KR200319852Y1 - Cooling system of outdoor establishment wachine of communication flagship body - Google Patents

Abstract

The present invention relates to a cooling device for a communication device enclosure, the air passage (2) is installed on both side walls and the upper ceiling of the enclosure (1), but the inlet (3) is formed in the air passage at the bottom of the wall surface of one side, Air outlets on the lower side of the wall on the other side are provided with outlets 4 to be discharged to the outside, and on the inside of both side walls, 1. secondary heat sinks 5 and 6 are respectively installed, and on both sides on the upper side. Heat pipes (7) and (8) are installed, and the air passages on one side are provided with external air suction fan (9) and fan controller (10) and installed on both sides of the front and rear surfaces of the enclosure (1). The heat sinks 13 and 14 are installed in the doors 11 and 12, respectively, but the inner air circulation fan 15 is installed at the lower end of the heat pipe.

As described above, the present invention is easy to manufacture due to its simple structure, and heat sinks are installed on the inner wall and door of the enclosure, respectively, and the heat sinks are in contact with the outside, so that a constant cooling effect can be obtained at all times by no power. If the temperature is difficult due to natural cooling, it can be forcedly cooled by the fan installed in the interior of the enclosure.If the internal air of the enclosure is very high, the heat is forced to the external air circulation fan to force the external air to circulate. Forced cooling of the sink and heat pipes provides maximum cooling effect.

In addition, the present invention can protect electronic devices from various foreign matters such as dust or moisture, because external air does not flow into the inside, thereby prolonging the life of the device, and also making no noise, Is a useful design that can save energy by solving by cooling operation without power.

Description

Cooling system of outdoor equipment communication unit enclosure {Cooling system of outdoor establishment wachine of communication flagship body}

The present invention relates to a cooling device for an outdoor installation communication device enclosure, and to install external air circulation passages on the outer walls and ceilings of both sides of the enclosure, and to install internal air circulation passages on both sides of the inner side of the enclosure and on the front and rear sides of the enclosure. Air circulation fan and internal air circulation fan are installed respectively, and heat pipes are installed on the upper side and heat sinks are installed on the front and rear surfaces so that the heat inside the enclosure can be automatically released to the outside only by the circulation of air. Is there.

In general, various electronic devices or communication devices radiate heat by various devices installed therein. If the heat is not discharged to the outside, various devices are damaged due to heat or terminals are melted to cause short circuits. There was a problem of shortening the life of the device.

Meanwhile, in order to solve the above problems, a cooling fan is installed at a lower end of a housing (rack) for storing various electronic devices to inhale wind from the outside of the rack to flow into the lower end of the inside, and the upper side of the rack The purpose of the present invention was to obtain the effect of cooling by forming a discharge hole so that hot air raised to the upper side by convection can be discharged to the outside.

However, the above method requires the installation of a separate cooling fan for the interior of the rack, which requires unnecessary space and also induces waste of energy by operating the cooling fan. Because of the way to cool the various electronic devices due to the dust or moisture contained in the air has a problem that causes a short or malfunction.

Recently, in order to solve the above problems, a heat exchanger using a phase change material has been devised, but in the above method, the phase change material is embedded in the inside of the plate where the space is formed, and the plate is installed outside the heating element. It was conceived to be able to absorb and cool the heat generated by.

However, the above method has a problem in that the cooling efficiency is lowered because the phase change material cannot change when heat is generated because the structure is installed inside the plate forming the rack.

In addition, in case of an enclosure installed outdoors, air conditioning or a heat exchanger is installed inside the enclosure to maintain the internal temperature of the enclosure at a constant level, which leads to high energy consumption and severe vibration and noise. Since it is exposed to the need for a filter and a device for removing dust, there is an uncomfortable problem, such as unnecessary waste of labor and labor costs by replacing the filter periodically.

The present invention is designed to solve the above problems, by forming a passage in the upper side and both sides of the inside of the enclosure so that the outside wind flows in from the side through the top and then discharged to the outside through the other side, Heat sinks are installed on both sides of the inside, and heat pipes are installed on both sides of the top to allow cooling by outside air, while fans are installed on both sides of the upper part of the enclosure, and heat sinks are installed on the front rear doors respectively. By allowing the internal air to be supplied through the heat sink, to maintain a constant internal temperature, the present invention will be described in detail by the accompanying drawings as follows.

1 is an overall schematic perspective view of the present invention, the front and rear doors open state

Figure 2 is a schematic cutaway perspective view showing the cooling flow of the subject innovation

3 is a cross-sectional view showing an operating state of the present invention

Figure 4 is an enlarged cross-sectional view of the main portion showing the present invention A-A line

Figure 5 is an enlarged cross-sectional view showing the main portion B-B of the present invention

Figure 6 is a schematic cutaway perspective view showing a heat sink of the present invention

** Description of symbols for the main parts of the drawing **

1, enclosure 2. air passage 3. 18. inlet

4. 19. Outlet 5. 6. 13. 14. Heat sink 7. 8. Heat pipe

9. External air circulation fan 10. Fan controller 11. 12. Door

15. Internal air circulation fan 16. External heat sink 17. Internal heat sink

In the case where the heat exchanger is installed inside the outdoor enclosure, the air passages 2 are installed at both side walls and the upper ceiling of the outdoor enclosure 1, and the inlet port 3 is formed in the air passage at the bottom of the wall at one side. In the air passage at the bottom of the wall on the other side, the outlet 4 is discharged to the outside, and on the inside of the wall on both sides, respectively, 1. secondary heat sinks 5 and 6 are installed, and on both sides, Heat pipes (7) (8) are installed in the air passage on one side thereof, and external air suction fan (9) and fan controller (10) are installed on both sides of the housing (1). The heat sinks 13 and 14 are installed on the doors 11 and 12, respectively, and the inner air circulation fan 15 is installed at the lower end of the heat pipe.

Each of the heat sinks 5, 6, 13 and 14 combines the external heat sink 16 and the internal heat sink 17 to form a single heat sink, and each heat sink is an enclosure. The inlet port 18 is formed on the upper side and the outlet port 19 is formed on the lower side.

Referring to the operation of the present invention made as described above are as follows.

When an electronic device is installed and operated inside the outdoor installation enclosure 1, heat is generated by various electronic devices, and at the same time, each heat sink 5 and 6 installed inside the enclosure 1 are installed. (13) (14) and heat pipes (7) (8) are heated.

When the internal temperature of the enclosure rises in the above state, the internal air circulation fan 15 installed on the upper side of the enclosure 1 is operated, whereby the hot air gathered upward by the convection phenomenon. The internal air circulation fan 15 enters the heat sinks 5, 6, 13, and 14 installed on both side walls and doors, respectively, and the introduced air is cooled while passing through the heat sink. Then it will be re-supplied into the interior of the enclosure (1).

That is, each heat sink installed on the inner wall and door of the enclosure maintains a constant temperature by an external heat sink, and when it comes into contact with air higher than this temperature, it absorbs and absorbs the heat. Is emitted to the outside by an external heat sink.

When it is difficult to keep the internal temperature constant only by the internal air circulation fan 15 in the above state, the sensor installed in the enclosure detects the internal heat, and this signal is transmitted to the external controller 10 so that Air intake fan (9) is operated to circulate the outside air to the air passage (2).

When the external air intake fan (9) is operated, the air passage (2) installed inside the housing (1) becomes a vacuum and sucks the outside air through the inlet port (3), which causes the external cold As the air is introduced, the heat sink 5 is cooled while being in contact with the external heat sink 5 installed on the wall surface of the suction port 3 side.

Then, the sucked air passes through the primary heat sink 5 and passes through the air passage 2 installed above the enclosure 1, and passes through the secondary heat pipes 7 and 8 in the 휀 direction. After passing through the fan (9), the air passes through the external heat sink (6) installed on the other side wall is discharged to the outside through the outlet (4).

As the outside air flows in and passes through the heat sinks 5 and 6 and the heat pipes 7 and 8 as described above, the external heat sinks 16 and the heat pipes 7 and 8 respectively. Is cooled by contact with the outside air, and at the same time, the internal heat sink 17 in contact with the external heat sink 16 is heated, and thus the upper side of the external heat sink 16 and the heat pipe. When this is cooled, the heat of the internal heat sink 17 and the heat of the heat pipe inside the housing 1 are moved to a cold direction, that is, to the outside due to convection, due to the difference in temperature. Since the cooling is continued by the outside air, the internal temperature of the enclosure can be controlled by discharging the internal heat of the enclosure 1 to the outside.

On the other hand, when the external air intake fan 9 is operated to cool each heat sink 5, 6, 13, 14 and heat pipe 7, 8, it is installed on the inner upper side of the enclosure 1. The internal air circulation fan 15 is operated so that hot air in the inner center of the enclosure 1 is transferred to both sides of the enclosure 1 and both front and rear doors through the internal air circulation fan 15. It is sent to the upper suction port 18 of each heat sink 5, 6, 13, 14 provided in the.

As described above, when the internal air of the enclosure 1 is supplied to the respective heat sinks 5, 6, 13, 14 by the internal air circulation fan 15, each heat sink is cooled by the external air. The air passing through the heat sink is also deprived of heat and cooled, and the cooled air is discharged to the inside of the enclosure 1 through an outlet 19 installed at the bottom of each heat sink. As the air is heated again, the air is moved upward by the convection phenomenon and the internal air circulation fan 15.

As described above, the present invention is to be cooled secondarily by passing the inside of each heat sink again in the state of being primarily cooled by the heat pipes 7 and 8 while the air inside the enclosure 1 is heated. And, by supplying the air cooled in this way into the interior of the enclosure 1 is to obtain a complete cooling effect.

As described above, the present invention forms a passage in the upper side and both sides of the inside of the enclosure so that the outside wind flows in from the side, passes through the upper side, and is discharged to the outside through the other side. Heat pipes are installed on both sides of the upper part to allow cooling by outside air, while fins are installed on both sides of the upper part of the enclosure, and heat sinks are installed on each rear door to supply internal air through the heat sink. In order to keep the internal temperature constant, it is easy to manufacture due to its simple structure, and heat sinks are installed on the inner wall and door of the enclosure. Cooling effect can be obtained.

In addition, if the internal temperature is difficult due to natural cooling, it can be forcedly cooled by the fan installed inside the enclosure. If the internal air of the enclosure is very high, the air is forced to circulate outside by circulating the external air circulation. The maximum cooling effect can be obtained by forcibly cooling the heat sink and heat pipe.

In addition, the present invention can protect electronic devices from various foreign matters such as dust or moisture, because external air does not flow into the inside, thereby prolonging the life of the device, and also making no noise, Is a useful design that can save energy by solving by cooling operation without power.

Although the present invention has been described in detail only with respect to the embodiments described, it will be apparent to those skilled in the art that various modifications and changes are possible within the technical idea of the present invention, and such modifications and modifications belong to the appended utility model registration claims. will be.

Claims (4)

In the case where the heat exchanger is installed inside the outdoor enclosure, the air passages 2 are installed at both side walls and the upper ceiling of the outdoor enclosure 1, and the inlet port 3 is formed in the air passage at the bottom of the wall at one side. In the air passage at the bottom of the wall on the other side, the outlet 4 is discharged to the outside, and on the inside of both side walls, 1. secondary heat sinks 5 and 6 are respectively installed, and heat pipes 7 on the upper sides. (8), but the outside air intake fan (9) and fan controller (10) is installed in the air passage on one side, and the inner air circulation fan (15) is installed at the lower end of the heat pipe, A cooling device for an outdoor installation communication apparatus enclosure, characterized in that heat sinks (13) and (14) are provided on doors (11) and (12) provided on both front and rear surfaces of (1), respectively. The air conditioner of claim 1, wherein air passages are installed at the side and upper ceiling of the enclosure, but external air is sucked from the lower side of one side to be circulated separately from the interior of the enclosure so that external cooling air is separated from the circulation air inside the enclosure. Cooling apparatus for an outdoor installation communication device housing characterized in that the cooling circulating in the. The method of claim 1, wherein each of the heat sinks 5, 6, 13, 14 combines the external heat sink 16 and the internal heat sink 17 to be one heat sink, respectively. The heat sink of the cooling device for an outdoor installation of a communication device housing, characterized in that the intake port 18 is formed on the upper side and the discharge port 19 is formed at the bottom to circulate air. The cooling device for an outdoor installation communication apparatus enclosure according to claim 1, wherein a heat sink is provided on an inner wall of the oblique side of the enclosure.