CN221079274U

CN221079274U - Integrated server cooling mechanism

Info

Publication number: CN221079274U
Application number: CN202323022896.7U
Authority: CN
Inventors: 孙昊月
Original assignee: Wuxi Hongfan Intelligent Technology Co ltd
Current assignee: Wuxi Hongfan Intelligent Technology Co ltd
Priority date: 2023-11-09
Filing date: 2023-11-09
Publication date: 2024-06-04
Anticipated expiration: 2033-11-09

Abstract

The utility model discloses an integrated server cooling mechanism, wherein the inside of a box body is divided into a server chamber at one end, a cooling chamber at the other end and a control chamber between the server chamber and the cooling chamber by a partition plate, a plurality of cooled devices are placed in the server chamber, a cooler device is vertically arranged in the box body of the cooling chamber, a heat dissipation fan is arranged outside the top plate of the box body, and the cooled devices and the cooler device are connected in series by a cooling circulation system to form a complete water cooling circulation conveying channel. The cooling chamber is internally and vertically provided with a cooler device, a plurality of heat dissipation fans are externally arranged above the top panel of the box body, the box body inner cavity of the cooling chamber is guaranteed to have enough wind flowing space, ambient wind is perpendicular to the cooler device and enters the cooling chamber, the air inlet area is larger, the air inlet is more uniform, the radiator units are reasonably distributed in the cooling chamber, and the heat dissipation area of the radiator units is increased as much as possible in the box body space so as to meet the heat exchange requirement of cooled equipment.

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 equipment that generates heat is usually placed and is carried out water-cooling heat dissipation in integrated form server cooling mechanism, integrated form server cavity, control cavity and cooling cavity are integrated in a box to integrated form server cooling mechanism, thereby the equipment that generates heat in the server cavity and the cooling structure in the cooling cavity pass through the pipeline and establish ties and form complete water cooling circulation conveying channel, after the equipment that generates heat works for a long time, cooling structure need constantly carry the water source after the cooling to the equipment department that generates heat, current cooling structure can't satisfy the heat dissipation demand, the radiating efficiency is low.

Disclosure of utility model

The application provides an integrated server cooling mechanism with reasonable structure, which aims at the defects that the cooling structure of the existing integrated server cooling mechanism can not meet the heat dissipation requirement, has low heat efficiency and the like, and the assembly positions of a radiator device and a radiator fan are reasonably distributed in a box body of a cooling cavity, so that the cooling of hot water output by heating equipment is realized together, the heat dissipation efficiency is improved, and the cooling integrated server cooling mechanism integrates a server cavity, a cooling circulation system and a cooling cavity into a container, so that the cooling integrated server cooling mechanism is convenient to transport.

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

The utility model provides an integrated form server cooling mechanism, separates into the server cavity that is located one end, the cooling chamber that is located the other end and the control cavity between the two through the baffle in its box, places a plurality of cooling devices in the server cavity, and the box of cooling chamber is internal to be provided with the cooler device, the external radiator fan that has in box roof top, establish ties and form complete water cooling circulation conveying channel through cooling circulation system between by cooling device and the cooler device.

As a further improvement of the above technical scheme:

The box frame of the cooling chamber is provided with panels on the top, the bottom and one side surface far away from the control chamber, and the front side surface and the rear side surface of the box frame of the cooling chamber are not provided with panels.

The cooler device is two cooler units which are vertically arranged at air inlets on the front side and the rear side of the cooling cavity, the cooler units are dry coolers, the long sides of the cooler units are parallel to the long sides of the cooling cavity box body, and the short sides close to the control cavity are connected with the cooling circulation system.

The cooling chamber is internally and vertically provided with a cooler device, a plurality of cooling fans are externally arranged above the top panel of the box body, the box body inner cavity of the cooling chamber is guaranteed to have enough air flowing space, ambient air is perpendicular to the cooler device and enters the cooling chamber, the air inlet area is larger and the air inlet is more uniform, the radiator units are reasonably distributed in the cooling chamber, the heat radiating area of the radiator units is increased as much as possible in the box body space to meet the heat exchanging requirement of cooled equipment, the integrated server cooling mechanism integrates the service chamber, the cooling structure and the cooling circulation system for connecting the service chamber and the cooling structure into a container body, the whole machine is convenient to transport to a user, the user does not need to install cooling circulation systems such as a cooling liquid pipeline and an electric circuit by himself, and water cooling circulation is realized between the cooling structure and the cooled equipment through the cooling circulation system.

The air port of the heat radiation fan is arranged outside the box body. The environment wind entering the cooling cavity can be guided to the outside of the box body in time to be discharged, and adverse effects of the environment wind on subsequent cooling effects are avoided.

The cooling circulation system comprises a circulation main pipe, a heat exchange pipeline connected with the cooled equipment and the circulation main pipe, and a pump set 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 which span three chambers in the box body, a water outlet of the hot water circulating main pipe is connected with a water inlet of the cooler device, and a water outlet of the cooler device is connected with the cold water circulating main pipe.

The pipeline of the cooler device close to the short side of the control chamber is connected with a water inlet pipe and a water outlet pipe, the water inlet of the water inlet pipe is positioned at the lower end of the pipeline, the water outlet of the water outlet pipe is positioned at the upper end of the pipeline, so that hot water enters the cooler unit and is conveyed from bottom to top, the water inlet pipe is connected with a hot water circulation main pipe, and the water outlet pipe is connected with a cold water circulation main 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 the cooled equipment, wherein a water inlet of the cold water pipe is connected with a cold water circulation 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 circulation main pipe, and a water outlet interface of the cooled equipment is connected with the hot water pipe.

The high-temperature hot water exchanged in the high-speed cooled equipment is pumped by the pump group and then is sent into the cooler device along the hot water circulation main pipe for heat exchange, the cold water exchanged by the cooler unit is pumped by the pump group and then enters the cooled equipment along the cold water circulation main pipe and the cold water pipe for heat exchange, so that the heat dissipation effect of the integrated server cooling mechanism is improved in a circulating and reciprocating mode.

Drawings

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

Fig. 2 is a left side view of the present utility model.

Fig. 3 is a cross-sectional view of A-A in fig. 2.

Fig. 4 is a rear view of the present utility model.

Fig. 5 is a cross-sectional view of B-B of fig. 4.

Fig. 6 is a cross-sectional view of C-C of fig. 4.

Fig. 7 is a cross-sectional view of D-D of fig. 4.

In the figure: 1. a server chamber; 2. a cooling chamber; 21. a panel; 3. a control chamber; 4. a commodity shelf; 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 cooler device; 81. a cooler unit; 82. a water inlet pipe; 83. a water outlet pipe; 9. a heat radiation fan; 10. a pump set.

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, in which a box is partitioned into a left server chamber 1, a middle control chamber 3 and a right cooling chamber 2 by a partition, and all components are completely integrated in a frame of a standard container, so that the integrated server cooling mechanism is very convenient to transport, and can be directly powered on and used after water is added after reaching a destination through sea and land transportation. The server chamber 1 is internally provided with a storage rack 4, a plurality of cooled devices (not shown in the figure) are placed on the storage rack 4, the cooled devices are connected with a cooling device in the cooling chamber 2 through a cooling circulation system, and a control electric cabinet, a pump set 10 and other devices for controlling the cooling circulation system to convey water are placed in the control chamber 3.

As shown in fig. 3, fig. 4, fig. 6 and fig. 7, the panel 21 is arranged on the top, the bottom and one side surface far away from the control chamber 3 of the box frame of the cooling chamber 2, the panel 21 is not arranged on the front side and the rear side surface of the box frame of the cooling chamber 2, the cooler device 8 is vertically arranged in the cooling chamber 2, a plurality of heat dissipation fans 9 are externally arranged above the panel 21 on the top of the box, the layout is more reasonable, the heat dissipation efficiency is high, the air opening of the heat dissipation fans 9 is arranged outside the box, the environmental wind entering the cooling chamber 2 can be timely guided to the outside of the box to be discharged, and adverse effects caused by the environmental wind on the subsequent cooling effect are avoided. The cooler device 8 is two cooler units 81 vertically arranged at air inlets on the front side and the rear side of the cooling chamber 2, ambient air enters the cooling chamber 2 perpendicular to the cooler device 8, the air inlet area is larger, the air inlet is more uniform, the heat exchange efficiency is improved, the cooler unit 81 is a dry cooler, the long side of the cooler unit is parallel to the long side of the box body of the cooling chamber 2, a pipeline close to the short side of the control chamber 3 is connected with the water inlet pipe 82 and the water outlet pipe 83, the water inlet of the water inlet pipe 82 is positioned at the lower end of the pipeline, and the water outlet of the water outlet pipe 83 is positioned at the upper end of the pipeline, so that hot water enters the cooler unit 81 and is conveyed from bottom to top.

As shown in fig. 3, 5 and 6, the cooled equipment in the server chamber 1 and the cooler device 8 in the cooling chamber 2 are connected through a cooling circulation system, the cooling circulation system comprises a circulation main pipe, a heat exchange pipeline 7 for connecting the cooled equipment and the circulation main pipe, and a pump set 10 arranged on the cooling circulation system pipeline, and the pump set 10 provides conveying power for liquid in the pipe. The circulating main pipe comprises a hot water circulating main pipe 5 and a cold water circulating main pipe 6 which span three chambers in the box body, a water inlet of the cooler device 8 is connected with the hot water circulating main pipe 5 through a water inlet pipe 82, and a water outlet of the cooler device 8 is connected with the cold water circulating main pipe 6 through a water outlet pipe 83. 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, 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 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 is connected with the hot water pipe 72, cold water can be injected into the cooled equipment by the cold water circulation main pipe 6 for heat exchange, and hot water is exchanged and flows into the hot water circulation main pipe 5 along the hot water pipe 72, so that the cooled equipment is cooled.

During actual use, high-temperature hot water exchanged in the cooled equipment running at a high speed is pumped by the pump set 10 and then is sent into the cooler device 8 along the hot water circulation main pipe 5 for heat exchange, ambient wind is perpendicular to the cooler unit 81 and enters the cooling cavity 2, all pipelines of the cooler unit 81 are fully covered, the cooling efficiency of hot water in the pipelines of the cooler unit 81 is improved, the ambient wind enters the cooling cavity 2 and is pumped out of the box body by the external cooling fan 9 above the top panel 21 of the box body, and adverse effects on subsequent cooling effects caused by the ambient wind after heat exchange are avoided. The cold water exchanged by the cooler unit 81 is pumped by the pump unit 10 and then enters the cooled equipment along the cold water circulation main pipe 6 and the cold water pipe 71 for heat exchange, so that the cooled equipment can be cooled better, and the cooled equipment can be filled with the supplementary cooling liquid into the cold water circulation main pipe 6 at the same time for 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, separates into server cavity (1) that are located one end, cooling chamber (2) that are located the other end and control cavity (3) between the two through the baffle in its box, its characterized in that: a plurality of cooled devices are placed in the server chamber (1), a cooler device (8) is vertically arranged in a box body of the cooling chamber (2), a heat radiation fan (9) is arranged outside the top of a top plate of the box body, and the cooled devices and the cooler device (8) are connected in series through a cooling circulation system to form a complete water cooling circulation conveying channel.

2. The integrated server cooling mechanism of claim 1, wherein: the box frame of the cooling chamber (2) is provided with panels (21) at the top, the bottom and one side surface far away from the control chamber (3), and the front side surface and the rear side surface of the box frame of the cooling chamber (2) are not provided with panels (21).

3. The integrated server cooling mechanism of claim 1, wherein: the cooler device (8) is two cooler units (81) which are vertically arranged at air inlets on the front side and the rear side of the cooling chamber (2), the cooler units (81) are dry coolers, the long sides of the cooler units are parallel to the long sides of the box body of the cooling chamber (2), and the short sides close to the control chamber (3) are connected with a cooling circulation system.

4. The integrated server cooling mechanism of claim 1, wherein: the air port of the heat radiation fan (9) is arranged outside the box body.

5. The integrated server cooling mechanism of claim 1, wherein: the cooling circulation system comprises a circulation main pipe, a heat exchange pipeline (7) for connecting the cooled equipment and the circulation main pipe, and a pump group (10) arranged on the cooling circulation system pipeline.

6. The integrated server cooling mechanism of claim 5, wherein: the circulating main pipe comprises a hot water circulating main pipe (5) and a cold water circulating main pipe (6) which span three chambers in the box body, a water outlet of the hot water circulating main pipe (5) is connected with a water inlet of the cooler device (8), and a water outlet of the cooler device (8) is connected with the cold water circulating main pipe (6).

7. The integrated server cooling mechanism of claim 5, wherein: the pipeline that the cooler device (8) is close to the short side of control cavity (3) is connected with inlet tube (82) and outlet pipe (83), and the water inlet of inlet tube (82) is located the pipeline lower extreme, the delivery port of outlet pipe (83) is located the pipeline upper end to hot water gets into in cooler unit (81) and from bottom to top carries, and inlet tube (82) are connected with hot water circulation main pipe (5), and outlet pipe (83) are connected with cold water circulation main pipe (6).

8. The integrated server cooling mechanism of claim 5, wherein: 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, wherein 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 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), and a water outlet interface of the cooled equipment is connected with the hot water pipe (72).