CN112911898A

CN112911898A - Practical miniature cloud computing server machine room

Info

Publication number: CN112911898A
Application number: CN202110062660.2A
Authority: CN
Inventors: 曹国梁; 谷大明; 赵兴朋; 刘木贞; 陈士明
Original assignee: SHANDONG ZHONGZHI ELECTRONICS CO Ltd
Current assignee: SHANDONG ZHONGZHI ELECTRONICS CO Ltd
Priority date: 2021-01-18
Filing date: 2021-01-18
Publication date: 2021-06-04

Abstract

The invention discloses a practical miniature cloud computing server room, which comprises a cabinet body, wherein a plurality of mounting plates are fixedly connected to the inside of the cabinet body at equal intervals, a plurality of heat dissipation water cabinets are fixedly connected to the upper ends of the mounting plates, the heat dissipation water cabinets on the same mounting plate are connected through water guide channels, fixing components are arranged above the heat dissipation water cabinets, the fixing components on the same mounting plate are connected through fixing frames, the heat dissipation water cabinets on the mounting plates are connected through water cooling pipelines, two ends of each water cooling pipeline are connected with water cooling tanks, and pipeline filtering components are also connected to water pouring pipelines; through setting up the heat dissipation water tank at the lower extreme of each miniature cloud ware, can dispel the heat to the cooling of miniature cloud ware, its cooling is effectual, and can not produce noise and vibration, is fit for the server computer lab and uses.

Description

Practical miniature cloud computing server machine room

Technical Field

The invention relates to the technical field of server rooms, in particular to a practical miniature cloud computing server room.

Background

Cloud computing is believed to be the third IT wave that has been around personal PCs and the internet, which will change the way people acquire, process and store information. Cloud computing uses the transmission capability of the high-speed internet, transfers the processing process of data from a personal computer or a server to a large-scale cloud computing center, provides computing power and storage capacity to users in a service mode, and enables the users to use the computing power like using electric power, tap water and other public facilities and to charge according to the usage amount.

In a traditional Data center idc (internet Data center) machine room, each server needs to be connected with a power line and a network cable to work, a large number of power lines and network cables need to be configured in the machine room and a server cabinet, wiring is complex, and mistakes are easy to make. The volume ratio of traditional server is bigger, and standard 1U server dispels the heat through inside a plurality of fans usually, and the noise that the fan sent is very big, and the radiating efficiency is not good. The PUE (Power Usage efficiency) value of the machine room is high, high energy consumption is high, and the machine room is not environment-friendly.

When the existing water cooling device is used, the temperature of cooling liquid is easy to rise, and the cooling effect is influenced. The cooling liquid can generate more impurities after being used for a long time, the impurities flow in the circulating water system for a long time, the water flow of a pipeline or a valve and other parts can be blocked, the problem of water quantity reduction is caused, and the heat conduction, heat transfer and cooling performances of the cooling water are reduced; however, the filter is blocked after long-term use, and when the filter is blocked, the water cooling system needs to be closed for cleaning and replacement, so that the heat dissipation effect of the micro cloud server is influenced

Disclosure of Invention

The invention aims to provide a practical miniature cloud computing server room, and solves the technical problem.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a miniature cloud computing server computer lab of practicality, the intelligent cabinet temperature adjusting device comprises a cabinet body, a plurality of mounting panels of the inside equidistance fixedly connected with of the cabinet body, it is a plurality of the equal a plurality of heat dissipation water tanks of fixedly connected with in upper end of mounting panel, it is same connect through water guide channel between a plurality of heat dissipation water tanks of mounting panel, it is a plurality of the top of heat dissipation water tank all is equipped with fixed subassembly, it is same the mounting panel fixed subassembly all connects through the mount, and is a plurality of connect through water cooling pipeline between the heat dissipation water tank on the mounting panel, water cooling pipeline's both ends are connected with the water cooling tank, still be connected with pipeline filter component.

Preferably, the top end of the inner wall of the cabinet body is fixedly connected with a temperature sensor, the bottom of the cabinet body is provided with a controller, and the temperature sensor is electrically connected with the controller.

Preferably, the heat dissipation water tank is made of aluminum, and the periphery of the heat dissipation water tank is fixedly connected with the accommodating groove.

Preferably, the fixing assembly comprises a pressing plate, two first sliding rods are fixedly connected to two sides of the upper end of the pressing plate, the upper ends of the first sliding rods penetrate through the fixing frame and are fixedly connected with limiting blocks, a first pressure spring is sleeved on the first sliding rods, and the first pressure spring is located between the fixing frame and the pressing plate.

Preferably, the middle part of the pressing plate is provided with an opening, and the lower ends of the two sides of the pressing plate are fixedly connected with baffle plates.

Preferably, the water cooling pipeline is further connected with a booster pump, the water cooling tank is provided with a refrigerating element, and a driving circuit of the booster pump is connected with the controller.

Preferably, the cold end of the refrigeration element is located on the inner wall surface of the water cooling tank, the hot end of the refrigeration element is located on the outer wall surface of the water cooling tank, the cold end of the refrigeration element is provided with a refrigeration plate, the hot end of the refrigeration element is provided with a heat dissipation plate, a plurality of heat dissipation fins are uniformly distributed on the surface of the heat dissipation plate, and the refrigeration element is electrically connected with the controller.

Preferably, the pipeline filtering component comprises a main filtering pipeline and a standby filtering pipeline, the water inlet ends of the main filtering pipeline and the standby filtering pipeline are connected with an electric three-way valve, the electric three-way valve is further connected with a water cooling pipeline, the water outlet ends of the main filtering pipeline and the standby filtering pipeline are connected with the water cooling pipeline through a three-way pipe fitting, and pipeline filters are arranged on the main filtering pipeline and the standby filtering pipeline.

Preferably, be connected with the aqueduct that an slope set up on the main filtration pipeline, the one end fixedly connected with pipe plug of aqueduct, sliding connection has slide bar two on the pipe plug, the one end of slide bar two extends to in the aqueduct and fixedly connected with piston piece, piston piece sliding connection is in the aqueduct, the other end fixedly connected with push pedal of slide bar two, the top of push pedal is equipped with travel switch, travel switch connects electric three-way valve's drive circuit, be connected with the sealing washer between slide bar two and the pipe plug, the cover is equipped with pressure spring two on the slide bar two, the pressure spring is two and is located between pipe plug and the piston piece.

Preferably, the practical miniature cloud computing server room specifically comprises the following working modes:

s1, when a micro cloud server is installed, lifting a pressing plate, placing the micro cloud server at the upper end of a radiating water tank, loosening the pressing plate, and driving the pressing plate to descend by a pressure spring to fix the micro cloud server;

s2, monitoring the internal temperature of the cabinet body in real time by a temperature sensor, sending a signal to a controller by the temperature sensor when the internal temperature of the cabinet body reaches a threshold value, starting a booster pump by the controller, and circulating cooling liquid in a water cooling tank among the heat dissipation water cabinets through a water cooling pipeline by the booster pump, so that the temperature of the heat dissipation water cabinets is maintained in a certain range, and the micro cloud server is subjected to heat dissipation;

s3, the refrigeration element works, a refrigeration plate at the cold end of the refrigeration element starts to absorb heat, the cooling liquid in the water cooling box is cooled, a heat dissipation plate at the hot end of the refrigeration element starts to release heat, and the heat dissipation efficiency of the heat dissipation plate can be improved through the heat dissipation fins, so that the refrigeration effect of the refrigeration element is improved;

s4, filtering the cooling liquid in the water cooling pipeline through a pipeline filter in the main filtering pipeline before the cooling liquid flows back to the water cooling tank;

s5, when a pipeline filter of the main filtering pipeline works normally, cooling liquid in the main filtering pipeline pushes the piston block to ascend, so that the push plate is driven by the slide rod II to ascend to contact with the travel switch, and the travel switch controls the electric three-way valve to be communicated with the water cooling pipeline and the main filtering pipeline; when a pipeline filter in the main filtering pipeline is blocked, the water pressure in the main filtering pipeline is reduced, the second pressure spring pushes the piston block to be reduced, the piston block drives the push plate to be separated from the travel switch through the second slide bar, the travel switch controls the electric three-way valve to be communicated with the water cooling pipeline and the standby filtering pipeline, and the cooling liquid enters the standby filtering pipeline from the water cooling pipeline and enters the water cooling tank after being filtered by the pipeline filter in the standby filtering pipeline.

Compared with the prior art, the invention has the beneficial effects that:

1) according to the practical miniature cloud computing server room, the heat dissipation water cabinet is arranged at the lower end of each miniature cloud server, so that the miniature cloud servers can be subjected to heat dissipation and cooling, the cooling effect is good, noise and vibration cannot be generated, and the practical miniature cloud computing server room is suitable for being used in a server room; and through set up the refrigeration component in the water-cooling tank, can avoid the coolant liquid to rise temperature after long-time use, guaranteed that the temperature of coolant liquid maintains in the specified scope, improved water-cooling system's cooling effect.

2) This miniature cloud computing server computer lab of practicality can carry out quick fixed to each miniature cloud ware through setting up fixed subassembly, and can make the surface of heat dissipation water tank be hugged closely to miniature cloud ware's bottom through fixed subassembly, has guaranteed the cooling effect of heat dissipation water tank.

3) According to the practical miniature cloud computing server room, impurities generated by cooling liquid in the water cooling pipeline can be filtered by arranging the pipeline filtering assembly, so that the influence on the heat conduction, heat transfer and cooling performance of cooling water is avoided; and when the pipeline filter of the main filtering pipeline is blocked, the standby filtering pipeline can be automatically replaced and connected with the water cooling pipeline, so that the water cooling system can be ensured to continuously work when the filter is cleaned and replaced, and the cooling effect is not influenced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged view of part A of FIG. 1;

FIG. 3 is a schematic structural view of a duct filter assembly of the present invention;

FIG. 4 is a partially enlarged view of portion B of FIG. 3;

in the drawings, the components represented by the respective reference numerals are listed below:

the refrigerator comprises a cabinet body 1, a mounting plate 2, a radiating water cabinet 3, a water guide channel 4, a fixing frame 5, a water cooling pipeline 6, a water cooling box 7, a temperature sensor 8, a controller 9, a containing groove 10, a pressing plate 11, a sliding rod I12, a limiting block 13, a pressure spring I14, a baffle plate 15, a pressure pump 16, a refrigerating plate 17, a radiating plate 18, a main filtering pipeline 19, a standby filtering pipeline 20, an electric three-way valve 21, a pipeline filter 22, a water guide pipe 23, a pipe plug 24, a sliding rod II 25, a piston block 26, a push plate 27, a travel switch 28, a pressure spring II 29 and radiating fins 30.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1 to 4, the present invention provides the following technical solutions:

example one

The utility model provides a miniature cloud computing server computer lab of practicality, the intelligent cabinet temperature adjusting device comprises a cabinet body 1, a plurality of mounting panels 2 of the inside equidistance fixedly connected with of the cabinet body 1, a plurality of heat dissipation water tanks 3 of the equal fixedly connected with in upper end of a plurality of mounting panels 2, connect through water guide channel 4 between a plurality of heat dissipation water tanks 3 of same mounting panel 2, the top of a plurality of heat dissipation water tanks 3 all is equipped with fixed subassembly, the fixed subassembly of same mounting panel 2 all connects through mount 5, connect through water cooling pipeline 6 between the heat dissipation water tanks 3 on a plurality of mounting panels 2, water cooling pipeline 6's both ends are connected with water-cooling tank 7, still be connected with pipeline filtering component on the water pouring.

Wherein, the inner wall top fixedly connected with temperature sensor 8 of the cabinet body 1, the bottom of the cabinet body 1 is equipped with controller 9, and temperature sensor 8 is connected with controller 9 electricity.

The heat dissipation water tank 3 is made of aluminum, and the periphery of the heat dissipation water tank 3 is fixedly connected with the accommodating groove 10; through setting up heat dissipation water tank 3 at the lower extreme of each miniature cloud ware, can dispel the heat to the cooling of miniature cloud ware, its cooling is effectual, and can not produce noise and vibration, is fit for the server computer lab and uses.

The fixing assembly comprises a pressing plate 11, two sides of the upper end of the pressing plate 11 are fixedly connected with a first sliding rod 12, the upper ends of the first sliding rods 12 penetrate through the fixing frame 5 and are fixedly connected with a limiting block 13, a first compression spring 14 is sleeved on the first sliding rod 12, and the first compression spring 14 is located between the fixing frame 5 and the pressing plate 11; an opening is formed in the middle of the pressing plate 11, and the lower ends of the two sides of the pressing plate 11 are fixedly connected with baffle plates 15; can carry out quick fixed to each miniature cloud server through setting up fixed subassembly, and can make the bottom of miniature cloud server hug closely the surface of heat dissipation water tank 3 through fixed subassembly, guaranteed the cooling effect of heat dissipation water tank 3.

Wherein, the water cooling pipeline 6 is also connected with a booster pump 16, the water cooling tank 7 is provided with a refrigeration element, and a driving circuit of the booster pump 16 is connected with the controller 9.

The cold end of the refrigeration element is positioned on the inner wall surface of the water cooling tank 7, the hot end of the refrigeration element is positioned on the outer wall surface of the water cooling tank 7, the cold end of the refrigeration element is provided with a refrigeration plate 17, the hot end of the refrigeration element is provided with a heat dissipation plate 18, a plurality of heat dissipation fins 30 are uniformly distributed on the surface of the heat dissipation plate 18, and the refrigeration element is electrically connected with the controller 9; through set up refrigeration component in water-cooling tank 7, can avoid the coolant liquid to rise temperature after long-time the use, guarantee that the temperature of coolant liquid maintains in the specified range, improved water cooling system's cooling effect.

The pipeline filtering component comprises a main filtering pipeline 19 and a standby filtering pipeline 20, the water inlet ends of the main filtering pipeline 19 and the standby filtering pipeline 20 are connected with an electric three-way valve 21, the electric three-way valve 21 is also connected with the water cooling pipeline 6, the water outlet ends of the main filtering pipeline 19 and the standby filtering pipeline 20 are connected with the water cooling pipeline 6 through a three-way pipe fitting, and pipeline filters 22 are arranged on the main filtering pipeline 19 and the standby filtering pipeline 20; the main filtering pipeline 19 is connected with an obliquely arranged water guide pipe 23, one end of the water guide pipe 23 is fixedly connected with a pipe plug 24, the pipe plug 24 is connected with a second sliding rod 25 in a sliding manner, one end of the second sliding rod 25 extends into the water guide pipe 23 and is fixedly connected with a piston block 26, the piston block 26 is connected into the water guide pipe 23 in a sliding manner, the other end of the second sliding rod 25 is fixedly connected with a push plate 27, a travel switch 28 is arranged above the push plate 27, the travel switch 28 is connected with a driving circuit of the electric three-way valve 21, a sealing ring is connected between the second sliding rod 25 and the pipe plug 24, the second sliding rod 25 is sleeved with a second pressure spring 29, and the second pressure spring; impurities generated by cooling liquid in the water cooling pipeline 6 can be filtered by arranging the pipeline filtering assembly, so that the influence on the heat conduction, heat transfer and cooling performance of the cooling water is avoided; and when the pipeline filter 22 of the main filtering pipeline 19 is blocked, the spare filtering pipeline 20 can be automatically replaced and connected with the water cooling pipeline 6, so that the water cooling system can be ensured to continuously work when the filter 22 is cleaned and replaced, and the cooling effect is not influenced.

Example two

The utility model provides a miniature cloud computing server computer lab of practicality specifically includes following working method:

s1, when a micro cloud server is installed, lifting a pressing plate 11, placing the micro cloud server at the upper end of a radiating water tank 3, loosening the pressing plate 11, and driving the pressing plate 11 to descend by a first pressure spring 14 to fix the micro cloud server;

s2, monitoring the internal temperature of the cabinet body 1 in real time by a temperature sensor 8, when the internal temperature of the cabinet body 1 reaches a threshold value, sending a signal to a controller 9 by the temperature sensor 8, starting a booster pump 16 by the controller 9, and circulating cooling liquid in a water cooling tank 7 among the heat dissipation water cabinets 3 by the booster pump 16 through a water cooling pipeline 6, so that the temperature of the heat dissipation water cabinets 3 is maintained within a certain range, and the micro cloud server is cooled;

s3, the refrigeration element works, the refrigeration plate 17 at the cold end of the refrigeration element starts to absorb heat, the cooling liquid in the water cooling box 7 is cooled, the heat dissipation plate 18 at the hot end of the refrigeration element starts to release heat, and the heat dissipation efficiency of the heat dissipation plate 18 can be improved through the heat dissipation fins 30, so that the refrigeration effect of the refrigeration element is improved;

s4, filtering the cooling liquid in the water cooling pipeline 6 through a pipeline filter 22 in the main filtering pipeline 19 before the cooling liquid flows back to the water cooling tank 7;

s5, when the pipeline filter 22 of the main filtering pipeline 19 works normally, the cooling liquid in the main filtering pipeline 19 pushes the piston block 26 to ascend, so that the push plate 27 is driven by the slide rod II 25 to ascend and contact the travel switch 28, and the travel switch 28 controls the electric three-way valve 21 to be communicated with the water cooling pipeline 6 and the main filtering pipeline 19; when the pipeline filter 22 in the main filtering pipeline 19 is blocked, the water pressure in the main filtering pipeline 19 is reduced, the pressure spring two 29 pushes the piston block 26 to be reduced, the piston block 26 drives the push plate 27 to be separated from the travel switch 28 through the slide rod two 25, the travel switch 28 controls the electric three-way valve 21 to be communicated with the water cooling pipeline 6 and the standby filtering pipeline 20, and the cooling liquid enters the standby filtering pipeline 20 from the water cooling pipeline 6 and enters the water cooling tank 7 after being filtered by the pipeline filter 22 in the standby filtering pipeline 20.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. The utility model provides a miniature cloud computing server computer lab of practicality, includes the cabinet body (1), its characterized in that, a plurality of mounting panel (2) of the inside equidistance fixedly connected with of the cabinet body (1), it is a plurality of heat dissipation water tanks (3) of the equal fixedly connected with in upper end of mounting panel (2), it is same connect through water guide channel (4) between a plurality of heat dissipation water tanks (3) of mounting panel (2), it is a plurality of the top of heat dissipation water tank (3) all is equipped with fixed subassembly, and is same mounting panel (2) fixed subassembly all connects through mount (5), and is a plurality of connect through water-cooling pipeline (6) between heat dissipation water tank (3) on mounting panel (2), the both ends of water-cooling pipeline (6) are connected with water-cooling tank (7), still be connected with pipeline filtering component on water-pouring pipeline (6).

2. The practical miniature cloud computing server room according to claim 1, wherein a temperature sensor (8) is fixedly connected to the top end of the inner wall of the cabinet body (1), a controller (9) is arranged at the bottom of the cabinet body (1), and the temperature sensor (8) is electrically connected with the controller (9).

3. The practical miniature cloud server machine room of claim 1, wherein the heat dissipation water tank (3) is made of aluminum, and the storage tank (10) is fixedly connected to the periphery of the heat dissipation water tank (3).

4. The practical miniature cloud computing server machine room of claim 1, characterized in that, fixed subassembly includes clamp plate (11), equal fixedly connected with slide bar (12) in the upper end both sides of clamp plate (11), two the upper end of slide bar (12) runs through in mount (5) and fixedly connected with stopper (13), the cover is equipped with pressure spring (14) on slide bar (12), pressure spring (14) are located between mount (5) and clamp plate (11).

5. The practical miniature cloud computing server room according to claim 4, wherein an opening is formed in the middle of the pressing plate (11), and baffles (15) are fixedly connected to the lower ends of the two sides of the pressing plate (11).

6. The practical miniature cloud server room of claim 1, wherein the water cooling pipeline (6) is further connected with a booster pump (16), the water cooling tank (7) is provided with a refrigeration element, and a driving circuit of the booster pump (16) is connected with the controller (9).

7. The practical miniature cloud server machine room of claim 6, wherein the cold end of the refrigeration element is located on the inner wall surface of the water cooling tank (7), the hot end of the refrigeration element is located on the outer wall surface of the water cooling tank (7), the cold end of the refrigeration element is provided with a refrigeration plate (17), the hot end of the refrigeration element is provided with a heat dissipation plate (18), a plurality of heat dissipation fins (30) are uniformly distributed on the surface of the heat dissipation plate (18), and the refrigeration element is electrically connected with the controller (9).

8. The practical miniature cloud server machine room of claim 1, wherein the pipeline filtering assembly comprises a main filtering pipeline (19) and a spare filtering pipeline (20), the water inlet ends of the main filtering pipeline (19) and the spare filtering pipeline (20) are connected with an electric three-way valve (21), the electric three-way valve (21) is further connected with a water cooling pipeline (6), the water outlet ends of the main filtering pipeline (19) and the spare filtering pipeline (20) are connected with the water cooling pipeline (6) through a three-way pipe, and the main filtering pipeline (19) and the spare filtering pipeline (20) are both provided with a pipeline filter (22).

9. The practical miniature cloud computing server room according to claim 8, wherein a water conduit (23) is connected to the main filtering pipeline (19) and is inclined, a pipe plug (24) is fixedly connected to one end of the water conduit (23), a sliding rod II (25) is slidably connected to the pipe plug (24), one end of the sliding rod II (25) extends into the water conduit (23) and is fixedly connected with a piston block (26), the piston block (26) is slidably connected to the water conduit (23), a push plate (27) is fixedly connected to the other end of the sliding rod II (25), a travel switch (28) is arranged above the push plate (27), the travel switch (28) is connected with a driving circuit of the electric three-way valve (21), a sealing ring is connected between the sliding rod II (25) and the pipe plug (24), a pressure spring II (29) is sleeved on the sliding rod II (25), and the second pressure spring (29) is positioned between the pipe plug (24) and the piston block (26).

10. The utility model relates to any one of claims 1-9, in particular to a practical miniature cloud computing server room, comprising the following working modes:

s1, when a micro cloud server is installed, lifting a pressing plate (11), placing the micro cloud server at the upper end of a radiating water tank (3), loosening the pressing plate (11), and driving the pressing plate (11) to descend by a first pressure spring (14) to fix the micro cloud server;

s2, monitoring the internal temperature of the cabinet body (1) in real time by using a temperature sensor (8), when the internal temperature of the cabinet body (1) reaches a threshold value, sending a signal to a controller (9) by using the temperature sensor (8), starting a booster pump (16) by using the controller (9), circulating cooling liquid in a water cooling tank (7) among the heat dissipation water cabinets (3) by using the booster pump (16) through a water cooling pipeline (6), and thus ensuring that the temperature of the heat dissipation water cabinets (3) is maintained within a certain range and dissipating heat of the miniature cloud server;

s3, the refrigeration element works, a refrigeration plate (17) at the cold end of the refrigeration element starts to absorb heat to cool the cooling liquid in the water cooling tank (7), a heat dissipation plate (18) at the hot end of the refrigeration element starts to release heat, and the heat dissipation efficiency of the heat dissipation plate (18) can be improved through the heat dissipation fins (30), so that the refrigeration effect of the refrigeration element is improved;

s4, filtering the cooling liquid in the water cooling pipeline (6) through a pipeline filter (22) in the main filtering pipeline (19) before the cooling liquid flows back to the water cooling tank (7);

s5, when a pipeline filter (22) of the main filtering pipeline (19) works normally, cooling liquid in the main filtering pipeline (19) pushes a piston block (26) to ascend, so that a push plate (27) is driven to ascend through a second sliding rod (25) to contact a travel switch (28), and the travel switch (28) controls an electric three-way valve (21) to be communicated with a water cooling pipeline (6) and the main filtering pipeline (19); when a pipeline filter (22) in the main filtering pipeline (19) is blocked, the water pressure in the main filtering pipeline (19) is reduced, the second pressure spring (29) pushes the piston block (26) to be reduced, the piston block (26) drives the push plate (27) to be separated from the travel switch (28) through the second sliding rod (25), the travel switch (28) controls the electric three-way valve (21) to communicate the water cooling pipeline (6) with the standby filtering pipeline (20), cooling liquid enters the standby filtering pipeline (20) from the water cooling pipeline (6), and enters the water cooling tank (7) after being filtered by the pipeline filter (22) in the standby filtering pipeline (20).