KR20030065439A - Cooling structure of safekeeping case - Google Patents

Abstract

PURPOSE: A cooling structure of a box is provided to improve the cooling efficiency by employing a forced cyclic manner of air. CONSTITUTION: A plurality of sidewalls(105a) and hinged gates(105b) are installed on sides of a plurality of frames(103), which are located on an upper portion of predetermined size of a base unit(102), and provided with at least one predetermined size of an air inlet(104) between an inner wall(106a) and an outer wall(106b). An upper panel(107) is installed on an upper end of the frame(103) to break electronic wave, has an air permeability, and is made of an aluminum foam. An inlet port is separately installed on an upper end of the upper panel(107) in order to secure a predetermined volume of space and forms a connecting unit on a neighbored place to an edge of the upper panel(107) so as to be connected to the sidewall(105a) and an upper end of the air inlet(104) of the hinged gate(105b). A blast fan is installed on an upper end of the inlet port to inhale and exhaust air in a lower portion of the air inlet(104) to an upper portion thereof.

Description

Cooling structure of safekeeping case

The present invention relates to a cooling structure of an enclosure configured to incorporate an adapter mounting plate and a connecting plate or a communication terminal for interconnecting or switching a base station and a relay device, and in particular, heat generated by the operation of the relay device and related equipment. Cooling structure of the enclosure that allows the air to be cooled quickly according to the forced circulation method, and solves the noise problem, which is a disadvantage of the forced circulation method, and ensures stable maintenance by not being influenced by the external temperature during outdoor installation. It is about.

In general, the enclosure is an optical fiber cable (multi-mode and single-mode) incorporating an adapter mounting plate and a fiber optic connecting plate for interconnecting or switching optical end devices and optical repeaters to facilitate operation of the system, or In order to freely change and register subscribers in order to connect, branch and distribute the optical fiber for distribution, there is a built-in device that performs the function of connecting and distributing the subscriber transmission module and the external optical fiber.

Such enclosures are selectively installed by the service provider according to the interior, exterior, track and surrounding environment of the building, and even if installed inside or outside of the building, the fan is used to cool its own heat generated by the equipment inside the enclosure. When in operation, the noise was transmitted to the outside without filtration, causing inconvenience.

In order to solve the above problems, conventionally, a water-cooled heat exchanger, a high efficiency cooling fin (Heatsink) cooling module, a PCM (phase change module) cooling device, a composite (air cooling + refrigerant) heat exchanger, and a heat pipe are applied. In order to cool the heat generated in the enclosure in a variety of ways, such as heat exchanger, air-cooled plate heat exchanger.

However, the method having excellent cooling efficiency requires expensive equipment and has a problem in that it is inconvenient to work and thus delays the production time and thus decreases productivity. The easy operation and low manufacturing cost have a lot of noise and cooling efficiency. This has a problem in that the reliability of the product is degraded.

The present invention devised to solve the above problems is to maximize the cooling efficiency and at the same time to establish a low cost and simple cooling system, and at the same time to minimize the noise generated inside the enclosure as well as to minimize the leakage of electromagnetic waves. to provide.

1 is a view showing a combined appearance of the enclosure of the present invention.

Figure 2 is an overall exploded perspective view of the enclosure showing the cooling structure of the present invention.

Figure 3 is a schematic side cross-sectional view showing a cooling structure of the present invention.

4 is a state diagram showing the circulation path of air according to the present invention.

Figure 5 is a plan sectional view showing the inner wall structure of the present invention.

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

101: enclosure 102: base portion

103: frame 104: air inlet pipe

105a: side wall 105b: opening and closing door

106a: inner wall 106b: outer wall

107: top panel 108: intake

109: blowing fan 110: holding rod

111 exhaust portion 112 sound-absorbing insulation

113: insulation roof 114: circulation fan

115: uneven portion

The above object is provided in the cooling structure of the enclosure in which the adapter mounting plate and the connecting plate or the communication terminal are incorporated to interconnect or switch between the station apparatus and the relay apparatus, and are installed on the base portion 102 at a predetermined height to provide a skeleton. Installed on the side of a plurality of frames 103 to form a plurality, formed of a double wall a plurality of air inlet pipe 104 of at least one size is formed between the inner wall (106a) and the outer wall (106b) connecting the upper, lower ends Side walls 105a and opening and closing doors 105b; An upper panel 107 installed at the top of the frame 103 to block electromagnetic waves, and having breathability and made of aluminum foam; The upper space of the upper panel 107 is installed so as to secure a space of a predetermined size, the position adjacent to the edge of the upper panel 107 to be connected to the top of the air inlet pipe 104 of the side wall 105a and the opening and closing door 105b An intake portion 108 configured to form a connection portion 108a in the air; Cooling of the enclosure, characterized in that it comprises a blower fan 109 is installed at a predetermined position on the upper end of the intake unit 108 to suck in and exhaust air from the lower portion of the intake unit 108 to the upper portion of the intake unit 108. Achieved by the structure.

In addition, a plurality of holding rods 110 having a predetermined length are bolted and coupled to the lower predetermined position and the upper portion of the frame 103 so as to be spaced a predetermined distance from the upper portion of the blowing fan 109, and the air is formed on the sidewall 105a and the opening and closing door 105b. Exhaust portion 111 is formed so as to be guided to the exhaust side, it is preferable to further include a heat insulating roof 113 attached to the sound-absorbing insulating material 112 of polyester material on the bottom.

In addition, it is preferable to further include a circulation fan 114 installed at a predetermined position inside the frame 103 to circulate so that the air inside the frame 103 is upwardly transported.

In addition, the inner wall 106a of the side wall 105a and the opening and closing plate 105b may be formed of the uneven portion 115 in which the unevenness is linked.

Hereinafter, the present invention will be described with reference to the accompanying drawings, FIGS. 1 to 5.

1 is a perspective view showing the appearance of the present invention housing 101, Figure 2 is an exploded perspective view showing the structure of the present invention, Figure 3 is a schematic cross-sectional view showing the flow structure of air according to the present invention, Figure 4 is a perspective view showing a flow structure of air according to the present invention, Figure 5 is a plan sectional view showing the inner wall structure of the present invention.

First, as shown in FIG. 2, a plurality of frames 103 constituting the skeleton of the enclosure 101 are bolted to the upper end of the base portion 102 to secure a predetermined space above the base portion 102.

In addition, a plurality of side walls 105a and the opening / closing door 105b constituting the outer wall of the enclosure 101 are bolted or riveted to the outside of the frame 103, and at this time, the side walls 105a and the opening / closing door 105b are combined. ) Is spaced apart from the bottom by a predetermined distance.

Therefore, the side wall 105a and the opening and closing door 105b are coupled to the outside of the base portion 102 so that the lower end thereof is in an open state, and the side wall 105a and the opening and closing door 105b have a double wall structure and an upper side thereof. A plurality of air inlet pipes 104 communicating with the lower end are formed to form a structure in which air staying around the outside of the base portion 102 may be guided upwardly through the air inlet pipes 104.

Here, the inner wall (106a) of the side wall (105a) and the opening and closing door (105b), as shown in Figure 5 it is preferable to assemble the extruded inner wall (106a) in the structure of the uneven portion 115 is formed continuously. Do.

In addition, the upper panel 107 formed of aluminum foam is coupled to the upper end of the frame 103 to block foreign substances or dust introduced from the outside, and at the same time, the heat generated therein can be exhausted to the upper side. .

In addition, as shown in FIG. 3, an intake unit 108 having a plurality of blower fans 109 is installed at an upper end of the frame 103, and the intake unit 108 includes sidewalls 105a and an opening / closing door ( In order to be connected to the air inlet tube 104 formed at the upper end of the 105b) to allow the air around the base portion 102 to be introduced to the intake portion 108, and to be spaced apart from the upper panel 107 by a predetermined distance. As a result, the air flowing into the air inlet pipe 104 is discharged upward through the blowing fan 109.

In addition, the insulating roof 113 is bolted to the predetermined position of the upper end of the frame 103 so that the air is discharged by the blower fan 109 so that the holding rod 110 is bolted to a predetermined position on the upper end of the frame 103 so as to be spaced a predetermined distance from the upper portion of the intake unit 108. It is preferable to manufacture in the shape of a cap so as to be discharged to the outside of the side wall 105a or the opening and closing door 105b.

On the other hand, the bottom surface of the insulating roof 113 absorbs the noise generated by the air discharged by the blowing fan 109 in contact with the insulating roof 113 and the noise of the blowing fan 109, and blocks the outside temperature It is preferable to attach the sound-absorbing insulating material 112 to be made.

In addition, a circulation fan 114 is installed at an inner predetermined position of the frame 103 to allow the internal heat to be transferred and circulated to the upper panel 107.

Thus, the adapter mounting plate and the connecting plate or communication terminal are operated to increase or decrease the temperature inside the enclosure 101 in order to interconnect or switch between the station apparatus and the relay apparatus.

At this time, the air circulated while the natural convection occurs inside the enclosure 101 is transferred to the inner wall 106a of the side wall 105a and the inner wall 106a of the opening / closing door 105b, and the inner wall 106a is illustrated in FIG. 5. As shown in FIG. 1, it is preferable that the convex-concave portion 115 is configured so that the surface area is further enlarged than the plane so that the heat inside the enclosure 101 can be quickly transferred to the inner wall 106a.

Here, the circulation fan 114 installed inside the enclosure 101 may be operated to smoothly circulate air, and the blower fan 109 installed at the intake unit 108 may be operated to provide an upper portion of the upper panel 107. The air is forcedly blown to the exhaust 111, and the upper panel 107 is made of aluminum foam, and a plurality of through holes (not shown) are randomly formed so that the air inside the enclosure 101 receives the through air. After being sucked into the intake unit 108, the air is blown to the exhaust unit 111 by the blower fan 109 again as shown in FIG. 4.

In addition, the cool air staying around the outside of the base portion 102 through the air inlet pipe 104 of the side wall 105a and the opening and closing door 105b is upwardly transferred, and the inner wall of the side wall 105a and the opening and closing door 105b ( The temperature of 106a) is taken and transferred to the intake section 108, and blown back to the exhaust section 111.

Here, the cold air transferred upward through the air inlet pipe 104 is able to quickly absorb heat and rise because the surface area of the uneven portion 115 of the inner wall is wide.

In addition, the hot air blown into the exhaust part 111 by the blowing fan 109 is discharged to the outside of the side wall 105a and the opening / closing door 105b, as shown in FIG. The heat is cooled to prevent overheating of the device.

At this time, the sound absorbing heat insulating material 112 of the bottom surface of the insulating roof 113 is blocked by the external temperature such as solar light to prevent the enclosure 101 from being affected by the external environmental conditions and generated by the blowing fan 109 at the same time. It also absorbs the operation noise is to minimize the operation noise of the blowing fan 109.

In addition, the housing 101 according to the present invention is provided with a EMI shielding gasket in each assembly portion as in the prior art, the top panel 107 made of aluminum foam is a state that the effect of blocking the electromagnetic waves as is well known The electromagnetic wave generated inside the enclosure 101 may be primarily blocked, and the sound absorbing heat insulating material 112 may also block the electromagnetic wave so that electromagnetic waves inside the enclosure 101 do not leak outside the enclosure 101.

As described above, the present invention has the effect of cooling the exothermic state inside the enclosure by exchanging the temperature inside the enclosure with the external temperature with a simple but low noise, and preventing the electromagnetic waves generated from the device from leaking to the upper side. The dual structure of the plate has the effect of minimizing the noise generated by the operation of the equipment inside the enclosure and the operation of the circulation fan and blower fan.

Claims (4)

In the cooling structure of the enclosure to be equipped with the adapter mounting plate and the connecting plate or communication terminal for interconnecting or switching between the station and repeater, A plurality of side walls are provided on the upper side of the base portion of a predetermined height to form a plurality of frame constituting the skeleton, formed of a double wall body formed at least one air inlet pipe of at least one size between the inner wall and the outer wall connecting the upper, lower ends And opening and closing doors; An upper panel installed at the top of the frame to block electromagnetic waves, and having breathability and made of aluminum foam; An intake part spaced apart from each other to secure a space having a predetermined size at an upper end of the upper panel, and a connection part formed at a position adjacent to an edge of the upper panel so as to be connected to an upper side of the air inlet pipe of the side wall and the door; And a blower fan installed at a predetermined position at an upper end of the intake unit to blow in and exhaust air from the lower portion of the intake unit to an upper portion of the intake unit. The method of claim 1, A plurality of holding rods of predetermined length are bolted to the lower predetermined position and the top of the frame so as to be spaced a predetermined distance from the upper portion of the blower fan, and an exhaust part is formed to guide air to the outside of the side wall and the opening and closing door, and a polyester is formed on the bottom of the blowing fan. Cooling structure of the housing, characterized in that it further comprises a heat insulation roof is attached to the sound-absorbing insulation material. The method of claim 1, Cooling structure of the housing further comprises a circulation fan installed in the predetermined position inside the frame to circulate the air inside the frame to be transported upward. The method of claim 1, Cooling structure of the enclosure, characterized in that the side wall and the inner wall of the opening and closing plate is formed by the uneven portion in which the unevenness is formed.