CN212677596U - Data center computer lab cooling structure - Google Patents

Abstract

The utility model discloses a data center computer lab cooling structure, including the computer lab body, this internal server that is equipped with a plurality of evenly distributed of computer lab all is connected with pipeline mechanism on a plurality of servers, and pipeline mechanism includes a plurality of protective housings, and protective housing and server phase-match have chiseled the heat transfer groove in the protective housing, are connected with the connecting tube between a pair of protective housing, and the connecting tube communicates with the heat transfer groove mutually, and the connecting tube is connected with the contact tube, and the contact tube is connected with hydrologic cycle mechanism. The utility model discloses a setting of pipeline mechanism, water circulation mechanism and wind circulation mechanism carries out the cooling that lasts for large-scale server, has reduced the condition that high temperature operation appears in the server among the data center to promote the operating efficiency of server, and then reduced the condition of burning out the inside spare part of server, reduced the probability that the conflagration took place, reduced the possibility that data center data lost, thereby reduced economic loss.

Description

Data center computer lab cooling structure

Technical Field

The utility model belongs to the technical field of the computer lab cooling structure, concretely relates to data center computer lab cooling structure.

Background

An internet data center is abbreviated as IDC, namely a telecommunication department utilizes the existing internet communication line and bandwidth resources to establish a standardized telecommunication professional computer room environment and provide all-round services in the aspects of server hosting, renting, related value adding and the like for enterprises and governments.

At present, in daily operation of a data center, a large server cluster generates a large amount of heat during work, the heat can cause high-temperature operation of servers in the data center if not processed as soon as possible, the high temperature can cause low efficiency of the servers, even parts in the servers are burnt out, a fire disaster can be seriously caused, a large amount of data in the data center is lost, and serious economic loss is easily caused.

Therefore, in view of the above technical problems, it is necessary to provide a cooling structure for a data center room.

Disclosure of Invention

An object of the utility model is to provide a data center computer lab cooling structure to the heat that large-scale server cluster produced can cause the problem of server high temperature operation in the data center among the solution prior art.

In order to achieve the above object, an embodiment of the present invention provides the following technical solutions:

the utility model provides a data center computer lab cooling structure, includes the computer lab body, this internal server that is equipped with a plurality of evenly distributed of computer lab is a plurality of all be connected with pipeline mechanism on the server, pipeline mechanism includes a plurality of protective housings, protective housing and server phase-match, it has the heat transfer groove to chisel in the protective housing, and is a pair of be connected with the connecting tube between the protective housing, the connecting tube communicates with the heat transfer groove mutually, the connecting tube is connected with the contact tube, the contact tube is connected with hydrologic cycle mechanism, the contact tube runs through the computer lab body setting, one side of protective housing is equipped with the inlet tube, be connected with the branch pipe between inlet tube and the protective housing, the inlet tube is connected with hydrologic cycle mechanism, the one end that the computer lab body was kept.

Further, hydrologic cycle mechanism is including the circulation protective housing, be equipped with circulating water pump in the circulation protective housing, circulating water pump is last to be connected with the circulation drinking-water pipe, the circulation drinking-water pipe is linked together with the contact tube, and the setting up of circulation protective housing makes pipeline mechanism whole to have formed the circulation, makes the heat in the server bring the heat into in the hydrologic cycle mechanism and dispel the heat, has reduced the temperature of server, and the setting up of circulation drinking-water pipe has communicateed the protective housing, makes the cooling water in the protective housing can get into hydrologic cycle mechanism with the help of the draft of circulation.

Further, be connected with the cooling tube on the circulating water pump, the cooling tube is linked together with the inlet tube, be connected with a plurality of evenly distributed's cooling fin on the cooling tube, the cooling fin is connected with the circulation protective housing, it has a plurality of evenly distributed's ventilation hole to cut on the cooling fin, and the cooling water after the cooling that sets up of cooling tube makes the heat dissipation gets into the heat transfer groove through cooling tube and inlet tube, gets into water circulation mechanism again after through the heat transfer and dispels the heat.

Further, the wind circulation mechanism includes the motor, the motor is connected with the circulation protective housing, it is connected with electronic axle to rotate on the motor, be connected with first transmission tooth on the electronic axle, the setting of motor provides power for electronic axle, makes electronic axle can drive first transmission tooth and rotate.

Further, open the forced air cooling groove on the circulation protective housing, the forced air cooling protective housing is equipped with in the forced air cooling groove, be connected with the dust screen on the forced air cooling protective housing, be equipped with wind circulation axle in the forced air cooling protective housing, the dust screen rotates with wind circulation axle to be connected, and the rotation of first transmission tooth has driven the rotation of flabellum, makes the flabellum outwards dispel the heat that can be continuous.

Furthermore, be connected with a plurality of evenly distributed's flabellum on the wind circulation axle, the one end that the dust screen was kept away from to the wind circulation axle is connected with the second driving gear with first driving gear engaged with, and the rotation that has driven the flabellum is carried out in the cooperation of second driving gear first driving gear, to the inside draft that produces of hydrologic cycle mechanism, makes the temperature in the hydrologic cycle mechanism descend.

Furthermore, the circulation protective housing is provided with a first air draft groove and a second air draft groove, the first air draft groove and the second air draft groove are matched to enable the water circulation mechanism to circulate air inside, the fan blades draw hot air out, the first air draft groove and the second air draft groove suck cold air, and the cold air contacts with the cooling fins to transfer heat away and is drawn out by the air circulation mechanism through the ventilation holes.

Further, this internal control box that is equipped with of computer lab, control box and circulating water pump and motor electric connection, the setting of control box can control opening and closing of circulating water pump and motor.

Compared with the prior art, the utility model has the advantages of it is following:

the utility model discloses a setting of pipeline mechanism, water circulation mechanism and wind circulation mechanism carries out the cooling that lasts for large-scale server, has reduced the condition that high temperature operation appears in the server among the data center to promote the operating efficiency of server, and then reduced the condition of burning out the inside spare part of server, reduced the probability that the conflagration took place, reduced the possibility that data center data lost, thereby reduced economic loss.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a perspective view of a cooling structure of a data center room according to an embodiment of the present application;

FIG. 2 is a front view of a data center room cooling structure according to an embodiment of the present application;

FIG. 3 is a side view of a data center room cooling structure according to an embodiment of the present application;

FIG. 4 is a cross-sectional view of a data center room cooling configuration in an embodiment of the present application;

fig. 5 is a schematic structural diagram of a point a in fig. 4 according to an embodiment of the present application.

In the figure: 1. the system comprises a machine room body, 101, a server, 102, a control box, 2, a pipeline mechanism, 201, a protective shell, 202, a heat transfer groove, 203, a connecting pipeline, 204, a guide pipe, 205, a branch pipe, 206, a water inlet pipe, 3, a water circulation mechanism, 301, a circulation protective shell, 302, a circulation water pump, 303, a circulation water pumping pipe, 304, a heat radiating pipe, 305, a cooling fin, 306, an air cooling groove, 307, a first air pumping groove, 308, a second air pumping groove, 4, an air circulation mechanism, 401, a motor, 402, a motor shaft, 403, a first transmission gear, 404, an air cooling protective shell, 405, a dustproof net, 406, an air circulation shaft, 407, fan blades, 408 and a second transmission gear.

Detailed Description

The present invention will be described in detail below with reference to embodiments shown in the drawings. The embodiments are not intended to limit the present invention, and structural, methodological, or functional changes made by those skilled in the art according to the embodiments are included in the scope of the present invention.

The utility model discloses a cooling structure of a data center machine room, which is shown in figures 1-2 and comprises a machine room body 1, a plurality of evenly distributed servers 101 are arranged in the machine room body 1, a pipeline mechanism 2 is connected on each server 101, the pipeline mechanism 2 comprises a plurality of protective shells 201, the protective shells 201 are matched with the servers 101, a heat transfer groove 202 is arranged in each protective shell 201, a connecting pipeline 203 is connected between a pair of protective shells 201, the connecting pipeline 203 is communicated with the heat transfer groove 202, the connecting pipeline 203 is connected with a delivery pipe 204, the delivery pipe 204 is connected with a water circulation mechanism 3, the delivery pipe 204 is arranged through the machine room body 1, a water inlet pipe 206 is arranged at one side of each protective shell 201, a branch pipe 205 is connected between each water inlet pipe 206 and the corresponding protective shell 201, each water inlet pipe 206 is connected with the corresponding water circulation mechanism 3, and one end of the corresponding, the arrangement of the protective shell 201 enables heat in the server 101 to be rapidly transferred to cooling water in the heat transfer groove 202, meanwhile, the server 101 is protected, damage caused by collision to the server 101 is reduced, the cooling water can be conveyed to the water circulation mechanism 3 through the guide pipe 204 to be radiated, the model of the motor 401 is Y315L2-10, the power is 75KW, the model of the water circulation pump 302 is 25WZD-1.1, the rotating speed is 2850r/min, the power is 1.1KW, a control unit is arranged in the control box 102, a user programs corresponding logic language in the control unit, the user can control the operation of the motor 401 and the water circulation pump 302 through the logic language, and the motor 401 and the water circulation pump 302 can be opened and closed through the control of the control box 102.

Referring to fig. 1-2, the water circulation mechanism 3 includes a circulation protection shell 301, a circulation water pump 302 is disposed in the circulation protection shell 301, a circulation water pumping pipe 303 is connected to the circulation water pump 302, the circulation water pumping pipe 303 is communicated with the delivery pipe 204, the circulation protection shell 301 enables the pipeline mechanism 2 to integrally form a circulation, heat in the server 101 is brought into the water circulation mechanism 3 for heat dissipation, the temperature of the server 101 is reduced, the circulation water pumping pipe 303 is communicated with the protection shell 201, cooling water in the protection shell 201 can enter the water circulation mechanism 3 by means of suction force of the circulation protection shell 301, the circulation protection shell 301 can better protect parts inside the water circulation mechanism 3, and damage to the parts inside the water circulation mechanism 3 is reduced.

Referring to fig. 2-4, a heat dissipation pipe 304 is connected to the water circulation pump 302, the heat dissipation pipe 304 is communicated with the water inlet pipe 206, a plurality of cooling fins 305 are uniformly distributed on the heat dissipation pipe 304, the cooling fins 305 are connected to the circulation protection shell 301, a plurality of ventilation holes are uniformly distributed on the cooling fins 305, and the heat dissipation pipe 304 is arranged to enable cooling water after heat dissipation to enter the heat transfer groove 202 through the heat dissipation pipe 304 and the water inlet pipe 206, and enter the water circulation mechanism 3 again for heat dissipation after heat transfer.

Referring to fig. 2 to 4, the air circulation mechanism 4 includes a motor 401, the motor 401 is connected to the circulation protective housing 301, the motor 401 is rotatably connected to an electric shaft 402, the electric shaft 402 is connected to a first transmission gear 403, the electric shaft 402 provides power for the motor 401, so that the electric shaft 402 can drive the first transmission gear 403 to rotate, an air cooling groove 306 is formed in the circulation protective housing 301, an air cooling protective housing 404 is arranged in the air cooling groove 306, a dust screen 405 is connected to the air cooling protective housing 404, an air circulation shaft 406 is arranged in the air cooling protective housing 404, the dust screen 405 is rotatably connected to the air circulation shaft 406, the rotation of the first transmission gear 403 drives the fan blade 407 to rotate, and the fan blade 407 can continuously radiate heat outwards.

Referring to fig. 1-4, a plurality of fan blades 407 are uniformly distributed on the wind circulation shaft 406, one end of the wind circulation shaft 406, which is far away from the dust screen 405, is connected with a second transmission gear 408 engaged with the first transmission gear 403, and the second transmission gear 408 rotates in cooperation with the first transmission gear 403 to drive the fan blades 407 to rotate, so that a suction force is generated inside the water circulation mechanism 3, the temperature in the water circulation mechanism 3 is reduced, and the dust screen 405 is arranged to reduce the entry of dust, so that the interior of the wind circulation mechanism 4 is cleaner and the rotation is smoother.

The circulation protection shell 301 is provided with a first air suction groove 307 and a second air suction groove 308, the first air suction groove 307 and the second air suction groove 308 are matched to enable air circulation to be formed inside the water circulation mechanism 3, the fan blades 407 pump hot air, the first air suction groove 307 and the second air suction groove 308 suck cold air, the cold air contacts with the cooling fins 305 to transfer heat away, the heat is pumped out again through the air vent by the air circulation mechanism 4, the machine room body 1 is internally provided with the control box 102, the control box 102 is electrically connected with the circulation water pump 302 and the motor 401, and the control box 102 can control the opening and closing of the circulation water pump 302 and the motor 401.

According to the technical scheme provided by the utility model, the utility model discloses following beneficial effect has:

the utility model discloses a setting of pipeline mechanism, water circulation mechanism and wind circulation mechanism carries out the cooling that lasts for large-scale server, has reduced the condition that high temperature operation appears in the server among the data center to promote the operating efficiency of server, and then reduced the condition of burning out the inside spare part of server, reduced the probability that the conflagration took place, reduced the possibility that data center data lost, thereby reduced economic loss.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. A cooling structure of a data center machine room comprises a machine room body (1) and is characterized in that a plurality of uniformly distributed servers (101) are arranged in the machine room body (1), a pipeline mechanism (2) is connected to each server (101), each pipeline mechanism (2) comprises a plurality of protective shells (201), each protective shell (201) is matched with each server (101), a heat transfer groove (202) is formed in each protective shell (201), a connecting pipeline (203) is connected between each pair of protective shells (201), each connecting pipeline (203) is communicated with each heat transfer groove (202), each connecting pipeline (203) is connected with a corresponding delivery pipe (204), each delivery pipe (204) is connected with a water circulation mechanism (3), each delivery pipe (204) penetrates through the machine room body (1), and a water inlet pipe (206) is arranged on one side of each protective shell (201), be connected with branch pipe (205) between inlet tube (206) and protective housing (201), inlet tube (206) are connected with water circulation mechanism (3), the one end that computer lab body (1) was kept away from in water circulation mechanism (3) is connected wind circulation mechanism (4).

2. The cooling structure of the data center machine room according to claim 1, wherein the water circulation mechanism (3) comprises a circulation protection shell (301), a circulation water pump (302) is arranged in the circulation protection shell (301), a circulation water pumping pipe (303) is connected to the circulation water pump (302), and the circulation water pumping pipe (303) is communicated with the delivery pipe (204).

3. The cooling structure of the machine room of the data center as claimed in claim 2, wherein a heat dissipation pipe (304) is connected to the circulating water pump (302), the heat dissipation pipe (304) is communicated with the water inlet pipe (206), a plurality of cooling fins (305) are connected to the heat dissipation pipe (304), the cooling fins (305) are connected to the circulating protection shell (301), and a plurality of ventilation holes are uniformly distributed on the cooling fins (305).

4. A cooling structure for a data center machine room according to claim 1, wherein the air circulation mechanism (4) comprises an electric motor (401), the electric motor (401) is connected with a circulation protection shell (301), an electric shaft (402) is rotatably connected to the electric motor (401), and a first transmission gear (403) is connected to the electric shaft (402).

5. The cooling structure of the data center machine room according to claim 2 or 4, wherein a wind cooling groove (306) is formed in the circulating protective shell (301), a wind cooling protective shell (404) is arranged in the wind cooling groove (306), a dust screen (405) is connected to the wind cooling protective shell (404), a wind circulating shaft (406) is arranged in the wind cooling protective shell (404), and the dust screen (405) is rotatably connected with the wind circulating shaft (406).

6. A cooling structure of a machine room of a data center according to claim 5, characterized in that a plurality of fan blades (407) are uniformly distributed and connected to the wind circulation shaft (406), and a second transmission gear (408) engaged with the first transmission gear (403) is connected to an end of the wind circulation shaft (406) far away from the dust screen (405).

7. A cooling structure of a data center machine room according to claim 3, wherein the circulation protective shell (301) is provided with a first air draft groove (307) and a second air draft groove (308).

8. A cooling structure of a data center machine room according to claim 1, wherein a control box (102) is arranged in the machine room body (1), and the control box (102) is electrically connected with a circulating water pump (302) and an electric motor (401).

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