CN220191325U

CN220191325U - Heat abstractor and have its cooling chamber, integrated form server cooling body

Info

Publication number: CN220191325U
Application number: CN202321699562.0U
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: 2023-12-15
Anticipated expiration: 2033-06-30

Abstract

The utility model discloses a heat dissipating device, which comprises a C-shaped second radiator and a spray pipe device arranged on the inner side of the second radiator, wherein a cooling mechanism box body provided with the heat dissipating device comprises a top heat dissipating fan, a middle second radiator, the spray pipe device and a bottom water collecting tank, a server and a control chamber and a cooling chamber on one side of the server and the control chamber are arranged in the box body of an integrated server cooling mechanism with the cooling mechanism, and a complete water cooling circulation conveying channel is formed between the server and the control chamber in series through a cooling circulation system. The spray pipe device can spray and radiate three sides of the inner side of the second radiator, water flows in the second radiator to radiate, so that radiating efficiency is improved, and the cooling mechanism and the integrated server cooling mechanism box body with the spray pipe device are reasonably distributed with each radiating structure, so that the water radiating efficiency can be ensured in a limited space, and the circulating cooling utilization of water between the cooled equipment and the cooling mechanism is realized through the cooling circulating system.

Description

Heat abstractor and have its cooling chamber, integrated form server cooling body

Technical Field

The utility model relates to the field of cooling equipment, in particular to a heat dissipation device, a cooling cavity with the heat dissipation device and 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 inventor provides a heat dissipating device with reasonable structure aiming at the defects that the existing small-size cooling mechanism for placing less heating equipment has small heat dissipating space and is difficult to meet the heat dissipating requirement, and the like, and the installation layout of a radiator, a spray pipe device and a heat dissipating fan in the heat dissipating space is reasonably arranged in a cooling cavity provided with the heat dissipating device, so that the small-size integrated server cooling mechanism with the cooling cavity can meet the heat dissipating power requirement in a limited space.

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

the utility model provides a heat abstractor, its includes C type second radiator and sets up the spray pipe device in the second radiator inboard, and spray pipe device includes bottom C type spray house steward and its upper portion vertical setting's a plurality of spraying branch pipes, and spray pipe device is just to a plurality of shower nozzles of second radiator medial surface arrangement.

As a further improvement of the above technical scheme:

the second radiator is placed vertically, the spray header pipe is located the bottom of the second radiator, distances from three sides of C type under the vertical projection of the spray header pipe to three sides of C type under the vertical projection of the second radiator are the same, the spray branch pipes are uniformly arranged vertically along the spray header pipe, the lengths of the spray branch pipes and the spray branch pipes are equivalent to the width of the second radiator, and the spray branch pipes are uniformly provided with a plurality of spray heads opposite to one side of the inner side three sides of the second radiator.

The second radiator is a finned tube radiator, and two side ends of the second radiator are respectively connected with a second water inlet pipe and a second water outlet pipe.

The spray pipe device can spray and radiate the heat on three inner sides of the second radiator, and can ensure that the spray head sprays out the spray to uniformly cover the three inner sides of the second radiator, water flows in the second radiator for radiating the heat, and the radiating efficiency is improved.

A cooling cavity provided with a heat radiator comprises a top heat radiation fan, a middle second heat radiator, a spray pipe device and a bottom water collecting tank, wherein a wind gap of the heat radiation fan is opposite to a ventilation opening on the top surface of a box body, and a C-shaped outer side surface of the second heat radiator is opposite to a ventilation opening on the side surface of the box body.

Hot water flows into the C-shaped second radiator to exchange heat, the spray head of the C-shaped spray pipe device is opposite to three sides of the inner side of the second radiator to spray, hot water in the second radiator is further cooled after spray evaporation, the rest water falls into the water collecting tank, the cooling fan guides ambient air entering the cooling cavity to the outside of the box body together with hot humid air, and the layout of the cooling device and the fan is reasonably arranged in the cooling cavity, so that the cooling efficiency can be ensured in a limited space.

An integrated server cooling mechanism with a cooling chamber is provided, wherein a server and a control chamber and the cooling chamber on one side of the server and the control chamber are arranged in a box body, a cooling circulation system is connected between the server and the control chamber and between the server and the cooling chamber, and the cooling circulation system connects a heat exchange channel of the cooled equipment and a second radiator in series in the box body to form a complete water cooling circulation conveying channel.

As a further improvement of the above technical scheme:

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 second radiator and the circulation main pipe, and a pump group and a valve group which are arranged on the cooling circulation system pipeline, wherein the circulation main pipe comprises a hot water circulation main pipe and a cold water circulation main pipe which are arranged between the cooled equipment and the cooling cavity, a second water inlet pipe of the second radiator is connected with the hot water circulation main pipe, and a second water outlet pipe is connected with the cold water circulation main pipe through a water return pipe.

The water inlet of the second radiator is arranged at the lower part of the second water inlet pipe, the water outlet is arranged at the upper part of the second water outlet pipe, and the flow direction of water in the second radiator is lower in and upper out.

The integrated server cooling mechanism utilizes circulating water to cool the server, hot water is discharged from the server and conveyed into the cooling chamber for cooling and heat dissipation, and the cooling water enters the server again for water cooling and heat dissipation, so that water resources are saved.

Drawings

FIG. 1 is a schematic view of the internal structure of the utility model after the box panel is removed.

FIG. 2 is a schematic view of the internal structure of the utility model from another perspective after the cabinet panels are removed.

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

Fig. 4 is a right side view of the internal structure of the present utility model with the case panel removed.

FIG. 5 is a top view of the internal structure of the present utility model with the cabinet panels removed.

Fig. 6 is a schematic structural view of the first heat sink 11.

Fig. 7 is a schematic structural view of the second radiator 13 and the spray pipe device 14.

Fig. 8 is a top view of fig. 7.

In the figure: 1. a server and a control chamber; 2. a cooling chamber; 3. a commodity shelf; 4. controlling an electric cabinet; 5. a hot water circulation main pipe; 6. a cold water circulation main pipe; 7. a hot water circulation pump; 8. a cold water circulating pump; 9. a heat exchange pipeline; 91. a cold water pipe; 92. a hot water pipe; 10. a water return pipe; 11. a first heat sink; 111. a first water inlet pipe; 112. a first water outlet pipe; 12. a heat radiation fan; 13. a second heat sink; 131. a second water inlet pipe; 132. a second water outlet pipe; 14. a spray tube device; 141. a spray header; 142. a spray manifold; 15. a water pipe; 16. a water collecting tank.

Detailed Description

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

As shown in fig. 1 to 5, the present utility model provides an integrated server cooling mechanism with a small size, wherein the inside of a box is divided into a server and a control chamber 1 and a cooling chamber 2 by a partition board, so as to prevent water mist in the cooling chamber 2 from drifting into the server and the control chamber 1 to damage equipment. Because all the components are completely integrated in the frame of the standard container, the transportation is very convenient, and the container can be directly electrified and used after water is added after reaching a destination through sea and land transportation.

The integrated server cooling mechanism has small size and limited inner space, and the cooled equipment is arranged outwards to facilitate the installation, maintenance and operation of the cooled equipment when people stand outside the server and the control chamber 1.

The cooling chamber 2 has a heat sink therein and a water collection sump 16 provided below the heat sink. The heat dissipation device comprises a top first heat radiator 11, a middle heat dissipation fan 12, a bottom second heat radiator 13 and a spray pipe device 14, wherein the first heat radiator 11 is horizontally arranged, a wind gap of the heat dissipation fan 12 is opposite to the bottom surface of the first heat radiator to blow cold wind to dissipate heat, the blowing area is increased, the heat dissipation efficiency is improved, and as shown in fig. 6, one side end of the first heat radiator 11 is connected with a first water inlet pipe 111 and a first water outlet pipe 112. The second radiator 13 is a vertically placed C-shaped finned tube radiator, two side ends of the second radiator are respectively connected with a second water inlet pipe 131 and a second water outlet pipe 132, a water inlet of the second radiator 13 is arranged at the lower part of the second water inlet pipe 131, a water outlet of the second radiator 13 is arranged at the upper part of the second water outlet pipe 132, and the flow direction of water in the second radiator 13 is lower in and upper out. As shown in fig. 7 and 8, a spraying pipe device 14 is arranged at a certain distance on the inner side of the second radiator 13 at intervals, the spraying pipe device 14 comprises a C-shaped spraying main pipe 141 positioned at the bottom and a plurality of spraying branch pipes 142 uniformly and vertically arranged at the top of the spraying main pipe, the spraying main pipe 141 is flush with the bottom of the second radiator 13, distances from three sides of the C-shaped spraying main pipe 141 to three sides of the C-shaped spraying main pipe 13 under vertical projection are the same, the spraying branch pipes 142 are uniformly and vertically arranged along the spraying main pipe 141, the length of each spraying branch pipe 142 is equal to the width of the second radiator 13, and a plurality of spray heads are arranged on the outer side of each spraying branch pipe 142, so that the spraying pipe device 14 can spray and dissipate heat just to three sides of the inner side of the second radiator 13, and can ensure that spray heads spray out of spray to uniformly cover three sides of the whole inner side of the second radiator 13, and heat dissipation efficiency is improved. The first radiator 11 and the second radiator 13 are connected in series through the water delivery pipe 15, namely one end of the water delivery pipe 15 is connected with the water outlet of the first water outlet pipe 112 of the first radiator 11, the other end of the water delivery pipe 15 is connected with the water inlet of the second water inlet pipe 131 of the second radiator 13, and the upper radiator and the lower radiator can ensure heat dissipation power under the condition of limited internal space.

The server is connected with the cooled equipment in the control chamber 1 and the heat dissipation device in the cooling chamber 2 through a cooling circulation system, the cooling circulation system comprises a circulation main pipe, a heat exchange pipeline 9 for connecting the cooled equipment with the circulation main pipe, a water return pipe 10 for connecting a water outlet of the heat dissipation device in the cooling chamber 2 with the circulation main pipe, and a pump set and a valve set which are arranged on the cooling circulation system pipeline, and the pump set is controlled by the control electric cabinet 4 so as to provide conveying power for liquid in the pipe. The circulation is responsible for including setting up the hot water circulation and is responsible for 5 and cold water circulation and responsible for 6 between server and control chamber 1 and cooling chamber 2, and in this embodiment, the circulation is responsible for setting up in server and control chamber 1, and the delivery port of hot water circulation is responsible for 5 is connected with the first inlet tube 111 of first radiator 11, and the second outlet pipe 132 delivery port of second radiator 13 is responsible for 6 through wet return 10 and is connected with cold water circulation, installs hot water circulation pump 7 and cold water circulation pump 8 respectively on hot water circulation is responsible for 5 and the cold water circulation is responsible for 6. The heat exchange pipeline 9 comprises a hot water pipe 92 and a cold water pipe 91 which are respectively connected with the two ends of a heat exchange channel of the cooled equipment, namely, a water inlet of the cold water pipe 91 is connected with the cold water circulation main pipe 6, the other end of a water inlet interface of the cooled equipment is connected with a water outlet of the cold water pipe 91, a water outlet of the hot water pipe 92 is connected with the hot water circulation main pipe 5, a water outlet interface of the cooled equipment is connected with a water inlet of the hot water pipe 92, cold water can be injected into the cooled equipment by the cold water circulation main pipe 6 for heat exchange, hot water is exchanged out and flows into the hot water circulation main pipe 5 along the hot water pipe 92, and therefore cooling of the cooled equipment is achieved.

When in actual use, high-temperature running and heat exchange are carried out in cooling equipment, hot water exchanged after being pumped by a hot water circulating pump 7 is fed into a first water inlet pipe 111 of a first radiator 11 along a hot water circulating main pipe 5, a cooling fan 12 below the first radiator 11 blows cold air to a pipeline of the first radiator 11, preliminary heat dissipation of hot water is realized, and the cooling fan 12 timely guides and discharges environmental wind entering a cooling cavity 2 from a side ventilation opening of a box body together with damp and hot gas in the box body to a ventilation opening of the top surface of the box body, so that adverse effects of the damp and hot air on subsequent cooling effects are avoided. The hot water in the first radiator 11 flows into the finned tube of the C-shaped second radiator 13 along the first water outlet pipe 112, the water pipe 15 and the second water inlet pipe 131 of the second radiator 13, the spray head of the C-shaped spray tube device 14 is opposite to three sides of the inner side of the second radiator 13 for spraying, the hot water in the second radiator 13 is further cooled after the spray evaporation, the rest water falls into the water collecting tank 16, the cold water exchanged by the second radiator 13 enters the cold water pipe 91 again along the cold water circulating main pipe 6 after pumped by the cold water circulating pump 8, and the cooled equipment exchanges heat, so that better cooling effect of the cooled equipment is realized, and the cooled equipment can be filled with the supplementary cooling liquid into the cold water circulating main pipe 6 at the same time for circulating and reciprocating.

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. A heat sink, characterized in that: the novel heat radiator comprises a C-shaped second radiator (13) and a spray pipe device (14) arranged on the inner side of the second radiator (13), wherein the spray pipe device (14) comprises a bottom C-shaped spray header pipe (141) and a plurality of spray branch pipes (142) vertically arranged on the upper portion of the bottom C-shaped spray header pipe, and a plurality of spray heads are arranged on the inner side face of the spray pipe device (14) opposite to the second radiator (13).

2. A heat sink as defined in claim 1, wherein: the second radiator (13) is placed vertically, the spray header pipe (141) is located at the bottom of the second radiator (13), distances from three sides of the C type under vertical projection of the spray header pipe (141) to three sides of the C type under vertical projection of the second radiator (13) are the same, the spray branch pipes (142) are uniformly arranged vertically along the spray header pipe (141), the lengths of the spray branch pipes (142) and the spray branch pipes (142) are equivalent to the width of the second radiator (13), and the spray branch pipes (142) are opposite to one sides of three sides of the inner side of the second radiator (13) and are uniformly provided with a plurality of spray heads.

3. A heat sink as defined in claim 1, wherein: the second radiator (13) is a finned tube radiator, and two side ends of the second radiator are respectively connected with a second water inlet pipe (131) and a second water outlet pipe (132).

4. A cooling chamber having the heat sink of claim 1 mounted thereto, wherein: the novel heat radiator comprises a top heat radiation fan (12), a middle second heat radiator (13) and a spray pipe device (14) and a bottom water collecting tank (16), wherein a wind gap of the heat radiation fan (12) is opposite to a ventilation opening of the top surface of the box body, and a C-shaped outer side surface of the second heat radiator (13) is opposite to a ventilation opening of the side surface of the box body.

5. An integrated server cooling mechanism provided with the cooling chamber as claimed in claim 4, wherein the cooling chamber (2) at one side of the server and control chamber (1) and the server and control chamber (1) are arranged in a box body, and the integrated server cooling mechanism is characterized in that: a cooling circulation system is connected between the server and the control chamber (1) and between the server and the cooling chamber (2), and the cooling circulation system connects the heat exchange channel of the cooled equipment in the box body with the second radiator (13) in series to form a complete water cooling circulation conveying channel.

6. The integrated server cooling mechanism of claim 5, wherein: the cooling circulation system comprises a circulation main pipe, a heat exchange pipeline (9) connected with cooled equipment and the circulation main pipe, a water return pipe (10) connected with a water outlet of the second radiator (13) and the circulation main pipe, and a pump set and a valve set which are arranged on the cooling circulation system pipeline, wherein the circulation main pipe comprises a hot water circulation main pipe (5) and a cold water circulation main pipe (6) which are arranged between the cooled equipment and the cooling cavity (2), a second water inlet pipe (131) of the second radiator (13) is connected with the hot water circulation main pipe (5), and a second water outlet pipe (132) is connected with the cold water circulation main pipe (6) through the water return pipe (10).

7. The integrated server cooling mechanism of claim 6, wherein: the water inlet of the second radiator (13) is arranged at the lower part of the second water inlet pipe (131), the water outlet is arranged at the upper part of the second water outlet pipe (132), and the flow direction of water in the second radiator (13) is lower in and upper out.