CN222050847U

CN222050847U - A server component cooling liquid immersion mechanism

Info

Publication number: CN222050847U
Application number: CN202420500046.9U
Authority: CN
Inventors: 籍宏飞; 王伟; 王梓兆; 刘志刚; 倪红超
Original assignee: Yunke Shandong Electronic Technology Co ltd
Current assignee: Yunke Shandong Electronic Technology Co ltd
Priority date: 2024-03-14
Filing date: 2024-03-14
Publication date: 2024-11-22
Anticipated expiration: 2034-03-14

Abstract

The utility model relates to the technical field of cooling liquid immersion of server components, in particular to a cooling liquid immersion mechanism of a server component, which improves the cooling liquid heat dissipation efficiency and quality, and is convenient for adjusting the immersion depth and improves the practicability; comprises an immersed bin; still include circulation mechanism, water spray mechanism, forced air cooling mechanism, clearance mechanism and elevating system, water spray mechanism installs on circulation mechanism, and forced air cooling mechanism installs on circulation mechanism, and clearance mechanism installs on circulation mechanism, and elevating system installs in circulation mechanism's inside, is convenient for circulate and dispel the heat to the coolant liquid through circulation mechanism, and water spray mechanism is convenient for spray water to circulation mechanism, and forced air cooling mechanism carries out the heat dissipation of blowing to circulation mechanism, and clearance mechanism clears up circulation mechanism, and elevating system is convenient for adjust the submerged degree of depth of server components and parts.

Description

Server components and parts coolant liquid immersion mechanism

Technical Field

The utility model relates to the technical field of server component cooling liquid immersion, in particular to a server component cooling liquid immersion mechanism.

Background

The immersion liquid cooling technology is a cooling mode with higher efficiency in liquid cooling, mainly immersing the electronic components of the server in non-conductive liquid, transferring heat from the heating components to cooling liquid, and then transferring heat to an external environment by using external fluid circulation or evaporative cooling, thereby achieving the effect of high-efficiency cooling. The immersion liquid cooling technology can be divided into two technologies of single-phase immersion and phase-change immersion according to different immersion working media. Taking water and air as an example, 10kW equipment, controlling the temperature of the equipment to be 10 ℃, air 3250m < 3 >/h is needed, cooling water is 900L/h, and the volume difference of the water and the cooling water is 275 times. It follows that air-cooled cooling is not the best choice, and liquid-cooled cooling techniques are used far better than air-cooled techniques.

In the existing server component cooling liquid immersion technology, for example, the prior art with the application number of CN202222439280.9 comprises a liquid cooling cabinet water tank, cooling liquid, a server, a main board, electronic components and a film, wherein the film covers the surface of the electronic components and is attached to the main board, the electronic components are placed into the cooling liquid through the server and the main board, the film can be tightly attached to the electronic components due to the action of water pressure, heat can be transferred from the film to the cooling liquid to realize heat dissipation when the electronic components work, the film has certain high-temperature creep property, and the film can achieve better attaching effect through creep to the position with overhigh temperature for a long time, so that the heat dissipation effect is further improved, and the normal work of the electronic components is ensured.

However, the cooling efficiency of the prior art is low, and the immersion depth of the server components is inconvenient to adjust in the prior art, so that the practicability is reduced.

Disclosure of utility model

In order to solve the technical problems, the utility model provides the cooling liquid immersing mechanism for the server components, which improves the cooling liquid radiating efficiency and quality, is convenient for adjusting the immersing depth and improves the practicability.

The utility model relates to a cooling liquid immersing mechanism for a server component, which comprises an immersing bin; the device also comprises a circulating mechanism, a water spraying mechanism, an air cooling mechanism, a cleaning mechanism and a lifting mechanism, wherein the water spraying mechanism is arranged on the circulating mechanism, the air cooling mechanism is arranged on the circulating mechanism, the cleaning mechanism is arranged on the circulating mechanism, the lifting mechanism is arranged inside the circulating mechanism, the circulating mechanism is convenient for circulating and radiating cooling liquid, the water spraying mechanism is convenient for spraying water to the circulating mechanism, the air cooling mechanism is used for blowing and radiating the circulating mechanism, the cleaning mechanism is used for cleaning the circulating mechanism, and the lifting mechanism is convenient for adjusting the immersed depth of the server components; the circulating mechanism is convenient for circulate and radiate cooling liquid, the water spraying mechanism is convenient for spray water to the circulating mechanism, radiating efficiency is improved, the air cooling mechanism blows and radiates heat to the circulating mechanism, radiating quality is improved, the cleaning mechanism cleans the circulating mechanism, practicability is improved, and the lifting mechanism is convenient for adjusting the immersed depth of the server components.

Preferably, the circulating mechanism comprises an immersed bin, a radiator, a first water pump and a cooler, wherein the radiator is communicated with the immersed bin through a pipeline, the first water pump is arranged on the side wall of the radiator, the first water pump is communicated with the immersed bin through a return pipe, the cooler is arranged on the return pipe, and a plurality of radiating plates are arranged on the radiator; the first water pump is opened to drive the cooling liquid in the immersed bin and the radiator to circulate, so that the cooling liquid in the immersed bin enters the radiator through the pipeline, the radiator radiates heat to the cooling liquid, and then the cooling liquid is cooled through the cooler, so that the cooling quality of the cooling liquid is improved.

Preferably, the water spraying mechanism comprises a water spraying pipe, a spray head, a water tank and a second water pump, wherein the water spraying pipe is arranged at the top end of the radiator, the spray head is arranged on the mounting frame, the water tank is arranged on the side wall of the radiator, the second water pump is arranged on the side wall of the water tank, and the second water pump is connected with the water spraying pipe through a pipeline; firstly, water is added into a water tank, then the water in the water tank is added into a spray pipe by opening a second water pump, then the water is sprayed out through a spray head, heat exchange is carried out between the water and a radiator through evaporation of the water, and the cooling efficiency of the cooling liquid is improved.

Preferably, the air cooling mechanism comprises a mounting frame, fan blades and an air cooling motor, wherein the mounting frame is arranged at the top end of the radiator, the fan blades are rotatably arranged on the mounting frame, the air cooling motor is arranged at the top end of the mounting frame, and the output end of the air cooling motor is connected with the fan blades; the fan blade is driven to rotate by opening the air cooling motor, and then the fan blade is used for blowing and radiating the radiator, so that the radiating efficiency is improved.

Preferably, the cleaning mechanism comprises a cleaning support, a screw rod, a guide rod, a cleaning plate and a cleaning motor, wherein the cleaning support is arranged on the side wall of the radiator, the screw rod is rotatably arranged on the cleaning support, the guide rod is arranged on the cleaning support, the cleaning plate is slidably arranged on the guide rod, the cleaning plate is in threaded fit with the screw rod, the cleaning motor is arranged at the top end of the cleaning support, and the output end of the cleaning motor is connected with the screw rod; when the radiator is to be cleaned, the cleaning motor is turned on to drive the screw rod to rotate, then the cleaning plate is driven to slide on the guide rod through the threaded relation, and then the clearance of the radiator is cleaned through the cleaning plate, so that the practicability is improved.

Preferably, the lifting mechanism comprises a telescopic rod, a lifting plate, a sliding sleeve, a threaded rod, a turbine and a worm rod, wherein the telescopic rod is arranged in the immersed bin, the lifting plate is arranged at the top end of the telescopic rod, the sliding sleeve is arranged in the immersed bin, the threaded rod is slidably arranged on the sliding sleeve, the other end of the threaded rod is rotatably arranged at the bottom end of the lifting plate, the turbine is rotatably arranged at the bottom end of the sliding sleeve, the turbine is in threaded fit with the threaded rod, the worm rod is rotatably arranged on the side wall of the immersed bin, and the worm rod is meshed with the turbine; when the immersion depth of the server components is to be adjusted, the turbine is driven to rotate by the meshing relationship by rotating the turbine, then the threaded rod is driven to slide in the sliding sleeve by the threaded relationship, and then the lifting plate is driven to lift and the telescopic rod is driven to shrink, so that the immersion depth is adjusted.

Compared with the prior art, the utility model has the beneficial effects that: the circulating mechanism is convenient for circulate and radiate cooling liquid, the water spraying mechanism is convenient for spray water to the circulating mechanism, radiating efficiency is improved, the air cooling mechanism blows and radiates heat to the circulating mechanism, radiating quality is improved, the cleaning mechanism cleans the circulating mechanism, practicability is improved, and the lifting mechanism is convenient for adjusting the immersed depth of the server components.

Drawings

FIG. 1 is a schematic view of a first axial structure of the present utility model;

FIG. 2 is a schematic view of a second axial structure of the present utility model;

FIG. 3 is a schematic view of a third axial structure of the present utility model;

FIG. 4 is a schematic view of a front cross-sectional structure of the present utility model;

FIG. 5 is a schematic diagram of a front cross-sectional isometric construction of the present utility model;

The reference numerals in the drawings: 01. a circulation mechanism; 11. immersing the bin; 12. a heat sink; 13. a first water pump; 14. a cooler; 02. a water spraying mechanism; 21. a water spray pipe; 22. a spray head; 23. a water tank; 24. a second water pump; 03. an air cooling mechanism; 31. a mounting frame; 32. a fan blade; 33. an air-cooled motor; 04. a cleaning mechanism; 41. cleaning a bracket; 42. a screw rod; 43. a guide rod; 44. a cleaning plate; 45. cleaning a motor; 05. a lifting mechanism; 51. a telescopic rod; 52. a lifting plate; 53. a sliding sleeve; 54. a threaded rod; 55. a turbine; 56. a scroll rod.

Detailed Description

In order that the utility model may be readily understood, a more complete description of the utility model will be rendered by reference to the appended drawings. This utility model may be embodied in many different forms and is not limited to the embodiments described herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Example 1

As shown in fig. 1 to 3, the device comprises a submerged bin 11, and further comprises a circulating mechanism 01, a water spraying mechanism 02, an air cooling mechanism 03, a cleaning mechanism 04 and a lifting mechanism 05, wherein the water spraying mechanism 02 is arranged on the circulating mechanism 01, the air cooling mechanism 03 is arranged on the circulating mechanism 01, the cleaning mechanism 04 is arranged on the circulating mechanism 01, and the lifting mechanism 05 is arranged inside the circulating mechanism 01;

The circulating mechanism 01 is convenient for circulating and radiating cooling liquid, the water spraying mechanism 02 is convenient for spraying water to the circulating mechanism 01, the air cooling mechanism 03 is used for blowing and radiating the circulating mechanism 01, the cleaning mechanism 04 is used for cleaning the circulating mechanism 01, and the lifting mechanism 05 is convenient for adjusting the immersed depth of the server components;

The circulation mechanism 01 comprises an immersed bin 11, a radiator 12, a first water pump 13 and a cooler 14, wherein the radiator 12 is communicated with the immersed bin 11 through a pipeline, the first water pump 13 is arranged on the side wall of the radiator 12, the first water pump 13 is communicated with the immersed bin 11 through a return pipe, the cooler 14 is arranged on the return pipe, and a plurality of heat dissipation plates are arranged on the radiator 12;

The water spraying mechanism 02 comprises a water spraying pipe 21, a spray head 22, a water tank 23 and a second water pump 24, wherein the water spraying pipe 21 is arranged at the top end of the radiator 12, the spray head 22 is arranged on the water spraying pipe 21, the water tank 23 is arranged on the side wall of the radiator 12, the second water pump 24 is arranged on the side wall of the water tank 23, and the second water pump 24 is connected with the water spraying pipe 21 through a pipeline;

The air cooling mechanism 03 comprises a mounting frame 31, fan blades 32 and an air cooling motor 33, wherein the mounting frame 31 is arranged at the top end of the radiator 12, the fan blades 32 are rotatably arranged on the mounting frame 31, the air cooling motor 33 is arranged at the top end of the mounting frame 31, and the output end of the air cooling motor 33 is connected with the fan blades 32;

The cooling liquid in the immersion bin 11 and the radiator 12 is driven to circulate by opening the first water pump 13, the cooling liquid in the immersion bin 11 is further led to enter the radiator 12 through the pipeline, the cooling liquid is cooled through the radiator 12, the cooling liquid is cooled through the cooler 14, cooling quality of the cooling liquid is improved, water is firstly added into the water tank 23, water in the water tank 23 is firstly added into the spray pipe 21 by opening the second water pump 24, then sprayed out through the spray head 22, heat exchange is carried out through evaporation of the water and the radiator 12, cooling efficiency of the cooling liquid is improved, the fan blade 32 is driven to rotate by opening the air cooling motor 33, and then the radiator 12 is blown to dissipate heat through the fan blade 32, cooling efficiency is improved, when the radiator 12 is to be cleaned, the cleaning motor 45 is driven to rotate by opening the cleaning motor 42, then the cleaning plate 44 is driven to slide on the guide rod 43 through a threaded relation, further cleaning plate 44 is used for cleaning a gap of the radiator 12, practicability is improved, and the lifting mechanism 05 is convenient for adjusting the immersion depth of a server element.

Example 2

As shown in fig. 2 to 5, the device comprises a submerged bin 11, and further comprises a circulating mechanism 01, a water spraying mechanism 02, an air cooling mechanism 03, a cleaning mechanism 04 and a lifting mechanism 05, wherein the water spraying mechanism 02 is arranged on the circulating mechanism 01, the air cooling mechanism 03 is arranged on the circulating mechanism 01, the cleaning mechanism 04 is arranged on the circulating mechanism 01, and the lifting mechanism 05 is arranged inside the circulating mechanism 01;

The lifting mechanism 05 comprises a telescopic rod 51, a lifting plate 52, a sliding sleeve 53, a threaded rod 54, a turbine 55 and a vortex rod 56, wherein the telescopic rod 51 is arranged in the immersed bin 11, the lifting plate 52 is arranged at the top end of the telescopic rod 51, the sliding sleeve 53 is arranged in the immersed bin 11, the threaded rod 54 is slidably arranged on the sliding sleeve 53, the other end of the threaded rod 54 is rotatably arranged at the bottom end of the lifting plate 52, the turbine 55 is rotatably arranged at the bottom end of the sliding sleeve 53, the turbine 55 is in threaded fit with the threaded rod 54, the vortex rod 56 is rotatably arranged on the side wall of the immersed bin 11, and the vortex rod 56 is meshed with the turbine 55;

The cooling liquid in the immersion bin 11 and the radiator 12 is driven to circulate by opening the first water pump 13, the cooling liquid in the immersion bin 11 is further led to enter the radiator 12 through the pipeline, the cooling liquid is radiated through the radiator 12, then the cooling liquid is cooled through the cooler 14, the cooling quality of the cooling liquid is improved, the water spraying mechanism 02 is convenient for spraying water to the circulation mechanism 01, the radiating efficiency is improved, the air cooling mechanism 03 is used for blowing and radiating the circulation mechanism 01, the radiating quality is improved, the cleaning mechanism 04 is used for cleaning the circulation mechanism 01, the practicability is improved, when the immersion depth of a server component is to be adjusted, the vortex rod 56 is rotated, the turbine 55 is driven to rotate through the engagement relationship, then the threaded rod 54 is driven to slide in the sliding sleeve 53 through the threaded relationship, and then the lifting plate 52 is driven to lift and the telescopic rod 51 is driven to shrink, and the immersion depth is adjusted.

As shown in fig. 1 to 5, in the cooling liquid immersing mechanism for a server component, when the cooling liquid immersing mechanism works, the first water pump 13 is turned on to drive cooling liquid in the immersing bin 11 and the radiator 12 to circulate, so that the cooling liquid in the immersing bin 11 enters the radiator 12 through a pipeline, the cooling liquid is cooled through the radiator 12, then the cooling liquid is cooled through the cooler 14, the cooling quality of the cooling liquid is improved, firstly, water is added into the water tank 23, then the water in the water tank 23 is added into the spray pipe 21 through the second water pump 24, then the spray head 22 is turned on, heat exchange is carried out between the evaporation of the water and the radiator 12, the cooling efficiency of the cooling liquid is improved, the fan blade 32 is driven to rotate through the fan blade 32, the cooling efficiency is improved, when the radiator 12 is to be cleaned, the lead screw motor 45 is turned on, then the cleaning plate 44 is driven to slide on the guide rod 43 through a threaded relation, the clearance of the radiator 12 is cleaned through the cleaning plate 44, the practicality is improved, when the server component is required to be cleaned, the depth of the cooling device is adjusted through the water is turned on, the depth of the expansion and contraction sleeve is driven through the threaded rod 52, and the expansion and contraction of the expansion sleeve is driven through the threaded rod 53.

The first water pump 13, the cooler 14, the second water pump 24, the air-cooled motor 33 and the cleaning motor 45 are purchased on the market, and a person skilled in the art only needs to install and operate according to the attached instruction manual without creative labor of the person skilled in the art.

The main functions realized by the utility model are as follows: in the working process of the server component cooling liquid immersion, the cooling liquid heat dissipation efficiency and quality are improved, the immersion depth is convenient to adjust, and the practicability is improved.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that it will be apparent to those skilled in the art that modifications and variations can be made without departing from the technical principles of the present utility model, and these modifications and variations should also be regarded as the scope of the utility model.

Claims

1. A server component cooling liquid immersion mechanism, comprising an immersion chamber (11); characterized in that it also comprises a circulation mechanism (01), a water spraying mechanism (02), an air cooling mechanism (03), a cleaning mechanism (04) and a lifting mechanism (05), wherein the water spraying mechanism (02) is mounted on the circulation mechanism (01), the air cooling mechanism (03) is mounted on the circulation mechanism (01), the cleaning mechanism (04) is mounted on the circulation mechanism (01), and the lifting mechanism (05) is mounted inside the circulation mechanism (01);

The circulation mechanism (01) is convenient for circulating the coolant and dissipating heat, the water spraying mechanism (02) is convenient for spraying water on the circulation mechanism (01), the air cooling mechanism (03) is convenient for blowing air to dissipate heat on the circulation mechanism (01), the cleaning mechanism (04) is convenient for cleaning the circulation mechanism (01), and the lifting mechanism (05) is convenient for adjusting the immersion depth of server components.

2. A server component cooling liquid immersion mechanism as described in claim 1, characterized in that the circulation mechanism (01) includes an immersion chamber (11), a radiator (12), a first water pump (13) and a cooler (14), the radiator (12) is connected to the immersion chamber (11) through a pipeline, the first water pump (13) is installed on the side wall of the radiator (12), the first water pump (13) is connected to the immersion chamber (11) through a return pipe, the cooler (14) is installed on the return pipe, and a plurality of heat dissipation plates are arranged on the radiator (12).

3. A server component cooling liquid immersion mechanism as described in claim 2, characterized in that the water spray mechanism (02) includes a water spray pipe (21), a nozzle (22), a water tank (23) and a second water pump (24), the water spray pipe (21) is installed at the top of the radiator (12), the nozzle (22) is installed on the water spray pipe (21), the water tank (23) is installed on the side wall of the radiator (12), the second water pump (24) is installed on the side wall of the water tank (23), and the second water pump (24) is connected to the water spray pipe (21) through a pipeline.

4. A server component cooling liquid immersion mechanism as described in claim 2, characterized in that the air cooling mechanism (03) includes a mounting frame (31), fan blades (32) and an air cooling motor (33), the mounting frame (31) is mounted on the top of the radiator (12), the fan blades (32) are rotatably mounted on the mounting frame (31), the air cooling motor (33) is mounted on the top of the mounting frame (31), and the output end of the air cooling motor (33) is connected to the fan blades (32).

5. A server component coolant immersion mechanism as described in claim 2, characterized in that the cleaning mechanism (04) includes a cleaning bracket (41), a screw (42), a guide rod (43), a cleaning plate (44) and a cleaning motor (45), the cleaning bracket (41) is installed on the side wall of the radiator (12), the screw (42) is rotatably installed on the cleaning bracket (41), the guide rod (43) is installed on the cleaning bracket (41), the cleaning plate (44) is slidably installed on the guide rod (43), the cleaning plate (44) is threadedly matched with the screw (42), the cleaning motor (45) is installed at the top of the cleaning bracket (41), and the output end of the cleaning motor (45) is connected to the screw (42).

6. A server component cooling liquid immersion mechanism as described in claim 2, characterized in that the lifting mechanism (05) includes a telescopic rod (51), a lifting plate (52), a sliding sleeve (53), a threaded rod (54), a turbine (55) and a worm gear (56), the telescopic rod (51) is installed inside the immersion chamber (11), the lifting plate (52) is installed at the top of the telescopic rod (51), the sliding sleeve (53) is installed inside the immersion chamber (11), the threaded rod (54) is slidably installed on the sliding sleeve (53), the other end of the threaded rod (54) is rotatably installed on the bottom end of the lifting plate (52), the turbine (55) is rotatably installed on the bottom end of the sliding sleeve (53), the turbine (55) is threadedly matched with the threaded rod (54), the worm gear (56) is rotatably installed on the side wall of the immersion chamber (11), and the worm gear (56) is meshed with the turbine (55).