CN111065250A

CN111065250A - Server cooling device and server cabinet using same

Info

Publication number: CN111065250A
Application number: CN202010066413.5A
Authority: CN
Inventors: 林俊峰; 范耀先; 刘俊杰
Original assignee: XUCHANG XUJI JINGRUI TECHNOLOGY CO LTD
Current assignee: XUCHANG XUJI JINGRUI TECHNOLOGY CO LTD
Priority date: 2020-01-20
Filing date: 2020-01-20
Publication date: 2020-04-24

Abstract

The invention relates to the technical field of internet, in particular to a server cooling device and a server cabinet using the same, wherein the server cooling device comprises: the box body is used for containing cooling liquid; the server is vertically arranged in the box body and provided with an immersible device and an immersible device, the immersible device is used for being arranged below the liquid level of the cooling liquid, and the immersible device is used for being arranged above the liquid level of the cooling liquid; the server cooling device further includes: and the sealing plate is arranged between the server and the box body and is used for being arranged above the liquid level of the cooling liquid and positioned below the non-submergible device. Has the advantages that: the cooling liquid is sealed, so that volatilization of the cooling liquid can be reduced, loss of the cooling liquid is reduced, and even if volatilization occurs, the cooling liquid is separated from the space below the sealing plate, so that air cleanliness of the space where the non-submergible device is located is guaranteed, and the phenomenon that the volatilized working medium is deposited on the non-submergible device to influence normal operation of the non-submergible device is avoided.

Description

Server cooling device and server cabinet using same

Technical Field

The invention relates to the technical field of internet, in particular to a server cooling device and a server cabinet using the same.

Background

The development of internet technology can mean that the number of large-scale centralized operation data centers is increasing, more and more distributed edge computer rooms, and miniaturized government affair machine rooms in the industries of city governments, finance, education and the like are provided, and the energy consumption of the data centers is not negligible. In the energy consumption composition of the data machine room, the cooling energy consumption accounts for 30-60%, the cooling mode of most commercial machine rooms at present is air cooling, and the mode has low efficiency and large energy consumption due to small specific heat capacity of air and large heat exchange temperature difference, and under the background, a liquid cooling mode and a cooling mode combining liquid cooling and air cooling are presented.

For example, the liquid cooling server apparatus, the server and the liquid cooling device disclosed in chinese patent application with application publication No. CN108811472A, wherein the liquid cooling server apparatus includes at least one server, the server includes a frame, a high-density energy consuming device (i.e., an immersible device) immersed in the cooling liquid is disposed at a lower portion of the frame, and a low-density energy consuming device (i.e., an immersible device) disposed above the cooling liquid is disposed at an upper portion of the frame. The liquid cooling device comprises an immersion cabinet, a cooling assembly and a heat exchanger, wherein the immersion cabinet comprises a box body used for containing cooling liquid and at least one server, and a top cover detachably connected with the box body. The cooling assembly is arranged in the immersion cabinet, is positioned above the cooling liquid and corresponds to the non-immersion device, and is configured to provide cooling energy for the non-immersion device. The heat exchanger is arranged outside the immersed cabinet and used for carrying out heat exchange on the cooling liquid in the immersed cabinet and the cooling medium in the external heat dissipation system.

Although being connected with the top cap on above-mentioned liquid cooling device's the box, when in actual use, along with the increase of live time, the coolant liquid is along with volatilizing, and the working medium that volatilizees scatters and loses in the space between liquid level and the top cap, can influence the air cleanliness factor in this space on the one hand to can deposit on can not submerge the device, influence its normal operating, on the other hand causes the loss of coolant liquid, and the coolant liquid volume can reduce.

Disclosure of Invention

The invention aims to provide a server cooling device, which aims to solve the problems that in the prior art, cooling liquid of a server liquid cooling device is deposited on an unsubmerged device due to volatilization, so that the normal operation of the device is influenced, and meanwhile, the loss of the cooling liquid is more; the invention also aims to provide a server cabinet to solve the problems that in the prior art, cooling liquid of a liquid cooling device of a server is volatilized and deposited on an immersible device to influence the normal operation of the device, and meanwhile, the loss of the cooling liquid is more.

In order to achieve the purpose, the server cooling device adopts the following technical scheme:

a server cooling device comprising:

the box body is used for containing cooling liquid;

the server is vertically arranged in the box body and provided with an immersible device and an immersible device, the immersible device is used for being arranged below the liquid level of the cooling liquid, and the immersible device is used for being arranged above the liquid level of the cooling liquid;

the server cooling device further includes:

and the sealing plate is arranged between the server and the box body and is used for being arranged above the liquid level of the cooling liquid and positioned below the non-submergible device.

The beneficial effects of the above technical scheme are that: because set up the closing plate between server and box, the closing plate is located the liquid level of coolant liquid more than, just so can seal up the coolant liquid, simultaneously because the closing plate is located the below of device that can not submerge, so not only can reduce volatilizing of coolant liquid, reduce the loss of coolant liquid, even if there is volatilizing, also by the separation in the space below the closing plate, thereby guaranteed the air cleanliness factor in the space of device that can not submerge place, the working medium deposit of avoiding volatilizing is on device that can not submerge, influence its normal operating.

Furthermore, in order to conveniently arrange the submergible device and the non-submergible device, the working medium which prevents the cooling liquid from volatilizing is moved to the interval where the non-submergible device is located from bottom to top in the server shell, the server comprises the shell, the submergible device and the non-submergible device are both arranged in the shell, an inner sealing element is further arranged in the shell and located between the submergible device and the non-submergible device, and therefore the submergible device and the non-submergible device are isolated.

Furthermore, in order to facilitate the cooling liquid to fully enter the shell to dissipate heat of the submergible device, the side wall of the shell is provided with a communication hole for communicating the inside and the outside of the shell, and the communication hole is positioned below the inner sealing element.

Further, for convenient setting can submerge the device and can not submerge the device, make things convenient for the coolant liquid to fully get into the casing simultaneously and inside dispel the heat to submerge the device, the server includes the casing, but submerge the device and can not submerge the device and all set up in the casing, be provided with the inside and outside intercommunicating pore of intercommunication casing on the lateral wall of casing.

Further, in order to realize integrating, satisfy the user demand, guarantee the leakproofness simultaneously, the server has at least two, and each server interval arrangement is provided with the external seal spare in the interval between the adjacent server, and the external seal spare is used for setting up above the liquid level of coolant liquid and is located the below of the submergible device of arbitrary server.

In order to achieve the purpose, the server cabinet adopts the following technical scheme:

a server cabinet comprising a cabinet body and a server cooling device disposed within the cabinet body, the server cooling device comprising:

the box body is used for containing cooling liquid;

the server cooling device further includes:

Drawings

Fig. 1 is a schematic front view of a server rack according to an embodiment 1 of the present invention;

fig. 2 is a schematic side view of a server rack in embodiment 1 of the present invention;

FIG. 3 is a view showing the internal structure of the portion of the refrigeration purification apparatus shown in FIG. 1;

FIG. 4 is a schematic front view of the cooling apparatus of the server in FIG. 1;

FIG. 5 is a schematic side view of the cooling apparatus of the server shown in FIG. 1;

FIG. 6 is a schematic diagram of an internal structure of a server in the prior art;

FIG. 7 is a schematic diagram of the internal structure of the server in FIGS. 1, 2, 4 and 5;

fig. 8 is a schematic front view of a server rack in embodiment 2 of the present invention;

fig. 9 is a schematic side view of a server rack in embodiment 2 of the present invention.

In the figure: 1-a cabinet body; 2-a box body; 3-a server; 31-an inner seal; 32-a communication hole; 33-a server housing; 34-mechanical hard disk; 35-array fans; 36-a memory; 37-a CPU; 38-a main board; 39-a power supply; 4-an independent frame; 5-air cooling equipment; 6, an electric cabinet; 7-a refrigeration purification device; 71-a device housing; 72-swirl plate sump; 73-an evaporator; 74-a compressor; 75-a filter; 76-an exhaust fan; 77-a refrigeration pipeline; 78-a condenser; 79-a throttling device; 8-a filter screen; 9-a liquid outlet pipe; 10-internal circulation pipeline; 11-a pump; 12-a heat exchanger; 13-an external circulation conduit; 14-an outer seal; 15-sealing plate; 16-a sealing surface; 17-air cooling equipment; 18-a refrigeration purification device; 19-a cabinet body; 20-a server; 21-a box body; 22-a pump; 23-heat exchanger.

Detailed Description

An embodiment 1 of the server cabinet is shown in fig. 1 and 2, the server cabinet in the embodiment is a horizontal cabinet, and comprises a cabinet body 1, a server cooling device is arranged in the cabinet body 1, the server cooling device comprises a box body 2 and a server 3 vertically arranged in the box body 2, and when the server cabinet is used, cooling liquid is contained in the box body 2.

Referring to fig. 7, the server 3 includes a server housing 33, in which a submergible device and a non-submergible device are installed in the server housing 33, the submergible device is located below the non-submergible device, the submergible device includes a main board 38 and components such as a CPU37, a memory 36, a power supply 39, and a GPU (not shown in the figure) installed on the main board 38, and the submergible devices are all components capable of being submerged in the cooling liquid. The non-immersible device includes a mechanical hard disk 34, a photoelectric conversion module (not shown in the figure) and the like, and is a component which cannot be immersed in the cooling liquid (otherwise, normal use is affected).

Fig. 6 shows the internal structure of a server in the prior art, which is different from the server in the present invention in that the server further includes an array fan 35, the array fan 35 is located between a submergible device and a non-submergible device, and belongs to the heat dissipation equipment carried in the server, in view of the arrangement of the cooling device in the present invention, the array fan 35 does not need to be reused, so that the array fan is removed intentionally, and an inner sealing member 31 is installed at the original position of the array fan 35, as shown in fig. 7, so that the inner sealing member 31 is located between the submergible device and the non-submergible device, and the inner sealing member 31 partitions the inside of the server housing 33 into an upper space and a lower space, so as to isolate the submergible device and the.

When the device is used, the submergible device is arranged below the liquid level of the cooling liquid, and the non-submergible device is arranged above the liquid level of the cooling liquid. As shown in fig. 5, in order to facilitate the coolant to sufficiently enter the inside of the server casing to dissipate heat of the submergible devices, a plurality of communication holes 32 for communicating the inside and the outside of the server casing are provided in the side wall of the server casing, and the plurality of communication holes 32 are located below the inner seal 31. Otherwise, after the cooling liquid enters the inside of the server shell from the port at the bottom of the server, the cooling liquid can only seep out from the gap of the server shell, so that the efficiency is low, the flow is too small, and the heat dissipation effect of the submersible device is seriously affected.

As shown in fig. 4, a plurality of servers 3 are arranged at intervals from left to right, an outer sealing member 14 is adhered to the space between adjacent servers 3, the outer sealing member 14 is arranged above the liquid level of the cooling liquid and is positioned below the non-submergible device of any server, and the outer sealing member 14 seals the space between two adjacent servers 3 to prevent the working medium volatilized by the cooling liquid from escaping to the upper part of the box body 2.

The width of the server 3 is matched with the width of the box body 2, and after the server 3 is fixed on the box body 2, sealing is achieved between the fixed binding surfaces. The leftmost server abuts against the left end of the box body 2, other servers are sequentially arranged from left to right, the length of the box body 2 is large, a gap can exist between the rightmost server and the right end of the box body 2 after all the servers are installed, in order to achieve full sealing, a sealing plate 15 is arranged between the rightmost server and the right end of the box body 2, and the sealing plate 15 is arranged above the liquid level of cooling liquid and located below non-submergible devices of the servers. That is, the outer seal member 14, the inner seal member 31 and the sealing plate 15 are all located above the level of the cooling liquid and at the same level, thereby forming a sealing surface 16, as shown in fig. 1, the sealing surface 16 completely sealing the upper port of the housing 2 to form a completely closed liquid-cooled space in the housing.

The upper part of the server 3 is located above the sealing surface 16, as shown in fig. 1, a refrigeration and purification device 7 is further arranged on the right upper side of the box body 2 in the cabinet body 1, and the refrigeration and purification device 7 can blow out cold air, so that the space where the non-submergible devices are located becomes an air cooling space. Referring to fig. 3, the refrigeration and purification apparatus 7 includes an apparatus casing 71, an evaporator 73, a cyclone plate liquid collector 72, and a filter 75 are installed in the apparatus casing 71, and an exhaust fan 76 is further installed on the apparatus casing 71. Furthermore, the refrigeration and purification device 7 further comprises a condenser 78 connected to the evaporator 73 via a refrigeration conduit 77, the refrigeration conduit 77 being provided with a compressor 74 and a throttling device 79, the condenser 78 being immersed in the cooling liquid inside the tank 2.

The evaporator 73, the refrigeration pipeline 77, the compressor 74, the throttling device 79 and the condenser 78 form an air conditioning system, wherein the compressor 74 compresses refrigerant into high-temperature high-pressure steam and conveys the steam to the condenser 78, the refrigerant is cooled to release heat to form normal-temperature high-pressure liquid, the refrigerant is subjected to pressure reduction and throttling by the throttling device 79 to form low-temperature low-pressure liquid, then the refrigerant is conveyed into the evaporator 73 to be evaporated and absorbed to form low-temperature low-pressure steam, and then the refrigerant is conveyed into the compressor 74 again in a circulating mode, the cooling liquid in the box body 2 absorbs the heat released by the condenser 78, and the exhaust fan 76 exhausts cold air with relatively low temperature, so that heat is dissipated.

The swirl plate liquid trap 72 allows liquid droplets in the air to collect and then flow into the tank 2. The filter 75 may filter the air to purify the air and improve the operation environment of the server.

As shown in fig. 1, an air-cooling device 5 that cannot be immersed in the cooling liquid for heat dissipation is further disposed in the cabinet body 1, the air-cooling device 5 is mounted on the independent rack 4, the air-cooling device 5 is located on the left side of the cabinet body 2, the air-cooling device 5 generally includes a UPS, a switch, a disk array, a monitoring host, a router, and the like, and the air-cooling device is cooled by cold air blown from the refrigeration and purification apparatus 7.

As shown in fig. 1 and 4, a liquid outlet pipe 9 is arranged on the right side in the box body 2, a filter screen 8 is arranged on the top of the liquid outlet pipe 9, the bottom of the liquid outlet pipe 9 penetrates out of the box body 2 and is connected with an internal circulation pipeline 10, and a liquid inlet is further arranged on the left side of the bottom of the box body 2 and is also connected with the internal circulation pipeline 10. The pump 11 is arranged on the inner circulation pipeline 10, the inner circulation pipeline 10 is connected with a heat exchanger 12, and the heat exchanger 12 is simultaneously connected with an external cold source, such as various cooling devices such as a dry cooler, a cooling tower, a refrigerator and the like through an outer circulation pipeline 13.

Under the action of the pump 11, the cooling liquid in the box body 2 enters the internal circulation pipeline 10 through the liquid outlet pipe 9, is cooled by the heat exchanger 12 and then is input into the box body 2 to form circulation. The liquid outlet pipe 9 is arranged, so that the cooling liquid is taken out from the top of the liquid outlet pipe 9, the heat dissipated by the submergible device is mainly concentrated on the upper part of the cooling liquid, the cooling liquid on the upper part is continuously taken out, and the cooling liquid is continuously supplemented from the lower part after being cooled, so that the circulating cooling effect is favorably improved.

In addition, an electric cabinet 6 is further provided on the upper left side of the cabinet 1, and is used for distributing electric energy to various electric devices such as the server 3, the air-cooled equipment 5, and the refrigeration and purification device 7.

The server cabinet adopts a heat dissipation mode combining liquid cooling and air cooling, so that not only can liquid cooling equipment be installed, but also air cooling equipment can be installed, the interior of the cabinet body 1 is divided into a liquid cooling space and an air cooling space by the sealing surface 16, the volatilization of cooling liquid can be effectively reduced by the sealing surface 16, the loss of the cooling liquid is reduced, and even if the volatilization occurs, the volatilization is blocked in the liquid cooling space below the sealing surface 16, so that the air cleanliness in the space where the non-submergible device is located is ensured, and the phenomenon that the volatilized working medium is deposited on the non-submergible device to influence the normal operation of the non-submergible device. And for the leakage of a very small amount of leakage and the leakage during maintenance operation, the refrigeration and purification device 7 can be used for filtering and adsorbing, so that the cleanliness of the air in the air cooling space is ensured.

Embodiment 2 of the server rack of the present invention is shown in fig. 8 and 9, the server rack in this embodiment is a vertical rack, and includes a cabinet body 19 and a server cooling device disposed in the cabinet body 19, the server cooling device includes a box body 21 and a server 20 vertically installed in the box body 21, the structural form of the server cooling device in this embodiment is the same as that in embodiment 1, and repeated contents are not repeated here.

Similarly, a circulation line and a heat exchanger 23 communicating with the coolant in the tank 21 are provided in the tank 19, and a pump 22 is provided in the circulation line. The difference is that the air-cooling equipment 17 and the refrigeration and purification device 18 in this embodiment are disposed above the server 20, specifically, an independent rack is disposed above the server 20 in the cabinet 19, the air-cooling equipment 17 and the refrigeration and purification device 18 are mounted on the independent rack, and the air-cooling equipment 17 and the refrigeration and purification device 18 may be the same as in embodiment 1.

In other embodiments of the server rack, the refrigeration purification apparatus may also employ thermoelectric refrigeration.

In other embodiments of the server rack, the refrigeration and purification device may be replaced with a refrigeration device without purification.

In other embodiments of the server cabinet, a refrigeration and purification device may not be provided, and the heat generation amount of the non-immersible device and the air-cooling equipment is small, so that the non-immersible device and the air-cooling equipment can naturally dissipate heat.

In other embodiments of the server rack, there may be only one server, and no outer seal is present.

In other embodiments of the server rack, the communication holes may not be formed in the side walls of the server casing, and the cooling liquid may enter the casing from the port at the bottom of the server casing and may seep out from the gap of the server casing.

In other embodiments of the server cabinet, an inner sealing element may not be arranged in the shell of the server, only a small amount of volatile working medium can escape upwards from the inside of the shell at the moment, and most of the cooling liquid is sealed by the sealing plate, so that the purpose of reducing the volatilization of the cooling liquid can be still achieved, and the influence of the small amount of volatile working medium escaping upwards on the air cleanliness of the air-cooled space and the normal operation of the non-submersible device is not great.

In other embodiments of the server cabinet, for a server without a housing and having only a frame, such as the server disclosed in the chinese patent application with application publication No. CN108811472A, a sealing plate may be directly disposed between the frame and the box of the server, and there is no inner sealing member in this case, and if there are a plurality of servers, an outer sealing member may be disposed between two adjacent servers.

The embodiment of the server cooling device in the invention is as follows: the specific structure of the server cooling device is the same as that of the server cooling device in the above-described server cabinet embodiment, and will not be repeated here.

Claims

1. A server cooling device comprising:

the box body is used for containing cooling liquid;

characterized in that, the server cooling device further comprises:

2. The server cooling apparatus of claim 1, wherein the server comprises a housing, the submersible device and the non-submersible device being disposed within the housing, and an inner seal disposed within the housing between the submersible device and the non-submersible device to isolate the submersible device from the non-submersible device.

3. The server cooling device according to claim 2, wherein a communication hole for communicating the inside and the outside of the casing is provided in a side wall of the casing, and the communication hole is located below the inner seal.

4. The server cooling device according to claim 1, wherein the server comprises a housing, the submergible device and the non-submergible device are both disposed in the housing, and the side wall of the housing is provided with a communication hole for communicating the inside and the outside of the housing.

5. The server cooling device according to any one of claims 1 to 4, wherein at least two servers are provided, each server is arranged at intervals, an outer sealing member is arranged in the interval between the adjacent servers, and the outer sealing member is used for being arranged above the liquid level of the cooling liquid and below the non-submergible device of any one server.

6. A server cabinet comprising a cabinet body and a server cooling device disposed within the cabinet body, the server cooling device comprising:

the box body is used for containing cooling liquid;

characterized in that, the server cooling device further comprises:

7. The server cabinet of claim 6, wherein the server includes a housing, the submersible device and the non-submersible device being disposed within the housing, an inner seal being further disposed within the housing, the inner seal being positioned between the submersible device and the non-submersible device to isolate the submersible device from the non-submersible device.

8. The server cabinet according to claim 7, wherein the side wall of the housing is provided with a communication hole for communicating the inside and the outside of the housing, and the communication hole is located below the inner seal.

9. The server cabinet of claim 6, wherein the server comprises a housing, the submergible device and the non-submergible device are both disposed in the housing, and communication holes for communicating the inside and the outside of the housing are disposed on the side wall of the housing.

10. The server cabinet according to any one of claims 6 to 9, wherein there are at least two servers, each server is arranged at intervals, and an outer seal is arranged in the interval between adjacent servers and is used for being arranged above the liquid level of the cooling liquid and below the non-submergible device of any one server.