 of all the sections LL1 to LLn + 1. .

If the internal power lines 222 are shorted, the line monitoring controller 271 proceeds to find a shorted section. In this case, the process of detecting the shorted sections of the internal power lines 222 by the line monitoring controller 271 is similar to the process of detecting the shorted sections, and thus redundant description thereof is omitted.

In conclusion, the line monitoring controller 271 can immediately find the section in which the short circuit occurs, and the power is not supplied to the section in which the short circuit occurs, and the power lines 222 of all sections LL1 to LLn where the short circuit has not occurred. ) Continues to be powered. Therefore, the time loss to find the section where the short circuit has occurred is reduced, and the physical loss can be reduced by continuing to supply power to all sections where the short circuit has not occurred.

In addition, a description will be given of how the line monitoring controller 271 detects disconnection of the internal power lines 222. Initially, the line monitoring controller 271 turns on the first main switching element 253 to supply power to the internal power lines 222. Then, the first main current detector 254 detects the amount of current flowing through the internal power lines 222 and transmits the amount of current to the line monitoring controller 271. The line monitoring controller 271 inputs an output signal of the first main current detector 254 to check the magnitude of current flowing through the internal power lines 222. At this time, when the magnitude of the current detected by the first main current detector 254 is within the set range, it is determined that the internal power lines 222 are not disconnected, and the current detected by the first main current detector 254 is set as above. If it is less than the range, the internal power lines 222 are determined to be disconnected. The line monitoring controller 271 maintains the first main switching element 253 in an on state when the internal power lines 222 are not disconnected and in a normal state, and when the internal power lines 222 are disconnected, the first main switching element ( 253) off. When the first main switching element 253 is turned off, power supply to the internal power lines 222 is cut off, so that the plurality of regional monitoring distribution panels 231a to 231n do not operate. As a result, all of the auxiliary switching elements 233a to 233n provided in the plurality of regional monitoring distribution panels 231a to 231n are turned off. When the auxiliary switching devices 233a to 233n are turned off, power is not supplied to the internal power lines 222 of all the sections LL1 to LLn + 1.

If the internal power lines 222 are disconnected, the line monitoring controller 271 proceeds to find the disconnected section. In this case, the process of detecting the disconnected sections of the internal power lines 222 by the line monitoring controller 271 is similar to the process of detecting the shorted sections, and thus the description thereof will not be repeated.

In conclusion, the line monitoring controller 271 can immediately find the section in which the disconnection occurred, and the power is not supplied to the section in which the disconnection occurred, and the power line 222 of all sections in which the disconnection does not occur continues to be powered. To be supplied. Therefore, the time loss in finding the section in which disconnection has occurred is reduced, and the material loss can be reduced by continuing to supply power to the power lines 222 in all sections in which disconnection has not occurred.

As described above, the power line monitoring apparatus 101 or 201 of the present invention may immediately find a section in which an abnormality occurs among the internal power lines 122 and 222, and the electric power is supplied to a section after the abnormality or a section in which the abnormality occurs. No power is supplied and power is continuously supplied to the power lines of the section before the section in which the abnormality occurs or in all the sections in which the abnormality has not occurred.

Therefore, it is possible to reduce the time loss required to find the section in which an abnormality occurs, and to reduce the material loss by continuously supplying electric power to some or all sections in which the abnormality does not occur.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

Claims (11)

A plurality of power lines for transmitting power; A plurality of regional monitoring distribution panels connected to the plurality of power lines to monitor a power supply state of the power lines; A plurality of load devices operated by receiving power from the plurality of regional monitoring distribution panels; And A line monitoring distribution panel connected to one end of the plurality of power lines, The plurality of power lines are divided into a plurality of sections, The line monitoring distribution panel detects an abnormality of the power lines, and if an abnormality occurs in the power lines, finds a section in which the abnormality occurs while supplying power to the plurality of sections sequentially, and starts from the section in which the abnormality occurs. And a power line monitoring device for supplying power to a section before the section in which the abnormality occurs without supplying power to subsequent power lines. According to claim 1, wherein the track monitoring panel is A main switching element connected to the plurality of power lines; A main current detector connected to one of the power lines between the main switching element and the first regional monitoring switchgear to detect an amount of current of the one power line; An image current transformer configured to be connected to power lines between the main switching element and the first local monitoring distribution panel in common and detect a current difference between the power lines; And It is connected to the main switching element, the main current detector and the image current transformer, and receives the output signal of the main current detector and the output signal of the image current transformer to determine the abnormality of the power line, the set time when the abnormality is detected Turn off the main switching element within a predetermined time period, turn on the main switching element in order to detect the section in which the abnormality occurs, and then detect the section in which the abnormality occurs while supplying power for each of the plurality of sections sequentially. And a line monitoring controller for preventing power from being supplied to sections including the section and supplying power to the section before the section in which the abnormality occurred. The method of claim 1, wherein the plurality of regional surveillance panelboards each An auxiliary switching element connected to power lines between the plurality of regional monitoring distribution panels; And A power line communication device connected to the plurality of power lines, the auxiliary switching element, and the load device to control the operation of the auxiliary switching element while communicating with the line monitoring distribution panel through the power lines, and supplying power to the load device. Power line monitoring device characterized in that it comprises. 4. The auxiliary switching device of claim 3, wherein the auxiliary switching element is turned off immediately after the power supplied to the power lines is cut off, and is turned on under the direction of the power line communication device, and includes one of a relay, a silicon controlled rectifier, and a triac. Electric power line monitoring device. 4. The apparatus of claim 3, further comprising an auxiliary current detector connected between the power line communication device and the load device to detect an amount of current supplied from the power line communication device to the load device and to transmit the current to the power line communication device. Electric power line monitoring device. A plurality of power lines; A plurality of regional monitoring distribution panels connected to the plurality of power lines to monitor a power supply state of the power lines; A plurality of load devices operating by receiving power from the plurality of regional monitoring distribution panels; And A line monitoring distribution panel connected to both ends of the plurality of power lines, The plurality of power lines are divided into a plurality of sections, The line monitoring distribution panel first detects an abnormality of power lines arranged in the plurality of sections while supplying power sequentially from the first section to the last section among the plurality of sections, and then the first section from the last section. While supplying power in reverse order to detect the presence or absence of power lines arranged in the plurality of sections, and if an abnormality is detected, the power is cut only in the section where the abnormality occurs, and in all the sections where the abnormality does not occur Power line monitoring device, characterized in that for supplying power. According to claim 6, wherein the track monitoring panel is A first monitoring unit connected to one end of the power lines to detect an abnormal state of the power lines; A second monitoring unit connected to the other ends of the power lines to detect an abnormal state of the power lines; And Connected to the first monitoring unit and the second monitoring unit in common, and detecting an abnormality of power lines arranged in the plurality of sections while supplying power to the plurality of sections sequentially through the first monitoring unit, While supplying power to the plurality of sections in reverse order through the second monitoring unit, it detects the presence or absence of power lines arranged in the plurality of sections, and when the abnormality is detected, cuts off power only to the section in which the abnormality occurs. And a line monitoring controller for supplying power to all sections in which the abnormality does not occur. The method of claim 7, wherein the first monitoring unit A first main switching element connected to one end of the power lines; A first main current detector connected to one of power lines between the first main switching element and a plurality of regional monitoring switchboards to detect an amount of current of the one power line; And A first image current transformer connected to the power lines between the first main switching element and the first regional monitoring distribution panel in common and detecting a current difference between the power lines; The second monitoring unit A second main switching element connected to the other ends of the power lines; A second main current detector connected to one of power lines between the second main switching element and the last regional monitoring switchgear of the regional monitoring switchboards to detect a current amount of the one power line; And And a second image current transformer connected in common to power lines between the second main switching element and the last regional monitoring distribution panel to detect a current difference between the power lines. The method of claim 6, wherein the plurality of regional surveillance panelboards each An auxiliary switching element for switching power lines between the plurality of regional monitoring distribution panels; And And a power line communication device connected to the power lines, the auxiliary switching element, and the load device to control the switching state of the auxiliary switching element by receiving an instruction from the line monitoring distribution panel. 10. The method of claim 9, wherein the auxiliary switching element is turned off immediately after the power supplied to the power lines are cut off, and turned on under the direction of the power line communication device, it comprises one of a relay, a silicon controlled rectifier, a triac. Electric power line monitoring device. The power line monitoring apparatus according to claim 9, further comprising an auxiliary current detector connected between the power line communication device and the load device to detect an amount of current supplied from the power line communication device to the load device. .

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