CN112672602B - Cooling system for data center and method of use thereof - Google Patents

Abstract

The invention relates to the technical field of data center cooling, in particular to a cooling system for a data center and a using method thereof, wherein the cooling system comprises a fixed base, the top of the fixed base is provided with a cooling protection shell, two rotating screw rods are arranged in the rear side wall of the cooling protection shell, first screw sleeves are screwed on the rotating screw rods, a first lifting rod is fixed between the two first screw sleeves, a sliding sleeve is connected on the first lifting rod in a sliding manner, a heat dissipation fan is arranged on the sliding sleeve, a plurality of heat dissipation assemblies are arranged in the fixed base, an auxiliary heat dissipation assembly is arranged on the rear side of the cooling protection shell, an iron block is arranged below the first electromagnetic block, a soft rack is fixed at the bottom of the iron block, a winding wheel is arranged at the bottom of the soft rack, the soft rack is wound on the winding wheel, and the winding wheel is meshed with a rotating wheel on the right side; according to the invention, three levels of heat dissipation devices are arranged, different heat dissipation modes are selected according to the actual temperature condition detected by the sensor, no resource waste is caused, and the actual use effect is better.

Description

Cooling system for data center and method of use thereof

Technical Field

The invention relates to the technical field of data center cooling, in particular to a cooling system for a data center and a using method thereof.

Background

A data center is a globally collaborative network of devices that is used to deliver, accelerate, present, compute, store data information over the internet network infrastructure. In future development, data centers will become competitive assets for enterprises, and business models will change accordingly. With the popularization of data center applications, artificial intelligence, network security and the like are also appeared in succession, and more users are brought into the applications of networks and mobile phones. With the increase of computers and data volume, people can also improve the self ability through continuous learning and accumulation, which is an important mark advancing to the information era, the generation of data centers leads the understanding of people to enter an uncertain and non-structural world from a quantitative and structural world, and the data centers become a part of modern social infrastructure like traffic and network communication, thereby having positive influence on a plurality of industries. However, the development of the data center cannot be based on experience, and the data center is really combined with practice to play a real value role and promote the rapid change of society, the data center is an important strategic resource which is the same as human resources and natural resources, in the data center industry in the information age, the data can be better understood only by applying large scale and flexibility to the data, the rapid and efficient development of the data center industry in China can be promoted by applying the data, and the great intelligence of the national development is embodied. The generation of mass data also promotes the collection and processing of information data to be changed, and enterprises also move from entity services to data services.

Like patent number CN211406667U discloses a data center cooling device for mountain area, involves the data center field, including the data center main part, the top of data center main part is connected with the second connecting block, and the internally mounted of second connecting block has the tuber pipe, and the top of second connecting block is connected with the air-cooler, and the left and right sides of data center main part all is connected with first connecting block. The utility model discloses a set up condenser pipe and air-cooler, played different cooling effects to can be effectual improved cooling device's variety, through setting up humidity transducer and temperature sensor, played the effect of solving inside temperature of data center and humidity variation, thereby can effectually use the condition that the air-cooler comes the inside temperature of control data center and humidity, through setting up the light, played good illuminating effect.

However, this device cannot perform local cooling according to a specific heat generation position of the data center, does not have a multistage cooling function, cannot take different heat dissipation measures for different situations, and is not good in practical use effect.

Based on this, the present invention has devised a cooling system for a data center and a method of using the same to solve the above-mentioned problems.

Disclosure of Invention

The present invention is directed to a cooling system for a data center and a method of using the same to solve the problems set forth in the background above.

In order to achieve the purpose, the invention provides the following technical scheme: a cooling system for data center, including unable adjustment base, unable adjustment base's top is equipped with the cooling protection casing, be equipped with two rotation screw rods in the rear side wall of cooling protection casing, two rotation screw rod bilateral symmetry set up, and all rotate with the rear side wall and be connected, the spiro union has first swivel nut on the rotation screw rod, the right side of first swivel nut is equipped with the extension rod, the bottom of extension rod is fixed with first electromagnetic block, be fixed with first lifter between two first swivel nuts, sliding connection has the sliding sleeve on the first lifter, be equipped with the heat dissipation fan on the sliding sleeve, be equipped with a plurality of radiator unit in the unable adjustment base, be equipped with two of symmetry in the unable adjustment base and rotate the wheel, through the cingulum linkage between two rotating wheels, the outside of cingulum is equipped with the tooth, the bottom position that corresponds rotation screw rod in the unable adjustment base is equipped with linkage elevator unit, unable adjustment base's top is equipped with the slide, the top surface sliding connection of slide and unable adjustment base, the top of slide is equipped with the data center body, the left side of slide is equipped with the removal gyro wheel, one side of slide is equipped with fixed subassembly, the rear side of cooling protection casing is equipped with supplementary radiator unit, the iron block's below is equipped with the rolling iron block, the rolling rack, and the rolling wheel on the soft wheel on the right side, and the soft wheel, and the soft rolling rack, and the soft wheel on the right side, and the rolling rack, and the rolling wheel, and the rolling.

Further, linkage lifting unit includes extrusion elevating system and link gear, extrusion elevating system includes horizontally lift push pedal, one side of lift push pedal is equipped with spacing slide, the bottom and the unable adjustment base fixed connection of spacing slide, lift push pedal and spacing slide and unable adjustment base sliding connection, be fixed with first spring between lift push pedal and the unable adjustment base, the bottom of lift push pedal is equipped with the second electro-magnet, the top of lift push pedal is equipped with the horizontally and slides and triggers the board, unable adjustment base is equipped with the first spout of horizontally, one side of sliding and triggering the board and unable adjustment base's first spout sliding connection, the top of sliding and triggering the board is fixed with the fixed block, be fixed with the second spring between fixed block and the unable adjustment base, the top of sliding and triggering the board is equipped with the stripper plate, the top and the unable adjustment base of stripper plate rotate to be connected, bottom and fixed block overlap joint.

Further, the link gear includes the lifting slide block, unable adjustment base is equipped with vertical second spout, lifting slide block and second spout sliding connection, the bottom of lifting slide block is equipped with first fixed pulley, the bottom of lift push pedal is equipped with the second fixed pulley, the bottom of lift push pedal is fixed with first haulage rope, the other end of first haulage rope is walked around second fixed pulley and first fixed pulley, and with lifting slide block's bottom fixed connection, lifting slide block's top sliding connection has the trigger bullet button, be fixed with the third spring between trigger bullet button and the lifting slide block, lifting slide block's top is equipped with the third fixed pulley, lifting slide block's top is fixed with the third haulage rope, the other end and the slip of third haulage rope trigger board fixed connection.

Furthermore, a micro motor is fixed in the sliding sleeve, teeth are arranged at the top of the first lifting rod, a gear is fixed on an output shaft of the micro motor, and the bottom of the gear is meshed with the teeth of the first lifting rod.

Further, radiator unit includes the second lifter, and the both ends of second lifter are fixed with the second swivel nut, and the screw thread of second swivel nut and rotation screw rod phase-match are fixed with a plurality of fixed rounds on the second lifter, are equipped with a plurality of supplementary heat dissipation fans on the fixed round, and the bottom of second lifter is equipped with tooth, tooth and the top meshing of cingulum.

Further, fixed subassembly includes vertical dead lever, and the dead lever slides and runs through the left side of slide, and the top of dead lever is fixed with draws the piece, draws and is fixed with the spring between piece and the slide, and the bottom of dead lever is the toper, and unable adjustment base's the position that the left side corresponds the dead lever is equipped with the fixed orifices.

Further, supplementary radiator unit includes the cooler bin, cooler bin and cooling protection casing top fixed connection, and the cooler bin is equipped with outlet pipe and inlet tube, and outlet pipe and inlet tube connection have the coiled pipe, and the whole cooling protection casing's of coiled pipe tiling rear side wall, and be located the inboard of heat dissipation fan.

A method of using a cooling system for a data center, comprising the steps of:

s1: the rear side surface temperature of the data center body is detected through a sensor in the cooling protective shell, when the local temperature exceeds a preset threshold value, the rotating screw rod is driven to rotate through the driving motor, the rotating screw rod is matched with the micro motor to drive the heat dissipation fan to be quickly positioned at a heat source, and the local temperature is cooled;

s2: when the plurality of sensors detect that the temperatures of a plurality of positions on the rear side surface of the data center body exceed a preset threshold value, the heat dissipation assembly is started;

s3: when the cooling effect is not ideal after the radiating assembly is opened, the auxiliary radiating assembly is started to work.

Further, the specific step of starting the heat dissipation assembly in step S2 is: at first the swivel nut removes the bottom, and first electromagnetism piece adsorbs the iron plate, drives a plurality of radiator unit and moves to the right side, and when radiator unit moved to the right-hand member, the second swivel nut extrusion was slided and is triggered the board, and the board extrusion that slides triggers the bullet button, and the lift slider moved down under the effect of first spring, and first spring drives lift push pedal upward movement simultaneously for the bottom of rotating the screw rod is hugged closely to the second swivel nut, rotates the screw rod and continues to rotate, drives second swivel nut upward movement.

Further, the working process of the auxiliary heat dissipation assembly in the step S3 is as follows: the outlet pipe of the cooling box outputs condensed water to enter the coiled pipe, so that the temperature of air flow blown by the heat dissipation fan and the auxiliary heat dissipation fan can be reduced, and a better cooling effect is achieved.

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

1. according to the invention, the temperature of the rear side surface of the data center body is detected by the sensor in the cooling protective shell, the rotating screw rod is driven to rotate by the driving motor, and the gear is driven to rotate by the micro motor in a matching manner, so that the heat dissipation fan can be quickly positioned at a heat source to locally cool;

2. when the plurality of sensors detect that the temperatures of a plurality of positions on the rear side surface of the data center body exceed a preset threshold value, the heat dissipation assembly can be started, and when the heat dissipation assembly moves to the bottom, the second threaded sleeve can be enabled to be tightly attached to the bottom end of the rotating screw rod through the linkage effect of the sliding trigger plate, the lifting push plate, the lifting slide block and other parts, so that the heat dissipation assembly can move upwards conveniently, and the stability is good;

3. when the cooling assembly is started, the temperature is still high, and the cooling effect is not ideal, the auxiliary cooling assembly is started, the water outlet pipe of the cooling box outputs condensed water to enter the coiled pipe, so that the temperature of air flow blown by the cooling fan and the auxiliary cooling fan can be reduced, and a better cooling effect is achieved.

4. The invention is provided with the heat dissipation devices of three levels, and different heat dissipation modes are selected according to the actual temperature condition detected by the sensor, so that the waste of resources is avoided, and the actual use effect is better.

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 view of the structure of the present invention;

FIG. 2 is a schematic structural view at A of the present invention;

FIG. 3 is a schematic view of the structure of the present invention at B;

FIG. 4 is a right side view of the present invention;

FIG. 5 is a right side view of the heat dissipation assembly of the present invention;

FIG. 6 is a schematic view of the internal structure of the sliding sleeve of the present invention.

In the drawings, the reference numbers indicate the following list of parts:

1. a fixed base; 2. cooling the protective shell; 3. rotating the screw; 4. a first threaded sleeve; 5. a first lifting rod; 6. a heat dissipating component; 601. a second lifting rod; 602. a second thread insert; 603. fixing the round block; 604. an auxiliary heat dissipation fan; 7. a linkage lifting assembly; 701. lifting the push plate; 702. a limiting sliding plate; 703. a first spring; 704. a sliding trigger plate; 705. a second spring; 706. a second electromagnet; 707. a lifting slide block; 708. a first fixed pulley; 709. a second fixed pulley; 710. a first pull cord; 711. triggering the spring button; 712. a third fixed pulley; 713. a third pull cord; 8. a fixing assembly; 801. fixing the rod; 802. pulling the block; 803. a spring; 9. an auxiliary heat dissipation assembly; 901. a cooling tank; 902. a serpentine tube; 10. a sliding sleeve; 11. a heat dissipation fan; 12. a rotating wheel; 13. a micro motor; 14. a gear; 15. a toothed belt; 16. a slide plate; 17. a first electromagnetic block; 18. moving the roller; 19. an iron block; 20. a flexible rack; 21. and (7) winding the wheel.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

Referring to fig. 1-6, the present invention provides a technical solution: a cooling system for a data center comprises a fixed base 1, wherein a cooling protection shell 2 is arranged at the top of the fixed base 1, a temperature sensor is arranged in the cooling protection shell 2, two rotating screws 3 are arranged in the rear side wall of the cooling protection shell 2, the rotating screws 3 are driven by a motor, the two rotating screws 3 are arranged in bilateral symmetry and are both rotationally connected with the rear side wall, a first screw sleeve 4 is screwed on the rotating screws 3, an extension rod is arranged on the right side of the first screw sleeve 4, a first electromagnetic block 17 is fixed at the bottom of the extension rod, a first lifting rod 5 is fixed between the two first screw sleeves 4, a sliding sleeve 10 is slidably connected on the first lifting rod 5, a heat dissipation fan 11 is arranged on the sliding sleeve 10, the heat dissipation fan 11 is driven by the motor, a plurality of heat dissipation assemblies 6 are arranged in the fixed base 1, two rotating wheels 12 are symmetrically arranged in the fixed base 1, and the two rotating wheels 12 are linked through a toothed belt 15, the outside of cingulum 15 is equipped with the tooth, the bottom position that corresponds rotation screw rod 3 in unable adjustment base 1 is equipped with linkage lifting unit 7, unable adjustment base 1's top is equipped with slide 16, slide 16 and unable adjustment base 1's top surface sliding connection, slide 16's top is equipped with the data center body, slide 16's left side is equipped with removal gyro wheel 18, one side of slide 16 is equipped with fixed subassembly 8, the rear side of cooling protective housing 2 is equipped with supplementary radiator unit 9, the below of first electromagnetic block 17 is equipped with iron plate 19, the bottom of iron plate 19 is fixed with soft rack 20, the bottom of soft rack 20 is equipped with rolling wheel 21, soft rack 20 rolls on rolling wheel 21, rolling wheel 21 is connected with the coil spring, the connection structure principle of coil spring is the same with current, can realize the reverse rolling of rolling wheel 21, and rolling wheel 21 meshes with the turning wheel 12 on right side.

Linkage lifting unit 7 includes extrusion elevating system and link gear, extrusion elevating system includes horizontally lift push pedal 701, one side of lift push pedal 701 is equipped with spacing slide 702, the bottom and unable adjustment base 1 fixed connection of spacing slide 702, lift push pedal 701 and spacing slide 702 and unable adjustment base 1 sliding connection, be fixed with first spring 703 between lift push pedal 701 and the unable adjustment base 1, the bottom of lift push pedal 701 is equipped with second electro-magnet 706, the top of lift push pedal 701 is equipped with horizontally slip trigger plate 704, unable adjustment base 1 is equipped with the first spout of horizontally, one side of slip trigger plate 704 and the first spout sliding connection of unable adjustment base 1, the top of slip trigger plate 704 is fixed with the fixed block, be fixed with second spring 705 between fixed block and the unable adjustment base 1, the top of slip trigger plate 704 is equipped with the stripper plate, the top of stripper plate is connected with unable adjustment base 1 rotation, the bottom and fixed block overlap joint.

The link gear includes lift slider 707, unable adjustment base 1 is equipped with vertical second spout, lift slider 707 and second spout sliding connection, lift slider 707's bottom is equipped with first fixed pulley 708, the bottom of lift push pedal 701 is equipped with second fixed pulley 709, the bottom of lift push pedal 701 is fixed with first haulage rope 710, the other end of first haulage rope 710 is walked around second fixed pulley 709 and first fixed pulley 708, and with lift slider 707's bottom fixed connection, lift slider 707's top sliding connection has trigger bullet button 711, it is fixed with the third spring to trigger between bullet button 711 and the lift slider 707, lift slider 707's top is equipped with third fixed pulley 712, lift slider 707's top is fixed with third haulage rope 713, the other end and the slip of third haulage rope 713 trigger board 704 fixed connection.

A micro motor 13 is fixed in the sliding sleeve 10, teeth are arranged at the top of the first lifting rod 5, a gear 14 is fixed on an output shaft of the micro motor 13, and the bottom of the gear 14 is meshed with the teeth of the first lifting rod 5.

The heat dissipation assembly 6 comprises a second lifting rod 601, second threaded sleeves 602 are fixed at two ends of the second lifting rod 601, threads of the second threaded sleeves 602 are matched with the rotating screw rods 3, a plurality of fixed round blocks 603 are fixed on the second lifting rod 601, a plurality of auxiliary heat dissipation fans 604 are arranged on the fixed round blocks 603, the auxiliary heat dissipation fans 604 are driven by a motor, teeth are arranged at the bottom of the second lifting rod 601, and the teeth are meshed with the top of the toothed belt 15.

A method of using a cooling system for a data center, comprising the steps of:

s1: the rear side surface temperature of the data center body is detected through a sensor in the cooling protection shell 2, when the local temperature exceeds a preset threshold value, the rotating screw 3 is driven to rotate through the driving motor, the rotating screw 3 is matched with the micro motor 13 to drive the heat dissipation fan 11 to be quickly positioned at a heat source, and the local temperature is cooled;

s2: when the plurality of sensors detect that the temperatures of a plurality of positions on the rear side surface of the data center body exceed a preset threshold value, the heat dissipation assembly 6 is started;

s3: when the cooling effect is not ideal after the heat dissipation assembly 6 is opened, the auxiliary heat dissipation assembly 9 is started to work.

The specific step of starting the heat dissipation assembly 6 in the step S2 is as follows: first, the first threaded sleeve 4 moves to the lowest end, the first electromagnetic block 17 adsorbs the iron block 19 to drive the plurality of heat dissipation assemblies 6 to move towards the right side, when the heat dissipation assemblies 6 move to the right end, the second threaded sleeve 602 extrudes the sliding trigger plate 704, the sliding trigger plate 704 extrudes the trigger elastic button 711, the lifting slide block 707 moves downwards under the action of the first spring 703, meanwhile, the first spring 703 drives the lifting push plate 701 to move upwards, so that the second threaded sleeve 602 is attached to the bottom end of the rotating screw rod 3, and the rotating screw rod 3 continuously rotates to drive the second threaded sleeve 602 to move upwards.

One specific application of this embodiment is: the rear side surface temperature of the data center body is detected through a sensor in the cooling protection shell 2, when the local temperature exceeds a preset threshold value, the rotating screw rod 3 is driven to rotate through the driving motor, so that the heat dissipation fan 11 is driven to move up and down, the gear 14 is driven to rotate through the micro motor 13, so that the heat dissipation fan 11 can be driven to move along the horizontal direction, and the heat dissipation fan 11 can be quickly positioned to a heat source to cool the local part;

when the plurality of sensors detect that the temperatures of a plurality of positions on the rear side surface of the data center body exceed a preset threshold value, the heat dissipation assembly 6 is started at the moment; first, the first screw sleeve 4 moves to the lowest end, and the first electromagnetic block 17 is electrified, so that the first electromagnetic block 17 adsorbs the iron block 19, then the screw rod 3 is rotated to drive the iron block 19 to move upwards, the soft rack 20 is pulled to move upwards, the rotating wheel 12 is driven to rotate, the rotating wheel 12 drives the toothed belt 15 to move, so as to drive the plurality of heat dissipation assemblies 6 to move towards the right side, when the heat dissipation assemblies 6 move to the right end, the second screw sleeve 602 extrudes the extrusion plate, the extrusion plate extrudes the sliding trigger plate 704, the sliding trigger plate 704 slides towards the first sliding groove, and moves towards the right side along with the second screw sleeve 602, when the second screw sleeve 602 is positioned right above the lifting push plate 701, the sliding trigger plate 704 completely enters the first sliding groove, the sliding trigger plate 704 extrudes the trigger spring button 711, and the trigger spring button 711 contracts towards the interior of the lifting slide block 707, the fixing of the lifting slide block 707 is released, the lifting slide block 707 moves downward under the action of the first spring 703, and simultaneously the first spring 703 drives the lifting push plate 701 to move upward, so that the second thread sleeve 602 is tightly attached to the bottom end of the rotating screw rod 3, and the bottom of the second lifting rod 601 is separated from the toothed belt 15, at this time, the rotating screw rod 3 continues to rotate, and drives the second thread sleeve 602 to move upward, when the second thread sleeve 602 leaves the extrusion plate, the second spring 705 rebounds, and drives the sliding trigger plate 704 to move outward, and returns to the original position, and the sliding trigger plate 704 pulls the lifting slide block 707 to move upward through the third traction rope 713, the lifting slide block 707 drives the lifting push plate 701 to move downward to return to the original position, and when the lifting slide block 707 moves to the top, the triggering elastic button 711 rebounds, and stable fixing is formed again; the trigger spring button 711 can realize that the lifting push plate 701 can be triggered to move upwards only when the sliding trigger plate 704 completely enters the first sliding groove, so that a good linkage effect is achieved; when the heat dissipation assembly 6 needs to be retracted, the second screw 602 moves downward to press the pressing plate, so that the sliding trigger plate 704 contracts inward, and the second electromagnet 706 attracts the lifting push plate 701 to prevent the lifting push plate 701 from moving upward.

Example two

The present embodiment is substantially the same as the first embodiment, except that the auxiliary heat dissipation assembly 9 includes a cooling box 901, the cooling box 901 is fixedly connected to the top of the cooling protection casing 2, the cooling box 901 is provided with a water outlet pipe and a water inlet pipe, the water outlet pipe and the water inlet pipe are connected to a coiled pipe 902, and the coiled pipe 902 is fully spread on the rear side wall of the whole cooling protection casing 2 and is located inside the heat dissipation fan 11.

When the heat dissipation assembly 6 is turned on, the temperature is still high, and the cooling effect is not ideal, the auxiliary heat dissipation assembly 9 is turned on, and the outlet pipe of the cooling tank 901 outputs the condensed water to enter the serpentine pipe 902, so that the temperature of the air flow blown by the heat dissipation fan 11 and the auxiliary heat dissipation fan 604 can be reduced, and a better cooling effect is achieved.

EXAMPLE III

The embodiment is substantially the same as the first embodiment, except that the fixing assembly 8 includes a vertical fixing rod 801, the fixing rod 801 slidably penetrates through the left side of the sliding plate 16, a pulling block 802 is fixed at the top of the fixing rod 801, a spring 803 is fixed between the pulling block 802 and the sliding plate 16, the bottom of the fixing rod 801 is tapered, and a fixing hole is formed in the left side of the fixing base 1 corresponding to the position of the fixing rod 801.

Upwards pull dead lever 801 for dead lever 801 breaks away from the fixed orifices, then outwards pulls slide 16, can drive the data center body and outwards move, is convenient for maintain the data center body, and after the maintenance was accomplished, inwards promote slide 16, and the left side of unable adjustment base 1 is extruded to the bottom conical surface of dead lever 801, and dead lever 801 upwards moves to get into in the fixed orifices under the effect of spring 803, carry out stable fixed to slide 16.

The product model provided by the invention is only used according to the structural characteristics of the product, the product can be adjusted and modified after being purchased so as to be more matched and accord with the technical scheme of the invention, the product model is the best application technical scheme of the technical scheme, the product model can be replaced and modified according to the required technical parameters, and the product model is well known by the technical personnel in the field, so that the technical scheme provided by the invention can clearly obtain the corresponding use effect.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

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 forms 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 (7)

1. Cooling system for a data centre, comprising a stationary base (1), characterized in that: the top of the fixed base (1) is provided with a cooling protection shell (2), the rear side wall of the cooling protection shell (2) is internally provided with two rotating screw rods (3), the two rotating screw rods (3) are arranged in a bilateral symmetry manner and are rotationally connected with the rear side wall, a first screw sleeve (4) is screwed on the rotating screw rods (3), the right side of the first screw sleeve (4) is provided with an extension rod, the bottom of the extension rod is fixed with a first electromagnetic block (17), the two first screw sleeves (4) are fixed with a first lifting rod (5), the first lifting rod (5) is connected with a sliding sleeve (10) in a sliding manner, a heat dissipation fan (11) is arranged on the sliding sleeve (10), a plurality of heat dissipation assemblies (6) are arranged in the fixed base (1), two rotating wheels (12) which are symmetrical are arranged in the fixed base (1), the two rotating wheels (12) are linked through a toothed belt (15), the outer side of the toothed belt (15) is provided with teeth, the bottom of the corresponding rotating screw rods (3) in the fixed base (1) is provided with a linkage assembly (7), the sliding plate (16) is arranged on the top of the fixed base (1), and the sliding plate (16) is connected with a sliding plate (16), a fixing component (8) is arranged on one side of the sliding plate (16), an auxiliary heat dissipation component (9) is arranged on the rear side of the cooling protection shell (2), an iron block (19) is arranged below the first electromagnetic block (17), a soft rack (20) is fixed at the bottom of the iron block (19), a winding wheel (21) is arranged at the bottom of the soft rack (20), the soft rack (20) is wound on the winding wheel (21), and the winding wheel (21) is meshed with the rotating wheel (12) on the right side;

the linkage lifting assembly (7) comprises an extrusion lifting mechanism and a linkage mechanism, the extrusion lifting mechanism comprises a horizontal lifting push plate (701), a limiting sliding plate (702) is arranged on one side of the lifting push plate (701), the bottom of the limiting sliding plate (702) is fixedly connected with a fixed base (1), the lifting push plate (701) is slidably connected with the limiting sliding plate (702) and the fixed base (1), a first spring (703) is fixed between the lifting push plate (701) and the fixed base (1), a second electromagnet (706) is arranged at the bottom of the lifting push plate (701), a horizontal sliding trigger plate (704) is arranged at the top of the lifting push plate (701), a horizontal first sliding chute is arranged on the fixed base (1), one side of the sliding trigger plate (704) is slidably connected with the first sliding chute of the fixed base (1), a fixed block is fixed at the top of the sliding trigger plate (704), a second spring (705) is fixed between the fixed block and the fixed base (1), an extrusion plate is arranged above the sliding trigger plate (704), and the top of the extrusion plate is rotatably connected with the fixed base (1) in a lap joint manner, and the bottom of the fixed base (705);

the linkage mechanism comprises a lifting slide block (707), a vertical second sliding groove is formed in the fixed base (1), the lifting slide block (707) is connected with the second sliding groove in a sliding mode, a first fixed pulley (708) is arranged at the bottom of the lifting slide block (707), a second fixed pulley (709) is arranged at the bottom of the lifting push plate (701), a first traction rope (710) is fixed at the bottom of the lifting push plate (701), the other end of the first traction rope (710) rounds the second fixed pulley (709) and the first fixed pulley (708) and is fixedly connected with the bottom of the lifting slide block (707), a trigger elastic button (711) is connected to the top of the lifting slide block (707) in a sliding mode, a third spring is fixed between the trigger elastic button (711) and the lifting slide block (707), a third fixed pulley (712) is arranged above the lifting slide block (707), a third traction rope (713) is fixed at the top of the lifting slide block (707), and the other end of the third traction rope (713) is fixedly connected with the sliding trigger plate (704);

radiating component (6) include second lifter (601), the both ends of second lifter (601) are fixed with second swivel nut (602), the screw thread and the rotation screw rod (3) phase-match of second swivel nut (602), be fixed with a plurality of fixed disk blocks (603) on second lifter (601), be equipped with a plurality of supplementary heat dissipation fan (604) on fixed disk block (603), the bottom of second lifter (601) is equipped with tooth, tooth and the top meshing of cingulum (15).

2. The cooling system for a data center of claim 1, wherein: the improved lifting mechanism is characterized in that a micro motor (13) is fixed in the sliding sleeve (10), teeth are arranged at the top of the first lifting rod (5), a gear (14) is fixed on an output shaft of the micro motor (13), and the bottom of the gear (14) is meshed with the teeth of the first lifting rod (5).

3. The cooling system for a data center of claim 1, wherein: fixed subassembly (8) include vertical dead lever (801), dead lever (801) slide and run through the left side of slide board (16), just the top of dead lever (801) is fixed with draws piece (802), draw and be fixed with spring (803) between piece (802) and slide board (16), the bottom of dead lever (801) is the toper, the position that the left side of unable adjustment base (1) corresponds dead lever (801) is equipped with the fixed orifices.

4. The cooling system for a data center of claim 1, wherein: the auxiliary heat dissipation assembly (9) comprises a cooling box (901), the cooling box (901) is fixedly connected with the top of the cooling protection shell (2), a water outlet pipe and a water inlet pipe are arranged on the cooling box (901), the water outlet pipe and the water inlet pipe are connected with a coiled pipe (902), and the coiled pipe (902) is paved on the rear side wall of the whole cooling protection shell (2) and located on the inner side of the heat dissipation fan (11).

5. The method of using a cooling system for a data center according to any one of claims 1 to 4, comprising the steps of:

s1: the rear side surface temperature of the data center body is detected through a sensor in the cooling protection shell (2), when the local temperature exceeds a preset threshold value, the rotating screw (3) is driven to rotate through the driving motor, the rotating screw (3) is matched with the micro motor (13) to drive the heat dissipation fan (11) to be quickly positioned at a heat source, and the local temperature is cooled;

s2: when the plurality of sensors detect that the temperature of a plurality of positions on the rear side surface of the data center body exceeds a preset threshold value, the heat dissipation assembly (6) is started;

s3: when the cooling effect is not ideal after the heat dissipation assembly (6) is opened, the auxiliary heat dissipation assembly (9) is started to work.

6. The method of using a cooling system for a data center of claim 5, wherein: the specific steps of starting the heat dissipation assembly (6) in the step S2 are as follows: first swivel nut (4) moves to the lowermost end at first, first electromagnetism piece (17) adsorb iron plate (19), drive a plurality of radiator unit (6) and move to the right side, when radiator unit (6) moved to the right-hand member, second swivel nut (602) extrusion slides and triggers board (704), slide and trigger board 704 extrusion and trigger bullet button (711), lifting slide block (707) moves down under the effect of first spring (703), first spring (703) drive lift push pedal (701) rebound simultaneously, make second swivel nut (602) hug closely the bottom that rotates screw rod (3), it continues to rotate screw rod (3), drive second swivel nut (602) rebound.

7. The method of using a cooling system for a data center of claim 6, wherein: the working process of the auxiliary heat dissipation assembly (9) in the step S3 is as follows: condensed water is output from a water outlet pipe of the cooling tank (901) and enters the coiled pipe (902), so that the temperature of air flow blown by the heat dissipation fan (11) and the auxiliary heat dissipation fan (604) can be reduced, and a better cooling effect is achieved.

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