CN216982390U - Big data heat dissipation computer lab - Google Patents

Abstract

The utility model provides a big data heat dissipation machine room which comprises a machine room main body, wherein the machine room main body comprises an arc-shaped wall surface, the upper end of the arc-shaped wall surface is provided with an upper water tank, the lower end of the arc-shaped wall surface is provided with a lower water tank, the arc-shaped wall surface is provided with an air inlet channel communicated with the interior of the machine room main body, the side wall of the machine room main body is provided with an exhaust fan, and when the exhaust fan operates, external air is sucked into the machine room main body through the air inlet channel and is continuously led out of the machine room main body; the air distribution plate connected with the arc-shaped wall surface is further arranged in the machine room main body, air distribution holes are formed in the air distribution plate, and air entering the air inlet channel enters the machine room main body through the air distribution holes. According to the utility model, the air entering the machine room main body is cooled through the arc-shaped wall surface and the water flowing through the arc-shaped wall surface, the temperature in the machine room main body is reduced under the assistance of the exhaust fan, and the normal heat dissipation of the big data host is ensured.

Description

Big data heat dissipation computer lab

Technical Field

The utility model relates to the technical field of heat dissipation machine rooms, in particular to a big data heat dissipation machine room.

Background

When a big data host (a supercomputer) operates, a large amount of heat can be generated, and a machine room comprising a heat dissipation assembly with huge cost is generally required to be built for the big data host to be placed, so that the big data host can normally dissipate heat, and the normal operation is ensured.

The heat dissipation machine room in the prior art is complex in structure, complex in operation and maintenance and huge in operation and maintenance cost, so that the operation cost of a large data host is huge.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model provides a big data heat dissipation machine room, which solves the problems that the heat dissipation machine room in the prior art is complex in structure, high in operation and maintenance cost.

According to the embodiment of the utility model, the big data heat dissipation machine room comprises a machine room main body, wherein the machine room main body comprises an arc-shaped wall surface, the upper end of the arc-shaped wall surface is provided with an upper water tank, the lower end of the arc-shaped wall surface is provided with a lower water tank, the arc-shaped wall surface is provided with an air inlet channel communicated with the interior of the machine room main body, the side wall of the machine room main body is provided with an exhaust fan, and when the exhaust fan runs, external air is sucked into the machine room main body through the air inlet channel and is continuously led out of the machine room main body; the air distribution plate connected with the arc-shaped wall surface is further arranged in the machine room main body, air distribution holes are formed in the air distribution plate, and air entering the air inlet channel enters the machine room main body through the air distribution holes.

Above-mentioned embodiment, through introducing the cooling water in last basin, from last basin after flowing to lower basin through the arc wallface, outside air passes through between inlet air channel entering grid plate and the arc wallface under the effect of air exhauster, in the space that grid plate and arc wallface enclose, the air passes through the arc wallface with outside cooling water and realizes the heat exchange in order to ensure that the air keeps the lower temperature, then in the grid hole gets into the computer lab main part again, the hot-air in the computer lab main part is then taken away by the air exhauster simultaneously, the heat then derives the computer lab main part thereupon, thereby realize the heat dissipation cooling to computer lab main part internal environment, ensure that the big data host computer of installation in the computer lab main part operates normally.

Furthermore, the air inlet channel is fixedly connected with the arc-shaped wall surface and is fixedly connected with the air distribution plate through a connecting rod.

Furthermore, one end of the air inlet channel, which is far away from the air distribution plate, extends horizontally and is fixedly connected with a vertical annular plate surrounding the air distribution plate.

Further, a water pump is arranged in the lower water tank, a pump inlet pipe of the water pump is communicated with the lower water tank, a pump outlet pipe of the water pump is connected with a connecting pipe arranged in the machine room main body, and one end, deviating from the water pump, of the connecting pipe is connected with the upper water tank.

Furthermore, the lower end of the upper water tank is fixedly connected with a water distribution tank, a row of water distribution holes are formed in the water distribution tank, and water in the upper water tank flows onto the arc-shaped wall surface through the water distribution holes.

Furthermore, the air inlet channel is arranged in the middle section of the arc-shaped wall surface, and the two exhaust fans are respectively arranged at the upper end and the lower end of the side wall of the machine room main body opposite to the arc-shaped wall surface.

Further, the machine room further comprises a covering plate covering the machine room main body, and the covering plate stands on the ground through a pair of supporting plates.

Furthermore, a water inlet channel is further arranged on the cover plate and is positioned right above the upper water tank.

Compared with the prior art, the utility model has the following beneficial effects:

the structure is simple, the construction cost is low, the operation and maintenance are simple, the cost is low, and the purpose of ensuring that the operation cost of the big data host is not greatly increased due to heat dissipation on the premise that the heat dissipation of the big data host is normal is achieved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present invention;

FIG. 2 is an enlarged view of a portion A of FIG. 1;

FIG. 3 is a schematic structural view of a water distribution tank according to an embodiment of the present invention;

in the above drawings:

the machine room comprises a machine room main body 1, a big data host 2, an arc-shaped wall surface 3, an upper water tank 4, a lower water tank 5, an air inlet channel 6, an exhaust fan 7, an air distribution plate 8, a connecting rod 9, a ring plate 10, a water pump 11, a connecting pipe 12, a cover plate 13, a supporting plate 14, an air inlet channel 15, a water distribution box 16 and water distribution holes 17.

Detailed Description

The technical solution of the present invention is further explained with reference to the drawings and the embodiments.

In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the utility model and to simplify the description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the utility model.

As shown in fig. 1 to 3, the embodiment provides a big data heat dissipation machine room, which includes a machine room main body 1, a big data main body 2 is installed in the machine room main body 1, the machine room main body 1 includes an arc-shaped wall surface 3, an upper water tank 4 is arranged at the upper end of the arc-shaped wall surface 3, a lower water tank 5 is arranged at the lower end of the arc-shaped wall surface, an air inlet channel 6 communicated with the interior of the machine room main body 1 is arranged on the arc-shaped wall surface 3, an exhaust fan 7 is installed on the side wall of the machine room main body 1, and when the exhaust fan 7 operates, external air is sucked into the machine room main body 1 through the air inlet channel 6 and is continuously led out of the machine room main body 1; the machine room main body 1 is also internally provided with an air distribution plate 8 connected with the arc-shaped wall surface 3, the air distribution plate 8 is provided with air distribution holes, and air entering from the air inlet channel 6 enters the machine room main body 1 through the air distribution holes.

In the above embodiment, by introducing the cooling water into the upper water tank 4, flowing out of the upper water tank 4 to the lower water tank 5 through the arc-shaped wall surface 3, under the action of the exhaust fan 7, external air enters between the air distribution plate 8 and the arc-shaped wall surface 3 through the air inlet channel 6, in the space enclosed by the air distribution plate 8 and the arc-shaped wall surface 3, the air and the external cooling water realize heat exchange through the arc-shaped wall surface 3 to ensure that the air keeps a lower temperature, then enters the machine room main body 1 through the air distribution holes, meanwhile, hot air in the machine room main body 1 is pumped away by the exhaust fan 7, heat is led out of the machine room main body 1, air with lower temperature is contacted with the big data host 2 in the flowing process to be heated, then continue to be taken out by exhaust fan 7 and leave, finally realize the heat dissipation cooling to the environment in computer lab main part 1, ensure that big data host 2 installed in computer lab main part 1 operates normally.

Preferably, air inlet channel 6 and arc wall 3 fixed connection and through connecting rod 9 and grid cloth 8 fixed connection, make air inlet channel 6's connection more stable like this, do not influence simultaneously in outside air gets into computer lab main part 1, furtherly, air inlet channel 6 deviates from the one end level extension of grid cloth 8, can make outside air get into smoothly like this, and furthermore, in order to avoid cooling water to pass through air inlet channel 6 and is drawn into in computer lab main part 1, air inlet channel 6 still fixed connection has the vertical crown plate 10 around it, cooling water is blockked by crown plate 10 and can not get into in air inlet channel 6 when the arc wall 3 is up-and-down.

Preferably, a water pump 11 is arranged in the lower water tank 5, a pump inlet pipe of the water pump 11 is communicated with the lower water tank 5, a pump outlet pipe of the water pump 11 is connected with a connecting pipe 12 arranged in the machine room main body 1, and one end of the connecting pipe 12, which is far away from the water pump 11, is connected with the upper water tank 4, so that cooling water can be recycled, and the purpose of saving water is achieved;

further, in order to avoid the temperature rise of the cooling water caused by the irradiation of external sunlight and the like, the heat dissipation machine room further comprises a cover plate 13 covering the upper side of the machine room main body 1, the cover plate 13 stands on the ground through a pair of supporting plates 14, the cover plate 13 covers the upper side of the arc-shaped wall surface 3, the cooling water is prevented from being irradiated by sunlight, and meanwhile, channels (namely, the channels enclosed by the cover plate 13 and the supporting plates 14) are arranged on two sides of the lower side of the cover plate 13 for air flowing, so that the environment temperature cannot rise due to sealing.

Preferably, the cover plate 13 is further provided with a water inlet channel 15, the water inlet channel 15 is located right above the upper water tank 4, external cooling water can be introduced through the water inlet channel 15 to supplement and update the cooling water in the upper water tank 4, and the excess water flows away from the lower water tank 5 directly.

Preferably, in order to make the cooling water flow down on the arc-shaped wall surface 3 uniformly, the lower end of the upper water tank 4 is fixedly connected with a water distribution tank 16, the water distribution tank 16 is provided with a row of water distribution holes 17, the water in the upper water tank 4 flows onto the arc-shaped wall surface 3 through the water distribution holes 17, the size of the water distribution tank 16 is small (the caliber of the water supply holes is also small), the water in the upper water tank 4 can easily cover the bottom surface of the whole water distribution tank 16, and then the water uniformly penetrates through the arc-shaped wall surface 3 below from the water distribution holes 17 arranged at the lower end of the side wall of the water distribution tank 16.

Preferably, air inlet channel 6 sets up in 3 middle sections of arc wall, and air exhauster 7 be two and set up respectively in the upper and lower both ends of 1 lateral wall of computer lab main part just right with arc wall 3, and when two air exhausters 7 operation like this, the air after the cooling can be more fully covered with whole 1 inner space of computer lab main part to reach better radiating effect.

Finally, the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, and all of them should be covered in the claims of the present invention.

Claims (8)

1. A big data heat dissipation machine room is characterized by comprising a machine room main body, wherein the machine room main body comprises an arc-shaped wall surface, the upper end of the arc-shaped wall surface is provided with an upper water tank, the lower end of the arc-shaped wall surface is provided with a lower water tank, the arc-shaped wall surface is provided with an air inlet channel communicated with the interior of the machine room main body, the side wall of the machine room main body is provided with an air exhauster, and when the air exhauster operates, external air is sucked into the machine room main body through the air inlet channel and is continuously led out of the machine room main body; the air distribution plate connected with the arc-shaped wall surface is further arranged in the machine room main body, air distribution holes are formed in the air distribution plate, and air entering the air inlet channel enters the machine room main body through the air distribution holes.

2. The big data heat dissipation computer lab of claim 1, wherein the air inlet channel is fixedly connected with the arc wall and fixedly connected with the grid plate through a connecting rod.

3. The big data heat dissipation machine room of claim 2, wherein one end of the air inlet channel, which is far away from the air distribution plate, extends horizontally and is fixedly connected with a vertical annular plate surrounding the air distribution plate.

4. The big data heat dissipation computer room of claim 3, wherein a water pump is disposed in the lower water tank, a pump inlet pipe of the water pump is communicated with the lower water tank, a pump outlet pipe of the water pump is connected with a connecting pipe disposed in the computer room body, and an end of the connecting pipe, which is far away from the water pump, is connected with the upper water tank.

5. The big data heat dissipation machine room of claim 4, wherein the lower end of the upper water tank is fixedly connected with a water distribution tank, the water distribution tank is provided with a row of water distribution holes, and water in the upper water tank flows onto the arc-shaped wall surface through the water distribution holes.

6. The big data heat dissipation machine room of claim 5, wherein the air inlet channel is disposed at the middle section of the arc-shaped wall surface, and the two air suction fans are respectively disposed at the upper end and the lower end of the side wall of the machine room body opposite to the arc-shaped wall surface.

7. The big data heat dissipation machine room of claim 6, further comprising a cover plate covering the machine room main body, wherein the cover plate stands on the ground through a pair of support plates.

8. The big data heat dissipation machine room of claim 7, wherein the cover plate is further provided with a water inlet channel, and the water inlet channel is located right above the upper water tank.

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