KR20220061450A - complex heat dissipation structure device for a electronic pole of supporting smart multi-function - Google Patents

Abstract

The present invention relates to a complex radiation structure apparatus for an electronic pole supporting smart multifunction. The complex radiation structure apparatus comprises: an electronic pole formed to be vertical from the ground and formed to be equipped with various members; a case formed on the electronic pole and formed to house and protect an electronic device therein; a housing formed in the case and formed to house a circuit part of the electronic device; a constant temperature unit formed in the housing and formed to constantly control the temperature in the housing; and a constant humidity unit formed in the housing and formed to constantly control the humidity in the housing. Therefore, the present invention is capable of constructing an environment in which an electronic device can be normally operated.

Description

Complex heat dissipation structure device for a electronic pole of supporting smart multi-function}

The present invention relates to a device for a composite heat dissipation structure of an electronic pole supporting smart multi-function, and more particularly, to enable various electronic devices that are mounted on the pole and perform functions to be maintained in a constant state without being affected by the external environment It relates to a complex heat dissipation structure device of an electronic pole that supports smart multi-function.

In general, street lights refer to lighting facilities installed along the street for the safety and security of street traffic, and appropriate types are used depending on the place where they are installed, such as highways, general roads, sidewalks, and residential areas.

At this time, a crime prevention CCTV for photographing a vehicle or a person is formed at the top of the street lamp for crime prevention, and the surrounding situation is continuously recorded for 24 hours and transmitted to a remote location for crime prevention.

Electricity is essential to drive these electronic devices, but heat generated while electricity is used affects circuits, shortening lifespan or causing malfunctions, so frequent maintenance is required.

In addition, in the case of summer, there is a problem that electronic devices do not operate normally due to an increase in humidity as well as an increase in internal temperature due to direct sunlight.

Korean Patent Publication No. 10-2011-0012017

An object of the present invention for solving the above problems is to maintain a constant temperature and humidity inside the case in which the electronic device is formed, thereby creating an environment for the electronic device to operate normally. will provide

The complex heat dissipation structure device of the electronic pole supporting the smart multi-function of the present invention is formed vertically from the ground and formed so that various members can be mounted, and the electronic pole is formed on the electronic pole to accommodate and protect the electronic device inside A case formed so as to be able to do so; a housing formed inside the case and formed to accommodate a circuit part of an electronic device; and a constant temperature unit formed inside the housing and formed to constantly control the temperature inside the housing. and a humidity constant unit formed inside the housing and configured to constantly control the humidity remaining inside the housing.

In addition, the constant temperature unit of the composite heat dissipation structure device of the electronic pole supporting the smart multi-function of the present invention is formed inside the housing and when power is supplied, a thermoelectric element is formed so that one surface is radiated and the other surface is heat absorbed, and one surface of the thermoelectric element A heat sink respectively formed on the other surface and increasing the area in which heat is diffused, and a heat pipe embedded in the heat sink formed on one surface of the thermoelectric element and disposed in a zigzag shape to dissipate or absorb heat to the heat sink, and the heat; A constant temperature pipe that is respectively connected to one end and the other end of the pipe to form a circulation loop and absorbs or radiates heat inside the housing and the case using a fluid flowing therein; It is characterized in that it consists of a circulation motor that circulates the flowing refrigerant.

In addition, the composite heat dissipation structure device of the electronic pole supporting the smart multi-function of the present invention dehumidifies the inside of the housing when the internal humidity of the housing is higher than the set value, and humidifies the inside of the housing when the humidity inside the housing is lower than the set value It is characterized in that the humidity is kept constant.

In addition, the composite heat dissipation structure device of the electronic pole supporting the smart multi-function of the present invention is formed inside the housing and it is characterized in that it further comprises a drain unit for collecting the condensed water generated by the temperature difference and discharging to the outside.

As described above, according to the composite heat dissipation structure device of the electronic pole supporting smart multi-function according to the present invention, the effect of creating an environment so that the electronic device operates normally by maintaining the temperature and humidity inside the case in which the electronic device is formed is constant. there is.

1 is a view showing a structure for cooling the inside of the case of the electronic pole composite heat dissipation structure device supporting smart multi-function according to the present invention.
Figure 2 is a view showing the detailed structure of the constant temperature unit of the composite heat dissipation structure device of the electronic pole supporting smart multi-function according to the present invention.
Figure 3 is a view showing an electronic device mounted on the pole of the composite heat dissipation structure device of the electronic pole supporting a smart multi-function according to the present invention.

Specific features and advantages of the present invention will be described in detail below with reference to the accompanying drawings. Prior to this, when it is determined that a detailed description of a function and a configuration related to the present invention may unnecessarily obscure the gist of the present invention, a detailed description thereof will be omitted.

The present invention relates to a device for a composite heat dissipation structure of an electronic pole supporting smart multi-function, and more particularly, to enable various electronic devices that are mounted on the pole and perform functions to be maintained in a constant state without being affected by the external environment It relates to a complex heat dissipation structure device of an electronic pole that supports smart multi-function.

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

1 is a view showing the structure of cooling the inside of the case of the composite heat dissipation structure device of the electronic pole supporting smart multi-function according to the present invention, Figure 2 is a composite heat dissipation structure device of the electronic pole supporting the smart multi-function according to the present invention It is a view showing the detailed structure of the constant temperature unit, Figure 3 is a view showing the electronic device mounted on the pole of the composite heat dissipation structure device of the electronic pole supporting smart multi-function according to the present invention.

As shown in Figures 1 to 3, the composite heat dissipation structure device of the electronic pole supporting the smart multi-function according to the present invention is formed vertically from the ground and formed so that various members can be mounted (600) and , The case 100 is formed in the electronic pole 600 and is formed to accommodate and protect the electronic device therein, and the housing ( 200), a constant temperature unit 300 formed inside the housing 200 and formed to control the temperature inside the housing 200 constantly, and formed inside the housing 200 and inside the housing 200 It is characterized in that it includes a constant humidity unit 400 that is formed to constantly control the remaining humidity.

In addition, it is formed inside the housing 200, it characterized in that it further includes a drain unit 500 for collecting the condensed water generated by the temperature difference and discharging to the outside.

The case 100 is mounted on the electronic pole 600 and serves to accommodate and protect various electronic devices, and various electronic devices applied as examples in the present invention, that is, a lighting device, a CCTV 610, a display 620, and a control device. It means an external frame for protecting the outside of the 630.

The housing 200 is formed inside the case 100 to isolate and protect the circuit part for driving various electronic devices by sealing it from the external environment, and to control the temperature and humidity inside the housing 200 . It is preferable that a space in which the constant temperature unit 300 , the constant humidity unit 400 , and the drain unit 500 can be mounted is formed therein.

The constant temperature unit 300 is used to maintain a constant temperature inside the housing 200 and inside the case 100, circulates a refrigerant, and is formed to control the temperature inside the housing 200 and the case 100 has been

At this time, the constant temperature unit 300 is formed inside the housing 200, and when power is supplied, the thermoelectric element 340 is formed so that one surface is radiated and the other surface is heat absorbed, and the thermoelectric element 340 is formed on one surface and the other surface, respectively. A heat sink 330 that increases the diffusion area, a heat pipe 320 embedded in a heat sink formed on one surface of the thermoelectric element 340 and disposed in a zigzag shape to radiate or absorb heat to the heat sink 330 and , A constant temperature pipe 310 that is respectively connected to one end and the other end of the heat pipe 320 to form a circulation loop and absorb or radiate heat inside the housing 200 and the case 100 using a fluid flowing therein; It is characterized in that it is formed in the constant temperature pipe 310 and consists of a circulation motor 350 that circulates the refrigerant flowing in the constant temperature pipe 310 .

When power is supplied to the thermoelectric element 340, one surface is radiated and heated, and the other surface is cooled while absorbing heat so that one surface and the other surface can have different temperatures, and the housing 200 using the temperature difference between both surfaces of the thermoelectric element 340 ) and the inside of the case 100 can be heated or cooled.

At this time, the thermoelectric element 340 has heat sinks 330 formed on both sides, respectively, so that when heat is absorbed or radiated from one surface and the other surface of the thermoelectric element 340, the contact area is increased so that the heat can be rapidly diffused. .

In addition, it is preferable that thermal grease is applied to the surface where the thermoelectric element 340 and the heat sink 330 are in contact to facilitate heat transfer, and the heat sink 330 formed on one surface of the thermoelectric element 340 is the housing 200 . After protruding to the outside of the case 100, a heat dissipation fan (not shown) for discharging air toward the outside is formed, so that the temperature difference between the heat dissipating surface and the other surface absorbing heat is preferably maintained constant.

At this time, a heat dissipation fan is attached to the upper surface of the heat sink 330 formed on one surface of the thermoelectric element 340 to discharge the heat inside the case 100 to the outside of the case 100 while the air is in contact with the heat sink 330 . It can be cooled by transferring the heat radiated from the thermoelectric element 340 to the air.

A hole is formed in the heat sink 330 formed on the other surface of the thermoelectric element 340 so that a heat pipe 320 can be formed therein, and the heat pipe 320 is a heat sink buried in the heat sink 330 . In contact with the 330, it is possible to transfer heat.

At this time, the heat pipe 320 is formed of a copper material, and the heat sink 330 is formed of an aluminum material to prevent cracks or cracks from occurring due to thermal expansion.

The heat pipe 320 is made of a copper material with a high coefficient of thermal expansion, so it can transfer heat quickly, but it can be damaged while repeating expansion and contraction by heat. When it expands and contracts, the heat pipe 320 is restrained and fixed.

Through this, the heat pipe 320 is constrained inside the aluminum heat sink 330 to limit expansion, thereby preventing damage or uniformity caused by excessive contraction and expansion occurring during heat transfer.

The constant temperature pipe 310 is formed so that the fluid flowing therein can circulate inside the housing 200 and the case 100 , and one end and the other end of the constant temperature pipe 310 are one end of the heat pipe 320 , respectively. and the other end to form one circulation loop.

At this time, the constant temperature pipe 310 lowers the temperature by absorbing heat generated inside the housing 200 and the case 100 , or increases the temperature by supplying heat to the inside of the housing 200 and the case 100 , thereby increasing the temperature of the housing. (200) and the case 100 is formed to keep the internal temperature constant.

A refrigerant flows inside the constant temperature pipe 310 to absorb or radiate heat, and the refrigerant may be made of a material that can easily change phase at a low temperature or a material that transfers heat in a gaseous state without a phase change.

At this time, a circulation motor 350 is formed inside the housing 200 to forcibly circulate the fluid flowing in the constant temperature pipe 310 , and the circulation motor 350 is configured to set the fluid flowing inside the constant temperature pipe 310 . While rotating in the direction, it is possible to absorb heat inside the housing 200 and the case 100 or radiate the absorbed heat.

For example, when the temperature inside the housing 200 and the case 100 is high and cooling is performed, one surface of the thermoelectric element 340 is radiated to radiate heat to the outside of the housing 200, and the other surface is cooled while absorbing heat to form a heat formed on the other surface. The sink 330 is in a cooled state.

As the heat sink 330 is cooled, the heat pipe 320 embedded in the heat sink 330 is also cooled, and the fluid transferred from the constant temperature pipe 310 by the circulation motor 350 is the heat pipe 320 . As it flows in, it cools and the temperature decreases.

In this state, when the thermostatic pipe 310 comes out again and circulates inside the housing 200 and the case 100, since the temperature of the fluid is low, the heat inside the housing 200 and the case 100 is transferred to the fluid, The temperature of the fluid is increased to be introduced back into the housing 200 .

The fluid with the increased temperature is introduced into the heat pipe 320 again, heat is absorbed by the thermoelectric element 340 and cooled, and then the series of processes is repeated again to lower the temperature inside the housing 200 and the case 100 . be able to

In addition, the thermoelectric element 340 can transfer heat to the fluid because the other surface of the thermoelectric element 340 on which the heat pipe 320 is formed is heated while dissipating heat when the voltage is reversely supplied, and the heated fluid is a constant temperature pipe 310 . Through the circulating inside the housing 200 and the case 100, heat is emitted to increase the internal temperature.

In addition, a plurality of thermoelectric elements 340 , heat sinks 330 , and heating pipes may be formed inside the case 100 , through which the fluid circulating the constant temperature pipe 310 generates heat inside the case 100 . It can also allow better heat transfer when dissipating or absorbing heat.

In addition, the humidity unit 400 dehumidifies the inside of the housing 200 when the internal humidity of the housing 200 is higher than the set value, and humidifies the inside of the housing 200 when the humidity inside the housing 200 is lower than the set value. It is characterized in that it is kept constant.

A circuit part for driving various electronic devices is formed inside the housing 200 , and since the circuit part is vulnerable to humidity, it is necessary to constantly maintain the humidity inside the housing 200 .

To this end, the housing 200 is formed in a sealed state, and the humidity constant unit 400 is formed on one side of the inside of the housing 200 to control the humidity inside the housing 200 .

At this time, the humidity constant unit 400 can remove the moisture remaining in the air inside the housing 200 using a desiccant or Peltier method, and the direction of operation through the reverse voltage is reversed so that the inside of the housing 200 is dry. In this case, it is possible to prevent the whitening of the electronic component by supplying moisture to the inside of the housing 200 while operating in reverse.

The drain unit 500 is formed to be inclined toward one side of the housing 200 from the lower surface of the constant temperature unit 300 to collect the condensed water falling from the constant temperature unit 300, and is formed to be discharged to the outside when a certain amount of the condensed water is collected characterized by being

The drain unit 500 is for removing condensed water generated due to low temperature inside the housing 200 , and condensed water around the circulation motor 350 , the heat sink 330 , and the heat pipe 320 of the constant temperature unit 300 . A plurality of ramps are provided on the lower surface to collect them.

The drain unit 500 has a discharge path on the other side of the lower portion of the housing 200 , and the condensed water generated due to the temperature drop of the constant temperature unit 300 is moved to the discharge path to be discharged.

At this time, it is preferable to prevent the condensate from flowing in through the discharge path because the condensate is stagnated in the middle because the discharge path is N-shaped.

In addition, it is formed on the outer surface of the electronic pole 600 is characterized in that it includes an environmental sensor 640 for collecting external environmental information to determine the operation of the constant temperature unit 300 and the constant humidity unit (400).

The electronic pole 600 is formed vertically from the ground and is used to support various electronic devices to be mounted. It is formed so that the surrounding image can be taken through investigation or crime prevention CCTV (610).

In addition, an advertisement display 620 is formed in the center of the electronic pole 600 to provide various visual information to people walking on the street, and a control device ( 630 is provided to transmit power and control signals to various electronic devices mounted on the electronic pole 600 .

The case 100 refers to the external frame of the lighting device, the CCTV 610, the display 620, and the control device 630 formed in the electronic pole 600, and the housing 200, the constant temperature inside each electronic device. The unit 300, the constant humidity unit 400, and the drain unit 500 are formed, respectively, so that the electronic device can be maintained in a constant temperature and humidity state.

In addition, a plurality of environmental sensors 640 are formed on the outer surface of the electronic pole 600 so that the constant temperature unit 300 and the constant humidity unit 400 can be actively operated according to the external environment, and the environmental sensor 640 . can measure temperature and humidity, so that it is possible to control the operation of the constant temperature unit 300 and the constant humidity unit 400 based on the measured information.

As described above, according to the composite heat dissipation structure device of the electronic pole supporting the smart multi-function according to the present invention, it is possible to create an environment so that the electronic device operates normally by maintaining constant temperature and humidity inside the case in which the electronic device is formed. there is an effect

As described above, the present invention has been mainly described with reference to preferred embodiments, but those of ordinary skill in the art to which the present invention pertains may vary the present invention within the scope that does not depart from the technical spirit and scope described in the claims of the present invention. It can be modified or modified in any way. Accordingly, the scope of the present invention should be construed by the appended claims to include examples of many such modifications.

100: case 200: housing
300: constant temperature unit 310: constant temperature pipe
320: heat pipe 330: heat sink
340: thermoelectric element 350: circulation motor
400: constant humidity unit 500: drain unit
600: electronic pole 610: CCTV
620: display 630: control device
640: environmental sensor

Claims (4)

an electron pole formed vertically from the ground and formed so that various members can be mounted thereon;
a case formed on the electronic pole to accommodate and protect the electronic device therein;
a housing formed inside the case and configured to accommodate a circuit portion of an electronic device;
a constant temperature unit formed inside the housing and configured to constantly control the temperature inside the housing;
and a humidity constant unit formed inside the housing and configured to constantly control the humidity remaining in the housing.
Electronic pole complex heat dissipation structure device that supports smart multi-function.
The method of claim 1,
The constant temperature unit is
a thermoelectric element formed inside the housing and formed so that when power is supplied, one surface is radiated and the other surface is heat-absorbing;
a heat sink formed on one surface and the other surface of the thermoelectric element, respectively, to increase an area through which heat is diffused;
a heat pipe embedded in the heat sink formed on one surface of the thermoelectric element and disposed in a zigzag shape to radiate or absorb heat to the heat sink;
a constant temperature pipe connected to one end and the other end of the heat pipe, respectively, to form a circulation loop, and to absorb or radiate heat inside the housing and the case using a fluid flowing therein;
A circulation motor formed inside the constant temperature pipe to circulate the refrigerant flowing in the constant temperature pipe;
Electronic pole complex heat dissipation structure device that supports smart multi-function.
The method of claim 1,
The humidity unit is
When the internal humidity of the housing is higher than a set value, the inside of the housing is dehumidified, and when the humidity inside the housing is lower than the set value, the inside of the housing is humidified to maintain the humidity constant.
Electronic pole complex heat dissipation structure device that supports smart multi-function.
The method of claim 1,
A drain unit that is formed inside the housing and collects condensed water generated by a temperature difference and discharges it to the outside; characterized in that it further comprises
Electronic pole complex heat dissipation structure device that supports smart multi-function.

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