CN220068151U

CN220068151U - Integrated server cooling mechanism

Info

Publication number: CN220068151U
Application number: CN202321699530.0U
Authority: CN
Inventors: 孙昊月
Original assignee: Wuxi Hongfan Intelligent Technology Co ltd
Current assignee: Wuxi Hongfan Intelligent Technology Co ltd
Priority date: 2023-06-30
Filing date: 2023-06-30
Publication date: 2023-11-21
Anticipated expiration: 2033-06-30

Abstract

The utility model discloses an integrated server cooling mechanism, which is characterized in that a top server, a control chamber and a cooling chamber connected below the server and the control chamber are arranged in a box body, the server, the control chamber and the cooling chamber are connected through a cooling circulation system, a vent is formed in one side panel of the box body of the cooling chamber, a heat radiation fan is arranged on the other side panel corresponding to the vent, the vent of the heat radiation fan is arranged towards the outside of the box body, a radiator is vertically arranged in the cooling chamber and close to the vent, and a spray pipe device is arranged between the radiator and the heat radiation fan. A cooling fan is arranged on a side face plate of the cooling cavity, a radiator is arranged at a position far away from the cooling fan, and a spray pipe device spraying to three inner side faces of the radiator is arranged on the inner side of the radiator, so that the requirements of water cooling and heat dissipation in a limited space can be met.

Description

Integrated server cooling mechanism

Technical Field

The utility model relates to the field of cooling equipment, in particular to an integrated server cooling mechanism.

Background

Heat generating devices such as computing devices, computers, servers, etc. generate a significant amount of heat during operation due to the high power consumption. The heating equipment can adopt water cooling for heat dissipation, when fewer heating equipment is placed, a cooling mechanism with smaller size is generally adopted, and because the cooling mechanism has limited heat dissipation space, the heat dissipation requirement of the heating equipment in a small space is difficult to meet, and meanwhile, for some individuals or household users, the reliable operation of the heating equipment is also required.

Disclosure of Invention

The utility model provides a small-size integrated server cooling mechanism with reasonable structure, which is characterized in that a box body is divided into a top server, a control chamber, a middle cooling chamber and a bottom auxiliary equipment chamber by interlayer, and the installation layout of a radiator, a spray pipe device and a radiating fan is reasonably arranged in the limited radiating space of the cooling chamber so as to meet the radiating power requirement.

The technical scheme adopted by the utility model has the following beneficial effects:

an integrated server cooling mechanism comprises a top server, a control chamber and a cooling chamber connected below the server and the control chamber, wherein the server is connected with the control chamber and the cooling chamber through a cooling circulation system, a vent is formed in one side panel of the cooling chamber, a heat radiation fan is mounted on the other side panel corresponding to the vent, the vent of the heat radiation fan is arranged outside the box, a radiator is vertically arranged in the cooling chamber and near the vent, and a spray pipe device is arranged between the radiator and the heat radiation fan.

The integrated server cooling mechanism utilizes circulating water to cool the server, hot water discharged by the server is conveyed into the cooling cavity to cool and dissipate heat, the cooling water enters the server again to cool and dissipate heat, water resources are saved, a cooling fan is arranged on a side panel of the cooling cavity, a radiator is arranged at a position far away from the cooling fan, and a spray pipe device spraying three inner side surfaces of the radiator is arranged on the inner side of the radiator, so that the cooling and heat dissipation requirements in a limited space can be met, and environmental wind entering the cooling cavity from a ventilation opening and damp and hot air in the box can be pumped out of the box in time, so that the damp and hot air is prevented from adversely affecting the subsequent cooling effect.

As a further improvement of the above technical scheme:

the radiator is a C-shaped finned tube radiator, and the spray nozzle of the spray tube device is opposite to the inner side surface of the radiator. The water mist sprayed by the spray pipe device uniformly covers the inner side surface of the whole radiator, and hot water in the radiator is further cooled after the spray evaporation.

The cooling circulation system comprises a circulation main pipe, a heat exchange pipeline connected with the cooled equipment and the circulation main pipe, a water return pipe connected with a water outlet of the radiator and the circulation main pipe, and a pump group and a valve group which are arranged on the cooling circulation system pipeline.

The circulating main pipe comprises a hot water circulating main pipe and a cold water circulating main pipe, a water outlet of the hot water circulating main pipe is connected with a water inlet of the radiator, a water outlet of the radiator is connected with the cold water circulating main pipe through a water return pipe, the heat exchange pipeline comprises a cold water pipe and a hot water pipe which are respectively connected with two ends of a heat exchange channel of cooled equipment, the water inlet of the cold water pipe is connected with the cold water circulating main pipe, a water inlet interface of the cooled equipment is connected with the cold water pipe, a water outlet of the hot water pipe is connected with the hot water circulating main pipe, and a water outlet interface of the cooled equipment is connected with the hot water pipe.

And a water cooling circulation pipeline connected in series is formed between the cooled equipment and the heat radiating device in the cooling cavity through a pipeline of the cooling circulation system, hot water in the cooled equipment is conveyed into the cooling cavity for cooling, and then conveyed back into the cooled equipment for recycling, so that water resources are saved.

The auxiliary equipment chamber is divided into below the cooling chamber through the partition plate, and part of the pump set is placed in the auxiliary equipment chamber, so that water mist in the cooling chamber can be prevented from drifting into the auxiliary equipment chamber at the bottom to damage equipment.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic structural view of another view of the present utility model.

Fig. 3 is a right side view of the internal structure of the present utility model with the case panel removed.

Fig. 4 is a rear view of the internal structure of the present utility model with the cabinet panel removed.

Fig. 5 is a schematic view of the radiator 10 and the spray pipe device 11 according to the present utility model.

In the figure: 1. a server and a control chamber; 2. a cooling chamber; 3. an auxiliary equipment chamber; 4. controlling an electric cabinet; 5. a hot water circulation main pipe; 6. a cold water circulation main pipe; 7. a heat exchange pipeline; 71. a cold water pipe; 72. a hot water pipe; 8. a water return pipe; 9. a heat radiation fan; 10. a heat sink; 11. a spray tube device; 12. a pump group; 13. a vent; 14. the device being cooled.

Detailed Description

The following describes specific embodiments of the present utility model with reference to the drawings.

As shown in fig. 1 to 4, the present utility model provides an integrated server cooling mechanism with smaller size, wherein the box is divided into a top server and control chamber 1, a middle cooling chamber 2 and a bottom auxiliary equipment chamber 3 by a partition layer, so as to prevent water mist in the cooling chamber 2 from drifting into the top server and control chamber 1 and the bottom auxiliary equipment chamber 3 to damage equipment.

As shown in fig. 1, the server and the control chamber 1 are provided with a plurality of cooled devices 14 and a control electric cabinet 4 arranged at one side of the cooled devices 14, in this embodiment, the cooled devices 14 are arranged in two, and one side of the cooled devices 14 with water inlet and outlet interfaces is arranged outside the box.

As shown in fig. 2 to 4, the front and the left and right face plates of the box body of the cooling chamber 2 are respectively provided with a ventilation opening 13, the back face plate is provided with a heat radiation fan 9, and the ventilation opening of the heat radiation fan 9 is arranged outside the box body so as to be convenient for guiding the environmental wind entering the cooling chamber 2 from the ventilation opening 13 together with the damp and hot gas in the box body to the outside of the box body in time for discharging. The radiator 10 is vertically arranged in the cooling cavity 2 and near the front vent 13, the radiator 10 is a C-shaped finned tube radiator, a C-shaped opening of the radiator is opposite to the radiating fan 9, a spray pipe device 11 is arranged in an inner side gap of the radiator 10, namely the spray pipe device 11 is arranged between the radiator 10 and the radiating fan 9, a plurality of spray heads are uniformly arranged on the spray pipe device 11 as shown in fig. 5, the spray heads are opposite to three inner sides of the radiator 10 for spray heat radiation, the three inner sides of the radiator 10 can be uniformly covered by spray heads for spray, and the heat radiation efficiency is improved.

As shown in fig. 3 and 4, the server is connected with the cooled equipment 14 in the control chamber 1 and the radiator 10 in the cooling chamber 2 through a cooling circulation system, the cooling circulation system comprises a circulation main pipe, a heat exchange pipeline 7 for connecting the cooled equipment 14 and the circulation main pipe, a water outlet of the radiator 10 and a water return pipe 8 of the circulation main pipe, and a pump set 12 and a valve set which are arranged on the cooling circulation system pipeline, the pump set 12 provides conveying power for liquid in the pipe, and part of the pump set 12 is arranged in the auxiliary equipment chamber 3. The circulating main pipe comprises a hot water circulating main pipe 5 and a cold water circulating main pipe 6, a water outlet of the hot water circulating main pipe 5 is connected with a water inlet of a radiator 10, and a water outlet of the radiator 10 is connected with the cold water circulating main pipe 6 through a water return pipe 8. The heat exchange pipeline 7 comprises a cold water pipe 71 and a hot water pipe 72 which are respectively connected with two ends of a heat exchange channel of the cooled equipment 14, namely, a water inlet of the cold water pipe 71 is connected with the cold water circulation main pipe 6, a water inlet interface of the cooled equipment 14 is connected with the cold water pipe 71, a water outlet of the hot water pipe 72 is connected with the hot water circulation main pipe 5, a water outlet interface of the cooled equipment 14 is connected with the hot water pipe 72, cold water can be injected into the cooled equipment 14 by the cold water circulation main pipe 6 for heat exchange, and hot water is discharged and flows into the hot water circulation main pipe 5 along the hot water pipe 72, so that the cooled equipment 14 can be cooled.

During actual use, hot water exchanged in the cooling equipment 14 is pumped by the pump set 12 and then is sent into the radiator 10 along the hot water circulation main pipe 5 for heat exchange, the spray head of the spray pipe device 11 is just opposite to three sides of the inner side of the radiator 10, hot water in the radiator 10 is further cooled after spray evaporation, the air port of the cooling fan 9 is opposite to the radiator 10 and the spray pipe device 11, and environmental wind entering the cooling cavity 2 from the air port 13 can be timely pumped out of the box body together with damp and hot gas in the box body, so that adverse effects of the damp and hot air on subsequent cooling effects are avoided. The cold water exchanged by the radiator 10 is pumped by the pump group 12 and then enters the cold water pipe 71 and the cooled equipment 14 again along the water return pipe 8 and the cold water circulation main pipe 6 for heat exchange, so that better cooling effect of the cooled equipment 14 is realized, and the cold water can be supplemented at the same time and injected into the cooled equipment 14 together in the cold water circulation main pipe 6, thereby realizing circulation and reciprocation.

The above description is illustrative of the utility model and is not intended to be limiting, and the utility model may be modified in any form without departing from the spirit of the utility model.

Claims

1. The utility model provides an integrated form server cooling mechanism, has top server and control chamber (1) and connects cooling chamber (2) in server and control chamber (1) below in its box, is connected through cooling circulation system between server and control chamber (1) and cooling chamber (2), its characterized in that: a ventilation opening (13) is formed in one side panel of the box body of the cooling cavity (2), a heat radiation fan (9) is arranged on the other side panel corresponding to the ventilation opening, the air opening of the heat radiation fan (9) is arranged outside the box body, a radiator (10) is vertically arranged in the cooling cavity (2) and close to the ventilation opening (13), and a spray pipe device (11) is arranged between the radiator (10) and the heat radiation fan (9).

2. The integrated server cooling mechanism of claim 1, wherein: the radiator (10) is a C-shaped finned tube radiator, and the spray nozzle of the spray tube device (11) is opposite to the inner side surface of the radiator (10).

3. The integrated server cooling mechanism of claim 1, wherein: the cooling circulation system comprises a circulation main pipe, a heat exchange pipeline (7) connected with the cooled equipment (14) and the circulation main pipe, a water return pipe (8) connected with the water outlet of the radiator (10) and the circulation main pipe, and a pump group (12) and a valve group which are arranged on the cooling circulation system pipeline.

4. An integrated server cooling mechanism according to claim 3, wherein: the circulating main pipe comprises a hot water circulating main pipe (5) and a cold water circulating main pipe (6), a water outlet of the hot water circulating main pipe (5) is connected with a water inlet of a radiator (10), a water outlet of the radiator (10) is connected with the cold water circulating main pipe (6) through a water return pipe (8), a heat exchange pipeline (7) comprises a cold water pipe (71) and a hot water pipe (72) which are respectively connected with two ends of a heat exchange channel of cooling equipment (14), a water inlet of the cold water pipe (71) is connected with the cold water circulating main pipe (6), a water inlet of the cooled equipment (14) is connected with the cold water pipe (71), a water outlet of the hot water pipe (72) is connected with the hot water circulating main pipe (5), and a water outlet of the cooled equipment (14) is connected with the hot water pipe (72).

5. An integrated server cooling mechanism according to claim 3, wherein: the lower part of the cooling chamber (2) is divided into an auxiliary equipment chamber (3) by a partition plate, and a part of the pump group (12) is placed in the auxiliary equipment chamber (3).