KR20220094736A - Accident prevention system for outdoor distribution board - Google Patents

Abstract

The present invention relates to a system capable of preventing various accidents in an outdoor distribution board which predicts accidents according to a current state of an outdoor distribution board to notify a manager of accident prevention information and monitors internal overheating of the outdoor distribution board to dissipate heat immediately in case of overheating, thereby electrical accidents caused by this. In addition, the present invention can safely protect the outdoor distribution board even in an external earthquake, thereby preventing various accidents that can occur in the outdoor distribution board.

Description

Outdoor switchboard accident prevention system {Accident prevention system for outdoor distribution board}

The present invention relates to a system capable of preventing various accidents of an outdoor switchboard.

A switchboard is an electrical facility that is installed in a facility such as a power plant, substation, or a building with electrical facilities, converts high-voltage electricity to be used in the facility into low-voltage and distributes it to distribution boards through trunk lines.

The switchboard is mainly installed in outdoor industrial facilities or construction sites, as a number of electrical parts such as relays (relays), circuit breakers, switches, instrument panels, and terminal blocks are built inside a metal housing. Electrical fires frequently occur in switchboards as heat is generated due to breakdown of built-in electrical components or short circuits occur due to insulation breakdown.

Accidents of such electrical components occur not only due to internal factors such as aging of components, but also external factors such as component deterioration due to internal temperature rise due to direct sunlight or impacts such as earthquakes.

Republic of Korea Patent Registration Nos. 10-2125902 and 10-1865086 disclose a system that can remotely detect the internal state of the switchboard to prevent accidents of the switchboard, and the disclosed system monitors and diagnoses the internal state of the switchboard There is no function to notify the manager of accident prevention information to prevent an accident from occurring or to take immediate action in case of an abnormality.

Republic of Korea Patent Publication No. 10-2125902 "Accident management system using combined detection signal of switchboard" Republic of Korea Patent Publication No. 10-1865086 "Distributor with built-in fault monitoring and diagnosis device equipped with accident data analysis and internal abnormal state monitoring and diagnosis functions"

Accordingly, the present invention has been devised to solve the above problems, predicting the occurrence of an accident according to the condition of the outdoor switchboard, notifying the manager of accident prevention information, and immediately lowering the internal temperature when overheating inside the switchboard is detected The purpose of this is to provide an outdoor switchboard accident prevention system that can prevent in advance.

In order to achieve this object, the present invention provides an outdoor distribution box with a plurality of electrical components installed therein to be installed outdoors, a manager terminal for managing the outdoor distribution box, and a communication network connected to the outdoor distribution box and the manager terminal to control the internal temperature of the outdoor distribution box Monitoring and cooling in case of overheating, predicting accidents in the external distribution box based on the operation information of electrical parts selected according to the frequency of failure by each electrical component and the degree of influence on the failure from accident type information of the outdoor power distribution box, and preventing accidents with the manager terminal It provides an outdoor switchboard accident prevention system having an outdoor switchboard management device for notifying information.

Here, the outdoor distribution box of the present invention is driven by the outdoor switchboard management device according to the temperature of the temperature sensor and the temperature sensor for measuring the internal temperature is provided with a heat dissipation unit for lowering the internal temperature of the outdoor distribution box.

And, the outdoor switchboard management device of the present invention is based on the accident type information of the past outdoor switchboard, the switchboard information storage unit in which the operation information of the outdoor switchboard connected to the communication network as a management target is stored, and the accident type information of the outdoor switchboard electrical parts Critical parts selection section that selects important parts from each failure frequency and the degree of impact on failure, hazardous parts selection section that selects hazardous parts from important parts based on operation information of important parts, and information on accident types corresponding to hazardous parts and an accident prevention information notification unit for predicting an accident of an outdoor switchboard from

In addition, the hazardous part selection unit of the present invention compares the operation information, which is the operation power or appearance state information of the important part, with the normal operation information of the important part, and selects the part that exceeds the standard range as the dangerous part, and at this time, the operation information is the manager's Information updated by inspection.

In addition, the accident prevention information notification unit of the present invention notifies the accident prevention information including the inspection timing, inspection tips, and replacement timing of the dangerous part based on the accident type information consistent with the operation information of the dangerous part.

The present invention predicts an accident according to the current state of the outdoor switchboard and not only informs the manager of accident prevention information, but also monitors whether the inside of the outdoor switchboard is overheating and immediately radiates heat when overheating, thereby preventing an electrical safety accident in advance. In addition, it is possible to safely protect the outdoor switchboard from external earthquakes, thereby preventing various accidents that may occur in the outdoor switchboard.

1 is a block diagram of an outdoor switchboard accident prevention system according to the present invention.
2 is a perspective view showing an outdoor switchboard according to the present invention.
3 is a cross-sectional view showing the inside of an outdoor switchboard according to the present invention.
4 is a block diagram of an outdoor switchboard monitoring apparatus according to the present invention.
5 is a cross-sectional view showing the circulation of cooling air inside the outdoor switchboard of the present invention when overheating.
6 is a perspective view illustrating a vibration isolator for supporting an outdoor switchboard according to the present invention.

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

This embodiment is provided to more completely explain the present invention to those with average knowledge in the art, and the shape of elements in the drawings, the size of elements, the spacing between elements, etc. may be exaggerated or reduced for

In addition, when it is determined that the technical features of the present invention may be unnecessarily obscured as it is already obvious to a person skilled in the art, such as a known function or a known configuration related in principle in explaining the embodiment, the detailed description thereof A description will be omitted.

1 is a block diagram of an outdoor switchboard accident prevention system according to the present invention. The system of the present invention includes an outdoor switchboard 100, an outdoor switchboard management device 200, and a manager terminal 300 connected through a communication network.

2 shows an outdoor switchboard 100 according to the present invention, the housing 110 having an internal space formed therein, the opening/closing part 120 for opening and closing the front of the housing 10, and accommodated in the internal space of the housing 110 . A temperature sensor that measures the internal temperature of a plurality of electrical components 130 to be used, the heat dissipation unit 140 driven by the outdoor switchboard management device 200 when overheating of the inner space of the housing 110 is detected, and the housing 110 (150) is provided.

The housing 110 is in the form of an empty box, the front is open, and an air inlet 111 and an air outlet 112 through which external air is introduced and discharged are formed on opposite side surfaces, respectively. The air outlet 112 is formed at a relatively high position compared to the air inlet 111 , through which the superheated air inside the housing 110 can be easily discharged. Since the air inlet 111 or the air outlet 112 is exposed to the outside, it is preferable to have the eaves 113 protruding to the upper part by a predetermined length to prevent the inflow of foreign substances.

The opening/closing unit 120 is hinged to the front of the housing 110 to seal or open the switchboard 100, and is provided inside the door 121 for opening and closing the front of the housing 110, the door 121, and the housing ( The fixing rod 22 for sealing the 110), the connection rod 123 coupled to the fixing rod 122 and moving in the vertical direction, and the connection cam which rotates by the user's external force to move the connection rod 123 in the vertical direction (124), is gripped by the user and consists of a handle 125 for transmitting the rotational power to the connection cam (124).

The electrical component 130 is installed in the inner space of the housing 110 to protect it from the outside and is a relay (relay), circuit breaker, Components such as switches, instrument panels, and terminal blocks. Such an electric component 130 generates heat while converting high-voltage electricity to a low pressure, and in particular, as the internal space is further heated by sunlight, a heat dissipation unit 140 is provided to prevent failure, breakdown, or accident due to deterioration. do.

The heat dissipation unit 140 is configured to cool the air sucked into the interior to a low temperature, and a cross-sectional view thereof is shown in FIG. 3 . Referring to FIG. 3 , the heat dissipation unit 140 is a housing having inlets 142a and outlets 142b formed on opposite sides thereof, and a heat dissipation box 141 for storing cooling water W in the internal space, a heat dissipation box 41 ) installed inside the guide membrane 143 to form an air passage so that the inlet air is discharged through the cooling water W, a suction fan 144 provided at the outlet 142b side to suck outside air, suction A dehumidifying filter 145 that is installed in front of the fan 144 to remove moisture from the air that has passed through the cooling water W, is provided between the inlet 42a or the outlet 142b and the cooling water W, and the air in only one direction It consists of check valves (146, 147) that advance the.

The heat dissipation box 141 is disposed adjacent to the inlet 111 and the inlet 142a inside the housing 10 to communicate with each other, and the cooling water W is stored at a predetermined water level in the lower portion thereof. The heat dissipation box 141 may include a separate box for storing the cooling water W so that the cooling water W can be replaced. Here, it is preferable to install the heat sink 141 so that the outlet 142 is disposed on the same horizontal line as the heat sink 132 so that the low-temperature air discharged from the outlet 142 can be supplied to the heat sink 132 .

The guide membrane 143 is spaced between the inlet 142a and the outlet 142b and includes a plurality of partition walls parallel to each other. It consists of a lower partition wall (143b) extending in the upper direction from the. One end of the upper partition wall 143a is installed to be submerged in the cooling water W, and one end of the lower partition wall 143b is installed to be exposed from the cooling water W. As shown in FIG.

Accordingly, the air introduced into the heat dissipation box 141 is guided to the upper partition wall 143a and cooled by the cooling water W. After that, the cooling water (W) is guided to the lower partition wall (143b), the air proceeds to the outside of the cooling water (W). As shown in FIG. 3, a method may be used to increase the cooling effect by forming a double upper barrier rib so that the air proceeding process is performed once more.

The check valves 146 and 147 are built in the heat dissipation box 141 , and there is an intake check valve 146 and an exhaust check valve 147 . The suction check valve 146 is provided between the inlet 142a and the cooling water W to suck outside air and prevent the inside cooling water W from being discharged. The discharge check valve 147 is provided between the outlet 142 and the cooling water W to discharge the sucked air to the housing 110 and block the inflow of air into the housing 110 .

The outdoor switchboard management apparatus 200 predicts in advance a possible accident in the current state of the outdoor switchboard 100 connected by a communication network, and notifies the accident prevention information to the manager terminal 300, and at the same time, overheating of the outdoor switchboard 100 As a device for controlling the cooling to be performed immediately, as shown in FIG. 4 , the switchboard information storage unit 210 , the important parts selection unit 220 , the hazardous parts selection unit 230 , and the accident prevention information notification unit ( 240), and an overheat cut-off unit 250 .

First, the switchboard information storage unit 210 is configured to store accident type information of previous outdoor switchboards and operation information of the outdoor switchboard 100 as a management target. Here, the accident type information is information on the type of accidents that have occurred in previous outdoor switchboards, and may be information such as simple function stop, malfunction, overheating, explosion, fire, or electric shock.

At this time, the accident type information stores the causal relationship between external factors such as load of outdoor switchboards or earthquakes, and internal factors such as manufacturers of electrical parts installed in the internal space, quality status, number of inspections, and inspection history. That is, in the case of a sudden fire in the switchboard, it is possible to identify the parts at the beginning of the fire, and to analyze the cause of the accident by tracing external and internal factors related to the electric part. In addition, the operation information is information about the operating power or external state of the electrical components 130 constituting the outdoor switchboard 100, and is updated and stored as history information according to the inspection of the manager.

The important part selection unit 220 selects the important parts from the failure frequency of each electric part of the outdoor switchboard 100 and the degree of influence on the failure based on the above-described accident type information. In other words, parts that frequently fail before an accident and parts that satisfy the severity of the breakdown are selected as important parts.

At this time, the degree of influence on the failure can be estimated from the damage result caused by the failure of any one or more of the electrical components. In addition, there is no need to pay attention to electrical parts with high failure frequency and low impact as they are minor failures.

Of course, it is necessary to pay attention when the frequency of failure is high, but since it is virtually impossible to completely prevent it with limited man-hours, it is important to pay considerable attention to important electrical parts that have a high impact even if the frequency of failure is small even if the failure frequency is high. more efficient

The dangerous part selection unit 230 selects the dangerous part based on the operation information corresponding to the selected important part. That is, the dangerous part selection unit 30 compares the operation information of the main parts updated by the inspection with the normal operation information, and selects the inappropriate important parts that exceed the standard range as the dangerous parts. Here, the normal operation information is a theoretical value according to the specifications obtained from the manufacturer of the part, and the reference range is the range in which the part can operate normally. 210) is stored.

The accident prevention information notification unit 240 predicts an accident based on accident type information corresponding to the selected dangerous part, and notifies the accident prevention information to the manager terminal 300 . In other words, it predicts an accident according to the accident type that matches the operation information of the selected dangerous part, and notifies the inspection timing, inspection tips, and replacement timing of the dangerous part based on the stored accident cause as accident prevention information.

For example, if the hazardous part selection unit 230 selects the earth leakage breaker (ELB) as a dangerous component, the manager notification unit 240 indexes the same or similar type as the accident caused by the earth leakage breaker among the stored accident type information, and the indexed Analyze the cause of the accident recorded in the accident type. In other words, if the cause of the accident is recorded as 'a fire occurred due to loss of function due to corrosive gas and dusty environmental factors', it is recommended to 'check the function every 3 months, replace it with a new one within 12 months, and install a separate sealing cover after replacement. ' can be notified of accident prevention information.

When overheating is detected in the internal space of the outdoor switchboard from the temperature sensor 150, the overheat blocking unit 250 drives the suction fan 144 of the outdoor switchboard 100 and opens the check valves 146 and 147 to cool the inner space. control to do At this time, the rotation speed of the suction fan 144 is changed according to the temperature of the inner space to be measured. This is a cross-sectional view showing the circulation of cooling air inside the outdoor switchboard 100 by the overheat cut-off unit 250 .

First, the overheat cut-off unit 250 that detects overheat by the temperature sensor 150 opens the check valves 146 and 147 and operates the suction fan 144 to lower the internal pressure of the housing 10 to reduce the external air. It is sucked into the heat dissipation unit 140 through the inlet 142a. In this way, the sucked air proceeds to the outlet 142 through the cooling water W along the guide membrane 143 .

At this time, as the air progresses, the air comes into contact with the cooling water W, and the cooling water W serves as a filter and a cooling agent at the same time to remove impurities in the air, and the air is cooled to a low temperature state. The filtered low-temperature air passes through the dehumidifying filter 45 to remove moisture, and passes through the outlet 142 to cool the heat sink 132 . The hot air existing inside the housing 10 rises to the top of the housing 110 and goes out through the outlet 112 . And, when the internal temperature of the housing 110 is lowered, the suction fan 144 is stopped and external air is no longer introduced.

Therefore, the outdoor switchboard management device 200 can not only notify the manager of accident prevention information to prevent accidents by analyzing the current information on the outdoor switchboard, but also provide immediate cooling when an overheating situation of the outdoor switchboard 100 occurs. In this way, accidents in the switchboard can be effectively prevented.

On the other hand, in order to protect the switchboard from earthquake shock, which is a major external factor of switchboard accidents, as well as accidents caused by internal factors caused by electric parts constituting the outdoor switchboard, the system of the present invention provides a vibration isolator 400 as shown in FIG. 6 . provide more

As shown in FIG. 6 , the vibration isolator 400 includes a base frame 410 surrounding the rim of the outdoor switchboard 100 when a space in which the outdoor switchboard 100 is accommodated, and each of the base frame 410 . It is installed on the side and consists of a support frame 420 that suppresses vibrations acting in vertical and horizontal directions together with the base frame 410 during an earthquake to support the structure from being separated from the installation position or from being conducted.

The base frame 410 is formed of a square grid surrounding the space in which the outdoor switchboard 100 is accommodated, and a vibration-proof spring 411 is provided at the lower part to cushion the impact of the outdoor switchboard 100 during an earthquake.

The support frame 420 has a moving piece 422 coupled to a fixed piece 421 screwed to the base frame 410 so as to be elevating, and an end of the moving piece 422 is caught on the lower jaw of the outdoor switchboard 100 . The conduction prevention piece 423 is formed. As such, the vibration isolator buffers the shock generated during an earthquake, and can support the outdoor switchboard 100 so that it does not move or fall horizontally, thereby preventing a switchboard accident caused by an earthquake.

The present invention is not limited to the described embodiments, and it is apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the present invention. Accordingly, it should be said that such variations or modifications fall within the scope of the claims of the present invention.

100: outdoor switchboard 110: body part
111: air inlet 112: air outlet
113: eaves 120: opening and closing part
121: door 122: fixed rod
123: connecting rod 124: connecting cam
125: handle 130: electrical parts
140: heat dissipation unit 141: heat dissipation box
142a: entrance 142b: exit
143: guide membrane 143a: upper bulkhead
143b: lower bulkhead 144: suction fan
145: dehumidification filter 146: suction check valve
147: discharge check valve 150: temperature sensor
200: outdoor switchboard management device 210: switchboard information storage unit
220: important parts selection unit 230: hazardous parts selection unit
240: accident pre-booking information notification unit 250: overheat blocking unit
300: manager terminal 400: vibration isolator
410: base frame 411: anti-vibration spring
420: support frame 421: fixed piece
422: moving side 423: falling prevention side
W: coolant

Claims (6)

an outdoor power distribution box in which a plurality of electrical components are installed and installed outdoors;
a manager terminal for managing the outdoor distribution box; and,
It is connected to the outdoor distribution box and the manager terminal through a communication network to monitor the internal temperature of the outdoor distribution box to cool it in case of overheating, and from the accident type information of the outdoor distribution box, the frequency of failure of each electrical component and the degree of influence on the failure. An outdoor switchboard accident prevention system comprising a; an outdoor switchboard management device that predicts an accident of the outdoor switchboard based on operation information of electric parts and notifies the accident prevention information to the manager terminal. According to claim 1,
The outdoor distribution box,
a temperature sensor that measures the internal temperature; and
and a heat dissipation unit driven by the outdoor switchboard management device according to the temperature of the temperature sensor to lower the internal temperature of the outdoor switchboard box. According to claim 1,
The outdoor switchboard management device,
a switchboard information storage unit for storing accident type information of past outdoor switchboards and operation information of the outdoor switchboard connected to a communication network as a management target;
an important part selection unit for selecting important parts based on the accident type information based on the failure frequency of each electric part of the outdoor switchboard and the degree of influence on the failure;
a dangerous part selection unit for selecting a dangerous part from among the important parts based on the operation information of the important part; and,
and an accident prevention information notification unit for predicting an accident of an outdoor switchboard from the accident type information corresponding to the dangerous part and notifying the accident prevention information to the manager terminal. 4. The method of claim 3,
The hazardous parts selection unit,
An outdoor switchboard accident prevention system, characterized in that the operation information, which is the operating power or appearance state information of the important part, is compared with the normal operation information of the important part, and the thing exceeding a standard range is selected as a dangerous part. 5. The method of claim 4,
The operation information is an outdoor switchboard accident prevention system, characterized in that the information is updated by the inspection of the manager. 6. The method of claim 5,
The accident prevention information notification unit,
An outdoor switchboard accident prevention system, characterized in that it notifies the accident prevention information including the inspection timing, inspection tips, and replacement timing of the dangerous part based on the accident type information consistent with the operation information of the dangerous part.

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