CN221017520U

CN221017520U - Ash removal device for data center server

Info

Publication number: CN221017520U
Application number: CN202322755380.7U
Authority: CN
Inventors: 刘秀淑; 刘卫强
Original assignee: Linyi Central Hospital Linyi Yishui Central Hospital
Current assignee: Linyi Central Hospital Linyi Yishui Central Hospital
Priority date: 2023-10-14
Filing date: 2023-10-14
Publication date: 2024-05-28
Anticipated expiration: 2033-10-14

Abstract

The utility model discloses a deashing device of a data center server, which comprises a vehicle body and a cleaning device; the cleaning device is connected to the vehicle body in a sliding manner; the installation box is in sliding connection with a pair of guide rails I, a sliding groove with gear teeth on one side is fixedly connected above the installation box, a threaded rod with a sprocket fixed at one end is rotationally connected below the installation box, and a pair of guide plates are fixedly connected with the installation box on two sides of the threaded rod; the protective housing is equipped with a pair of, respectively in a pair of guide rail I one side and installation case fixed connection, and one side is equipped with the wiring groove fixed connection of a plurality of connecting holes in the installation case inboard. The dust collecting device can collect the dust which is deposited on the surface of the equipment and can be lifted at the same time, so that the dust is prevented from being scattered to influence the operation of other servers or equipment in the machine room.

Description

Ash removal device for data center server

Technical Field

The utility model belongs to the technical field of cleaning of data center equipment, and particularly relates to a deashing device of a data center server.

Background

The data center server is usually installed in the cabinet, a certain heat dissipation space is reserved up and down, the server continuously works for a long time, so that a large amount of heat and static electricity are generated, the large amount of static electricity can adsorb dust on the surface of a machine and on the cabinet partition board, the stability of the machine can be influenced after a long time, and the heat dissipation of the server can be influenced by accumulated dust, so that a data center server ash removal device is needed, and dust covered on the server by the data center server is cleaned to ensure the normal use of the data center server.

According to the search, a dustproof database host with an internal ash removing structure is disclosed in the patent number 202220425694.3; the device inserts ash removal devices between upper and lower adjacent hosts through rectangular mounting grooves on the left side and the right side of the host, and is locked with the host through screws and fixing lugs, when the host is covered with certain dust, the motor is matched with the driving gear, the belt pulley and the first driven gear to drive the rotating shaft to control the second driven gear, the belt pulley and the third driven gear to rotate, so that the belt pulleys on the left side and the right side are synchronously rotated, rollers arranged on the upper surface and the lower surface of the belt pulleys on the left side and the right side are driven to rotate to clean the surfaces of the upper host and the lower host, and the air suction fans on the left side and the right side are used for outwards sucking the sprung dust from the space between the upper host and the lower host, so that the aim of automatically removing ash is fulfilled; however, after the dust is extracted by the device, the raised dust still remains in the machine room and may affect other servers or equipment, and part of dust with slightly heavy mass is deposited on the surface of the equipment and is difficult to be extracted by the exhaust fan; in view of this, propose a data center server ash removal device, can collect the dust that is raised when the dust clean up that will deposit on equipment surface, prevent that the dust from dispersing and influencing the operation of other servers or equipment in the computer lab.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art and provides a data center server ash removal device.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

The ash removing device comprises a vehicle body and a cleaning device; the cleaning device is connected to the vehicle body in a sliding manner; the bottom of the vehicle body is fixedly provided with a plurality of universal wheels, and the vehicle body is provided with a guide rail I, a guide rail II, a handle and a connecting groove; the electric box, the high-voltage generator and the fan are fixedly connected in the vehicle body through the supporting plate, the dust box with the fan on one side is fixedly connected at the bottom of the vehicle body, and the dust box corresponds to the position of the ventilation opening on one side of the vehicle body; the guide rail I is provided with a pair of guide rails, the guide rails are fixedly connected with the vehicle body on two sides of the connecting groove respectively, and the bottoms of the guide rails II are spliced at the tops of the guide rails I and are locked and fixed with the guide rails I through inner hexagon bolts.

The cleaning device comprises an installation box, a motor I, a guide plate, a threaded rod, a protective shell, a wiring groove, a connecting hole, a sliding chute, a blowing mechanism, a sliding seat, an electric pushing cylinder I, a connecting plate, a brush plate, an electric pushing cylinder II, a connecting seat, a rotating seat, a rack, a dust collection mechanism, a connecting block, a connecting pipe I, a gear, a connecting pipe II, a dust collection pipe, an electric pushing cylinder III, a motor II, a roller I, a roller II and an ion wind bar; the installation box is in sliding connection with the pair of guide rails I, a sliding groove with gear teeth on one side is fixedly connected above the installation box, a threaded rod with a sprocket fixed at one end is rotationally connected below the installation box, and a pair of guide plates are fixedly connected with the installation box on two sides of the threaded rod; the protective shell is provided with a pair of wiring grooves which are fixedly connected with the installation box on one side of the pair of guide rails I respectively, and a plurality of connecting holes are formed in one side of the wiring grooves and are fixedly connected to the inner side of the installation box; the motor I is fixedly connected to the top of the mounting box through a motor seat, and a chain wheel at the output end of the motor I is connected with a chain wheel on the threaded rod through a chain; the roller I and the roller II are respectively provided with a pair, the roller I is rotationally connected with the installation box through a connecting shaft fixedly connected with a gear, the roller II is rotationally connected with the installation box through a connecting shaft fixedly connected with a chain wheel and a gear, the roller I and the roller II are in a group, are attached to two sides of the guide rail I in the protective shell, and the gears on the roller I and the roller II are meshed with each other; the motor II is fixedly connected inside the installation box at one side of the wiring groove through a motor seat, and a pair of chain wheels at the output end of the motor II are connected with chain wheels on the idler wheels II through chains; the purging mechanism is provided with a sliding seat, an electric pushing cylinder I, a connecting plate, a brush plate, an electric pushing cylinder II, a connecting seat, a rotating seat and a rack; the upper part of the rotating seat is fixedly connected with a pair of electric pushing cylinders II through a connecting seat, the lower part of the rotating seat is fixedly connected with a gear, one side of the connecting seat which is slidably connected in an arc chute above the rotating seat is fixedly connected with the extending end of the electric pushing cylinders II, and the other side of the connecting seat is symmetrically and fixedly provided with a pair of connecting plates; the sliding seat is in sliding connection with the guide plate, is in threaded connection with the threaded rod, and is rotationally connected to the bottom of the rotating seat; the electric pushing cylinder I is fixedly connected to one side of the sliding seat through a connecting seat, and is fixedly connected with a rack meshed to one side of a gear below the rotating seat through a connecting plate; the brush plate is provided with a plurality of springs which are connected above and below the connecting plate in a sliding way through connecting shafts, and the springs are arranged between the brush plate and the connecting plate along the connecting shafts on the brush plate; the ion wind stick fixed connection is on the connecting seat, and ion wind stick one end passes through connecting plate and a pair of connecting plate fixed connection, and tracheal joint, the high pressure joint of fixed connection at ion wind stick other end are connected with fan and high pressure generator through pipeline and connecting wire respectively.

The dust collection mechanism is provided with a connecting block, a connecting pipe I, a gear, a connecting pipe II, a dust collection pipe and an electric pushing cylinder III; one end of the electric pushing cylinder III is fixedly connected with the chute, and the extending end is fixedly connected with a connecting block which is in sliding connection with the chute; connecting pipe I and connecting block fixed connection, connecting pipe II one end of fixedly connected with gear rotates with the connecting block in connecting pipe I below, and the other end and dust absorption pipe one end fixed connection, and the gear meshes with the teeth of a cogwheel of spout one side.

Preferably, the electric box, the dust box, the high voltage generator and the pipelines or lines from the fan pass through the connecting grooves, the wiring grooves and the connecting holes to be connected with the equipment connected to the mounting box.

Compared with the prior art, the utility model has the beneficial effects that:

1) The motor I controls the threaded rod to rotate so as to drive the blowing mechanism to move along the guide plate to the dust collection mechanism, and dust on the server is cleaned; the motor II drives the roller II to rotate through the chain, and meanwhile, the gear on the roller II is meshed with the gear on the roller I to control the roller I to rotate, so that the roller I, the roller II and the guide rail I are matched to drive the cleaning device to integrally ascend or descend, and the cleaning device is convenient for cleaning servers fixed at different heights;

2) After the baffle is detached from the rack, the electric pushing cylinder I is controlled to push the rack to be meshed with the gear on the rotating seat, so that the connecting seat is controlled to rotate, the brush plate and the ion wind rod are transferred into a gap between adjacent servers from the inside of the installation box, static electricity on the servers can be removed through the ion wind rod, and dust adsorbed on the servers by the static electricity can be conveniently cleaned; meanwhile, the electric pushing cylinder II stretches out and draws back to control the connecting seat to slide back and forth along the arc-shaped sliding groove on the rotating seat, so that the brush plate and the ion wind rod brush and sweep dust back and forth on the upper surface and the lower surface of a pair of adjacent servers, and dust with slightly heavy mass is prevented from accumulating and remaining on the servers; the brushing plate and the connecting plate are matched with the springs, so that the brushing plate can brush and sweep servers with different fixed distances;

3) After the electric pushing cylinder I controls the brush plate and the ion air bars to extend into the gap between the adjacent servers, the electric pushing cylinder III is controlled to push the connecting block to slide along the sliding groove, meanwhile, the gear is meshed with the gear teeth on one side of the sliding groove, so that the connecting pipe II controls the dust collection pipe to extend into the gap between the adjacent servers, then a fan on the dust collection box is started, dust lifted by the blowing mechanism is collected through the dust collection pipe, and the dust is prevented from scattering around in the machine room after being lifted along with the airflow to affect the operation of other servers or equipment in the machine room; the motor I and the threaded rod are matched to control the rotating seat to drive the brush plate and the ion wind rod to move towards the dust collection pipe, dust with slightly heavy mass accumulated on the server can be swept towards the dust collection pipe by the brush plate, and residual dust is sucked into the dust collection box through the dust collection pipe, so that dust residue is prevented.

Drawings

FIG. 1 is a schematic diagram of a data center server ash removal device;

FIG. 2 is a schematic view of the connection structure of the vehicle body and the cleaning device of FIG. 1;

FIG. 3 is a schematic view of the internal structure of the vehicle body of FIG. 1;

FIG. 4 is a schematic diagram of the connection structure of the guide rail I and the guide rail II in FIG. 1;

FIG. 5 is a schematic view of the internal structure of the mounting box of FIG. 1;

FIG. 6 is a schematic view of the dust extraction mechanism of FIG. 1;

FIG. 7 is a schematic view of the connection of the purge mechanism to the mounting box of FIG. 1;

FIG. 8 is a schematic view of the purge mechanism of FIG. 1;

FIG. 9 is an enlarged schematic view of the portion A of FIG. 8;

In the figure: 1. a vehicle body; 101. a guide rail I; 1011. a guide rail II; 1012. a handle; 1013. a connecting groove; 2. a cleaning device; 201. a mounting box; 2011. a motor I; 2012. a guide plate; 2013. a threaded rod; 2014. a protective shell; 2015. wiring grooves; 2016. a connection hole; 2017. a chute; 202. a purge mechanism; 2021. a sliding seat; 2022. an electric pushing cylinder I; 2023. a connecting plate; 2024. brushing a plate; 2025. an electric pushing cylinder II; 2026. a connecting seat; 2027. a rotating seat; 2028. a rack; 203. a dust collection mechanism; 2031. a connecting block; 2032. a connecting pipe I; 2033. a gear; 2034. a connecting pipe II; 2035. a dust collection pipe; 2036. an electric push cylinder III; 204. a motor II; 2041. a roller I; 2042. a roller II; 205. an ion wind bar; 3. a frame; 301. a baffle; 302. a server; 4. an electric box; 5. a dust collection box; 6. a high voltage generator; 7. a blower.

Detailed Description

In order to facilitate understanding of those skilled in the art, the technical scheme of the present utility model will be further specifically described below with reference to fig. 1 to 9.

The ash removal device of the data center server comprises a vehicle body 1 and a cleaning device 2; the cleaning device 2 is connected to the vehicle body 1 in a sliding manner; the bottom of the car body 1 is fixedly provided with a plurality of universal wheels, and the car body 1 is provided with a guide rail I101, a guide rail II 1011, a handle 1012 and a connecting groove 1013; a ventilation opening and a handle 1012 are arranged on one side of the vehicle body 1, a connecting groove 1013 is arranged on the other side of the vehicle body, the electric box 4, the high-voltage generator 6 and the fan 7 are fixedly connected inside the vehicle body 1 through a supporting plate, a dust collection box 5 with the fan on one side is fixedly connected to the bottom of the vehicle body 1, and the dust collection box 5 corresponds to the ventilation opening on one side of the vehicle body 1 in position; the guide rail I101 is provided with a pair of guide rails, the guide rails I101 are fixedly connected with the vehicle body 1 on two sides of the connecting groove 1013 respectively, and the bottoms of the guide rails II 1011 are inserted into the tops of the guide rails I101 and are locked and fixed with the guide rails I101 through inner hexagon bolts.

The cleaning device 2 comprises a mounting box 201, a motor I2011, a guide plate 2012, a threaded rod 2013, a protective shell 2014, a wiring groove 2015, a connecting hole 2016, a sliding groove 2017, a purging mechanism 202, a sliding seat 2021, an electric pushing cylinder I2022, a connecting plate 2023, a brush plate 2024, an electric pushing cylinder II 2025, a connecting seat 2026, a rotating seat 2027, a rack 2028, a dust collection mechanism 203, a connecting block 2031, a connecting pipe I2032, a gear 2033, a connecting pipe II 2034, a dust collection pipe 2035, an electric pushing cylinder III 2036, a cleaning device, Motor ii 204, roller i 2041, roller ii 2042, and ion wind bar 205; the installation box 201 is slidably connected with a pair of guide rails i 101, a sliding groove 2017 with gear teeth on one side is fixedly connected above the installation box 201, a threaded rod 2013 with a sprocket fixed at one end is rotatably connected below the installation box 201, and a pair of guide plates 2012 are fixedly connected with the installation box 201 on two sides of the threaded rod 2013; the protecting shell 2014 is provided with a pair of connecting slots 2015 which are respectively fixedly connected with the mounting box 201 on one side of the pair of guide rails I101 and are provided with a plurality of connecting holes 2016 on one side, and the connecting slots are fixedly connected to the inner side of the mounting box 201; the pipes or lines connected to the electric box 4, the dust box 5, the high voltage generator 6 and the blower 7 pass through the connection slots 1013, the connection slots 2015 and the connection holes 2016 to be connected with the devices connected to the installation box 201; the motor I2011 is fixedly connected to the top of the mounting box 201 through a motor base, and a chain wheel at the output end of the motor I2011 is connected with a chain wheel on the threaded rod 2013 through a chain; the rollers I2041 and II 2042 are respectively provided with a pair, the roller I2041 is rotationally connected with the installation box 201 through a connecting shaft fixedly connected with a gear, the roller II 2042 is rotationally connected with the installation box 201 through a connecting shaft fixedly connected with a chain wheel and a gear, the roller I2041 and the roller II 2042 are a group, the rollers are attached to two sides of the guide rail I101 in the protective shell 2014, and the gears on the roller I2041 and the roller II 2042 are meshed with each other; the motor II 204 is fixedly connected inside the installation box 201 at one side of the wiring groove 2015 through a motor seat, and a pair of chain wheels on the output end of the motor II 204 are connected with chain wheels on the roller II 2042 through a chain; motor i 2011 controls threaded rod 2013 to rotate, so as to drive purge mechanism 202 to move along guide plate 2012 to dust collection mechanism 203, and clean dust on server 302; the motor II 204 drives the roller II 2042 to rotate through a chain, and meanwhile, a gear on the roller II 2042 is meshed with a gear on the roller I2041 to control the roller I2041 to rotate, so that the roller I2041, the roller II 2042 and the guide rail I101 cooperate to drive the cleaning device 2 to ascend or descend integrally, and the cleaning device 2 is convenient for cleaning the servers 302 fixed at different heights; the purging mechanism 202 is provided with a sliding seat 2021, an electric pushing cylinder I2022, a connecting plate 2023, a brush plate 2024, an electric pushing cylinder II 2025, a connecting seat 2026, a rotating seat 2027 and a rack 2028; the upper part of the rotating seat 2027 is fixedly connected with a pair of electric pushing cylinders II 2025 through a connecting seat, a gear is fixedly connected to the lower part of the rotating seat, one side of a connecting seat 2026 which is slidably connected in an arc chute above the rotating seat 2027 is fixedly connected with the extending end of the electric pushing cylinders II 2025, and a pair of connecting plates 2023 are symmetrically fixed to the other side of the connecting seat; the sliding seat 2021 is slidably connected with the guide plate 2012, is in threaded connection with the threaded rod 2013, and the sliding seat 2021 is rotatably connected to the bottom of the rotating seat 2027; the electric pushing cylinder I2022 is fixedly connected to one side of the sliding seat 2021 through a connecting seat, and the electric pushing cylinder I2022 is fixedly connected with a rack 2028 meshed to one side of a gear below the rotating seat 2027 through a connecting plate; the brush plate 2024 is provided with a plurality of springs which are connected above and below the connecting plate 2023 in a sliding way through connecting shafts, and the springs are arranged between the brush plate 2024 and the connecting plate 2023 along the connecting shafts on the brush plate 2024; the ion wind rod 205 is fixedly connected to the connecting base 2026, one end of the ion wind rod 205 is fixedly connected with the pair of connecting plates 2023 through the connecting plates, and an air pipe joint and a high-pressure joint fixedly connected to the other end of the ion wind rod 205 are respectively connected with the fan 7 and the high-pressure generator 6 through pipelines and connecting wires; after the baffle 301 is detached from the frame 3, the electric pushing cylinder I2022 is controlled to push the rack 2028 to be meshed with a gear on the rotating seat 2027, so that the connecting seat 2026 is controlled to rotate, the brush plate 2024 and the ion wind rod 205 are led into a gap between adjacent servers 302 from the inside of the installation box 201, static electricity on the servers 302 can be removed through the ion wind rod 205, and dust adsorbed on the servers 302 by the static electricity can be conveniently cleaned; simultaneously, the electric pushing cylinder II 2025 telescopically controls the connecting seat 2026 to slide back and forth along the arc-shaped sliding groove on the rotating seat 2027, so that the brush plate 2024 and the ion air bar 205 brush and sweep dust back and forth on the upper surface and the lower surface of a pair of adjacent servers 302, and dust with slightly heavy mass is prevented from accumulating and remaining on the servers 302; and the brush plate 2024 and the connecting plate 2023 cooperate with springs so that the brush plate 2024 can brush the servers 302 with different fixed distances.

The dust collection mechanism 203 is provided with a connecting block 2031, a connecting pipe I2032, a gear 2033, a connecting pipe II 2034, a dust collection pipe 2035 and an electric pushing cylinder III 2036; one end of the electric pushing cylinder III 2036 is fixedly connected with the chute 2017, and the extending end is fixedly connected with a connecting block 2031 which is in sliding connection with the chute 2017; the connecting pipe I2032 is fixedly connected with the connecting block 2031, one end of a connecting pipe II 2034 fixedly connected with a gear 2033 is rotationally connected with the connecting block 2031 below the connecting pipe I2032, the other end of the connecting pipe II is fixedly connected with one end of the dust collection pipe 2035, and the gear 2033 is meshed with gear teeth on one side of the chute 2017; after the electric push cylinder I2022 controls the brush plate 2024 and the ion air bars 205 to extend into the gap between the adjacent servers 302, the electric push cylinder III 2036 is controlled to push the connecting block 2031 to slide along the chute 2017, meanwhile, the gear 2033 is meshed with gear teeth on one side of the chute 2017, so that the connecting pipe II 2034 controls the dust collection pipe 2035 to extend into the gap between the adjacent servers 302, then a fan on the dust collection box 5 is started, dust lifted by the sweeping mechanism 202 is collected through the dust collection pipe 2035, and the dust is prevented from scattering around in a machine room after being lifted by airflow to influence the operation of other servers 302 or equipment in the machine room; the motor I2011 and the threaded rod 2013 are matched to control the rotating base 2027 to drive the brush plate 2024 and the ion wind rod 205 to move towards the dust collection pipe 2035, dust with slightly heavy mass accumulated on the server 302 can be swept towards the dust collection pipe 2035 by the brush plate 2024, and residual dust is sucked into the dust collection box 5 through the dust collection pipe 2035, so that dust residue is prevented.

The ash removal device of the data center server has the following working processes:

After the baffle 301 fixed on the frame 3 is disassembled, the guide rail II 1011 is fixed above the guide rail I101 through the inner hexagon bolt, and then the vehicle body 1 is pushed to enable the two side edges of the cleaning device 2 to be flush with the side edges of the frame 3; the motor II 204 drives the roller II 2042 to rotate through a chain, and simultaneously a gear on the roller II 2042 is meshed with a gear on the roller I2041 to control the roller I2041 to rotate, so that the roller I2041, the roller II 2042 and the guide rail I101 cooperate to control the mounting box 201 to rise to the top of the frame and align with a gap between adjacent servers 302; then the electric pushing cylinder I2022 is controlled to push the rack 2028 to be meshed with a gear on the rotating seat 2027, so that the connecting seat 2026 drives the brush plate 2024 and the ion wind rod 205 to be turned into a gap between adjacent servers 302 from the installation box 201; then the electric pushing cylinder III 2036 pushes the connecting block 2031 to slide along the chute 2017, and the gear 2033 is meshed with gear teeth on one side of the chute 2017, so that the connecting pipe II 2034 controls the dust collection pipe 2035 to extend into a gap between adjacent servers 302; the static electricity on the server 302 can be removed through the ion wind bar 205, so that dust adsorbed on the server 302 by the static electricity can be conveniently cleaned; simultaneously, the electric pushing cylinder II 2025 telescopically controls the connecting seat 2026 to slide back and forth along the arc-shaped sliding groove on the rotating seat 2027, so that the brush plate 2024 and the ion air bar 205 brush and sweep dust back and forth on the upper surface and the lower surface of a pair of adjacent servers 302; simultaneously, a fan on the dust collection box 5 is started, and dust lifted by the blowing mechanism 202 is collected through a dust collection pipe 2035; the motor I2011 and the threaded rod 2013 are matched to control the rotating base 2027 to drive the brush plate 2024 and the ion wind rod 205 to move towards the dust collection pipe 2035, and dust with heavy mass accumulated on the server 302 is swept towards the dust collection pipe 2035 by the brush plate 2024, so that residual dust is sucked into the dust collection box 5 through the dust collection pipe 2035; after cleaning, the cleaning mechanism 202 and the cleaning device 2 are controlled to be sequentially retracted into the mounting box 201, then the motor II 204 controls the rollers II 2042 and I2041 to drive the cleaning device 2 to descend, and the operation is repeated to clean the other pair of adjacent servers 302.

The foregoing is merely illustrative and explanatory of the utility model, as it is well within the scope of the utility model as claimed, as it relates to various modifications, additions and substitutions for those skilled in the art, without departing from the inventive concept and without departing from the scope of the utility model as defined in the accompanying claims.

Claims

1. The ash removing device comprises a vehicle body and a cleaning device; the cleaning device is connected to the vehicle body in a sliding manner;

The cleaning device is characterized by comprising an installation box, a motor I, a guide plate, a threaded rod, a protective shell, a wiring groove, a connecting hole, a sliding groove, a blowing mechanism, a sliding seat, an electric pushing cylinder I, a connecting plate, a brush plate, an electric pushing cylinder II, a connecting seat, a rotating seat, a rack, a dust collection mechanism, a connecting block, a connecting pipe I, a gear, a connecting pipe II, a dust collection pipe, an electric pushing cylinder III, a motor II, a roller I, a roller II and an ion wind rod; the installation box is in sliding connection with the pair of guide rails I, a sliding groove with gear teeth on one side is fixedly connected above the installation box, a threaded rod with a sprocket fixed at one end is rotationally connected below the installation box, and a pair of guide plates are fixedly connected with the installation box on two sides of the threaded rod; the protective shell is provided with a pair of wiring grooves which are fixedly connected with the installation box on one side of the pair of guide rails I respectively, and a plurality of connecting holes are formed in one side of the wiring grooves and are fixedly connected to the inner side of the installation box; the roller I and the roller II are respectively provided with a pair, the roller I is rotationally connected with the installation box through a connecting shaft fixedly connected with a gear, the roller II is rotationally connected with the installation box through a connecting shaft fixedly connected with a chain wheel and a gear, the roller I and the roller II are in a group, are attached to two sides of the guide rail I in the protective shell, and the gears on the roller I and the roller II are meshed with each other; the purging mechanism is provided with a sliding seat, an electric pushing cylinder I, a connecting plate, a brush plate, an electric pushing cylinder II, a connecting seat, a rotating seat and a rack; the upper part of the rotating seat is fixedly connected with a pair of electric pushing cylinders II through a connecting seat, the lower part of the rotating seat is fixedly connected with a gear, one side of the connecting seat which is slidably connected in an arc chute above the rotating seat is fixedly connected with the extending end of the electric pushing cylinders II, and the other side of the connecting seat is symmetrically and fixedly provided with a pair of connecting plates; the sliding seat is in sliding connection with the guide plate, is in threaded connection with the threaded rod, and is rotationally connected to the bottom of the rotating seat; the electric pushing cylinder I is fixedly connected to one side of the sliding seat through a connecting seat, and is fixedly connected with a rack meshed to one side of a gear below the rotating seat through a connecting plate; the brush plate is provided with a plurality of springs which are connected above and below the connecting plate in a sliding way through connecting shafts, and the springs are arranged between the brush plate and the connecting plate along the connecting shafts on the brush plate; the ion wind stick fixed connection is on the connecting seat, and ion wind stick one end passes through connecting plate and a pair of connecting plate fixed connection, and tracheal joint, the high pressure joint of fixed connection at ion wind stick other end are connected with fan and high pressure generator through pipeline and connecting wire respectively.

2. The ash removal device of a data center server according to claim 1, wherein the dust collection mechanism is provided with a connecting block, a connecting pipe I, a gear, a connecting pipe II, a dust collection pipe and an electric pushing cylinder III; one end of the electric pushing cylinder III is fixedly connected with the chute, and the extending end is fixedly connected with a connecting block which is in sliding connection with the chute; connecting pipe I and connecting block fixed connection, connecting pipe II one end of fixedly connected with gear rotates with the connecting block in connecting pipe I below, and the other end and dust absorption pipe one end fixed connection, and the gear meshes with the teeth of a cogwheel of spout one side.

3. The ash removal device of the data center server according to claim 1, wherein the bottom of the vehicle body is fixedly provided with a plurality of universal wheels, and the vehicle body is provided with a guide rail I, a guide rail II, a handle and a connecting groove; the electric box, the high-voltage generator and the fan are fixedly connected in the vehicle body through the supporting plate, the dust box with the fan on one side is fixedly connected at the bottom of the vehicle body, and the dust box corresponds to the position of the ventilation opening on one side of the vehicle body; the guide rail I is provided with a pair of guide rails, the guide rails are fixedly connected with the vehicle body on two sides of the connecting groove respectively, and the bottoms of the guide rails II are spliced at the tops of the guide rails I and are locked and fixed with the guide rails I through inner hexagon bolts.

4. The ash removal device for the data center server according to claim 1, wherein the motor I is fixedly connected to the top of the installation box through a motor base, and a sprocket at the output end of the motor I is connected with a sprocket on the threaded rod through a chain.

5. The ash removal device for a data center server according to claim 1, wherein the motor II is fixedly connected to the inside of the installation box through a motor base at one side of the wiring groove, and a pair of chain wheels at the output end of the motor II are connected with chain wheels on the roller II through a chain.

6. The ash removal device for a data center server according to claim 1, wherein the electric box, the dust box, the high voltage generator and the pipes or lines connected to the fan are connected to the equipment connected to the installation box through the connection slots, the connection slots and the connection holes.