KR102141827B1 - Monitoring System for Fault Line of Distribution Line - Google Patents

Abstract

The present invention relates to a system for detecting a fault section of a distribution line provided with a moisture removal device. More particularly, the present invention relates to a system for detecting a fault section of a distribution line provided with a moisture removal device in which a line opening and closing device is operated by a detection signal of a sensor means installed at front and rear ends of the distribution line passing through a side pole to temporarily cut off a flow of the distribution line in case of failure of the distribution line. On the other hand, the present invention prevents corrosion and the like as well as failure of a CPU, storage battery means, motor means, and the like by preventing moisture and the like from being generated inside a main body.

Description

Monitoring system for fault line of distribution line with moisture removal device

The present invention relates to a failure section detection system of a distribution line equipped with a moisture removal device in the field of distribution technology, and more specifically, by a detection signal of a sensor means installed at the front end side and the rear end side of the distribution line passing through the periphery. In order to prevent corrosion, along with malfunctions of the CPU, battery means, motor means, etc., by preventing the occurrence of moisture, etc. in the inside of the main body while temporarily blocking the flow of the distribution line in the event of a breakdown of the distribution line by operating the line opening and closing device. It relates to a failure section detection system of a distribution line equipped with a moisture removal device.

As is well known, distribution lines supplying power from substations to consumers require the supply of power to a number of customers, respectively, and the composition is composed of complex trunk lines and branch lines.

Therefore, when a fault current or voltage occurs due to a ground fault (when the wire is cut off and ground to the ground) or a short circuit (when wires from different phases are attached) on the distribution line, the location of the fault point where the accident occurred It takes a lot of effort to find.

Conventionally, when a fault current and voltage occur in a distribution line, the operator of the site and the substation manager mainly use communication means to operate the substation blocking device to find the fault where the fault current and voltage occurred, and information about the point of the accident using communication means. The fault was found by exchanging.

However, in the case of the above method, a lot of time and manpower are consumed, and as the recovery time increases, a power outage time increases, which frequently causes a problem that causes great inconvenience to power consumers.

As a conventional technology that partially improves these problems, Korean Patent Registration No. 10-0956712 (2010.05.06.) discloses an automatic opening and closing device for a fault section of a transmission/distribution line.

However, such a conventional automatic opening and closing device of the transmission/distribution line failure section cannot prevent moisture from being generated inside the main body, thereby preventing corrosion, such as failure of the CPU, storage battery means, and motor means due to moisture. There is a problem that it is difficult to do.

Republic of Korea Patent Registration No. 10-0956712 (2010.05.06.)'automatic switchgear for fixed section of transmission and distribution lines'

The present invention was devised to solve the above-mentioned problems, and the object of the present invention is to operate the line opening/closing device by the detection signal of the sensor means installed at the front end side and the rear end side of the distribution line passing through the periphery. In the event of a breakdown, the flow of the distribution line is temporarily blocked, and the inside of the main body is prevented from generating moisture, etc.. It is to provide a fault detection system.

The problem to be solved of the present invention is not limited to those mentioned above, and other problems 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 a certain portion of the distribution line to receive the measurement signals of the sensor means (S1, S2) for detecting the voltage and current of the load stage and transmit the received signal value in real time Communication module 110 for; CPU (100) for determining in real time the failure point due to the fault current and voltage of the signal value transmitted from the communication module (110); A storage battery means 200 connected to the CPU 100 and charged by power flowing through a distribution line; A motor means 300 connected to the CPU 100 and driven by an operation signal of the CPU 100; The CPU 100, the battery means 200, the motor means 300 is installed inside and the main body 400 is provided with a door 410; A rotating shaft means 500 connected to the shaft of the motor means 300; An operation connecting member 600 horizontally installed at an end of the rotating shaft means 500; A connecting connecting member 700 that connects and disconnects voltage and current by inserting and removing while the operating connecting member 600 is rotated by driving of the motor means 300; And in the failure section detection system of a distribution line equipped with a moisture removal device consisting of a cover member 800 for protecting the operation connecting member 600 and the connecting connecting member 700, the inside of the body 400 is ventilated Ventilation unit 10 to be; And a foreign substance discharge unit 90 for discharging foreign substances seated on the inner bottom surface of the main body 400 to the outside, and the ventilation unit 10 is a support tube connected to communicate with the main body 400. (20); An inflow pipe 30 through which the support pipe 20 passes and connected to the main body 400 and through which air flows in from the outside; An exhaust pipe 40 that passes through the interior of the support pipe 20 and is connected to the main body 400 and is provided with an exhaust fan 50 so that air in the main body 400 is discharged to the outside; And a heater 60 provided in the support tube 20, wherein the heater 60 is formed of a coiled heating wire and coupled to the outside of the support tube 20, the inlet tube 30 and While heating the air passing through the exhaust pipe 40, the moisture contained in the air is heated and dried, and the foreign substance discharge unit 90 is located inside the main body 400 so as to be located below the battery means 200. A plate 91 in which a foreign matter collecting space B is formed between the bottom surface of the main body 400 and a plurality of hollows 91a are formed; An injection pipe 92 which is connected to the main body 400 so that one end portion is located on the upper portion of the plate 91 and injects air into the plate 91 while air is supplied from the outside to the other end portion; And an outlet pipe 93 connected to the main body 400 and the other end connected to the exhaust pipe 40 so that one end communicates with the foreign matter collecting space B, and the foreign matter seated on the plate 91 is , According to the air injection from the injection pipe 92, the foreign matter collected into the foreign matter collecting space (B), or introduced into the exhaust pipe (40), and the foreign matter collected into the foreign matter collecting space (B) is the exhaust fan ( It provides a failure section detection system of a distribution line equipped with a moisture removal device characterized in that it is discharged to the outside while being sucked into the exhaust pipe 40 according to the operation of 50).

According to the present invention, after detecting the voltage and current of the load stage and determining in real time a fault current (FI: Fault Indicator) by calculating the fault current or voltage, and transmitting it to the upper system, the power transmission automation algorithm (Algorithm) When the execution command by is transmitted to the terminal device, the terminal device can separate/return the failure section of the distribution line more quickly by operating the motor with its own communication and failure determination algorithm.

In addition, by preventing moisture or the like from being generated inside the main body, there is an effect of preventing corrosion and the like, along with failures of the CPU, battery means, and motor means.

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

1 is a conceptual diagram schematically showing a failure section detection system of a distribution line equipped with a moisture removal device according to the present invention.
2 is a perspective view showing a failure section detection system of a distribution line equipped with a moisture removal device according to the present invention.
3 is a front view showing a failure section detection system of a distribution line equipped with a moisture removal device according to the present invention.
4 is a plan view showing a failure section detection system of a distribution line equipped with a moisture removal device according to the present invention.
Figure 5 is a perspective view showing the structure of the connecting member in the failure section detection system of the distribution line equipped with a moisture removal device according to the present invention.
Figure 6 is a side view showing the coupling structure of the operating connecting member and the connecting connecting member in the failure section detection system of the distribution line equipped with a moisture removing device according to the present invention.
7 is a front view showing a state in which a ventilation unit is provided in a failure section detection system of a distribution line equipped with a moisture removal device according to the present invention.
8 is a block diagram schematically showing a ventilation unit in a failure section detection system of a distribution line equipped with a moisture removal device according to the present invention.
And
9 is a front view showing a state in which the foreign material discharge unit is provided in FIG.

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

The failure section detection system (1) of a distribution line equipped with a moisture elimination device according to the present invention is a sensor means installed at the front end side and the rear end side of the distribution line passing through a toilet line installed to transmit power from a power plant or substation to a company or each home It is installed to operate by the detection signal of (S1)(S2) to temporarily cut off the flow of the distribution line when the distribution line fails.

At this time, the fault section detection system (1) of the distribution line equipped with the moisture removal device of the present invention installed on the toilet is installed in a certain portion of the distribution line as shown in Figures 2 to 4 and the voltage at the load end The signal value transmitted from the wired or wireless communication module 110 and the communication module 110 for receiving the measurement signal of the sensor means (S1) (S2) for detecting the current and transmitting the received signal value in real time The CPU 100 is connected to the CPU 100 and the CPU 100 for real-time determination of a failure point due to a fault current and a fault voltage, and is connected to the storage battery means 200 and the CPU 100 charged by power flowing through a distribution line. The motor means 300 driven by the operation signal of the CPU 100 is installed inside the main body 400 provided with a door 410 that is opened and closed by a hinge.

On the shaft of the motor means 300, a rotating shaft means 500 is connected and installed through the main body, and an operation connecting member 600 is horizontally installed at an end of the rotating shaft means 500.

The operation connecting member 600 is preferably formed in a rod shape having a square cross section and having a constant length.

The operation connecting member 600 is preferably made of copper and aluminum or a mixture of copper and aluminum, because the material has a high electrical conductivity.

As the operating connecting member 600 is rotated by the driving of the motor means 300, the connecting member 700 is inserted into the grounding rod 720 or detached from the grounding rod 720 to connect and disconnect voltage and current. It is a structure that is fixed to both sides of the (800).

5 and 6, the connection connecting member 700 is connected to a distribution line on one surface of the fixing plate 710 and is formed to form four quadrangular rods 720 on the other side of the adjacent ground rods. It is a structure in which a space part into which the operation connecting member 600 is inserted is formed between the 720 and the ground rod 720.

As illustrated in FIG. 1, an operation lever 900 for manually operating the motor means 300 in an emergency may be installed and used inside the main body 400.

The storage means 200 may be further connected to a solar means (T1) using sunlight as a power source to supply power to the storage means 200 when a failure occurs in the distribution line.

When explaining the operating state of the present invention made of the structure as described above, the sensor means installed at the front end side and the rear end side of the distribution line passing through the toilet seat is installed for each toilet seat, and is installed to measure the current or voltage between the toilet seats. Can.

The current or voltage measured by the sensor means is transmitted to the communication module 110, and the communication module 110 also communicates with other neighboring communication modules (not shown) to measure the voltage or current value between the poles. Send and receive.

The signal transmitted to the communication module 110 may be transmitted to a central control system (not shown).

In addition, each communication module 110 may transmit the detected signals to the central control system to determine whether a normal voltage or a normal current is supplied between the main poles in the central control system.

The signal transmitted to the communication module 110 is transmitted to the CPU 100, and the signal transmitted from the communication module 110 to the CPU 100, that is, the detection signal that detects the voltage and current is the fault current or the CPU 100. After determining whether there is a failure due to voltage calculation in real time and transmitting it to the upper system, the execution command by the distribution automation algorithm is transmitted from the CPU 100 to each means.

For example, when the signal value transmitted from the sensor means installed at the front end side and the rear end side of the distribution line is determined as a normal signal by calculating data from the CPU 100, the current state is maintained, but when it is determined as a failure signal, the motor means 300 ).

When the motor means 300 is rotated by a signal transmitted from the CPU 100, the rotating shaft means 500 connected to the shaft of the motor means 300 is also interlocked and rotated. When the rotating shaft means 500 is rotated, the rotating shaft means The working connecting member 600 horizontally installed at the end of 500 is also rotated as shown in FIG. 4.

When the working connecting member 600 is rotated, the position of the working connecting member 600 located between the four grounding rods 720 and the grounding rod 720 installed on one surface of the fixing plate 710 of the connecting connecting member 700 is 90. The rotational force of the grounding rod 720 is released as the position of the operation connecting member 600 connected to the space between the grounding rod 720 and the grounding rod 720 is rotated and the position of the grounding rod 720 is changed.

On the other hand, by operating the motor means 300, the fault section of the distribution line is more quickly separated/returned, and power is always supplied by the power storage means even after a long power failure, so that the fault section can be quickly separated/returned. It becomes possible.

When the operation connecting member 600 cannot be operated due to the failure of the CPU 100 or the motor means 300, the substation manager and the worker come out to the accident point and open the door to force the motor using the operation lever 900 By operating the means 300, it is possible to manually separate/return the connection between the operating connecting member 600 and the connecting connecting member 700.

The failure section detection system 1 of the distribution line equipped with a moisture removal device according to the present invention further includes a ventilation unit 10 for ventilating the interior of the main body 400 as shown in FIGS. 7 to 8.

The ventilation unit 10 prevents moisture and the like from being generated inside the main body 400 and prevents corrosion, etc., along with failures of the CPU 100, the battery means 200, and the motor means 300.

The ventilation unit 10 is a support pipe 20 connected to communicate with the main body 400, passes through the interior of the support pipe 20 and is connected to the main body 400, and the inflow of air from the outside Exhaust pipe 40 that passes through the inside of the pipe 30 and the support pipe 20 and is connected to the main body 400 and is provided with an exhaust fan 50 so that air in the main body 400 is discharged to the outside. And a heater 60 provided on the support tube 20.

The support pipe 20 has both ends open, and the inlet pipe 30 and the exhaust pipe 40 pass inward.

The support tube 20 is connected so that one end communicates with the interior of the body 400.

The inlet pipe 30 is connected so that one end communicates with the inside of the main body 400 and the other end passes through the support pipe 20 and protrudes outward.

The exhaust pipe 40 is connected so that one end communicates with the inside of the main body 400 and the other end protrudes outwardly through the support tube 20.

The exhaust fan 50 is provided at the other end of the exhaust pipe 40 so that the air in the main body 400 is sucked and discharged to the outside according to driving.

The inlet pipe 30 may be provided with a suction fan 70 at the other end.

The suction fan 70 allows the outside air to be sucked into the main body 400 as it is driven.

The heater 60 is formed of a coiled heating wire and is coupled to the outside of the support tube 20, and heats air passing through the inlet pipe 30 and the exhaust pipe 40 while being heated by a power applied from the outside. By doing so, the moisture contained in the air is dried by heating.

The ventilation part 10 is the exhaust, suction fan (50,70) and the heater (60) in accordance with the detection signal of the moisture detection sensor 80 and the moisture detection sensor 80 for detecting moisture in the main body 400 ) It further includes a control unit (A) for controlling to operate.

The control unit (A) is so that the exhaust, suction fan (50,70) and heater (60) in accordance with the detection signal of the moisture detection sensor (80) is operated so that the moisture to the body 400 can be effectively removed do.

The air introduced into the main body 400 through the inlet pipe 30 is primarily dried while the moisture contained in the air passes through the suction fan 70 while passing through the support pipe 20. It can be finally dried by (60).

At this time, it is preferable that some of the air discharged through the exhaust pipe 40 is re-introduced into the main body 400 through the inlet pipe 30.

To this end, the ventilation unit 10 may further include a branch pipe 41 connecting the exhaust pipe 40 and the inlet pipe 30.

The branch pipe 41 allows a part of the air passing through the exhaust pipe 40 to be re-introduced into the main body 400 through the inlet pipe 30.

Due to this, while the air in which the moisture is removed passes through the main body 400, it is possible to effectively remove moisture and the like present in the main body 400.

The failure section detection system 1 of a distribution line equipped with a moisture removal device according to the present invention is a foreign substance that discharges foreign substances such as dust, which is settled on the inner bottom surface of the main body 400, as shown in FIG. Further includes a discharge unit 90.

The foreign matter discharge unit 90 is a fire, along with electrical safety accidents such as electric leakage, which may occur when foreign matter flowing in from the outside is settled on the bottom surface of the main body 400 according to driving of the ventilation unit 10. Avoid occurrence.

The foreign substance discharge unit 90 is provided inside the main body 400 so as to be located below the battery means 200 and forms a foreign matter collection space B between the bottom surface of the main body 400 and a plurality of Plate 91 is formed of the hollow (91a), one end is connected to the main body 400 so that it is located on top of the plate 91 and air is supplied from the outside to the other end while supplying air to the plate (91) It includes an injection pipe (92) for spraying and an outlet pipe (93) connected to the main body (400) and the other end connected to the exhaust pipe (40) so that one end communicates with the foreign matter collection space (B).

The plate 91 may have a network shape having a plurality of hollows 91a, and is provided inside the main body 400 so as to be positioned under the battery means 200.

The injection pipe 92 allows one end to pass through one side of the body 400 and is located at the upper portion of the plate 91 so that air supplied from the outside is injected into the plate 91.

The injection pipe 92 may be connected to an air supply device (not shown) for supplying compressed air to the other end while injecting air into the plate 91.

The air supply device may be a compressor or the like, and is preferably driven together with the exhaust and suction 50 and 70 under the control of the control unit A.

The injection pipe 92 may be provided with an injection nozzle 94 at one end.

The injection nozzle 94 is disposed in plural in the longitudinal direction of the injection tube 92 to eject air through the exhaust pipe 40 while dispersing foreign matter seated on the plate 91 by spraying air to the plate 91 On the other hand, it is to be collected into the foreign matter collecting space (B).

The injection nozzle 94 may allow the moisture existing on the bottom surface of the main body 400 to dry while spraying air to the plate 91.

The discharge pipe 93 allows the foreign matter collecting space (B) and the exhaust pipe 40 to be connected to be discharged while the foreign matter collected into the foreign matter collecting space (B) is sucked according to the operation of the exhaust fan (50). Make it possible.

The discharge pipe 93 is preferably connected to the exhaust pipe 40 so that the other end is located between the exhaust fan 50 and the branch pipe (41).

This allows the suction force of the exhaust fan 50 to be effectively transmitted to the discharge pipe 93, while foreign substances contained in the air discharged through the discharge pipe 93 are transferred to the main body through the branch pipe 41. This is to prevent re-inflow to 400.

Accordingly, a portion of the foreign matter seated on the plate 91 rises and flows into the exhaust pipe 40, and the remaining portion passes through the plate 91 and may be collected into the foreign matter collection space B.

Among the foreign matters collected into the foreign matter collection space B, foreign matters remaining without being discharged through the discharge pipe 93 may be removed by opening the door 410.

Due to this, the foreign substance discharge unit 90 is coupled with an electrical safety accident such as a short circuit that may occur when foreign substances flowing in from the outside are settled on the bottom surface of the main body 400 according to driving of the ventilation unit 10 or the like. It is possible to prevent a fire or the like from occurring.

What has been described above is only an embodiment for implementing a failure section detection system for a distribution line equipped with a moisture removal device according to the present invention, and the present invention is not limited to the above-described embodiment, and is not limited to the following claims. As claimed, any person having ordinary knowledge in the field to which the present invention belongs, without departing from the gist of the present invention, will be said to have the technical spirit of the present invention to the extent that various changes can be implemented.

100: CPU 110: Communication module
200: battery means 300: motor means
400: main body 500: rotating shaft means
600: operating connecting member 700: connecting connecting member
720: ground rod 720a: ground terminal
800: cover member 900: operating lever
10: ventilation unit 20: support tube
30: inlet pipe 40: exhaust pipe
50: exhaust fan 60: heater
70: suction fan 80: moisture sensor
90: control unit

Claims (1)

In the failure section detection system of a distribution line equipped with a communication module, a CPU, a battery means, a motor means, a main body, a rotating shaft means, a damping device consisting of a working connecting member, a connecting connecting member and a cover member,
A ventilation unit to ventilate the interior of the body to prevent moisture from being generated ; And further comprising a foreign matter discharge unit for preventing a fire with an electrical safety accident that may occur while discharging the foreign matter flowing in from the outside according to the driving of the ventilation unit to the outside surface of the main body ,
The ventilation unit is a support pipe connected to communicate with the main body; An inlet pipe through which the other end is located outside the support pipe and one end passes through the inside of the support pipe to be connected to the body, and a suction fan is provided to allow air drawn in from the outside to flow into the body ; An exhaust pipe through which the other end is located outside the support pipe, passes through the interior of the support pipe, and is connected to the body, and is provided with an exhaust fan so that air in the body is discharged to the outside; A heater provided in the support tube; A moisture sensor for sensing moisture in the body; A branch pipe connecting the outlet pipe and the inlet pipe so that a part of air passing through the outlet pipe is re-introduced to the main body through the inlet pipe; And a control unit that controls the exhaust, suction fan, and heater to operate according to the detection signal of the moisture sensor.
The heater is formed of a coil-shaped heating wire and coupled to the outside of the support tube, so that the moisture contained in the air is heated and dried while heating the air passing through the inlet pipe and the exhaust pipe,
The foreign matter discharge portion is provided inside the main body so as to be located under the storage battery means to form a space for collecting foreign matter between the bottom surface of the main body, a plurality of hollow plates are formed; An injection pipe which is connected to the main body so that one end is positioned on the upper portion of the plate and injects air into the plate while air is supplied from the outside to the other end; An outlet pipe connected to the main body so that one end portion communicates with the foreign matter collection space and the other end portion connected to the exhaust pipe; And a plurality of injection nozzles provided at one end of the injection pipe,
The injection nozzle is to disperse the foreign matter seated on the plate while spraying air to the plate to be collected in the foreign matter collection space, or to flow into the exhaust pipe and to allow the moisture present on the bottom surface of the body to dry,
The foreign matter collected in the foreign matter collecting space is sucked into the exhaust pipe according to the operation of the exhaust fan and discharged to the outside, thereby detecting a failure section of a distribution line equipped with a moisture removal device.

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