CN114089821A

CN114089821A - Server trusteeship computer lab cooling device

Info

Publication number: CN114089821A
Application number: CN202111433005.XA
Authority: CN
Inventors: 王坤
Original assignee: Guangzhou Yizi Internet Technology Co ltd
Current assignee: Guangzhou Yizi Internet Technology Co ltd
Priority date: 2021-11-29
Filing date: 2021-11-29
Publication date: 2022-02-25
Anticipated expiration: 2041-11-29
Also published as: CN114089821B

Abstract

The invention discloses a cooling device for a server hosting machine room, which comprises a protective shell, a high-pressure fan, a mounting plate, an exhaust pipeline, a mounting frame, a first cooling box body, a second cooling box body, a server, a liquid inlet component and a liquid return component.

Description

Server trusteeship computer lab cooling device

Technical Field

The invention relates to the technical field related to a cooling device of a server in a machine room, in particular to a cooling device of a server hosting machine room.

Background

The server hosting is also called as host hosting, which gets rid of the limitation of a virtual host by software and hardware resources, can provide high-performance processing capacity, and effectively reduces maintenance cost, investment of equipment in a machine room, line renting and other high costs, so that the access speed of a website is improved, the server and related equipment are hosted in a network data center which has perfect machine room facilities, high-quality network environment, abundant bandwidth resources and operation experience and can monitor the network and equipment of a user in real time, and the purpose of safe, reliable, stable and efficient operation of the system is achieved, and the hosted server is maintained by the client or remotely maintained by other authorized persons;

the cooling device for server hosting in the prior art has the following disadvantages in the practical use process:

(1) in the cooling process of the immersion server, air on the surface of the cooling box body is easy to liquefy into water drops due to the difference between the internal temperature and the external temperature of the cooling box body for storing cooling liquid, and the water drops are attached to the surface of the cooling box body, so that the heat dissipation effect of the cooling box body is reduced;

(2) in the process of cooling the immersion type service, a plurality of servers are directly placed in the cooling box body, so that the servers are not convenient to fully contact with cooling liquid, and signal interference among different servers is easily caused;

to this end, we propose a server hosting room cooling device.

Disclosure of Invention

The invention aims to provide a server hosting machine room cooling device, aiming at solving the problems in the background technology.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a server trusteeship computer lab cooling device, is in including protecting sheathing, setting high-pressure positive blower, the setting of upper portion are in the protecting sheathing inner chamber high-pressure positive blower with the mounting panel, the setting that protecting sheathing is connected the department are in exhaust pipe, the setting of lower part are in protecting sheathing one side the mounting bracket, the setting of protecting sheathing inner chamber are in first cooling box on the mounting bracket, with the relative second cooling box that sets up of first cooling box, set up respectively server, setting in first cooling box and the second cooling box are in one side feed liquor subassembly and the setting of first cooling box and second cooling box are in first cooling box and second cooling box opposite side return liquid subassembly, feed liquor subassembly and return liquid subassembly are used for the circulation to coolant.

In a preferred aspect of the present invention, the first cooling box and the second cooling box are respectively configured to have an upward opening, and the open ends of the first cooling box and the second cooling box are respectively provided with an upper cover plate, the upper cover plate is overlapped with the first cooling box and the second cooling box, and a joint of the upper cover plate and the first cooling box and the second cooling box is provided with a sealing ring.

As a preferable aspect of the present invention, the periphery of the mounting plate is fixedly connected to the inner cavity of the protective housing, the mounting plate is provided with a through hole adapted to the air outlet end of the high pressure fan, and the air inlet end of the high pressure fan penetrates through the protective housing and is disposed outside the protective housing.

In a preferred aspect of the present invention, the liquid inlet assembly includes a first flow dividing plate disposed in the first cooling box, a second flow dividing plate disposed in the second cooling box, a first flow dividing pipe communicated with the first flow dividing plate, a second flow dividing pipe communicated with the second flow dividing plate, and a liquid inlet main pipe communicated with the first flow dividing pipe and the second flow dividing pipe, and the liquid inlet main pipe is externally connected to a cooling medium.

In a preferred aspect of the present invention, one end of the first flow dividing plate is connected to the first flow dividing pipe through a connecting flange, one end of the second flow dividing plate is also connected to the second flow dividing pipe through a connecting flange, one end of the first flow dividing plate, which is far away from the connecting flange, is connected to the inner cavity of the first cooling box through a connecting flange, and one end of the second flow dividing plate, which is far away from the connecting flange, is also connected to the inner cavity of the second cooling box through a connecting flange.

In a preferred aspect of the present invention, the first and second flow dividing plates are arranged in a grid structure, and the first and second flow dividing plates are uniformly provided with spraying holes.

As a preferable aspect of the present invention, the liquid return assembly includes a first return branch pipe communicated with a lower end of the first cooling tank, a second return branch pipe communicated with a lower end of the second cooling tank, and a return main pipe communicated with the first return branch pipe and the second return branch pipe, and the return main pipe is connected to a feed end of the refrigeration apparatus.

In a preferred aspect of the present invention, the lower end surfaces of the first cooling tank and the second cooling tank are provided as inclined surfaces, respectively, and the lowest points of the inclined surfaces are provided with respect to the first return branch pipe and the second return branch pipe.

As a preferable aspect of the present invention, the server further includes a support frame respectively disposed at a connection portion of the server and the first cooling box and the second cooling box, the support frame is U-shaped, and two ends of the support frame are respectively fixedly connected to two ends of an inner side of the first cooling box and two ends of an inner side of the second cooling box.

Compared with the prior art, the invention has the beneficial effects that: the cooling device for the server trusteeship room has the characteristics of reasonable design and simplicity in operation

(1) The invention is convenient to provide independent cooling space for the servers and avoids the interference of signals between different servers by arranging the first cooling box body and the second cooling box body, the cooling medium is input into the first cooling box body and the second cooling box body by the liquid inlet component, the cooling medium directly contacts the servers to carry out heat exchange to achieve the purpose of cooling, thereby radiating the heat of the servers,

(2) according to the invention, the high-pressure fan is used for introducing outside air into the inner cavity of the protective shell, and air circulation inside and outside the protective shell is realized through the exhaust pipeline, so that the problem that the air on the surfaces of the first cooling box body and the second cooling box body is liquefied into water drops under the action of the cooling medium, and the water drops are attached to the surface of the cooling box body is effectively avoided.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic structural diagram of the overall structure of a cooling device of a server hosting room according to the present invention;

FIG. 2 is a schematic structural view of the partial cross-sectional view of FIG. 1 in a server hosting room cooling arrangement of the present invention;

fig. 3 is a schematic structural diagram of a first cooling box and a second cooling box in the server hosting room cooling device of the invention; (removal of the upper cover plate of the first and second cooling tank bodies)

FIG. 4 is a schematic structural view of another perspective of FIG. 3 in a server hosting room cooling arrangement of the present invention;

FIG. 5 is a schematic diagram of the configuration of the partial cross-sectional view of FIG. 3 in a server hosting room cooling arrangement of the present invention;

FIG. 6 is a schematic structural view of a half-sectional view of a first cooling box in the server hosting room cooling device according to the present invention;

fig. 7 is a schematic structural diagram of a splitter plate and a second splitter plate in a server hosting room cooling device according to the present invention.

In the figure: 1-a protective shell, 11-a first sealing door body, 12-a second sealing door body, 13-a moving wheel, 2-a high-pressure fan, 21-a mounting plate, 3-an exhaust pipeline, 4-a mounting frame, 51-a first cooling box body, 52-a second cooling box body, 61-a first splitter plate, 62-a second splitter plate, 7-a liquid inlet main pipe, 81-a first splitter pipe, 82-a second splitter pipe, 9-a backflow main pipe, 101-a first backflow splitter pipe, 102-a second backflow splitter pipe, 100-a server and 1001-a support frame.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings of the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

Referring to fig. 1, fig. 2, fig. 3 and fig. 4, the present invention provides a technical solution: a cooling device for a server trusteeship machine room comprises a protective shell 1, a movable wheel 13 arranged at the peripheral corners of the lower end of the protective shell 1, a high-pressure fan 2 arranged at the middle upper part of the inner cavity of the protective shell 1, a mounting plate 21 arranged at the joint of the high-pressure fan 2 and the protective shell 1, an exhaust pipeline 3 arranged at the middle lower part of one side of the protective shell 1, a mounting frame 4 arranged at the inner cavity of the protective shell 1, a first cooling box body 51 arranged on the mounting frame 4, a second cooling box body 52 arranged opposite to the first cooling box body 51, a server 100 respectively arranged in the first cooling box body 51 and the second cooling box body 52, a liquid inlet component arranged at one side of the first cooling box body 51 and the second cooling box body 52 and a liquid return component arranged at the other side of the first cooling box body 51 and the second cooling box body 52, wherein the liquid inlet component and the liquid return component are used for circulating cooling media, in the invention, the first cooling box 51 and the second cooling box 52 are designed to provide independent cooling space for the server 100, so that the interference of signals between different servers 100 is avoided, cooling media are input into the first cooling box 51 and the second cooling box 52 through the liquid inlet assembly, and the cooling media directly contact the server 100 to perform heat exchange to achieve the purpose of cooling, thereby dissipating heat of the server 100; introduce the air in the external world into protecting sheathing 1 intracavity through high pressure positive blower 2 to realize the inside and outside air cycle of protecting sheathing 1 through exhaust duct 3, and then effectually avoided first cooling box 51 and second cooling box 52 because coolant's effect, make the air liquefaction on first cooling box 51 and second cooling box 52 surface become the drop of water, the problem that the drop of water attached to the surface of cooling box produces.

Referring to fig. 3, 4 and 5 in particular, in order to facilitate the maintenance of the first cooling box 51 and the second cooling box 52, the first cooling box 51 and the second cooling box 52 are respectively configured to have an upward opening, and the open ends of the first cooling box 51 and the second cooling box 52 are respectively provided with an upper cover plate, the upper cover plate is overlapped with the first cooling box 51 and the second cooling box 52, and the connection part of the upper cover plate and the first cooling box 51 and the second cooling box 52 is provided with a sealing ring, so that the first cooling box 51 and the second cooling box 52 are conveniently sealed by the upper cover plate, and the leakage of the cooling medium is effectively avoided.

Referring to fig. 4 and 5, the peripheries of the first cooling box 51 and the second cooling box 52 are respectively and fixedly connected to the inner side of the mounting frame 4, and the first cooling box 51 and the second cooling box 52 are oppositely disposed, so that the stability of the first cooling box 51 and the second cooling box 52 being respectively connected to the mounting frame 4 is effectively ensured, and the first cooling box 51 and the second cooling box 52 are oppositely disposed, which facilitates the circulation of air, and effectively avoids the problem that air on the surfaces of the first cooling box 51 and the second cooling box 52 is gasified into water drops and the water drops are attached to the surfaces of the cooling boxes due to the effect of the cooling medium on the outer surfaces of the first cooling box 51 and the second cooling box 52.

Referring to fig. 2, the periphery of the mounting plate 21 is fixedly connected to the inner cavity of the protective housing 1, a through hole matched with the air outlet end of the high pressure fan 2 is formed in the mounting plate 21, the air inlet end of the high pressure fan 2 penetrates through the protective housing 1 and is arranged outside the protective housing 1, and the high pressure fan 2 is supported by the mounting plate 21, so that the high pressure fan 2 can introduce external air into the inner cavity of the protective housing 1, and air circulation inside and outside the protective housing 1 is realized through the exhaust duct 3.

Referring to fig. 3, fig. 4 and fig. 5, the liquid inlet assembly includes a first flow dividing plate 61 disposed in the first cooling box 51, a second flow dividing plate 62 disposed in the second cooling box 52, a first flow dividing pipe 81 communicated with the first flow dividing plate 61, a second flow dividing pipe 82 communicated with the second flow dividing plate 62, and a liquid inlet main pipe 7 communicated with the first flow dividing pipe 81 and the second flow dividing pipe 82, the liquid inlet main pipe 7 is externally connected to the cooling medium, thereby facilitating the diversion of the cooling medium into the first and

second diversion pipes

81 and 82 through the main inlet pipe 7, the first and

second diversion pipes

81 and 82 feeding the cooling medium to the first and second

flow dividing plates

61 and 62, the cooling medium is input into the first cooling tank 51 and the second cooling tank 52 through the first and second

flow dividing plates

61 and 62, thereby facilitating the contact of the cooling medium with the servers 100.

Referring to fig. 3, 4 and 5, one end of the first flow dividing plate 61 is connected to the first flow dividing pipe 81 through a connecting flange, one end of the second flow dividing plate 62 is also connected to the second flow dividing pipe 82 through a connecting flange, the end of the first flow dividing plate 61 away from the connecting flange is connected to the inner cavity of the first cooling box 51 through a connecting flange, and the end of the second flow dividing plate 62 away from the connecting flange is also connected to the inner cavity of the second cooling box 52 through a connecting flange, so that the first flow dividing plate 61 is conveniently fixed in the first cooling box 51, and the second flow dividing plate 62 is fixed in the second cooling box 52.

Referring to fig. 7, the first and second

flow dividing plates

61 and 62 are arranged in a grid structure, and the first and second

flow dividing plates

61 and 62 are respectively and uniformly provided with spray holes, so that the cooling medium can be conveniently sprayed through the spray holes, and the server 100 can be conveniently in full contact with the cooling medium.

Referring to fig. 3, 4 and 5, the liquid return assembly includes a first return branch pipe 101 communicated with the lower end of the first cooling box 51, a second return branch pipe 102 communicated with the lower end of the second cooling box 52, and a return main pipe 9 communicated with the first return branch pipe 101 and the second return branch pipe 102, the return main pipe 9 is connected with the feed end of the refrigeration device, so as to facilitate the circulation of the cooling medium in the first cooling box 51 through the first return branch pipe 101, and the second return branch pipe 102 circulates the cooling medium in the second cooling box 52, thereby effectively ensuring the stable refrigeration environment in the first cooling box 51 and the second cooling box 52.

Referring to fig. 3, 4 and 5 in detail, it should be noted that, in order to facilitate the maintenance of the liquid inlet main pipe 7 and the main return pipe 9 by the staff, the liquid inlet main pipe 7 and the main return pipe 9 are respectively disposed at the outer side of the protective casing 1, the first shunt pipe 81 and the second shunt pipe 82 are respectively connected to the liquid inlet main pipe 7 by penetrating through the protective casing 1, and a three-way valve is disposed at the connection position of the first shunt pipe 81 and the second shunt pipe 82 with the liquid inlet main pipe 7, the first return shunt pipe 101 and the second return shunt pipe 102 are respectively connected to the main return pipe 9 by penetrating through the protective casing 1, and a three-way valve is disposed at the connection position of the first return shunt pipe 101 and the second return shunt pipe 102 with the main return pipe 9, because the liquid inlet main pipe 7 and the main return pipe 9 are respectively disposed at the outer side available for protection, the staff can conveniently perform maintenance of the liquid inlet main pipe 7 and the main return pipe 9, and because the connection position of the first shunt pipe 81 and the second shunt pipe 82 with the liquid inlet main pipe 7 is disposed with a three-way valve, the connecting parts of the first backflow branch pipe 101 and the second backflow branch pipe 102 and the backflow main pipe 9 are also provided with three-way valves, so that the first backflow branch pipe 81 and the second backflow branch pipe 82 can be conveniently disassembled and assembled with the liquid inlet main pipe 7, and the first backflow branch pipe 101 and the second backflow branch pipe 102 can be conveniently disassembled and assembled with the backflow main pipe 9.

Referring to fig. 6, in order to facilitate the circulation of the cooling medium through the first return branch pipe 101 and the second return branch pipe 102, the lower end surfaces of the first cooling box 51 and the second cooling box 52 are respectively provided with an inclined surface, the lowest point of the inclined surface is arranged relative to the first return branch pipe 101 and the second return branch pipe 102, and the design of the inclined surface facilitates the cooling medium on the lower end surfaces of the inner cavities of the first cooling box 51 and the second cooling box 52 to rapidly enter the first return branch pipe 101 and the second return branch pipe 102.

Referring to fig. 5, the cooling system further includes a support frame 1001 respectively disposed at a connection portion of the server 100 and the first cooling box 51 and the second cooling box 52, the support frame 1001 is U-shaped, and two ends of the support frame 1001 are respectively fixedly connected to two inner ends of the first cooling box 51 and the second cooling box 52, so that the server 100 located in the first cooling box 51 and the second cooling box 52 is conveniently supported by the support frame 1001, the server 100 is effectively prevented from directly contacting the first cooling box 51 and the second cooling box 52, and the server 100 is conveniently in full contact with the cooling medium.

Referring to fig. 1, 2 and 3, the high pressure fan assembly further includes a first sealing door 11 hinged to the front end of the protective casing and arranged opposite to the high pressure fan 2, and a second sealing door 12 arranged opposite to the mounting frame 4, so that the high pressure fan 2 is conveniently overhauled through the first sealing door 11, and the second sealing door 12 overhauls the first cooling box 51 and the second cooling box 52 on the mounting frame 4.

In the invention, the cooling medium is non-phase-change fluorinated liquid, transformer oil or mixed liquid of water and glycol with different percentages, so that the server 100 can be cooled, and the normal work of the server 100 is ensured, because the heat conduction effect of the liquid is better than that of air, the efficient refrigeration of the inner cavities of the first cooling box body 51 and the second cooling box body 52 is further convenient to ensure, and the specific heat capacity of the liquid is large, and the temperature of the liquid can not change obviously after absorbing a large amount of heat, so that the temperature of a CPU can be stabilized.

The working principle is as follows: in use, the cooling medium is branched into the first branch pipe 81 and the second branch pipe 82 through the main inlet pipe 7, the first branch pipe 81 and the second branch pipe 82 input the cooling medium to the first flow dividing plate 61 and the second flow dividing plate 62, the cooling medium is sprayed through the spray holes of the first flow dividing plate 61 and the second flow dividing plate 62, the cooling medium is input into the first cooling box 51 and the second cooling box 52, the cooling medium is in contact with the server 100, the cooling medium in the first cooling box 51 is circulated through the first return branch pipe 101, and the cooling medium in the second cooling box 52 is circulated through the second return branch pipe 102.

Meanwhile, the high pressure fan 2 introduces the outside air into the inner cavity of the protective casing 1, and the air circulation inside and outside the protective casing 1 is realized through the exhaust duct 3, so as to cool the peripheries of the first cooling box 51 and the second cooling box 52.

The device obtained by the design can basically improve the problem that in the cooling process of the immersion server, air on the surface of the cooling box body is easy to liquefy into water drops due to the difference between the internal temperature and the external temperature of the cooling box body for storing cooling liquid, the water drops are attached to the surface of the cooling box body, and further the heat dissipation effect of the cooling box body is reduced; the plurality of servers are directly placed in the cooling box, so that the servers are not convenient to be in full contact with cooling liquid, and the problem of signal interference among different servers is easily caused.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a server trusteeship computer lab cooling device which characterized in that: including protecting sheathing (1), set up protecting sheathing (1) lower extreme corner all around removal wheel (13), setting are in high pressure positive blower (2), the setting of upper portion are in protecting sheathing (1) inner chamber high pressure positive blower (2) with mounting panel (21), the setting of protecting sheathing (1) department of being connected are in exhaust pipe (3), the setting of lower part are in protecting sheathing (1) one side be in mounting bracket (4), the setting of protecting sheathing (1) inner chamber are in first cooling box (51) on mounting bracket (4), with second cooling box (52) that first cooling box (51) set up relatively, set up respectively server (100) in first cooling box (51) and second cooling box (52), set up and be in one side feed liquor subassembly and the setting of first cooling box (51) and second cooling box (52) are in another cooling box (51) and second cooling box (52) another And the liquid inlet assembly and the liquid return assembly are used for circulating the cooling medium.

2. The cooling device for the server hosting machine room according to claim 1, wherein the first cooling box body (51) and the second cooling box body (52) are respectively provided with a structure with an upward opening, the open ends of the first cooling box body (51) and the second cooling box body (52) are respectively provided with an upper cover plate, the upper cover plates are overlapped with the first cooling box body (51) and the second cooling box body (52), and the joints of the upper cover plates and the first cooling box body (51) and the second cooling box body (52) are provided with sealing rings.

3. The cooling device for the server hosting machine room according to claim 2, wherein the periphery of the mounting plate (21) is fixedly connected with the inner cavity of the protective casing (1), a through hole matched with the air outlet end of the high-pressure fan (2) is formed in the mounting plate (21), and the air inlet end of the high-pressure fan (2) penetrates through the protective casing (1) and is arranged on the outer side of the protective casing (1).

4. The server hosting room cooling device according to claim 3, wherein the liquid inlet assembly comprises a first flow dividing plate (61) disposed in the first cooling box (51), a second flow dividing plate (62) disposed in the second cooling box (52), a first flow dividing pipe (81) communicated with the first flow dividing plate (61), a second flow dividing pipe (82) communicated with the second flow dividing plate (62), and a liquid inlet main pipe (7) communicated with the first flow dividing pipe (81) and the second flow dividing pipe (82), wherein the liquid inlet main pipe (7) is externally connected with a cooling medium.

5. The server hosting room cooling device according to claim 4, wherein one end of the first splitter plate (61) is connected to the first splitter pipe (81) through a connecting flange, one end of the second splitter plate (62) is also connected to the second splitter pipe (82) through a connecting flange, the end of the first splitter plate (61) away from the connecting flange is connected to the inner cavity of the first cooling box (51) through a connecting flange, and the end of the second splitter plate (62) away from the connecting flange is also connected to the inner cavity of the second cooling box (52) through a connecting flange.

6. The cooling device for the server hosting room according to claim 5, wherein the first flow dividing plate (61) and the second flow dividing plate (62) are arranged in a grid structure, and the first flow dividing plate (61) and the second flow dividing plate (62) are respectively and uniformly provided with spraying holes.

7. The server hosting room cooling device according to claim 6, wherein the liquid return assembly comprises a first return branch pipe (101) communicated with the lower end of the first cooling box body (51), a second return branch pipe (102) communicated with the lower end of the second cooling box body (52), and a return main pipe (9) communicated with the first return branch pipe (101) and the second return branch pipe (102), and the return main pipe (9) is connected with the feeding end of a refrigerating device.

8. The server hosting room cooling device according to claim 7, wherein the lower end faces of the first cooling box body (51) and the second cooling box body (52) are respectively provided as inclined faces, and the lowest points of the inclined faces are arranged relative to the first return branch pipe (101) and the second return branch pipe (102).

9. The cooling device for the server hosting room according to claim 8, further comprising a support frame (1001) respectively arranged at the connection position of the server (100) and the first cooling box body (51) and the second cooling box body (52), wherein the support frame (1001) is arranged in a "U" shape, and two ends of the support frame (1001) are respectively fixedly connected with two ends of the inner side of the first cooling box body (51) and the inner side of the second cooling box body (52).