CN111176399A

CN111176399A - Server damping is from deashing rack

Info

Publication number: CN111176399A
Application number: CN202010080903.0A
Authority: CN
Inventors: 不公告发明人
Original assignee: Yuhuan Ruijiang Computer Co ltd
Current assignee: Jiangsu Dongxu Communication Technology Co ltd
Priority date: 2020-02-05
Filing date: 2020-02-05
Publication date: 2020-05-19
Anticipated expiration: 2040-02-05
Also published as: CN111176399B; GB202008153D0

Abstract

The invention discloses a server vibration reduction self-cleaning dust cabinet, which comprises a cabinet, wherein a cabinet inner cavity with a forward and backward opening is arranged in the cabinet, a horizontal vibration reduction device is arranged in the cabinet inner cavity and used for reducing vibration in the horizontal direction, a vertical vibration reduction device is fixedly connected to the upper side end surface of a sliding base and used for reducing vibration in the vertical direction, three server fixing devices are arranged on the vertical vibration reduction device and used for installing and fixing servers and reducing vibration in the left and right directions, a dust cleaning device positioned in front of the vertical vibration reduction device is arranged in the cabinet inner cavity and used for cleaning dust on the servers, the dust cleaning mechanism can collect the cleaned dust, so that the air of a machine room is prevented from being polluted, and the invention has better vibration reduction effect, and can automatically clean ash.

Description

Server damping is from deashing rack

Technical Field

The invention relates to the technical field of vibration reduction and ash removal of servers, in particular to a vibration reduction and self-ash removal cabinet for a server.

Background

The server is one kind of computer, it is faster than the ordinary computer operation, the load is higher, the price is more expensive, the hard disk that the server uses mainly has two kinds, mechanical hard disk and solid state hard disk, the solid state hard disk is strong, the speed is fast, but because the price is higher, so the use of mechanical hard disk is in the server is the mainstream, when the mechanical hard disk works and receives the vibration impact, make the hard disk stall, data loss and crash easily, the server needs the deashing regularly to reduce the trouble at the same time, the existing server cabinet lacks the corresponding damping device, make the damping effect worse, and can't carry on the deashing automatically, the apparatus that the invention states can solve the above-mentioned problem.

Disclosure of Invention

The technical problem is as follows: the existing server cabinet lacks a corresponding vibration damper, so that the vibration damping effect is poor, and the ash can not be automatically cleaned.

In order to solve the problems, the embodiment designs a server vibration reduction self-cleaning ash cabinet, which comprises a cabinet, wherein a cabinet inner cavity with an opening facing forwards and backwards is arranged in the cabinet, a horizontal vibration reduction device is arranged in the cabinet inner cavity and is used for vibration reduction in the horizontal direction, the horizontal vibration reduction device comprises a sliding base which is connected to the inner wall of the lower side of the cabinet inner cavity in a sliding manner, a slide way is fixedly connected to the left side end face and the right side end face of the sliding base respectively, the opening of the slide way is upward, the slide ways are bilaterally symmetrical, a slide block is connected in the slide way in a sliding manner, an auxiliary vibration reduction spring is connected between the slide block and the inner wall of the rear side of the slide way, two rotating shafts extending upwards are connected to the inner wall of the lower side of the cabinet inner cavity in a, the sliding base is positioned between the two rotating shafts, the rotating shafts are fixedly connected with crank discs, connecting rods are hinged between the crank discs and the sliding blocks, the front side end face and the rear side end face of the sliding base are respectively and fixedly connected with fixed blocks, the two fixed blocks are symmetrical front and back, the upper side end face of the sliding base is fixedly connected with a vertical vibration damping device, the vertical vibration damping device is used for vertical vibration damping, the vertical vibration damping device comprises four hydraulic vibration damping cylinders which are fixedly connected to the upper side end face of the sliding base and are centrosymmetric, piston cavities are arranged in the hydraulic vibration damping cylinders, temperature reduction cavities are arranged in the hydraulic vibration damping cylinders and are positioned on the lower sides of the piston cavities, pistons are connected in a sliding mode in the piston cavities, compression springs are connected between the pistons and the inner walls of the lower sides of the piston cavities, and, the server fixing device is used for installing and fixing a server and can perform vibration reduction in the left and right directions, the ash cleaning device located on the front side of the vertical vibration reduction device is arranged in the inner cavity of the cabinet and used for cleaning dust on the server.

Preferably, the front side opening and the rear side opening of the inner cavity of the cabinet are rotatably connected with cabinet doors.

Preferably, the fixed block is hinged with two bilaterally symmetrical auxiliary connecting rods, the front side and the rear side end face of the inner cavity of the cabinet are respectively connected with two bilaterally symmetrical auxiliary sliding blocks in a sliding mode, a damping spring is connected between the auxiliary sliding block and the inner wall of the inner cavity of the cabinet, which is far away from the fixed block, on one side, and the auxiliary sliding block is hinged with the auxiliary connecting rods.

Preferably, fixedly connected with upwards extends to on the piston upside terminal surface stand outside the hydraulic damping cylinder terminal surface, the hydraulic damping cylinder is kept away from fixedly connected with batch oil tank on a side terminal surface of the rack inner chamber, the batch oil tank with it is connected with heat dissipation oil pipe to communicate with each other between the piston chamber, heat dissipation oil pipe majority is located the cooling intracavity, heat dissipation oil pipe is located the part of cooling intracavity is arranged for circuitous shape, the cooling intracavity is full of the coolant liquid, the piston chamber with damping hydraulic oil is stored in the batch oil tank, the three fin that the array distributes from bottom to top of fixedly connected with on the annular terminal surface of cooling chamber, be equipped with air spring on the stand.

Preferably, the server fixing device comprises two vibration damping boxes fixedly connected between the two upright posts on the left side and the right side respectively, the two vibration damping boxes are symmetrical left and right, the vibration damping box is fixedly connected on the end surface of one side of the upright post close to the symmetric center, a vibration damping cavity with an opening facing to one side far away from the upright post is arranged in the vibration damping box, the inner wall of the vibration reduction cavity close to one side of the upright post is connected with two lifting slide blocks which are symmetrical up and down in a sliding way, a fixing frame positioned between the two lifting slide blocks is connected on the inner wall of the rear side of the vibration reduction cavity in a sliding manner, a server is arranged between the left fixing frame and the right fixing frame, the server is fixedly connected with the fixed frame through screws, an auxiliary connecting rod is hinged between the fixed frame and the lifting slide block, and an auxiliary compression spring is connected between the lifting slide block and the inner wall of the vibration damping cavity far away from one side of the fixed frame.

Preferably, the ash removing device comprises a screw rod which is rotatably connected to the inner wall of the upper side of the inner cavity of the cabinet and extends downwards, the screw rod is positioned on the right side of the sliding base, a lifting motor which is fixedly connected to the inner wall of the upper side of the inner cavity of the cabinet is in power connection with the screw rod, a lifting nut is in threaded connection with the screw rod and is slidably connected to the inner wall of the right side of the inner cavity of the cabinet, a steering shaft which extends downwards to the outside of the lower side end face of the lifting nut is rotatably connected to the end face of the upper side of the lifting nut, a knob which is positioned on the upper side of the lifting nut is fixedly connected to the steering shaft, a sliding hole which is positioned on the left side of the steering shaft is arranged in the lifting nut, the opening of the sliding hole faces right, a bolt is, a pin hole with a leftward opening is formed in the steering shaft, the bolt can extend into the pin hole so as to limit the steering shaft to rotate, a steering block located on the lower side of the lifting nut is fixedly connected to the steering shaft, a crank rotating shaft extending leftward is rotatably connected to the left end face of the steering block, a gear is fixedly connected to the crank rotating shaft, a connecting rod is hinged to the gear, a rocker is hinged to the connecting rod, a fixed block is fixedly connected to the lower end face of the steering block, a fixed block is fixedly connected to the upper end face of the fixed block, the rocker is rotatably connected to the fixed block, a fixed rod is fixedly connected to the left end face of the rocker, an ash removing blower located on the left side of the fixed block is fixedly connected to the fixed rod, a rack is fixedly connected to the front end face of the upright column on the left front side, the dust collecting box is characterized in that a connecting rod is fixedly connected to the rear end face of the lifting nut, an auxiliary fixing rod is fixedly connected to the rear end face of the connecting rod, the auxiliary fixing rod is fixedly connected to an air pump located on the left side of the connecting rod, the air pump is located on the rear side of the dust cleaning blower, the air pump and the dust cleaning blower are close to a nozzle arranged on one side end face of the server, a dust collecting box is fixedly connected to the upper side end face of the inner cavity of the cabinet, and a hose is connected between the dust collecting box and the dust cleaning blower in a communicating.

The invention has the beneficial effects that: according to the invention, the vertical vibration reduction mechanism realizes buffering vibration reduction through the deformation of the air spring and the spring in the hydraulic cylinder, and the piston in the hydraulic cylinder is moved to forcibly drive the hydraulic oil to flow through a circuitous pipeline, so that the kinetic energy of the hydraulic oil is greatly converted into heat energy, and then the heat is dissipated through the cooling liquid and the radiating fins, so that the vertical vibration energy is converted into the heat energy, thereby realizing the vibration reduction, the horizontal vibration reduction mechanism can realize the vibration reduction in the horizontal direction, the automatic dust cleaning mechanism cleans dust through blowing, and the dust cleaning mechanism can collect cleaned dust, thereby avoiding the pollution to the air of a machine room.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic view of the overall structure of a vibration-reducing self-cleaning cabinet for a server according to the present invention;

3 FIG. 32 3 is 3 a 3 schematic 3 view 3 of 3 the 3 structure 3 in 3 the 3 direction 3 " 3 A 3- 3 A 3" 3 of 3 FIG. 31 3; 3

FIG. 3 is a schematic view of the structure in the direction "B-B" of FIG. 1;

FIG. 4 is an enlarged view of the structure at "C" of FIG. 1;

FIG. 5 is an enlarged view of the structure at "D" of FIG. 1;

FIG. 6 is an enlarged view of the structure at "E" in FIG. 1;

FIG. 7 is a schematic view of the structure in the direction "F-F" of FIG. 6;

FIG. 8 is an enlarged view of the structure at "G" in FIG. 3;

fig. 9 is an enlarged schematic view of the structure at "H" of fig. 6.

Detailed Description

The present invention will be described in detail with reference to fig. 1 to 9, and for the sake of convenience of description, the following orientations will be defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a server vibration reduction self-cleaning ash cabinet, which is mainly applied to vibration reduction and ash cleaning of a server, and the invention is further explained by combining the attached drawings of the invention:

the invention relates to a vibration-damping self-cleaning ash cabinet for a server, which comprises a cabinet 11, wherein a cabinet inner cavity 13 with a forward and backward opening is arranged in the cabinet 11, a horizontal vibration-damping device 101 is arranged in the cabinet inner cavity 13, the horizontal vibration-damping device 101 is used for damping vibration in the horizontal direction, the horizontal vibration-damping device 101 comprises a sliding base 12 which is connected to the inner wall of the lower side of the cabinet inner cavity 13 in a sliding manner, a slide way 34 is fixedly connected to the left side end face and the right side end face of the sliding base 12 respectively, the opening of the slide way 34 is upward, the two slide ways 34 are in bilateral symmetry, a slide block 33 is connected in the slide way 34 in a sliding manner, an auxiliary vibration-damping spring 43 is connected between the slide way 33 and the inner wall of the rear side of the slide way 34, two rotating shafts 31 which extend upwards are connected to the inner wall of the lower side, the rotary shaft 31 is fixedly connected with a crank disc 19, a connecting rod 32 is hinged between the crank disc 19 and the sliding block 33, the front side and the rear side end faces of the sliding base 12 are respectively and fixedly connected with fixing blocks 39, the two fixing blocks 39 are symmetrical front and back, the upper side end face of the sliding base 12 is fixedly connected with a vertical vibration damping device 102, the vertical vibration damping device 102 is used for vertical vibration damping, the vertical vibration damping device 102 comprises four hydraulic vibration damping cylinders 18 which are fixedly connected to the upper side end face of the sliding base 12 and are symmetrical in the center, a piston cavity 59 is arranged in each hydraulic vibration damping cylinder 18, a temperature reduction cavity 60 positioned on the lower side of the piston cavity 59 is arranged in each hydraulic vibration damping cylinder 18, a piston 57 is connected in each piston cavity 59 in a sliding mode, a compression spring 58 is connected between the piston 57 and the inner wall on the lower side of the piston cavity 59, the server fixing device 103 is used for installing and fixing the server 14 and can perform vibration reduction in the left-right direction, the ash removing device 104 located on the front side of the vertical vibration reduction device 102 is arranged in the cabinet inner cavity 13, and the ash removing device 104 is used for removing dust on the server 14.

Advantageously, the cabinet interior 13 is pivotally connected at both the front and rear openings to a cabinet door 37.

Beneficially, two bilaterally symmetrical auxiliary connecting rods 38 are hinged to the fixed block 39, two bilaterally symmetrical auxiliary sliding blocks 36 are respectively connected to the front side end face and the rear side end face of the cabinet inner cavity 13 in a sliding mode, a damping spring 35 is connected between each auxiliary sliding block 36 and the inner wall of the cabinet inner cavity 13 far away from the corresponding fixed block 39, each auxiliary sliding block 36 is hinged to the corresponding auxiliary connecting rod 38, when the sliding base 12 moves back and forth, the fixed block 39 drives the corresponding auxiliary sliding block 36 to move left and right through the corresponding auxiliary connecting rod 38, and the corresponding sliding block 33 moves back and forth along the corresponding sliding rail 34, so that damping in the front and rear direction.

Beneficially, an upright post 17 extending upward to an end face of the hydraulic damping cylinder 18 is fixedly connected to an end face of the upper side of the piston 57, an oil storage tank 42 is fixedly connected to an end face of the hydraulic damping cylinder 18 away from the cabinet inner chamber 13, a heat dissipation oil path pipe 56 is connected between the oil storage tank 42 and the piston chamber 59 in a communication manner, most of the heat dissipation oil path pipe 56 is located in the cooling chamber 60, a portion of the heat dissipation oil path pipe 56 located in the cooling chamber 60 is arranged in a zigzag manner, the cooling chamber 60 is filled with cooling liquid, damping hydraulic oil is stored in the piston chamber 59 and the oil storage tank 42, three fins 40 are fixedly connected to the annular end face of the cooling chamber 60 in a bottom-to-top array manner, an air spring 20 is arranged on the upright post 17, vertical vibration of the upright post 17 drives the piston 57 to move up and down, and the piston 57 moves up and down, the messenger piston chamber 59 with hydraulic oil reciprocating flow in the oil storage tank 42, because heat dissipation oil circuit pipe 56 arranges for circuitous shape, makes hydraulic oil pass through heat dissipation oil circuit pipe 56 makes the great kinetic energy loss of production, makes hydraulic oil hydraulic energy turn into heat energy, and passes through coolant liquid in the cooling chamber 60 with fin 40 dispels the heat to convert vertical vibration's mechanical energy into heat energy, realize vertical damping.

Beneficially, server fixing device 103 includes two vibration reduction boxes 16 and two vibration reduction boxes 16 respectively fixedly connected between left side and right side upright posts 17, two vibration reduction boxes 16 are bilaterally symmetrical, and vibration reduction box 16 is fixedly connected to upright posts 17 near a side end face of the symmetry center, vibration reduction cavity 65 with an opening facing away from upright posts 17 one side is arranged in vibration reduction box 16, vibration reduction cavity 65 is near two vertically symmetrical lifting slide blocks 64 are slidably connected to an inner wall of upright posts 17 one side, two fixing frames 15 located between lifting slide blocks 64 are slidably connected to an inner wall of rear side of vibration reduction cavity 65, two servers 14 are placed between fixing frames 15, servers 14 are fixedly connected to fixing frames 15 through screws, auxiliary connecting rods 66 are hinged between fixing frames 15 and lifting slide blocks 64, lifting slide blocks 64 are far away from vibration reduction cavity 65, and auxiliary compression spring springs are connected between inner walls of fixing frames 15 one side 67, the left and right vibration drives the fixed frame 15 to move left and right, and the fixed frame 15 drives the lifting slide block 64 to move up and down through the auxiliary connecting rod 66, so that the vibration reduction in the left and right direction is realized.

Beneficially, the ash removing device 104 includes a screw 29 rotatably connected to the inner wall of the upper side of the inner cavity 13 of the cabinet and extending downward, the screw 29 is located at the right side of the sliding base 12, a lifting motor 28 fixedly connected to the inner wall of the upper side of the inner cavity 13 of the cabinet is power connected to the screw 29, a lifting nut 27 is screw-connected to the screw 29, the lifting nut 27 is slidably connected to the inner wall of the right side of the inner cavity 13 of the cabinet, a steering shaft 68 extending downward to the outside of the lower side end surface of the lifting nut 27 is rotatably connected to the upper side end surface of the lifting nut 27, a knob 48 located at the upper side of the lifting nut 27 is fixedly connected to the steering shaft 68, a sliding hole 71 located at the left side of the steering shaft 68 is arranged in the lifting nut 27, the opening of the sliding hole 71 faces right, a bolt 70 is slidably connected to the sliding, a spring 72 is connected between the electromagnet 73 and the bolt 70, a pin hole 69 with an opening facing to the left is arranged in the steering shaft 68, the bolt 70 can extend into the pin hole 69 so as to limit the steering shaft 68 to rotate, the steering shaft 68 is fixedly connected with a steering block 30 positioned on the lower side of the lifting nut 27, a crank rotating shaft 49 extending leftwards is rotatably connected on the left end surface of the steering block 30, a gear 50 is fixedly connected on the crank rotating shaft 49, a connecting rod 54 is hinged on the gear 50, a rocker 53 is hinged on the connecting rod 54, a fixed block 51 is fixedly connected on the lower end surface of the steering block 30, a fixed block 52 is fixedly connected on the upper end surface of the fixed block 51, the rocker 53 is rotatably connected on the fixed block 52, a fixed rod 25 is fixedly connected on the left end surface of the rocker 53, and an ash removing blower 22 positioned on the left side of the fixed, a rack 26 is fixedly connected to the front end face of the upright post 17 on the left front side, the rack 26 is connected with the gear 50 in a meshing manner, a connecting rod 47 is fixedly connected to the rear end face of the lifting nut 27, an auxiliary fixing rod 46 is fixedly connected to the rear end face of the connecting rod 47, an air pump 45 positioned on the left side of the connecting rod 47 is fixedly connected to the auxiliary fixing rod 46, the air pump 45 is positioned on the rear side of the dust cleaning blower 22, a nozzle 44 is arranged on the end face of the air pump 45 and the dust cleaning blower 22 close to one side of the server 14, a dust collecting box 24 is fixedly connected to the end face of the upper side of the cabinet inner cavity 13, a hose 23 is communicated between the dust collecting box 24 and the dust cleaning blower 22, the air flow sprayed by the dust cleaning blower 22 is used for blowing and cleaning dust, the air pump 45 is used for sucking and collecting dust, and conveying, thereby realizing dust removal.

The following detailed description of the steps of using a server vibration reduction self-ash-cleaning cabinet in this document is provided with reference to fig. 1 to 9:

initially, the electromagnet 73 is de-energized and the latch 70 extends into the pin hole 69 under the action of the spring 72 to limit the rotation of the steering shaft 68, the lift nut 27 is at the upper limit and the cabinet door 37 is in the closed position.

The cabinet door 37 at the front side is opened, when the server 14 needs to be replaced, the electromagnet 73 is electrified to adsorb the bolt 70, the bolt 70 is enabled to be separated from the pin hole 69, the limit of the steering shaft 68 is released, then the knob 48 is manually rotated, the knob 48 drives the steering shaft 68 and the steering block 30 to rotate ninety degrees forwards, so that the fixing rod 25 and the ash cleaning blower 22 rotate ninety degrees forwards to avoid interfering the replacement of the server 14, then the corresponding bolt is disassembled to replace the server 14, after the replacement is completed, the lifting nut 27 is manually rotated to reverse ninety degrees for resetting, then the cabinet door 37 at the front side is closed, the electromagnet 73 is powered off, the bolt 70 is rightwards moved for resetting under the action of the spring 72, the bolt 70 extends into the pin hole 69 again to limit the rotation of the steering shaft 68.

When vertical vibration occurs, the vibration is transmitted to the cabinet 11 and the sliding base 12 from the ground, then the vibration drives the hydraulic vibration damping cylinder 18 to move up and down, the hydraulic vibration damping cylinder 18 transmits the vibration to the piston 57 through the compression spring 58, part of the vibration energy is absorbed by the elastic deformation of the compression spring 58 to damp, the compression spring 58 drives the piston 57 to move up and down, when the piston 57 moves up, negative pressure is generated in the piston cavity 59 to transmit hydraulic oil in the oil storage tank 42 into the piston cavity 59 through the heat radiation oil path pipe 56, when the piston 57 moves down, the hydraulic oil in the piston cavity 59 is transmitted into the oil storage tank 42 through the heat radiation oil path pipe 56, as the tortuous pipeline of the heat radiation oil path pipe 56 enables the hydraulic energy of the hydraulic oil to be converted into a large amount of heat, the heat radiation oil path pipe 56 is subjected to heat absorption and cooling through the cooling liquid in the cooling cavity 60, and the heat in the cooling cavity 60, thereby converting the mechanical energy of vibration into heat energy to realize vibration reduction, then transmitting the vibration to the upright post 17 through the piston 57, realizing further buffer vibration reduction through the deformation of the air spring 20 on the upright post 17, realizing triple vertical vibration reduction through the elastic deformation of the spring, hydraulic oil and the air spring 20, reducing the influence of vertical vibration on the server 14,

when encountering horizontal vibration, the vibration is transmitted to the cabinet 11 and the sliding base 12 from the ground, the sliding base 12 drives the fixed block 39 to move back and forth, the fixed block 39 drives the damping spring 35 to expand and contract through the auxiliary sliding block 36 to realize damping in the front and back directions, the sliding base 12 drives the sliding way 34 to move back and forth through driving the sliding way 34 to move back and forth, the auxiliary damping spring 43 expands and contracts to realize damping in the front and back wind directions, when the sliding base 12 vibrates in the left and right directions, the sliding way 34 drives the sliding block 33 to move left and right, the sliding block 33 drives the crank disc 19 to rotate through the connecting rod 32, the crank disc 19 drives the torsion spring 55 to twist to convert the left and right movement into elastic deformation to realize damping in the left and right directions, when the left and right vibrations are transmitted to the server 14 to drive the server 14 to move left and right, further realize the vibration reduction in the left and right directions, thereby realizing the vibration reduction in the horizontal direction,

when dust is required to be removed, the dust removing blower 22 and the air pump 45 are started, the dust removing blower 22 blows air to the server 14, so that dust on the server 14 is removed, the air pump 45 pumps air to pump the dust in the inner cavity 13 of the cabinet, the dust is conveyed to the dust collecting box 24 through the hose 23 to be stored, dust falling is achieved, the lifting motor 28 is started, the lifting motor 28 drives the screw rod 29 to rotate, the screw rod 29 drives the lifting nut 27 to move downwards along the inner wall of the right side of the inner cavity 13 of the cabinet through threaded connection, the lifting nut 27 drives the steering block 30 to move downwards through the steering shaft 68, the steering block 30 drives the gear 50 to move downwards through the crank rotating shaft 49, the rack 26 is connected with the gear 50 to rotate through meshing, the gear 50 drives the rocker 53 to swing back and forth through the connecting rod 54, the rocker 53 drives the fixing rod 25 and the blower, the ash removal effect is improved, after the lifting nut 27 moves downwards to the lower limiting position, the lifting motor 28 rotates reversely to drive the lifting nut 27 to move upwards for resetting, the ash removal blower 22 continues blowing air to remove ash from the server 14, and after the lifting nut 27 moves upwards for resetting, the ash removal blower 22, the air suction pump 45 and the lifting nut 27 stop rotating to finish ash removal work.

In the above manner, a person skilled in the art can make various changes depending on the operation mode within the scope of the present invention.

Claims

1. The utility model provides a server damping is from deashing rack, includes the rack, its characterized in that: the vibration reduction device comprises a sliding base which is connected to the inner wall of the lower side of the inner cavity of the machine cabinet in a sliding manner, a slide way is fixedly connected to the left side end face and the right side end face of the sliding base respectively, the opening of the slide way is upward, the two slide ways are bilaterally symmetrical, a slide block is connected to the slide way in a sliding manner, an auxiliary vibration reduction spring is connected between the slide block and the inner wall of the rear side of the slide way, two rotating shafts extending upwards are connected to the inner wall of the lower side of the inner cavity of the machine cabinet in a rotating manner, the rotating shafts are bilaterally symmetrical, the sliding base is positioned between the two rotating shafts, a crank disc is fixedly connected to the rotating shafts, and a connecting rod is hinged between the crank disc and the slide block, the front end face and the rear end face of the sliding base are respectively fixedly connected with a fixed block, two fixed blocks are symmetrical front and back, the upper end face of the sliding base is fixedly connected with a vertical vibration damping device which is used for vertical vibration damping, the vertical vibration damping device comprises four hydraulic vibration damping cylinders which are fixedly connected to the upper end face of the sliding base and are centrosymmetrical, a piston cavity is arranged in each hydraulic vibration damping cylinder, a cooling cavity which is positioned on the lower side of the piston cavity is arranged in each hydraulic vibration damping cylinder, a piston is connected in each piston cavity in a sliding mode, a compression spring is connected between each piston and the inner wall of the lower side of the piston cavity, three server fixing devices are arranged on the vertical vibration damping device, each server fixing device is used for installing and fixing a server and can damp vibration in the left and right directions, and an ash removing device which is positioned on the front, the ash removal device is used for removing dust on the server.

2. The server vibration reduction self-cleaning ash cabinet as claimed in claim 1, wherein: the front side opening and the rear side opening of the inner cavity of the cabinet are rotatably connected with cabinet doors.

3. The server vibration reduction self-cleaning ash cabinet as claimed in claim 1, wherein: the hinge has two bilateral symmetry's vice connecting rod on the fixed block, sliding connection has two bilateral symmetry's vice slider respectively on rack inner chamber front side and the rear end terminal surface, vice slider with the rack inner chamber is kept away from be connected with damping spring between fixed block one side inner wall, vice slider with vice connecting rod is articulated mutually.

4. The server vibration reduction self-cleaning ash cabinet as claimed in claim 1, wherein: fixedly connected with upwards extends to on the piston upside terminal surface stand outside the hydraulic damping cylinder terminal surface, the hydraulic damping cylinder is kept away from fixedly connected with batch oil tank on the terminal surface of rack inner chamber one side, the batch oil tank with communicate with each other between the piston chamber and be connected with the heat dissipation oil circuit pipe, heat dissipation oil circuit pipe most is located the cooling intracavity, the heat dissipation oil circuit pipe is located the part of cooling intracavity is arranged for circuitous shape, the cooling intracavity is full of the coolant liquid, the piston chamber with damping hydraulic oil is stored in the batch oil tank, the three fin that distributes from bottom to top array of fixedly connected with on the annular terminal surface of cooling chamber, be equipped with air spring on the stand.

5. The server vibration reduction self-cleaning ash cabinet as claimed in claim 4, wherein: the server fixing device comprises two vibration reduction boxes respectively fixedly connected between the left upright post and the right upright post, the two vibration reduction boxes are symmetrical left and right, the vibration damping box is fixedly connected on the end surface of one side of the upright post close to the symmetric center, a vibration damping cavity with an opening facing to one side far away from the upright post is arranged in the vibration damping box, the inner wall of the vibration reduction cavity close to one side of the upright post is connected with two lifting slide blocks which are symmetrical up and down in a sliding way, a fixing frame positioned between the two lifting slide blocks is connected on the inner wall of the rear side of the vibration reduction cavity in a sliding manner, a server is arranged between the left fixing frame and the right fixing frame, the server is fixedly connected with the fixed frame through screws, an auxiliary connecting rod is hinged between the fixed frame and the lifting slide block, and an auxiliary compression spring is connected between the lifting slide block and the inner wall of the vibration damping cavity far away from one side of the fixed frame.

6. The server vibration reduction self-cleaning ash cabinet as claimed in claim 4, wherein: the ash removing device comprises a screw rod which is rotatably connected to the inner wall of the upper side of the inner cavity of the cabinet and extends downwards, the screw rod is positioned on the right side of the sliding base, a lifting motor which is fixedly connected to the inner wall of the upper side of the inner cavity of the cabinet is connected to the screw rod in a power connection mode, a lifting nut is connected to the screw rod in a threaded mode and is slidably connected to the inner wall of the right side of the inner cavity of the cabinet, a steering shaft which extends downwards to the outside of the lower side end face of the lifting nut is rotatably connected to the upper side end face of the lifting nut, a knob which is positioned on the upper side of the lifting nut is fixedly connected to the steering shaft, a sliding hole which is positioned on the left side of the steering shaft is arranged in the lifting nut, the opening of the sliding hole faces, a pin hole with a leftward opening is formed in the steering shaft, the bolt can extend into the pin hole so as to limit the steering shaft to rotate, a steering block located on the lower side of the lifting nut is fixedly connected to the steering shaft, a crank rotating shaft extending leftward is rotatably connected to the left end face of the steering block, a gear is fixedly connected to the crank rotating shaft, a connecting rod is hinged to the gear, a rocker is hinged to the connecting rod, a fixed block is fixedly connected to the lower end face of the steering block, a fixed block is fixedly connected to the upper end face of the fixed block, the rocker is rotatably connected to the fixed block, a fixed rod is fixedly connected to the left end face of the rocker, an ash removing blower located on the left side of the fixed block is fixedly connected to the fixed rod, a rack is fixedly connected to the front end face of the upright column on the left front side, the dust collecting box is characterized in that a connecting rod is fixedly connected to the rear end face of the lifting nut, an auxiliary fixing rod is fixedly connected to the rear end face of the connecting rod, the auxiliary fixing rod is fixedly connected to an air pump located on the left side of the connecting rod, the air pump is located on the rear side of the dust cleaning blower, the air pump and the dust cleaning blower are close to a nozzle arranged on one side end face of the server, a dust collecting box is fixedly connected to the upper side end face of the inner cavity of the cabinet, and a hose is connected between the dust collecting box and the dust cleaning blower in a communicating.