KR101025561B1 - Distribution box having cooling function - Google Patents

Abstract

In the switchgear having a cooling function according to the present invention, the switchgear for distributing the low-pressure electricity transformed by transforming the high-pressure electricity, the switchgear, the metal member having a through-hole for receiving the high-pressure electricity and air through; A fan mechanism for supplying air outside the switchboard to the through hole provided in the metal member; A temperature sensor which senses an ambient temperature of the metal member and transmits the sensed temperature value to the controller; A controller for controlling the fan mechanism to supply external air to the through hole of the metal member when the temperature value detected by the temperature sensor is higher than the reference temperature value; It includes; the discharge pipe for discharging the air having a higher temperature through the metal member to the outside.

According to the present invention, when the temperature of the metal member for receiving a high-voltage power supply exceeds a certain level, the temperature of the metal member is lowered to increase the electrical conductivity of the metal member, thereby smoothly flowing current and increasing power efficiency. .

Description

Distribution box having cooling function

The present invention relates to a switchgear, and more particularly to a switchgear having a cooling function.

In general, an electrical room provided in a building, a factory, or an apartment is provided with a distribution panel for receiving high voltage or extra high voltage electricity supplied by a power company and distributing it to the load of each customer.

1 is an exemplary view illustrating a state in which a conventional switchgear is disposed adjacent to and electrically connected to each other. Referring to Figure 1, the conventional switchgear will be described.

The conventional switchgear 100 includes a housing 110 installed on the ground, a door 120 for opening and closing the housing 110, an electric device 130 installed inside the housing 110, and a housing 110. It consists of a metal member 140, which is a conductor fixed to the upper side inside, and a connecting member 150 that connects the metal member 140 and the electric device 130, the power supplied by the power company is a metal member 140 It is received by the power is sent to the electric device 130 through the connecting member 150. At this time, the metal member 140 is a copper plate is used, the metal member 140 is fixed to the upper side of the housing 110 through the insulator 190.

Since the metal member 140 receives high voltage electricity and supplies the electrical device 130 to the electric device 130, the temperature of the metal member 140 increases according to the amount of power used. When the temperature of the metal member 140 rises, the electrical conductivity is lowered, thereby increasing the resistance of the metal member. As the resistance of the metal member 140 increases, the power consumption due to the resistance increases, and the temperature further increases. Since the temperature rise of the metal member 140 lowers the power efficiency, a function of preventing the temperature rise of the metal member 140 is required.

Accordingly, an object of the present invention is to provide a switchgear having a cooling function for lowering the temperature of the metal member when the temperature of the metal member receiving the high voltage power exceeds a certain level.

In order to achieve the above object, the present invention is a switchgear for distributing the low-voltage electricity is transformed by transforming the high-voltage electricity, the metal member having a through-hole for receiving the high-pressure electricity and air passing through; A fan mechanism for supplying air outside the switchboard to the through hole provided in the metal member; A temperature sensor which senses an ambient temperature of the metal member and transmits the sensed temperature value to the controller; A controller for controlling the fan mechanism to supply external air to the through hole of the metal member when the temperature value detected by the temperature sensor is higher than the reference temperature value; It provides a water distributing panel having a cooling function including a; discharge pipe for discharging the air having a higher temperature through the through hole of the metal member to the outside.

In order to achieve the above object, the present invention is a switchgear for distributing the low-voltage electricity is transformed by transforming the high-voltage electricity, the metal member having a through-hole for receiving the high-pressure electricity and air passing through; A fan mechanism for supplying air having a low temperature to the through hole provided in the metal member; A cooler for cooling the air passing through the through hole of the metal member to supply the cooled air to the fan mechanism; A temperature sensor which senses an ambient temperature of the metal member and transmits the sensed temperature value to the controller; When the temperature value detected by the temperature sensor is higher than the reference temperature value provides a switchgear having a cooling function comprising a; control unit for supplying cool air to the through hole of the metal member by controlling the fan mechanism and the cooler.

According to the present invention, when the temperature of the metal member for receiving a high-voltage power supply exceeds a certain level, the temperature of the metal member is lowered to increase the electrical conductivity of the metal member, thereby smoothly flowing current and increasing power efficiency. .

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

The embodiment of the present invention illustrated below can be modified in various forms, and the scope of the present invention is not limited to the embodiments described below. Embodiments of the invention are provided to more fully illustrate the invention to those skilled in the art.

2 is a block diagram showing the configuration of a switchgear having a cooling function according to an embodiment of the present invention.

In the switchgear, the metal member receives the high voltage electricity and delivers it to the electric device. The electrical equipment converts electricity of high pressure to distribute electricity of low pressure. The structure which can lower the temperature of a metal member when electric use increases and the temperature of a metal member becomes high is demonstrated.

The metal member 210 is made of metal such as copper or aluminum having a relatively good electrical conductivity. The metal member 210 is provided with a through hole 214 through which air can pass. The through hole 214 is formed in the horizontal direction of the metal member 210 and the through hole 214 is placed at the end of the metal member 210 in an open state. When air having a low temperature enters the through hole 214 of the metal member 210, the temperature of the metal member 210 may be lowered. The cooling function of the switchgear is operated so that the temperature of the metal member 210 is maintained at a predetermined level to increase the efficiency of power. The cooling function of the switchboard is achieved by the device configuration including the control unit 230, the fan mechanism 240, and the through hole 214 of the metal member 210.

The fan mechanism 240 sucks air located outside the housing (case) in the switchgear through the suction pipe 211 to supply external air to the through hole 214 of the metal member 210 through the supply pipe 212. do. The fan mechanism 240 sucks external air lower than the temperature inside the housing of the switchboard through the suction pipe 211 to supply external air to the through hole 214 of the metal member 210 through the supply pipe 212. At this time, the fan mechanism 240 receives a control signal from the controller 230 to control the fan on / off operation.

The controller 230 measures the temperature of the metal member 210 by the temperature sensor 220 located at a point close to the metal member 210. The temperature sensor 220 is indirectly measured at a position spaced apart by a predetermined distance, rather than being directly installed on the high-pressure electricity flowing metal member 210, indirectly measuring the temperature of the metal member 210. The temperature sensor 220 is divided into a contact temperature sensor and a non-contact temperature sensor. In the present invention, a non-contact temperature sensor is used. The non-contact temperature sensor measures the temperature of the temperature measurement object by detecting ultraviolet rays or infrared rays emitted from the temperature measurement object. The controller 230 determines whether the temperature value of the metal member 210 is higher than the reference temperature value while periodically monitoring the temperature of the metal member 210 measured by the temperature sensor 220. If the temperature value of the metal member 210 is higher than the reference temperature value, the controller 230 controls the fan mechanism 240 to supply external cool air to the through hole 214 of the metal member 210.

Outside cool air absorbs heat from the metal member 210 while passing through the through hole 214 of the metal member 210 to cool the temperature of the metal member 210, and passes through the metal member 210 to become hot. Air is discharged to the outside through the discharge pipe (213).

The input unit 250 inputs a reference temperature value to the controller 230 to set the operation time of the fan mechanism 240 when the temperature value of the metal member 210 is higher than the reference temperature value, thereby setting the temperature value of the metal member 210. The reference temperature is within a certain range.

The output unit 260 outputs control information that changes due to the operation of the controller 230. The output unit 260 outputs a reference temperature value, a temperature value of the metal member 210, and an operating state of the fan mechanism 240. The output unit 260 prevents an operation error from occurring by outputting various control information of the controller 230.

3 is a block diagram showing the configuration of a switchgear having a cooling function according to another embodiment of the present invention.

The cooling function of the switchboard is achieved by the device configuration including the through hole 214, the cooler 270, the fan mechanism 240, and the control unit 230 of the metal member 210.

Air passing through the through hole 214 of the metal member 210 is supplied to the cooler 270 through the suction pipe (213 '). The cooler 270 cools the sucked air and supplies the cooled air to the fan mechanism 240 through the discharge pipe 211 ′. The fan mechanism 240 supplies the cooled air to the through hole 214 of the metal member 210 through the supply pipe 212. The cooler 270 is installed outside the housing of the switchgear to heat exchange to cool the sucked air. That is, the cooler 270 discharges heat to the outside of the housing of the switchgear and supplies cold air outside the housing to the inside of the housing of the switchgear.

The controller 230 controls the operation of the fan mechanism 240 and the cooler 270 to prevent the temperature value of the metal member 210 from exceeding the reference temperature value. The controller 230 indirectly measures the temperature of the metal member 210 through the temperature sensor 220 positioned around the metal member 210. Here, the temperature sensor 220 is a non-contact temperature sensor.

The controller 230 compares the temperature value of the metal member 210 and the reference temperature value measured indirectly to operate the cooler 270 and the fan mechanism 240 when the temperature value of the metal member 210 exceeds the reference temperature value. By supplying cool air to the through hole 214 of the metal member 210 to lower the temperature of the metal member 210.

The cooler 270 sucks the air passing through the through hole 214 of the metal member 210, cools the sucked air through heat exchange with the outside, and discharges the cooled air to the discharge pipe 211 ′. The mechanism 240 supplies the cooled air that has passed through the discharge pipe 211 ′ to the metal member 210 through the supply pipe 212.

The input unit 250 is responsible for inputting a reference temperature value to the controller 230. The input unit 250 inputs a reference temperature value to maintain the temperature of the metal member 210 at a predetermined level so that the electrical conductivity of the metal member 210 is maintained at a predetermined level.

The output unit 260 outputs an operation state of the peripheral device due to the operation of the controller 230. The output unit 260 outputs the measured temperature value of the metal member 210, the operating states of the fan mechanism 240 and the cooler 270, and the reference temperature value.

4 is an exemplary view showing a distributor for supplying air having a low temperature to a metal member according to an embodiment of the present invention, a metal member having a through hole, and an ejector for discharging air having a high temperature passing through the through hole.

Although a plurality of through holes formed in the metal member may be formed, the present embodiment describes a case in which three through holes are formed in the metal member.

When the temperature of the metal member 210 is relatively higher than the air temperature passing through the distributor 280, the distributor 280 supplies air having a lower temperature to the through hole 214 of the metal member 210. The metal member 210 has three through holes 214. The distributor 280 supplies air below the temperature of the metal member 210 to the three through holes 214 of the metal member 210. The air passing through the through hole 214 of the metal member 210 is collected through one discharge pipe 290 into one suction pipe 213 and discharged.

The distributor 280 divides and distributes air supplied through one supply pipe 212 into a plurality of through holes 214 provided in the metal member 210. In addition, the discharger 290 serves to collect the air passing through the plurality of through holes 214 provided in the metal member 210 into one suction pipe 213.

5 is a distributor for supplying air having a low temperature to a metal member according to an exemplary embodiment of the present invention, a first metal member having a through hole and a through hole of the second metal member, the first metal member, and the second metal member; It is an illustration showing the cold air connector to connect.

A large number of cold air connection tubes are used to connect the through holes formed in the metal member when there are a plurality of metal members. In this embodiment, the cold air connection pipe is used to connect the through holes formed in the two metal members.

The supply pipe 212 provides air having a low temperature to the distributor 280, and the distributor 280 distributes and supplies cold air that has passed through the supply pipe 212 to the through hole of the first metal member 215. The through hole of the first metal member 215 and the through hole of the second metal member 216 are connected by the cold air connection pipe 510. The cold air connection pipe 510 may be composed of a non-conductor or a conductor, and an embodiment of the present invention uses a non-conductor. The cold air passing through the through hole of the first metal member 215 absorbs the heat of the first metal member 215 to lower the temperature of the first metal member 215, and thus the through hole of the first metal member 215. The cold air that has passed is supplied to the through hole of the second metal member 216 through the cold air connection pipe 510 to absorb the heat of the second metal member 216 to lower the temperature of the second metal member 216.

The air passing through the second metal member 216 is collected into one discharge pipe through the discharger 290 and discharged to the outside or collected into one suction pipe 213 and supplied to the cooler. The cooler cools the air absorbing heat while passing through the through holes of the first metal member 215 and the second metal member 216, and again, the first metal member 215 and the second metal member 216 through the fan mechanism. Supply through the through hole.

6 is an exemplary view showing a cold air rubber tube and a cold air connection tube for supplying air passing through the first metal member to the second metal member according to an embodiment of the present invention.

A plurality of metal members can be connected by the connecting member to produce a long metal member. In this embodiment, when connecting the through-hole provided in the two metal members will be described whether it can be connected by a method different from the method described in FIG.

The first metal member 215 and the second metal member 216 receive high voltage electricity and transmit the same to an electric device. The first metal member 215 and the second metal member 216 are connected by the connecting member 300. The constituent material of the connecting member 300 is copper or aluminum metal to be compatible with the metal member. The first metal member 215 and the second metal member 216 have a plurality of through holes.

The cold air connection pipe 511 and the cold air rubber pipe 512 connect the through holes of the first metal member 215 and the second metal member 216. Air passing through the first metal member 215 is transferred to the second metal member 216 through the cold air connection pipe 511 and the cold air rubber pipe 512, and thus the first metal member 215 and the second metal member 216. Absorption of heat) lowers the temperature of the first metal member 215 and the second metal member 216.

One side of the cold air connection pipe 511 is connected to the through hole of the first metal member 215, and the other side of the cold air connection pipe 511 is connected to the cold air rubber pipe 512. The material of the cold air connection pipe 511 is plastic that is an insulating material, and the material of the cold air rubber pipe 512 is rubber that is an insulating material. The cold air connection pipe 511 and the cold air rubber pipe 512 made of an insulating material are installed so as not to directly contact the connection member. The cold air connection pipe 511 and the cold air rubber pipe 512 may be made of an insulating material, but may be made of a conductor as necessary.

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

1 is an exemplary view showing a configuration of a conventional switchgear.

Figure 2 is a block diagram showing the configuration of a switchgear having a cooling function according to an embodiment of the present invention.

Figure 3 is a block diagram showing the configuration of a switchgear having a cooling function according to another embodiment of the present invention.

4 is an exemplary view showing a distributor for supplying air having a low temperature to the metal member according to an embodiment of the present invention, a metal member having a through hole, and an ejector for discharging air having a high temperature passing through the through hole.

5 is a distributor for supplying air having a low temperature to a metal member according to an exemplary embodiment of the present invention, a first metal member having a through hole and a through hole of the second metal member, the first metal member, and the second metal member; Exemplary diagram showing a cold air connector to connect.

6 is an exemplary view showing a cold air rubber tube and a cold air connection tube for supplying air passing through the first metal member to the second metal member according to an embodiment of the present invention.

Explanation of terms for the main parts of the attached drawings

200: switchgear 210: metal member

220: temperature sensor 230: control unit

240: fan mechanism 250: input unit

260: output unit

Claims (5)

In the switchgear for distributing the low voltage electricity by substituting high voltage electricity, A metal member receiving the high pressure electricity and having a through hole through which air passes; A fan mechanism for supplying air outside the switchboard to the through hole provided in the metal member; A temperature sensor which senses a temperature of the metal member and transmits the sensed temperature value to the controller; A controller for controlling the fan mechanism to supply external air to the through hole of the metal member when the temperature value detected by the temperature sensor is higher than the reference temperature value; A water distribution panel having a cooling function including a; discharge pipe for discharging the air having a higher temperature through the through hole of the metal member to the outside. In the switchgear for distributing the low voltage electricity by substituting high voltage electricity, A metal member receiving the high pressure electricity and having a through hole through which air passes; A fan mechanism for supplying air having a low temperature to the through hole provided in the metal member; A cooler for cooling the air passing through the through hole of the metal member to supply the cooled air to the fan mechanism; A temperature sensor which senses a temperature of the metal member and transmits the sensed temperature value to the controller; And a control unit for supplying cool air to the through hole of the metal member by controlling the fan mechanism and the cooler when the temperature value detected by the temperature sensor is higher than the reference temperature value. According to claim 1 or 2, Input unit for inputting a reference temperature value to the control unit; A switchgear having a cooling function further comprising; an output unit for outputting the operation state of the control unit to the outside. The method of claim 1 or 2, wherein the metal member is a plurality, A connection member connecting a plurality of metal members; A water distribution panel having a cooling function, characterized in that consisting of; cold air connection pipe for connecting the through-holes of the metal member spaced apart from each other. The method of claim 4, wherein one side of the cold air connection pipe A switchgear having a cooling function, which is connected to the through hole of the metal member, and the other side of the cold air connection pipe is connected to the cold air rubber pipe.

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