CN114115496A

CN114115496A - Integrated heat dissipation system of server for cloud storage

Info

Publication number: CN114115496A
Application number: CN202111469748.2A
Authority: CN
Inventors: 魏克书; 徐健康; 耿国军; 李光; 周凌霄
Original assignee: Shenzhen Jindingtai Technology Co ltd; Shenzhen University
Current assignee: Shenzhen Jindingtai Technology Co ltd; Shenzhen University
Priority date: 2021-12-03
Filing date: 2021-12-03
Publication date: 2022-03-01
Anticipated expiration: 2041-12-03
Also published as: CN114115496B

Abstract

The invention discloses an integrated heat dissipation system of a server for cloud storage, and relates to the technical field of servers for cloud storage. According to the invention, the air outlet can be exhausted only when air flows generated by air draft of the air draft pipe, the positions of the cloud storage unit cabinets correspond to the positions of the electric control valves one by one, if the cloud storage unit cabinet at a certain position in the server box body is in a non-working state, the electric control valve at the corresponding position can be correspondingly closed, and after the electric control valve is closed, the suction force of the air draft pipe cannot be transmitted to the air draft pipe at the position, so that the equipment cannot radiate the cloud storage unit cabinet in the non-working state, the radiation of the equipment can be intelligentized, and meanwhile, the waste of energy can be avoided.

Description

Integrated heat dissipation system of server for cloud storage

Technical Field

The invention relates to the technical field of servers for cloud storage, in particular to an integrated heat dissipation system of a server for cloud storage.

Background

The cloud storage server (ECS) is a simple, efficient, safe and reliable computing Service with elastically stretchable processing capacity, the management mode of the cloud storage server is simpler and more efficient than that of a physical server, a user can quickly create or release any plurality of cloud servers without purchasing hardware in advance, the cloud storage server is an important component of the cloud computing Service and is a Service platform for providing comprehensive Service capacity for various internet users, and the platform integrates three core elements of internet application in the traditional sense: the cloud storage server can emit a large amount of heat in the using process and usually needs auxiliary heat dissipation of a heat dissipation system so as to ensure that the cloud storage server can work normally.

The server cooling system for cloud storage in the market is not intelligent enough in heat dissipation, and the cloud storage unit cabinet in the server for cloud storage is not all in operating condition all the time, and cooling system still can work when the cloud storage unit cabinet is in non-operating condition, and this leads to the waste of the energy easily.

Disclosure of Invention

The present invention is directed to an integrated heat dissipation system of a server for cloud storage, so as to solve the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: an integrated heat dissipation system of a server for cloud storage comprises a server box body, a heat dissipation box body and a heat storage assembly, wherein cloud storage unit cabinets are arranged on two sides of the interior of the server box body, the heat dissipation box body is arranged on the outer side of the top of the server box body, a water inlet pipe is connected to the outer side of the left portion of the heat dissipation box body, a partition plate is arranged at the middle end of the inner side of the heat dissipation box body, the heat storage assembly is arranged on the inner side of the heat dissipation box body, a water through pipe is connected to the outer side of the right portion of the heat dissipation box body, a water diversion box is arranged at the tail end of the water through pipe, a cooling pipe is connected to the outer side of the bottom of the water diversion box body, a heat dissipation groove is formed in the middle end of the inner side of the server box body, drain pipes are connected to two sides of the bottom of the heat dissipation box body, first fans are connected to two sides of the bottom of the heat dissipation box body, a second fan is arranged at the middle end of the bottom of the heat dissipation box body, and the inboard of wind-guiding groove is settled there is the accent wind subassembly, the inboard middle-end of server box is connected with the ventilating board, and the inboard middle-end of ventilating board has seted up the ventilating groove, the air outlet has been seted up to the outside both sides in ventilating groove, the inside both sides of heat dissipation box are connected with the exhaust column, and the outside of exhaust column is provided with communicating pipe, the outside of communicating pipe is connected with electric control valve, the end-to-end connection of communicating pipe has the concentration pipe, and the end-to-end connection of concentration pipe has the aspiration channel.

Preferably, the heat dissipation box body and the server box body are of an integrated structure, and the partition plate is connected with the heat dissipation box body in a welding mode.

Preferably, the heat storage assembly comprises a heat conduction plate, a phase-change material box, a sealing box plate and locking bolts, the phase-change material box is connected to the surface of the outer side of the heat conduction plate, the sealing box plate is arranged on the outer side of the front portion of the phase-change material box, and the locking bolts are connected to the two sides of the outer portion of the phase-change material box.

Preferably, the heat conducting plate and the partition plate are vertically distributed, and the heat conducting plate is connected with the phase-change material box in a sleeved mode.

Preferably, the phase-change material box and the sealing box plate form threaded connection through a locking bolt, and the phase-change material is stored inside the phase-change material box.

Preferably, the cooling pipe is communicated with the drain pipe through a radiating groove, and the radiating groove is symmetrically distributed along the vertical central line of the server box body.

Preferably, the air adjusting assembly comprises an air permeable plate, a supporting seat, a motor and an air adjusting plate, the supporting seat is arranged on the outer side of the bottom of the air permeable plate, the motor is connected to the outer side of the top of the supporting seat, and the air adjusting plate is arranged on the outer side of the top of the motor.

Preferably, the air adjusting plate is rotatably connected with the motor, and the air adjusting plate and the ventilation plate are vertically distributed.

Preferably, the air outlet and the exhaust pipe are located on the same straight line, and the air outlet and the exhaust pipe are in one-to-one correspondence.

Preferably, the exhaust pipe is communicated with the centralized pipe through a communicating pipe, and the communicating pipe is welded with the centralized pipe.

The invention provides an integrated heat dissipation system of a server for cloud storage, which has the following beneficial effects: ordinary cold water gets into the radiating box inside after, can absorb the heat that the heat-retaining subassembly stored and become the cooling water, this makes equipment still can dispel the heat to the server box after losing the external cooling supply, slowly rotate through making the air register, the vent that enables the guide duct becomes gradually, this can avoid disposable heat conduction cold air too much, condense into the globule on cloud storage unit cabinet surface, the condition that leads to the inboard intaking of equipment takes place, this is favorable to lifting means's stability in use, the back is closed to the accuse valve, the suction of aspiration channel just can not transmit to on the exhaust column of this position, this makes equipment can not dispel the heat to inoperative state's cloud storage unit cabinet.

1. The heat storage assembly collects the heat of the cooling water, so that the whole heat storage assembly has lower temperature, when the external cooling water stops supplying due to failure or maintenance, the water inlet pipe can be filled with common cold water to enter the inner side of the heat dissipation box body, and the heat stored by the heat storage assembly can be absorbed to be changed into the cooling water after the common cold water enters the inner side of the heat dissipation box body, so that the equipment can still dissipate the heat of the server box body after losing the external cooling supply, and the equipment has better capability of coping with sudden conditions.

2. The cooling pipe is communicated with the heat dissipation grooves, the heat dissipation grooves are uniformly distributed in the inner wall of the server box body, cold water flows in the inner side of the heat dissipation grooves, the whole server box body can be cooled, in addition, the first fans on two sides in the heat dissipation box body work, high-speed gas can be blown out of the air guide grooves, when the high-speed gas flows through the phase-change material box and the heat conduction plate, the heat stored in the heat storage component can be taken away together, at the moment, the second fan works, the high-speed gas with cold air can be blown into the air guide grooves, the air guide grooves are communicated with the ventilation grooves of the ventilation plates, the ventilation grooves can guide the cold air into the inner side of the server box body through the air outlets and blow the cold air onto the cloud storage unit cabinet, and the whole heat dissipation effect of equipment can be improved by adopting air-cooling and water-cooling double-mixing type heat dissipation.

3. The air adjusting plate can rotate by the aid of the motor, the air adjusting plate can be overlapped and staggered with the ventilation plate in the rotating process of the air adjusting plate, so that sizes of ventilation openings of the air guide grooves can be changed, the ventilation openings of the air guide grooves can be gradually enlarged by slowly rotating the air adjusting plate in the process of introducing cold air into the air guide grooves, the phenomenon that water enters the inner side of equipment due to the fact that too much cold air is once conducted and small water drops are condensed on the surface of a cloud storage unit cabinet can be avoided, and the use stability of the equipment is favorably improved.

4. The suction force generated by the air suction pipe can be transmitted to the air suction pipe through the communicating pipe, so that the air suction pipe can suck heat generated by work in equipment, in addition, the air suction pipe and the air outlet are positioned on the same straight line, the flow of cold air blown out from the air outlet can be accelerated through air suction of the air suction pipe, the heat dissipation effect of the cloud storage unit cabinets can be improved, in addition, the air suction pipe and the air outlet are arranged on the upper side and the lower side of each cloud storage unit cabinet, and the heat dissipation uniformity of the equipment can be improved.

5. According to the invention, the air outlet can be exhausted only when air flows generated by air draft of the air draft pipe, the positions of the cloud storage unit cabinets correspond to the positions of the electric control valves one by one, if the cloud storage unit cabinet at a certain position in the server box body is in a non-working state, the electric control valve at the corresponding position can be correspondingly closed, and after the electric control valve is closed, the suction force of the air draft pipe cannot be transmitted to the air draft pipe at the position, so that the equipment cannot radiate the cloud storage unit cabinet in the non-working state, the radiation of the equipment can be intelligentized, and meanwhile, the waste of energy can be avoided.

Drawings

Fig. 1 is a schematic front view of an integrated heat dissipation system of a cloud storage server according to the present invention;

fig. 2 is a schematic side view of a heat dissipation box of an integrated heat dissipation system of a server for cloud storage according to the present invention;

fig. 3 is a schematic structural view of a heat storage assembly of an integrated heat dissipation system of a cloud storage server according to the present invention;

fig. 4 is a schematic diagram of a structure of a water distribution box of an integrated heat dissipation system of a server for cloud storage according to the present invention;

fig. 5 is a schematic cross-sectional view of a server box of an integrated heat dissipation system of a server for cloud storage according to the present invention;

fig. 6 is a schematic cross-sectional view of an air adjustment assembly of an integrated heat dissipation system of a server for cloud storage according to the present invention;

fig. 7 is a schematic top view of a wind adjustment assembly of an integrated heat dissipation system of a server for cloud storage according to the present invention;

fig. 8 is an enlarged schematic structural diagram of a point a in fig. 1 of an integrated heat dissipation system of a server for cloud storage according to the present invention.

In the figure: 1. a server box body; 2. a cloud storage unit cabinet; 3. a heat dissipation box body; 4. a water inlet pipe; 5. a partition plate; 6. a heat storage assembly; 601. a heat conducting plate; 602. a phase change material cartridge; 603. sealing the box plate; 604. a locking bolt; 7. a water pipe; 8. a water distribution box; 9. a cooling tube; 10. a heat sink; 11. a drain pipe; 12. a first fan; 13. a second fan; 14. a wind guide groove; 15. a wind adjusting assembly; 1501. a ventilation plate; 1502. a supporting seat; 1503. a motor; 1504. an air adjusting plate; 16. a ventilation board; 17. a ventilation slot; 18. an air outlet; 19. an exhaust pipe; 20. a communicating pipe; 21. an electrically controlled valve; 22. a concentration pipe; 23. an air suction pipe.

Detailed Description

Referring to fig. 1-8, the present invention provides a technical solution: an integrated heat dissipation system of a server for cloud storage comprises a server box body 1, a heat dissipation box body 3 and a heat storage assembly 6, wherein cloud storage unit cabinets 2 are arranged on two sides of the interior of the server box body 1, the heat dissipation box body 3 is arranged on the outer side of the top of the server box body 1, a water inlet pipe 4 is connected to the outer side of the left portion of the heat dissipation box body 3, a partition plate 5 is arranged at the middle end of the inner side of the heat dissipation box body 3, the heat storage assembly 6 is arranged on the inner side of the heat dissipation box body 3, a water pipe 7 is connected to the outer side of the right portion of the heat dissipation box body 3, a water diversion box 8 is arranged at the tail end of the water pipe 7, a cooling pipe 9 is connected to the outer side of the bottom of the water diversion box 8, a heat dissipation groove 10 is formed in the middle end of the inner side of the server box body 1, drain pipes 11 are connected to two sides of the bottom of the server box body 1, first fans 12 are connected to two sides of the bottom of the heat dissipation box body 3, and a second fan 13 is arranged at the middle end of the bottom of the partition plate 5, air guide groove 14 has been seted up to the bottom middle-end of heat dissipation box 3, and air guide groove 14's inboard arrangement has air regulation subassembly 15, server box 1's inboard middle-end is connected with ventilating board 16, and ventilating board 16's inboard middle-end has been seted up ventilating groove 17, air outlet 18 has been seted up to ventilating groove 17's outside both sides, heat dissipation box 3's inside both sides are connected with exhaust column 19, and exhaust column 19's the outside is provided with communicating pipe 20, the outside of communicating pipe 20 is connected with electric control valve 21, the end-to-end connection of communicating pipe 20 has centralized pipe 22, and the end-to-end connection of centralized pipe 22 has aspiration channel 23.

Referring to fig. 1-3, the heat dissipation case 3 and the server case 1 are integrated, the partition plate 5 is welded to the heat dissipation case 3, the heat storage assembly 6 includes a heat conduction plate 601, a phase-change material box 602, a sealing box plate 603 and a locking bolt 604, the outer surface of the heat conduction plate 601 is connected with the phase-change material box 602, the sealing box plate 603 is disposed on the outer side of the front portion of the phase-change material box 602, the locking bolts 604 are connected to two outer sides of the phase-change material box 602, the heat conduction plate 601 and the partition plate 5 are vertically distributed, the heat conduction plate 601 is connected with the phase-change material box 602 in a sleeved manner, the phase-change material box 602 and the sealing box plate 603 form a threaded connection through the locking bolt 604, and the phase-change material is stored in the inner side of the phase-change material box 602;

the operation is as follows, the water inlet pipe 4 can lead cooling water into the inner side of the heat dissipation box 3, the cooling water entering the heat dissipation box 3 can be blocked by the partition plate 5, so that the cooling water flows only at the top of the heat dissipation box 3, the cooling water can transfer the heat of the cooling water to the heat conduction plate 601 in the flowing process, the heat conduction plate 601 can transfer the heat to the inside of the phase change material box 602 after receiving the heat, and the phase change material of the phase change material box 602 can absorb and store the heat, the heat conduction plate 601 penetrates through the partition plate 5, and a plurality of phase change material boxes 602 are hung on the outer side of the heat conduction plate 601, so that the heat conduction plate 601 can transfer the heat of the cooling water to the phase change material box 602 at the bottom of the partition plate 5, the cooling water can be led into the inner side of the server box 1 through the water pipe 7 to dissipate the heat of the server box 1 after flowing out from the heat dissipation box 3, and the heat of the cooling water can be collected through the heat storage component 6, the whole heat storage assembly 6 can be enabled to have lower temperature, when external cooling water stops supplying due to faults or maintenance, the water inlet pipe 4 can be filled with common cold water to enter the inner side of the heat dissipation box body 3, after the common cold water enters the inner side of the heat dissipation box body 3, the heat stored in the heat storage assembly 6 can be absorbed to be changed into cooling water, the equipment can still dissipate heat of the server box body 1 after losing external cooling supply, the equipment has better capacity of coping with sudden situations, in addition, the equipment can be used for separating the sealing box plate 603 from the phase change material box 602 by unscrewing the locking bolt 604 on the outer side of the phase change material box 602 in the maintenance process, the working personnel can replace the phase change material in the phase change material box 602 regularly, and the phase change material in the phase change material box 602 can be ensured to keep better heat storage effect for a long time.

Referring to fig. 4-7, the cooling pipe 9 is communicated with the drain pipe 11 through the heat dissipation groove 10, the heat dissipation groove 10 is symmetrically distributed along the vertical center line of the server box 1, the air adjusting assembly 15 includes an air permeable plate 1501, a support base 1502, a motor 1503 and an air adjusting plate 1504, the support base 1502 is arranged on the outer side of the bottom of the air permeable plate 1501, the motor 1503 is connected to the outer side of the top of the support base 1502, the air adjusting plate 1504 is arranged on the outer side of the top of the motor 1503, the air adjusting plate 1504 is rotatably connected with the motor 1503, and the air adjusting plate 1504 and the air permeable plate 1501 are vertically distributed;

the operation is as follows, the cooling water flowing out from the water pipe 7 can flow into the inner side of the water distribution box 8 at the top inner side of the server box 1, the cooling water can flow into each cooling pipe 9 evenly by the distribution of the water distribution box 8, the cooling pipes 9 are communicated with the heat dissipation grooves 10, the heat dissipation grooves 10 are evenly distributed in the inner wall of the server box 1, the whole server box 1 can be cooled by making the cold water flow in the inner side of the heat dissipation grooves 10, in addition, the first fan 12 at the two sides of the inner part of the heat dissipation box 3 works to blow high-speed gas to the wind guide grooves 14, the high-speed gas can bring away the heat stored in the heat storage component 6 when flowing through the phase change material box 602 and the heat conduction plate 601, at the moment, the second fan 13 works to blow the high-speed gas with cold air into the wind guide grooves 14, the wind guide grooves 14 are communicated with the ventilation grooves 17 of the ventilation plate 16, and the ventilation grooves 17 can guide the cold air into the inner side of the server box 1 through the wind outlet 18, and blows on the cloud storage unit cabinet 2, through adopting the inside and outside dual hybrid heat dissipation of forced air cooling water-cooling, can promote the whole radiating effect of equipment, work through motor 1503 at supporting seat 1502 top, enable air adjusting plate 1504 to rotate, the rotatory in-process of air adjusting plate 1504, can overlap crisscross with ventilative board 1501, this makes the vent size of wind-guiding groove 14 change, at wind-guiding groove 14 to the leading-in-process of cold air, through making air adjusting plate 1504 slowly rotate, can make the vent of wind-guiding groove 14 grow gradually, this can avoid disposable heat conduction cold air too much, become the globule on cloud storage unit cabinet 2 surface condensation, lead to the condition of equipment inboard intaking to take place, this is favorable to promoting the stability in utilization of equipment.

Referring to fig. 1, 5 and 8, the air outlet 18 and the air exhaust pipe 19 are located on the same straight line, the air outlet 18 and the air exhaust pipe 19 are in one-to-one correspondence, the air exhaust pipe 19 is communicated with the concentration pipe 22 through a communicating pipe 20, and the communicating pipe 20 is welded with the concentration pipe 22;

the operation is as follows, the suction pipe 23 can be connected with external air draft equipment, the suction pipe 23 can generate strong suction force through the work of the air draft equipment, the suction force generated by the suction pipe 23 can be transmitted to the air exhaust pipe 19 through the communicating pipe 20, so that the air exhaust pipe 19 can exhaust heat generated by the work in the equipment, in addition, the air exhaust pipe 19 and the air outlet 18 are positioned on the same straight line, the flow of cold air blown out from the air outlet 18 can be accelerated through the air exhaust of the air exhaust pipe 19, so that the heat dissipation effect of the cloud storage unit cabinet 2 can be improved, in addition, the air exhaust pipe 19 and the air outlet 18 are respectively arranged at the upper side and the lower side of each cloud storage unit cabinet 2, so that the uniformity of the heat dissipation of the equipment can be improved, the air outlet 18 can be exhausted only when the air generated by the air exhaust pipe 19 flows, the positions of the cloud storage unit cabinets 2 correspond to the positions of the electric control valves 21 one by one, if the cloud storage unit cabinet 2 at a certain position inside the server box body 1 is in a non-working state, the electric control valve 21 corresponding to the position is also closed correspondingly, after the electric control valve 21 is closed, the suction force of the air suction pipe 23 cannot be transmitted to the air suction pipe 19 at the position, so that the equipment cannot dissipate heat of the cloud storage unit cabinet 2 in a non-working state, the heat dissipation of the equipment can be intelligentized, and meanwhile, the energy waste can be avoided.

In summary, when the integrated heat dissipation system of the server for cloud storage is used, firstly, the water inlet pipe 4 can guide cooling water into the inner side of the heat dissipation box body 3, the cooling water entering the heat dissipation box body 3 can be blocked by the partition plate 5, so that the cooling water flows only at the top of the heat dissipation box body 3, the cooling water can transfer the heat of the cooling water to the heat conduction plate 601 in the flowing process, the heat conduction plate 601 can transfer the heat to the interior of the phase-change material box 602 after receiving the heat, the phase-change material of the phase-change material box 602 absorbs and stores the heat, the heat conduction plate 601 penetrates through the partition plate 5, and the plurality of phase-change material boxes 602 are hung on the outer side of the heat conduction plate 601, so that the heat of the cooling water can be transferred to the phase-change material box 602 positioned at the bottom of the partition plate 5 by the heat conduction plate 601;

then, after the cooling water flows out of the heat dissipation box body 3, the cooling water can flow into the inner side of a water distribution box 8 positioned on the inner side of the top of the server box body 1 through a water pipe 7, the cooling water can uniformly flow into each cooling pipe 9 through the distribution of the water distribution box 8, the cooling pipes 9 are communicated with heat dissipation grooves 10, the heat dissipation grooves 10 are uniformly distributed in the inner wall of the server box body 1, and the whole server box body 1 can be cooled by making the cold water flow in the inner side of the heat dissipation grooves 10;

then, the first fans 12 on two sides inside the heat dissipation box 3 work to blow high-speed gas to the air guide groove 14, when the high-speed gas flows through the phase change material box 602 and the heat conducting plate 601, the heat stored in the heat storage assembly 6 can be taken away together, at the moment, the second fan 13 works to blow the high-speed gas with cold air into the air guide groove 14, the air guide groove 14 is communicated with the ventilation groove 17 of the ventilation plate 16, and the ventilation groove 17 can guide the cold air into the inner side of the server box 1 through the air outlet 18 to dissipate heat of the server box 1;

then, the motor 1503 on the top of the support base 1502 works to enable the air adjusting plate 1504 to rotate, and the air adjusting plate 1504 can be overlapped and staggered with the air permeable plate 1501 in the rotating process, so that the size of the ventilation opening of the air guide groove 14 can be changed, and in the process of guiding cold air into the air guide groove 14, the ventilation opening of the air guide groove 14 can be gradually enlarged by slowly rotating the air adjusting plate 1504, so that the phenomenon that the excessive hot cold air is once conducted and is condensed into small water beads on the surface of the cloud storage unit cabinet 2 to cause water inflow inside the equipment is avoided;

then, the suction pipe 23 is connected with external air draft equipment, the suction pipe 23 can generate strong suction force through the work of the air draft equipment, the suction force generated by the suction pipe 23 can be transmitted to the air draft pipe 19 through the communicating pipe 20, so that the air draft pipe 19 can suck heat generated by the work in the equipment, in addition, the air draft pipe 19 and the air outlet 18 are positioned on the same straight line, the flow of cold air blown out by the air outlet 18 can be accelerated through the air draft of the air draft pipe 19, the heat dissipation effect of the cloud storage unit cabinet 2 can be improved, in addition, the air draft pipe 19 and the air outlet 18 are arranged on the upper side and the lower side of each cloud storage unit cabinet 2, the heat dissipation uniformity of the equipment can be improved, the air outlet 18 can be exhausted only when the air is generated by the air draft pipe 19, the positions of the cloud storage unit cabinets 2 correspond to the positions of the electric control valves 21 one to one, if the cloud storage unit cabinet 2 at a certain position inside the server box body 1 is in a non-working state, the electric control valve 21 at the corresponding position is correspondingly closed, and after the electric control valve 21 is closed, the suction force of the air suction pipe 23 is not transmitted to the air suction pipe 19 at the position, so that the equipment does not radiate the cloud storage unit cabinet 2 in a non-working state, the radiation of the equipment can be intelligentized, and meanwhile, the waste of energy can be avoided;

finally, the heat of the cooling water is collected by the heat storage component 6, so that the whole heat storage component 6 has lower temperature, when the external cooling water stops supplying due to failure or maintenance, the water inlet pipe 4 can introduce common cold water into the inner side of the heat dissipation box body 3, the common cold water can absorb the heat stored in the heat storage component 6 to become cooling water after entering the inner side of the heat dissipation box body 3, this enables the equipment to dissipate heat from the server box 1 after it loses its external cooling supply, which enables the equipment to have a better ability to cope with emergency situations, and in addition, by loosening the locking bolts 604 on the outside of the phase change material cartridge 602, the capsule plate 603 can be separated from the phase change material cartridge 602, this enables the staff to carry out periodic replacement to the phase change material in the phase change material box 602, and this can guarantee that the phase change material in the phase change material box 602 can keep better heat storage effect for a long time.

Claims

1. The integrated heat dissipation system of the server for cloud storage is characterized by comprising a server box body (1), a heat dissipation box body (3) and a heat storage assembly (6), wherein cloud storage unit cabinets (2) are arranged on two sides of the inside of the server box body (1), the heat dissipation box body (3) is arranged on the outer side of the top of the server box body (1), a water inlet pipe (4) is connected to the outer side of the left portion of the heat dissipation box body (3), a partition plate (5) is arranged at the middle end of the inner side of the heat dissipation box body (3), the heat storage assembly (6) is arranged on the inner side of the heat dissipation box body (3), a water service pipe (7) is connected to the outer side of the right portion of the heat dissipation box body (3), a water diversion box (8) is arranged at the tail end of the water service pipe (7), a cooling pipe (9) is connected to the outer side of the bottom of the water diversion box (8), and a heat dissipation groove (10) is formed in the middle end of the inner side of the server box body (1), and both sides of the bottom of the server box body (1) are connected with drain pipes (11), both sides of the bottom of the heat dissipation box body (3) are connected with first fans (12), the middle end of the bottom of the partition plate (5) is provided with a second fan (13), the middle end of the bottom of the heat dissipation box body (3) is provided with a wind guide groove (14), the inner side of the wind guide groove (14) is provided with a wind adjusting component (15), the middle end of the inner side of the server box body (1) is connected with a ventilating plate (16), the middle end of the inner side of the ventilating plate (16) is provided with a ventilating groove (17), both sides of the outer part of the ventilating groove (17) are provided with air outlets (18), both sides of the inner part of the heat dissipation box body (3) are connected with air exhaust pipes (19), the outer side of the air exhaust pipes (19) is provided with communicating pipes (20), the outer side of the communicating pipes (20) is connected with an electric control valve (21), the tail end of the communicating pipes (20) is connected with a concentration pipe (22), and the tail end of the concentration pipe (22) is connected with an air suction pipe (23).

2. The integrated heat dissipation system of the cloud storage server as claimed in claim 1, wherein the heat dissipation box (3) and the server box (1) are of an integrated structure, and the partition plate (5) is welded to the heat dissipation box (3).

3. The integrated heat dissipation system of the cloud storage server according to claim 1, wherein the heat storage assembly (6) comprises a heat conduction plate (601), a phase-change material box (602), a sealing box plate (603) and a locking bolt (604), the phase-change material box (602) is connected to the outer side surface of the heat conduction plate (601), the sealing box plate (603) is arranged on the outer side of the front portion of the phase-change material box (602), and the locking bolt (604) is connected to two outer sides of the phase-change material box (602).

4. The integrated heat dissipation system of a cloud storage server of claim 3, wherein the heat conducting plates (601) are vertically distributed with the partition plate (5), and the heat conducting plates (601) are connected with the phase-change material box (602) in a sleeved manner.

5. The integrated heat dissipation system of a cloud storage server according to claim 3, wherein the phase change material box (602) and the sealing box plate (603) are in threaded connection through a locking bolt (604), and the phase change material is stored inside the phase change material box (602).

6. The integrated heat dissipation system of a server for cloud storage according to claim 1, wherein the cooling pipe (9) is communicated with the drain pipe (11) through heat dissipation grooves (10), and the heat dissipation grooves (10) are symmetrically distributed along a vertical center line of the server box body (1).

7. The integrated heat dissipation system of the cloud storage server according to claim 1, wherein the air adjusting assembly (15) comprises a ventilating plate (1501), a supporting seat (1502), a motor (1503) and an air adjusting plate (1504), the supporting seat (1502) is arranged on the outer side of the bottom of the ventilating plate (1501), the motor (1503) is connected to the outer side of the top of the supporting seat (1502), and the air adjusting plate (1504) is arranged on the outer side of the top of the motor (1503).

8. The integrated heat dissipation system of a cloud storage server as claimed in claim 7, wherein the air adjusting plate (1504) is rotatably connected to the motor (1503), and the air adjusting plate (1504) and the air permeable plate (1501) are vertically distributed.

9. The integrated heat dissipation system of a cloud storage server according to claim 1, wherein the air outlet (18) and the air exhaust pipe (19) are located on the same straight line, and the air outlet (18) and the air exhaust pipe (19) are in one-to-one correspondence.

10. The integrated heat dissipation system of a cloud storage server according to claim 9, wherein the exhaust pipe (19) is communicated with the concentration pipe (22) through a communication pipe (20), and the communication pipe (20) is welded to the concentration pipe (22).