KR20050021796A - Radiating structure of telecomunication system box - Google Patents

Abstract

The present invention relates to a heat dissipation structure of an enclosure for communication equipment, which divides the internal space of the main body 20, and has an upper shelf 22 and a lower shelf 24 on which various circuit boards and devices are mounted. A heat exchanger 60 is installed in the inner space of the shelf to maintain the internal temperature of the system within a predetermined range, and an air inlet port is provided on the front surface of the upper shelf 22 to supply air to the heat exchanger 60. 23 is formed, and includes an air outlet 42 formed on the front and side of the plinth 40 to discharge the air circulated in the heat exchanger 60 through a predetermined path. Therefore, the heat exchanger consisting of a small amount of blower fan not only heats the internal air but also heatsinks, thereby increasing the reliability of cooling by using a simple heating structure, reducing the cost by using a small amount of blower fan, and reducing the weight of the cooling device. It works.

Description

Radiating structure of enclosure for communication equipment {RADIATING STRUCTURE OF TELECOMUNICATION SYSTEM BOX}

The present invention relates to a heat dissipation structure of a communication equipment enclosure, and to a heat dissipation structure of a communication equipment enclosure for effectively radiating heat generated inside an enclosure in an outdoor communication equipment by a blowing fan.

Recent communication systems are becoming more and more integrated as they become smaller and higher in performance, and a high frequency unit (RF unit: heating element) is installed in a base station or relay station to transmit a signal transmitted by wired / wireless frequency or a received signal. It is fixed to be laminated on one side of the bar, the type and quantity of the unit also has a complicated assembly structure due to the recent sharp increase. Most of the devices that are applied to these units are large sized and generate a large amount of heat, and the cabinet for dissipating heat generated by the heat generator to the outside of the communication equipment to cool and protect the internal equipment from external force has a high performance and safety. It is classified as a very important device.

Referring to FIG. 1, a housing for communication equipment according to the prior art is as follows.

Outdoor enclosure (1) to insulate the internal system and protect it from external destructive factors, a door (2) rotatably installed on the front of the enclosure (1) for maintenance and repair work inside the system, Heat exchanger (3) provided on the inner side of the door of the enclosure (1) to maintain the internal temperature within a certain range, and a plinth (4) installed to install the system cable at the lower end of the enclosure (1) And a heat sink 5 forming a rear surface of the enclosure 1.

Here, the heat exchanger 3 and the heat sink 5 will be described in more detail in order to describe the internal air and the external air flow. In the inner space of the heat exchanger 3, two upper and lower blower fans 6 are disposed vertically. 7) is installed. The lower blower fan (7) is sucked through the external air inlet (8) formed on the lower front surface of the heat exchanger (3), the air warmed while passing through the lower blower fan (7) is the upper blower fan ( It is discharged to the air outlet 9 through 6).

In addition, the heat sink 5 is provided with a heating element not shown, the heating element is connected to a plurality of heat radiation fins (not shown) installed on the upper portion of the housing 1 by the heat pipe. In order to increase the heat dissipation effect of the heat sink 5, a blowing fan 10 arranged side by side to the rear side of the heat sink 5 is provided. Outside air sucked from the lower end of the rear of the enclosure (1) is discharged to the upper side of the enclosure (1) by passing through the heat radiation fin of the upper end along the blowing fan (10).

However, by using a plurality of blower fans for such a heat dissipation effect, the enclosure itself is heavy, easy to be expensive, the structure is complicated and there is a problem that a lot of costs in terms of maintenance.

The present invention has been made in order to solve the above-described drawbacks, by installing a heat exchanger consisting of a small amount of blower fan in the upper shelf of the enclosure, the heat exchanger as well as the inside of the heat sink to heat exchange, It is an object of the present invention to provide a heat dissipation structure of a communication equipment enclosure with improved reliability, durability, manufacturing cost, weight of the enclosure itself, and ease of maintenance.

According to the present invention for achieving the above object, there is provided a heat dissipation structure of the housing for communication equipment, the housing for communication equipment can be rotated to perform the maintenance and repair work inside the system on the front of the body and the body. To a communication device housing having a heat dissipation structure, comprising a door installed in a transparent manner, a plinth installed to install a system cable at a lower end of the main body, and a heat sink at the rear of the main body. An upper shelf and a lower shelf in which an internal space of the main body is partitioned and various circuit boards and devices are mounted, and a heat exchanger installed in an inner space of the upper shelf to maintain an internal temperature of a system within a predetermined range. And an air inlet formed in the front of the upper shelf to supply air to the heat exchanger, and air circulated in the heat exchanger. It includes an air outlet formed on the front and side of the plinth to be discharged through a predetermined path.

The above objects and various advantages of the present invention will become more apparent from the preferred embodiments of the invention described below with reference to the accompanying drawings by those skilled in the art.

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

Figure 2 is a perspective view of the union for communication equipment according to the present invention, Figure 3 is a plan view showing a heat dissipation structure of the housing for communication equipment according to the present invention, Figure 4 is a heat dissipation structure and air of the housing for communication equipment according to the present invention Side view showing the flow of.

As shown in Figures 2 and 3, the housing for communication equipment, the main body 20, and the door 30 that is rotatably installed in the front of the main body 20 to perform maintenance and repair work inside the system; In addition, a plinth 40 is installed at the lower end of the main body 20 to install the cable of the system, and a heat sink 50 is disposed on the rear surface of the main body 20.

Here, the main body 20 formed of a hexahedron is divided into an upper space 22 and a lower shelf 24. The lower shelf 24 has an internal space corresponding to approximately two thirds of the main body 20, and several modules are mounted in the rack in the space. And inside the upper shelf 22 is provided a heat exchanger 60 described below.

And the air inlet 23 is formed in the shape of the grill on the front of the upper shelf 22 is supplied with the air of the outside air, the plinth communicated with the heat sink 50 so that the circulated air is discharged through a predetermined path Air outlet 42 is formed on the front and side of the (40).

The heat exchanger 60 is provided with a rectangular heat plate 62 that sucks heat of the internal air in the center thereof, and circulates the internal air generated by the lower shelf 24 on one inner surface of the heat exchanger 60. The air blowing fan 64 is installed.

In addition, an external air blowing fan 66 for guiding the air circulated by the internal air blowing fan 64 to the lower heat sink 50 is installed at the inner rear side of the heat exchanger 60.

It is preferable that each of the inner blower fan 64 and the outer blower fan 66 is provided one by one.

Referring to the operation of the heat dissipation structure of the communication device housing according to the present invention configured as described above are as follows.

Referring to FIG. 4, when the temperature of the main body 20 rises, the internal air of the lower shelf 24 moves upward to enter the upper shelf 22, and the introduced internal air passes through the heat plate 62. High temperature internal air is sucked into the heat plate 62.

At this time, the heat exchange device 60 is the air of the outside air is introduced through the air inlet 23 as the blower fan 64 is driven. As the introduced outside air passes through the heat plate 62, it sucks heat conducted to the heat plate 62 to bring a primary cooling effect.

Therefore, the air temperature inside the main body 20 is properly maintained within the displacement amount 10 ° C to 20 ° C within the proper temperature range.

In addition, the air circulated in the heat exchanger 60 is led to the heat sink 50 at the rear of the main body 20 by driving the external air blowing fan 66, and is heat sinked by natural convection cooling through heat exchange with the outside air. 50 is secondary cooled.

On the other hand, the heat radiation air cooled to the heat sink 50 to increase the temperature is discharged to the air outlet 42 along the predetermined movement path of the plinth 40.

Therefore, the heat exchanger 60 is installed on the upper shelf 22 of the main body 20, and a small number of blowers installed in the heat exchanger 60 not only cools the internal air but also dissipates the heat sink 50 at the same time. It also has a cooling effect.

The above description describes a preferred embodiment of the present invention for the purpose of illustration only, and those skilled in the art should be able to easily modify and change the present invention without departing from the spirit and scope of the present invention. .

As described above, the heat dissipation structure of the housing for communication equipment according to the present invention is provided with a heat exchanger composed of a small amount of blower fan in the upper shelf of the enclosure, so that not only the internal air but also the heat sink is exchanged by the heat exchanger. By doing so, the reliability of the cooling is increased by a simple heat generation structure, the cost is reduced by using a small amount of the blowing fan, and the weight of the cooling device can be reduced.

In addition, the inside of the main body is partitioned into an upper shelf and a lower shelf, the heat exchanger installed in the upper shelf is removable, can be mounted, there is an effect that is easy to maintain.

1 is a side view showing the air flow of the conventional communication equipment enclosure,

Figure 2 is a perspective view of the union for the barrel through the equipment according to the present invention,

Figure 3 is a plan view showing a heat dissipation structure of the housing for communication equipment according to the present invention,

Figure 4 is a side view showing the heat dissipation structure and the flow of air of the housing for communication equipment according to the present invention.

<Description of the symbols for the main parts of the drawings>

20: main body 22: upper shelf

23: air inlet 24: lower shelf

30: door 40: plinth

42: air outlet 50: heat sink

60: heat exchanger 62: heat plate

64: air blower 66: air blower

Claims (5)

A main body, a door rotatably installed on the front of the main body for maintenance and repair work inside the system, a plinth provided to install a system cable at a lower end of the main body, and the main body In the enclosure for communication equipment having a heat dissipation structure consisting of a heat sink on the back of the, An upper shelf and a lower shelf partitioning an internal space of the main body and mounted with various circuit boards and devices; A heat exchanger installed in an inner space of the upper shelf to maintain an internal temperature of the system within a predetermined range; An air inlet formed on the front surface of the upper shelf to supply air to the heat exchanger; Air outlet formed on the front and side of the plinth to discharge the air circulated in the heat exchanger through a predetermined path Heat dissipation structure of the housing for communication equipment comprising a. The method of claim 1, The heat exchanger is provided with a heat plate that sucks the heat of the internal air in the center thereof, An inner blowing fan for circulating the internal air generated from the lower shelf is installed on one side of the heat exchanger, The outside air blowing fan for guiding the air circulated by the inside blowing fan to the heat sink on the lower side is installed on the inner rear side of the heat exchange device. Heat dissipation structure of the housing for communication equipment, characterized in that. The method according to claim 1 or 2, Air supplied through the air inlet is circulated by the internal air blower in the heat exchanger, and the circulated air is supplied to the heat sink to cool the external air blower, and the heat radiation air is supplied along a predetermined movement path. Heat dissipation structure of the housing for communication equipment characterized in that discharged to the outlet. The method of claim 2, The air blower is a heat dissipation structure of the housing for communication equipment, characterized in that at least one or more air blower is installed. The method of claim 2, The external air blower is a heat dissipation structure of the housing for communication equipment, characterized in that at least one or more is installed.