CN212649974U - Heat radiation structure of computer lab - Google Patents

Abstract

The utility model relates to a heat radiation structure of computer lab, including computer lab main part, air supply equipment and exhaust equipment, be provided with the wind channel in the both sides wall of computer lab main part, the both sides wall symmetry of computer lab main part is provided with a plurality of holes of airing exhaust, air supply equipment's air outlet intercommunication to the wind channel, is connected with a plurality of tuber pipes as required between the both sides wall, the both ends of tuber pipe all communicate to the hole of airing exhaust, be provided with a plurality of holes of blowing on the tuber pipe; the air exhaust hole which is not connected with the air pipe is plugged through a plugging cover; the air exhaust equipment is arranged at the top of the machine room main body and is communicated with the inner cavity of the machine room main body. Utility model's an usage is, air supply equipment blows in the wind channel of computer lab main part with outdoor air, and the air current blows off through the hole of blowing on the tuber pipe, and the tuber pipe can go deep into between the components and parts to blow to in the computer lab corresponding components and parts through the angle that the hole was blown in the adjustment on, thereby improve cooling efficiency, improve the circulation of air between the components and parts.

Description

Heat radiation structure of computer lab

Technical Field

The utility model relates to a communications facilities field, more specifically, the utility model relates to a heat radiation structure of computer lab.

Background

With the development of science and technology, automation control becomes the mainstream, no matter in industrial production or communication industry, a machine room is required to be arranged as a main control mechanism, however, the working temperature range of most components is limited, so that the heat dissipation of the machine room is particularly important.

Current computer lab heat dissipation is mostly the forced air cooling heat dissipation, installs the fan in the computer lab side promptly, blows and exhausts in order to reach the purpose of heat dissipation cooling in the computer lab. However, a plurality of components are usually installed in the machine room, the arrangement of the components is complicated, the air convection effect in the machine room is limited simply, the components with large heat dissipation capacity are difficult to cool, the fault rate caused by the cooling is high, the air conditioner is installed along with the effective cooling, the power consumption of the air conditioner is large, the fault rate is high, and the use cost and the maintenance cost are large.

Therefore, a machine room heat dissipation structure with low cost and high reliability is needed.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an aim at it is poor to solve current computer lab radiating efficiency, can't effectively cool down the refrigerated problem to the inner space of complicacy.

According to an aspect of the utility model, a heat radiation structure of computer lab is provided, including computer lab main part, air supply equipment and exhaust equipment, be provided with the wind channel in the both sides wall of computer lab main part, the both sides wall symmetry of computer lab main part is provided with a plurality of air exhaust holes, the air outlet of air supply equipment communicates to the wind channel, is connected with a plurality of tuber pipes as required between the both sides wall, the both ends of tuber pipe all communicate to the air exhaust hole, be provided with a plurality of blowing holes on the tuber pipe; the air exhaust hole which is not connected with the air pipe is plugged through a plugging cover; the air exhaust equipment is arranged at the top of the machine room main body and is communicated with the inner cavity of the machine room main body.

Through this scheme, air supply equipment blows in the wind channel of computer lab main part with outdoor air, and the air current blows off through the hole that blows on the tuber pipe, and the tuber pipe can go deep into between the components and parts to blow to corresponding components and parts in the computer lab through the angle that the hole was blown in the adjustment on, thereby improve cooling efficiency, improve the circulation of air between the components and parts.

Preferably, the air pipe is communicated to the air exhaust hole through an end pipe, and the end pipe is fixed to the side wall of the machine room main body through a bolt; the outer diameter of the air pipe is consistent with the inner diameter of the end pipe, and the side wall of the end pipe is provided with at least one puller bolt.

Through this scheme, the installation and the regulation of the tuber pipe of being convenient for loosen the tight bolt in top and can adjust the angle of blowing the hole.

Preferably, the exhaust hole which is not connected with the air pipe is fixedly provided with the end pipe, and the blocking cover is arranged on the end pipe in a sealing manner.

Through this scheme, make things convenient for the shutoff of blanking cover to connect to can be convenient for adjust the position of tuber pipe at any time, directly replace can.

Preferably, a plurality of air pipes are arranged between the symmetrical air exhaust holes in the same group, and the air pipes are connected into a required shape through connecting elbows.

Through this scheme, make this device be applicable to different inner structure's computer lab, richen the mode of arranging of tuber pipe to more effectual cooling of blowing.

Preferably, a blowing nozzle is connected to the blowing hole, and the diameter of an outlet of the blowing nozzle is smaller than that of the blowing hole.

Through this scheme, improve the speed of the air current that blows off to along with air velocity increase, the temperature reduces, further improves the cooling effect.

Preferably, the air exhaust equipment is a centrifugal fan, a top window is arranged at the top of the machine room main body, an air exhaust duct is arranged to connect the top window, and the air exhaust duct is horizontally arranged; and an air inlet of the air exhaust equipment is communicated to the top window, and an air outlet of the air exhaust equipment is communicated to the air exhaust duct.

Through this scheme, centrifugal fan's exhaust effect is better, and the exhaust airway sets up in the side can avoid the pouring of rainwater, improves the security of this computer lab.

The heat dissipation structure of the utility model has the technical effects that the heat dissipation efficiency can be greatly improved, especially for the heat dissipation in the machine room with complex internal structure and more components; the heat dissipation can be carried out in a targeted manner, and the high-efficiency air-cooling heat dissipation of the components with large heat productivity is improved; the structure is used without installing air conditioning equipment or increasing the capacity of the fan, so that the use cost and the equipment cost are both low.

Other features of the present invention and advantages thereof will become apparent from the following detailed description of exemplary embodiments of the invention, which proceeds with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description, serve to explain the principles of the invention.

Fig. 1 is a schematic structural diagram of a heat dissipation structure of a machine room according to a first embodiment of the present invention.

Fig. 2 is a schematic diagram of the structure at a in fig. 1.

Fig. 3 is a schematic view of the installation position of the blanking cover in the heat dissipation structure of the machine room of fig. 1.

Fig. 4 is a schematic view of a connection structure of air ducts in the heat dissipation structure of the machine room of fig. 1.

Fig. 5 is a schematic view of the installation position of the air exhausting device in the heat dissipating structure of the machine room of fig. 1.

Fig. 6 is a schematic structural diagram of an air duct in the heat dissipation structure of the machine room according to the second embodiment of the present invention.

Wherein like parts are designated by like reference numerals throughout the several views; the figures are not drawn to scale.

Detailed Description

Various exemplary embodiments of the present invention will now be described in detail with reference to the accompanying drawings. It should be noted that: unless specifically stated otherwise, the relative arrangement of the components and steps, the numerical expressions, and numerical values set forth in these embodiments do not limit the scope of the present invention.

The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the invention, its application, or uses.

Techniques and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail, but are intended to be considered a part of the specification where appropriate.

In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, further discussion thereof is not required in subsequent figures.

Example one

As shown in fig. 1 to 5, the heat dissipation structure of a machine room in this embodiment includes a machine room main body 1100, an air supply device 1200, and an air exhaust device 1300, wherein air ducts 1101 are disposed in two side walls of the machine room main body 1100, a plurality of air exhaust holes 1102 are symmetrically disposed on two side walls of the machine room main body 1100, an air outlet of the air supply device 1200 is communicated to the air ducts 1101, a plurality of air pipes 1110 are connected between the two side walls as required, two ends of the air pipes 1110 are both communicated to the air exhaust holes 1102, and a plurality of air blowing holes 1111 are disposed on the air pipes 1110; the exhaust hole 1102 which is not connected with the air pipe 1110 is blocked by a blocking cover 1130; the exhaust device 1300 is disposed at the top of the machine room main body 1100 and is communicated with an inner cavity of the machine room main body 1100.

Through this scheme of this embodiment, air supply equipment 1200 blows in outdoor air in the wind channel 1101 of computer lab main part 1100, and the air current blows out through the hole 1111 of blowing on tuber pipe 1110, and tuber pipe 1110 can go deep into between the components and parts to blow to corresponding components and parts in the computer lab through the angle that the hole 1111 was blown in the adjustment on, thereby improve cooling efficiency, improve the circulation of air between the components and parts.

In this embodiment or other embodiments, the air duct 1110 is connected to the exhaust hole 1102 through an end pipe 1120, and the end pipe 1120 is fixed to the side wall of the machine room main body 1100 through a bolt 1121; the outer diameter of the wind pipe 1110 is the same as the inner diameter of the end pipe 1120, and the side wall of the end pipe 1120 is provided with at least one tightening bolt 1122. This setting can be convenient for the installation and the regulation of tuber pipe 1110, loosens the tight bolt 1122 in top and can adjust the angle that blows hole 1111 to better adaptation not the computer lab of isostructure.

In this embodiment or other embodiments, the end tube 1120 is fixed to the exhaust hole 1102 not connected to the air duct 1110, and the blocking cover 1130 is covered on the end tube 1120 for sealing, so as to facilitate the blocking connection of the blocking cover 1130, facilitate the adjustment of the position of the air duct 1110 at any time, and allow direct replacement.

In this embodiment or other embodiments, a plurality of air ducts 1110 are disposed between the symmetrical air exhaust holes 1102 of the same group, and the air ducts 1110 are connected to each other by connecting bends 1140 to form a desired shape. Through being connected of connecting elbow 1140 and tuber pipe 1110, can change the trend of tuber pipe 1110 to make this device be applicable to different inner structure's computer lab, richen tuber pipe 1110 arrange the mode, thereby the more effective cooling of blowing.

In this embodiment or other embodiments, the exhaust device 1300 is a centrifugal fan, a top window 1103 is disposed on the top of the machine room main body 1100, an exhaust duct 1310 is disposed in connection with the top window 1103, and the exhaust duct 1310 is horizontally disposed; an air inlet of the air exhausting device 1300 is communicated to the top window 1103, and an air outlet of the air exhausting device 1300 is communicated to the air exhausting duct 1310. Centrifugal fan's exhaust effect is better, and exhaust duct 1310 sets up the entering that can avoid the rainwater in the side, improves the security of this computer lab.

The heat dissipation structure of the machine room has the technical effects that the heat dissipation efficiency can be greatly improved, and particularly, the heat dissipation structure aims at the heat dissipation in the machine room with a complex internal structure and more components; the heat dissipation can be carried out in a targeted manner, and the high-efficiency air-cooling heat dissipation of the components with large heat productivity is improved; the structure is used without installing air conditioning equipment or increasing the capacity of the fan, so that the use cost and the equipment cost are both low.

Example two

As shown in fig. 6, in the heat dissipation structure of the machine room in this embodiment, on the basis of the technical solution in the above embodiment, the blowing nozzle 1112 is connected to the blowing hole 1111, and the outlet diameter of the blowing nozzle 1112 is smaller than the diameter of the blowing hole 1111, so that the airflow can be compressed and blown out of the blowing nozzle 1112, the speed of the blown airflow is increased, the heat dissipation efficiency can be increased, and the temperature in the air is reduced as the air flow rate is increased, which is helpful for further improving the cooling effect.

Although some specific embodiments of the present invention have been described in detail by way of illustration, it should be understood by those skilled in the art that the above illustration is only for purposes of illustration and is not intended to limit the scope of the invention. It will be appreciated by those skilled in the art that modifications may be made to the above embodiments without departing from the scope and spirit of the invention. The scope of the invention is defined by the appended claims.

Claims (6)

1. A heat dissipation structure of a machine room comprises a machine room main body, air supply equipment and air exhaust equipment, and is characterized in that air channels are arranged in two side walls of the machine room main body, a plurality of air exhaust holes are symmetrically formed in the two side walls of the machine room main body, an air outlet of the air supply equipment is communicated to the air channels, a plurality of air pipes are connected between the two side walls as required, two ends of each air pipe are communicated to the air exhaust holes, and a plurality of blowing holes are formed in the air pipes; the air exhaust hole which is not connected with the air pipe is plugged through a plugging cover; the air exhaust equipment is arranged at the top of the machine room main body and is communicated with the inner cavity of the machine room main body.

2. The heat dissipation structure of the machine room as claimed in claim 1, wherein the air duct is connected to the air exhaust hole through an end duct, and the end duct is fixed to a side wall of the machine room main body through a bolt; the outer diameter of the air pipe is consistent with the inner diameter of the end pipe, and the side wall of the end pipe is provided with at least one puller bolt.

3. The heat dissipation structure of machine room according to claim 2, wherein the end pipe is fixed to the air exhaust hole not connected to the air pipe, and the blanking cover is sealed to the end pipe.

4. The heat dissipation structure of machine room as claimed in claim 3, wherein a plurality of air ducts are arranged between the symmetrical air exhaust holes of the same group, and the air ducts are connected into a desired shape by connecting elbows.

5. The heat dissipation structure of the machine room according to claim 4, wherein a blowing nozzle is connected to the blowing hole, and an outlet diameter of the blowing nozzle is smaller than a diameter of the blowing hole.

6. The heat dissipation structure of the machine room according to claim 1, wherein the air exhaust device is a centrifugal fan, a top window is arranged at the top of the machine room main body, an air exhaust duct is arranged in connection with the top window, and the air exhaust duct is horizontally arranged; and an air inlet of the air exhaust equipment is communicated to the top window, and an air outlet of the air exhaust equipment is communicated to the air exhaust duct.

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