KR101780324B1 - Fault line separating controlling system has been applied to the distribution line equipment - Google Patents

Abstract

The present invention relates to a fault section separation control device system for a distribution line, capable of temporarily blocking a flow of the distribution line when the distribution line is trouble by operating a line switch by a detection signal of a sensor means installed in the leading end side and the rear end side of the distribution line passing through an electric pole and safely protecting an element configuration in direct contact with the distribution line of the line switch from an overheating phenomenon due to radiant heat of sunlight in a space blocked for insulation. The fault section separation control device system for a distribution line according to the present invention includes a communication module, a CPU, a storage battery means, a motor means, a main body, a door, a rotary shaft means, an operation connecting member, a connection connecting member, a cover member and an operating lever as main components for the line switching of the distribution line. As main components for preventing the overheating of the line switching configuration and the distribution line inside the cover member, the system includes a temperature sensor, a cooling fan, a rainwater storage tank, a pumping device, a rainwater transfer pipe, a control unit, a fan cover, and a solar cell panel.

Description

BACKGROUND ART [0002] Fault line separation control systems have been applied to distribution line equipment for distribution lines.

According to the present invention, the line open / close device is operated by detecting signals of sensor means provided on the leading and trailing sides of a distribution line passing through an outboard motor to temporarily shut off the flow of the distribution line to the distribution line in case of failure of the distribution line, To a fault line section separation control system of a distribution line which can be safely protected from overheating phenomenon due to radiant heat of sunlight in a space blocked for insulation.

Generally, distribution lines that supply electricity from a substation to a consumer are made up of complicated trunks and branches because they have to supply power to a large number of customers.

Therefore, in case of ground fault (when the wire is disconnected and grounded on the power distribution line) or short circuit (when the wires on different phases are caught), fault current and voltage occur, A lot of efforts are needed to find out.

In the past, when a fault current and a voltage are generated in a distribution line, a substation operator is operated by a substation operator in order to find faulty current and voltage, It was a common method to find out the merits by exchanging them.

However, in the case of the above-mentioned method, as the recovery time becomes longer due to a lot of time and manpower consumed, the power failure time becomes longer and the problem of causing a great inconvenience to the electric power consumer frequently occurs.

Accordingly, there is a need for a method for improving the reliability of the power supply and the quality of service for the customer by shortening the power failure time by quickly grasping and recovering the position of the power supply when an accident occurs in the power distribution line.

Thus, at present, a line automatic switch is installed in a branching point or a customer entrance in a substation with a load capacity of 4000 [kVA] or less.

In the event of a ground fault, the line automatic switch closes or opens the fault section quickly and accurately in cooperation with the line open / close control device installed in the circuit breaker of the substation and the distribution line, thereby preventing the fault section from expanding and minimizing the damage.

As described above, there are a circuit breaker, a switch, and a recloser for separating and shutting down the fault current and voltage generated when an accident occurs in a distribution line and a fault current and a voltage are detected.

Hereinafter, the function will be described briefly.

The circuit breaker (CB) can open or close the line when a very large fault current is detected from the distribution line. It is also possible to open and close a line through which normal current flows as required.

Unlike circuit breakers, a load break switch (LBS) is a device that can open and close a line only when current does not flow, or when normal current and voltage flow, and when a fault current and voltage occur, the line can not be opened or closed do. A control unit called a feeder remote terminal unit (FRTU) may be installed in the switch for controlling the operation thereof.

That is, the FRTU is a device connected to the mechanical part of the switch to control the opening and closing of the switch. However, the FRTU does not control the mechanism by determining the opening and closing of the line through the switch, but can control the mechanism by receiving a command from the host (main controller) through the communication function.

Recloser is a special type of circuit breaker that performs reclosing of the line. If a fault current is detected from the distribution line and continues for a certain period of time, the recloser opens the line and closes the line again after a preset period of time. If the fault current is continuously detected even after the line is closed, the recloser repeats the reclosing process of the line as described above a predetermined number of times, and if the fault current continues, the line is completely opened and the reclosing operation is no longer performed .

However, when a line failure occurs in the distribution line, it is decided based on the judgment of the person in charge of the distribution management system or the operation room, or by turning off the two switches of the corresponding line in accordance with the program for automatically detecting the fault in the distribution line, .

Therefore, it is inevitable to determine the fault zone of the person in charge of the distribution management system or the distribution operation room.

Because lack of education by simulation and accident do not happen all the time, human may delay judgment error of fault section, that is, fault section separation time due to human error.

In view of such conventional problems, in recent years, a voltage and a current at a lower stage are detected to determine a high-speed fault indicator (FI) by a fault current calculation in real time and transmitted to an upper system, The terminal device is provided with an automatic switchgear of a power distribution system that performs a function of separating / returning a fault section by a self-communication and a failure determination algorithm, that is, an automatic open / close device of a fault section of a power distribution line is installed and used have.

Korean Patent Registration No. 10-0956712 (Apr. 29, 2010), entitled " automatic open / close device for a fault section in a power distribution line, "

However, in the case of the above-mentioned registered patent, since the structure for automatically opening and closing the distribution line is directly accommodated in the cover member together with the distribution lines, the ambient temperature is high as in summer, The temperature of the interior of the cover member becomes excessively high. As a result, the automatic opening / closing structure between the distribution line and the distribution line in the cover member is overheated, leading to a risk of fire or the like.

Korean Registered Patent No. 10-0956712 (2010.05.06. Announcement), "Automatic open / close device for fault section of power transmission / distribution line" Korean Registered Patent No. 10-1441462 (Announcement of Sep. 17, 2014), "Separation control system for fault section of distribution line"

In an embodiment of the present invention, a voltage and a current at a lower stage are detected, and a fault (FI) indicator is detected in real time based on a fault current or a voltage calculation. Then, the fault indicator is transmitted to an upper system, The terminal device operates the motor by its own communication and fault determination algorithm to more quickly separate / restore the fault section of the power distribution line, and even if the power is turned off for a long time, There is provided a failure section separation control system for a distribution line, which is advantageous in quickly separating / returning a fault section since power is always supplied.

Further, in the embodiment of the present invention, the structure for automatically opening and closing the distribution line while directly contacting with the distribution line is used to prevent overheating phenomenon due to being accommodated inside the cover member to prevent the danger of electric shock, A failure section separation control system for a distribution line is provided so that an accident can be prevented in advance.

The fault section separation control system for a distribution line according to an embodiment of the present invention includes a fault section separation control apparatus installed in a part of a distribution line to receive a measurement signal of a sensor means for detecting voltage and current at a lower stage, A CPU 100 for determining in real time the advantages of the fault current and the voltage based on signal values transmitted from the communication module 110, 100, and is charged by a power source flowing through a distribution line; motor means 300 connected to the CPU 100 and driven by an operation signal of the CPU 100; A main body 400 provided with a battery unit 100, a battery unit 200 and a motor unit 300 and a door 410; a rotating shaft unit 500 connected to the shaft of the motor unit 300; An operation connecting member 600 horizontally installed at an end of the rotary shaft means 500, A connection connecting member 700 connecting and disconnecting a voltage and a current by insertion and removal while the operating connecting member 600 is rotated by driving the motor means 300, A cover member 800 for protecting the connecting member 700; a temperature sensor 10 installed inside the cover member 800 to sense the temperature of the cover member 800 in real time; A cooling fan 20 installed in the main body 400 and operated according to an external control signal to discharge hot air in the cover member 800 to the outside; And a plurality of rainwater inflow grooves 31 connected to the rainwater induction grooves 810 of the cover member 800 are formed along the circumference of the upper end of the cover member 800. Radiant heat of sunlight and other external A heat insulating layer 32 coated with a heat insulating coating function of reflecting heat And the inner space is partitioned into an upper space 35 and a lower space 36 through a horizontal partition wall 33 and the partition wall 33 is connected to the upper space 35 and the lower space 36 A rainwater storage tank 30 in which a through hole 34 is formed and a rainwater storage tank 30 in which rainwater in the lower space 36 can be pumped and operated according to an external control signal A pumping device 40 for pumping the stored rainwater in the lower space 36 toward the cover member 800 and a pumping device 40 having one end in the longitudinal direction connected to the pumping device 40, 800 disposed on the upper surface of the cover member 800 and discharging rainwater in the lower space 36 pumped through the pumping device 40 to the upper surface of the cover member 800, A showerhead 51 for discharging rainwater into a shower form, A critical temperature value for controlling the operation of the cooling fan 20 and a critical time for controlling the operation of the pumping device 40 in the operating state of the cooling fan are respectively set And outputs a control signal to the cooling fan 20 to operate the cooling fan 20 when the temperature detection signal transmitted from the temperature sensor 10 exceeds the threshold temperature value, When the temperature sensing signal transmitted from the temperature sensor 10 exceeds the critical temperature value even after the lapse of the critical time, the control device outputs a control signal to the pumping device 40 to operate the pumping device 40 The control unit 60 is installed in the cover member 800 so that rainwater flowing along the outer surface of the cover member 800 does not flow into the cooling fan 20, [0030] A vent hole 71 for discharging warm air to the outside of the member 800 is formed at a position that does not allow inflow of rainwater flowing along the outer surface of the cover member 800 into the cooling fan 20 A fan cover 70 and an outer surface of the door 410. The cooling fan 20, the pumping device 40, the control unit 60, The rainwater stored in the lower space (36) of the rainwater storage tank (30) during the operation of the pumping device (40) is preferentially discharged through the rainwater conveyance The rainwater stored in the upper space 35 of the rainwater storage tank 30 is conveyed to the upper surface of the cover member 800 through the pipe 50, Into the lower space (36) through the through hole (34) of the partition (33) Through the rainwater inflow grooves 31 of the rainwater storage tank 30 through the heat exchange with the inside of the cover member 800 while flowing along the outer surface of the cover member 800, And the connection connecting member 700 is connected to a power distribution line on one side of the fixing plate 710 and four ground rods 720 on the other side so as to form a quadrangle, A space for inserting the operating connecting member 600 is formed between the ground bar 720 and the ground bar 720. The main body 400 is provided with an operating lever for manually operating the motor means 300 in an emergency 900, and a solar cell using solar light as a power source may be further connected to the storage means 200. [

According to an embodiment of the present invention, a voltage and a current at a lower stage are detected to determine a fault (FI) by a fault current or a voltage calculation in real time and transmitted to an upper system, When a command to be executed by an automation algorithm is transmitted to a terminal device, the terminal device operates a motor by its own communication and fault determination algorithm to more quickly separate and restore the fault section of the power line, The power source is always supplied by the power storage means, so that the fault section can be separated / returned quickly.

In addition, the structure for automatically opening and closing the distribution line while directly touching the distribution line can be safely protected from an overheating phenomenon due to being accommodated in the inside of the cover member and a fire caused by the overheating phenomenon .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a conceptual illustration of an installation state of a fault section separation control apparatus system according to an embodiment of the present invention; FIG.
FIG. 2 is a perspective view illustrating an entire outline of a failure section separation control system for a distribution line according to an embodiment of the present invention. FIG.
3 is a side view of the fault line section separation control system system according to the embodiment of the present invention
FIG. 4 is a plan view of a fault line section separation control system of a distribution line according to an embodiment of the present invention.
5 is a perspective view illustrating a connection connecting member in a fault section separation control system according to an embodiment of the present invention;
6 is a perspective view illustrating another example of the connecting connection member in the fault line section separation control system according to the embodiment of the present invention.
7 is a side view showing a combined structure of an operating connecting member and a connecting connecting member in a fault sectioned control apparatus system of a distribution line according to an embodiment of the present invention
8 is a perspective view illustrating a state in which a recessed portion structure is additionally installed in a fault section separation control apparatus system according to an embodiment of the present invention;
FIG. 9 is a cross-sectional view illustrating an internal configuration of a rainwater storage tank among the constructions according to FIG. 8
FIG. 10 is a block diagram illustrating an electrical configuration of the recess configuration according to FIG.
And
11 is a view conceptually showing an installation state of a fault section separation control apparatus system according to another embodiment of the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with one embodiment. It is also to be understood that the position or arrangement of the individual components in each described embodiment may be varied without departing from the spirit and scope of the present invention.

The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is to be limited only by the appended claims, along with the full scope of equivalents to which the claims are entitled, if properly explained. In the drawings, like reference numerals refer to the same or similar functions throughout the several views.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments. Also, in certain cases, there may be a term selected arbitrarily by the applicant, in which case the meaning thereof will be described in detail in the description of the corresponding invention. Therefore, the term used in the present invention should be defined based on the meaning of the term, not on the name of a simple term, but on the entire contents of the present invention.

Whenever an element is referred to as " including " an element throughout the description, it is to be understood that the element may include other elements as well, without departing from the other elements unless specifically stated otherwise. In addition, the term " "... Module " or the like means a unit for processing at least one function or operation, which may be implemented in hardware or software, or a combination of hardware and software.

1 to 11, a failure section separation control system for a distribution line according to an embodiment of the present invention will be described.

As shown in FIG. 1, the present invention is applied to a detection signal of sensor means (S1) and (S2) provided on the front end side and the rear end side of a power distribution line passing through a substation installed for transmission to a company or each household in a power plant, a substation, The fault section separation control system 1 operates to temporarily shut off the flow of the power to the distribution line when the distribution line fails.

In this case, the fault section separation control system 1 of the present invention installed in the abovementioned substation is installed in a certain portion of the distribution line as shown in Figs. 2 to 4, A wired or wireless communication module 110 for receiving the measurement signal of the sensor means S1 and S2 for detecting and transmitting the received signal value in real time, A battery unit 200 connected to the CPU 100 and charged by a power source flowing through a power distribution line and connected to the CPU 100 and connected to the CPU 100. The CPU 100 is connected to the CPU 100, The motor unit 300 driven by an operation signal of the door 100 is installed inside the main body 400 having the door 410 opened and closed by the hinge.

The rotary shaft unit 500 is connected to the shaft of the motor unit 300 through the body. The operation connecting member 600 is horizontally installed at the end of the rotary shaft unit 500.

The operation connecting member 600 is preferably formed in a rod shape having a square cross section and having a predetermined length. In addition, as the material of the operation connecting member 600, it is preferable to use an alloy of copper and aluminum or a mixture of copper and aluminum because it is a material having high electrical conductivity.

The connecting member 700 for connecting and disconnecting the voltage and the current while being disconnected from the grounding bar 720 or being disengaged from the grounding bar 720 while being rotated by the driving of the motor means 300, 800, respectively.

5 and 6, the connection connecting member 700 is formed such that a distribution line is connected to one surface of the fixing plate 710 and four ground rods 720 are formed on the other surface to form a tetragonal shape And a space for inserting the operating connecting member 600 is formed between the adjacent ground bar 720 and the ground bar 720.

8, the connection connecting member 700 may have a distribution line connected to one side of the fixing plate 710 and a plate-shaped ground terminal 720a at the other side at regular intervals As shown in FIG. 1, an operation lever 900 for manually operating the motor unit 300 in an emergency can be installed inside the main body 400.

The battery means 200 is further connected to a photovoltaic means T1 using solar light as a power source to supply power to the storage means 200 when a failure occurs in the distribution line.

Describing the operation state of the present invention having the above-described structure, the sensor means provided on the front end side and the rear end side of the power distribution line passing through the side straps can be provided for each side strap and the current or voltage between the side straps can be measured .

The current or voltage measured by the sensor means is transmitted to the communication module 110. The communication module 110 communicates with neighboring communication modules (not shown) Lt; / RTI >

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

In addition, each of the communication modules 110 may transmit the detected detection signals to the central control system so as to determine whether a normal voltage or a normal current is supplied to 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, The CPU 100 determines whether there is a failure due to the current or voltage calculation in real time and transmits the result to an upper system.

For example, when the signal value transmitted from the sensor means provided at the front end side and the rear end side of the distribution line is calculated by the CPU 100 to be a normal signal, the current state is maintained. However, when it is determined that the signal is a fault signal, ).

When the motor means 300 is rotated by the signal transmitted from the CPU 100, the rotary shaft means 500 connected to the shaft of the motor means 300 is rotated to rotate. When the rotary shaft means 500 is rotated, The operation connecting member 600 horizontally installed at the end of the main body 500 rotates as shown in FIG.

When the operating connecting member 600 is rotated, the position of the operating connecting member 600 positioned between the four grounding rods 720 and the grounding bar 720 provided on one surface of the holding plate 710 of the connecting connecting member 700 is 90 degrees The position of the operating connecting member 600 connected to the space portion between the grounding rod 720 and the grounding rod 720 is changed and the grounding force with the grounding rod 720 is released and separated.

8, the connection connecting member 700 is provided with a distribution line connected to one side of the fixing plate 710 and a plate-shaped ground terminal 720a at the other side, .

On the other hand, when the motor unit 300 is operated to perform a function of separating / returning the fault section of the distribution line more quickly, and power is always supplied by the power storage unit even if the power is cut off for a long time, It is possible to return it.

When the operation connection member 600 can not be operated due to a failure of the CPU 100 or the motor means 300, the substation manager and the operator come out of the accident point and open the door, The means 300 can be actuated to manually disconnect / return the connection of the operative connecting member 600 and the connecting connecting member 700.

In addition, the fault section separation control system of the distribution line according to an embodiment of the present invention includes configurations for preventing the inner space of the cover member 800 from being excessively high temperature due to radiant heat of sunlight, Will be described with reference to Figs. 8 to 10. Fig.

FIG. 8 is a perspective view illustrating a state in which a recessed portion is additionally installed in a fault line section separation control system according to an embodiment of the present invention. FIG. 9 is a perspective view illustrating an internal structure of a rainwater storage tank, 10 is a block diagram illustrating an electrical configuration of the recessed portion configuration according to FIG.

As shown in the drawings, the fault line separation control system for a distribution line according to an embodiment of the present invention includes a temperature sensor 10, a cooling fan 20, a rainwater storage tank 30, a pumping device 40, A control unit 60, a fan cover 70, and a solar panel 80. The control unit 60 controls the operation of the control unit 60, the fan cover 70,

The temperature sensor 10 is installed inside the cover member 800 to detect the temperature in the cover member 800 in real time.

The cooling fan 20 is installed on the cover member 800. The cooling fan 20 operates according to an external control signal, that is, a control signal of the control unit 60, .

The rainwater storage tank 30 is installed in a state in which the lower part is supported by the main body 400 and the upper part is in contact with the lower surface of the cover member 800. The rainwater storage tank has a plurality of rainwater inflow grooves 31 connected to the rainwater guide grooves 810 of the cover member 800 along the circumference of the upper end thereof and has radiant heat of sunlight and other heat A heat insulating layer 32 coated with a heat insulating coating having a function of reflecting heat is formed. The inner space of the rainwater storage tank 30 is divided into an upper space 35 and a lower space 36 through a horizontal partition 33. An upper space 35 and a lower space 35 are formed in the partition 33, (34) is formed to pass through the through hole (36).

The heating device 40 is installed in the rainwater storage tank 30 in a state where the rainwater in the lower space 36 can be pumped and operates according to an external control signal, 36 in the direction of the cover member 800.

The rainwater conveyance pipe 50 is connected to the pumping device 40 at one end in the longitudinal direction and at the other end in the longitudinal direction to the upper surface of the cover member 800 to be pumped through the pumping device 40 And the rainwater is discharged to the upper surface of the cover member 800. Here, a shower head 51 for discharging rainwater in the form of a shower is mounted on the other end in the longitudinal direction of the rainwater conveyance pipe 50 located above the cover member 80.

The control unit 60 sets a threshold temperature value for controlling the operation of the cooling fan 20 and a threshold time for controlling the operation of the pumping apparatus 40 in the operating state of the cooling fan 20, respectively. The control unit 60 outputs a control signal to the cooling fan 20 to operate the cooling fan 20 when the temperature detection signal transmitted from the temperature sensor 10 exceeds the threshold temperature value, When the temperature detection signal transmitted from the temperature sensor 10 exceeds the critical temperature value even after the lapse of the critical time after the operation of the pumping device 40, the pumping device 40 outputs a control signal to the pumping device 40 .

The fan cover 70 is installed on the cover member 800 so that rainwater flowing along the outer surface of the cover member 800 does not flow into the cooling fan 20, A vent hole 71 for discharging hot air in the cover member 800 discharged according to the operation does not allow inflow of rainwater flowing along the outer surface of the cover member 800 into the cooling fan 20 .

The solar cell panel 80 is coupled to the outer surface of the main body 400 including the outer surface of the door 410. The solar cell panel 80 is connected to the cooling fan 20, , And generates electric energy to be supplied to the controller (60).

The rainwater falling on the upper surface of the cover member 800 during the rainfall flows along the rainwater guide groove 810 of the cover member 800 and flows through the rainwater inflow groove 31 of the rainwater storage tank 30, And then flows into the storage tank 30 and is stored.

The rainwater stored in the rainwater storage tank 30 is pumped to the upper surface of the cover member 800 by the pumping operation of the pumping device 40 so that the cover member 800 and the inner space thereof, It functions to cool down.

The rainwater stored in the lower space 36 of the rainwater storage tank 30 is transferred to the upper surface of the cover member 800 through the rainwater transfer pipe 50 at the time of operation of the pumping device 40, The rainwater stored in the upper space 35 of the rainwater storage tank 30 is sequentially introduced into the lower space 36 through the through holes 34 formed in the partition wall 33 of the rainwater storage tank starting from the rainwater located below the upper space 35, And the rainwater that has warmed through the heat exchange with the inside of the cover member 800 as it flows along the outer surface of the cover member 800 is guided to the upper space 35 through the rainwater inflow groove 31 of the rainwater storage tank 30. [ As shown in FIG.

In other words, the rainwater stored in the rainwater storage tank 30 is used by the rainwater in the lower space 36 to be used for cooling the cover member 800 first, and the rainwater in the upper space 35, The rainwater used for cooling the cover member 800 is sequentially introduced into the upper space of the upper space 35, and water is replenished and cooled naturally over time do.

Meanwhile, as shown in FIG. 3, the communication module 110 may be configured as a wired connection. Alternatively, as shown in FIG. 11, the communication module 110 may be wirelessly used.

As can be seen from the above-described embodiments of FIGS. 1 to 11, the fault line section separation control system for the distribution line according to the embodiment of the present invention detects the voltage and current at the lower stage, (FI) is calculated in real time and transmitted to an upper system (System). When an execution command by an algorithm (Algorithm) is transmitted to a terminal device, the terminal device performs self communication and fault The motor is operated by the judgment algorithm to perform a function of separating / returning the fault section of the power distribution line more quickly, and even when the power is cut off for a long time, the power supply is always supplied by the power storage means so that the fault section can be separated / do.

In addition, the structure for automatically opening and closing the distribution line while directly touching the distribution line can be safely protected from an overheating phenomenon due to being accommodated in the inside of the cover member and a fire caused by the overheating phenomenon Let's do it.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the exemplary embodiments or constructions. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Accordingly, the spirit of the present invention should not be construed as being limited to the embodiments described, and all the equivalents or equivalents of the claims, as well as the claims set forth below, fall within the scope of the present invention.

10: Temperature sensor 20: Cooling fan
30: Rainwater storage tank 31: Rainwater inflow groove
32: insulating layer 33: partition wall
34: Through hole 35: Upper space
36: Lower space 40: Pumping device
50: Rainwater conveyance pipe 51: Shower head
60: Control section 70: Fan cover
71: vent hole 80: solar cell panel
100: CPU 110: Communication module
200: accumulator means 300: motor means
400: main body 500: rotary shaft means
600: operative connecting member 700: connecting connecting member
800: cover member 810: rainwater guide groove
900: Operation lever

Claims (1)

A wired or wireless communication module (110) for receiving a measurement signal of a sensor means for detecting a voltage and a current at a lower end of the distribution line and transmitting the received signal value in real time;
A CPU (100) for judging in real time the advantages of the fault current and the voltage based on the signal value transmitted from the communication module (110);
A storage means (200) connected to the CPU (100) and charged by a power source flowing through a distribution line;
Motor means 300 connected to the CPU 100 and driven by an operation signal of the CPU 100;
A main body 400 having the CPU 100, the battery unit 200, and the motor unit 300 installed inside and having a door 410;
Rotating shaft means (500) connected to the shaft of the motor means (300);
An operating connection member (600) horizontally installed at an end of the rotary shaft means (500);
A connection connecting member 700 connecting and disconnecting voltage and current by insertion and removal while the operating connecting member 600 is rotated by driving the motor means 300;
A plurality of rainwater guiding grooves 810 are formed on the outer surface of the side surfaces to extend to the lower surface along the vertical direction, (800);
A temperature sensor 10 installed inside the cover member 800 to detect the temperature of the cover member 800 in real time;
A cooling fan 20 installed on the cover member 800 and operating according to an external control signal to discharge hot air in the cover member 800 to the outside;
A plurality of rainwater inflow grooves 31 connected to the rainwater guide grooves 810 of the cover member 800 are formed on the upper surface of the main body 400, And a heat insulating layer 32 coated with a heat insulating coating functioning to reflect radiant heat of sunlight and other heat transmitted from the outside is formed on the outer surface of the upper space 32. The inner space is formed in the upper space A rainwater storage tank 30 in which a through hole 34 for communicating the upper space 35 and the lower space 36 is formed in the partition wall 33 is divided into a lower space 35 and a lower space 36.
The rainwater is supplied to the rainwater storage tank 30 in a state capable of pumping rainwater in the lower space 36 and operates according to an external control signal to cause the rainwater stored in the lower space 36 to pass through the cover member 800, A pumping device (40) for pumping in direction;
One end in the longitudinal direction is connected to the pumping device 40 and the other end in the longitudinal direction is extended to the upper surface of the cover member 800 so that rainwater in the lower space 36, which is pumped through the pumping device 40, A rainwater conveyance pipe 50 through which a showerhead 51 for discharging rainwater into a shower form is mounted on the other end of the cover member 800 in the longitudinal direction positioned above the cover member 800;
A critical temperature value for controlling the operation of the cooling fan 20 and a critical time for controlling the operation of the pumping device 40 in the operating state of the cooling fan are respectively set and transmitted from the temperature sensor 10 When the temperature detection signal exceeds the threshold temperature value, outputs a control signal to the cooling fan (20) to operate the cooling fan (20), and even when the critical time after the operation of the cooling fan (20) A controller (60) for outputting a control signal to the pumping device (40) to operate the pumping device (40) when the temperature sensing signal transmitted from the sensor (10) exceeds the threshold temperature value;
The cover member 800 is installed on the cover member 800 so that rainwater flowing along the outer surface of the cover member 800 does not flow into the cooling fan 20, Wherein a ventilation hole (71) for discharging warm air in the cooling fan (800) to the outside is formed at a position that does not allow inflow of rainwater flowing along the outer surface of the cover member (800) into the cooling fan (70);
The electric energy to be supplied to the cooling fan 20, the pumping device 40 and the control unit 60 through the photovoltaic power generation is supplied to the outer surface of the main body 400 including the outer surface of the door 410 And a solar cell panel (80)
The rainwater stored in the lower space 36 of the rainwater storage tank 30 is transferred to the upper surface of the cover member 800 through the rainwater transfer pipe 50 at the time of operation of the pumping device 40, The rainwater stored in the upper space 35 of the rainwater storage tank 30 is introduced into the lower space 36 through the through holes 34 of the partition 33 sequentially starting from the rainwater located below the upper space 35 Through the rainwater inflow groove 31 of the rainwater storage tank 30. The rainwater flowing through the outer surface of the cover member 800 and heated by heat exchange with the inside of the cover member 800 flows through the rainwater inflow groove 31 of the rainwater storage tank 30, Flows into the upper region of the upper space 35,
The connection connecting member 700 is formed such that a power line is connected to one surface of the fixing plate 710 and four grounding rods 720 are formed on the other side to form a quadrilateral shape and the grounding rod 720 and the grounding rod 720 are connected to each other. A space portion into which the operation connecting member 600 is inserted is formed,
An operation lever 900 for manually operating the motor means 300 in an emergency is further provided inside the main body 400,
Wherein the storage means (200) is further connected to a solar cell using solar light as a power source.

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