阅读说明：本技术 一种对数据服务器清洁保护的设备 (Equipment for cleaning and protecting data server ) 是由 朱林美 于 2021-01-06 设计创作，主要内容包括：本发明公开的一种对数据服务器清洁保护的设备,包括主体,所述主体内固定设有数据服务器,所述主体内且位于所述数据服务器远离中心一侧均匀阵列设有散热水管,所述主体上端面固定连接有工作箱,所述工作箱内左端设有叶轮腔,所述叶轮腔内设有能转动的叶轮,所述散热水管左侧上端向上延伸至所述工作箱内与所述叶轮腔内右壁连接,本发明通过对数据服务器进行降温的同时,带动往复刮板不断的上下往复移动对主体前后左右四个端面上附着的海洋生物进行刮除工作,保证了主体的洁净程度,防止因附着物过多对其表面造成腐蚀,延长了其使用寿命,同时也能防止因附着物过多对主体的散热效果造成影响,保证了其散热效率。(The invention discloses equipment for cleaning and protecting a data server, which comprises a main body, wherein the main body is internally and fixedly provided with the data server, the main body is internally and uniformly provided with heat dissipation water pipes in an array manner at one side of the data server, which is far away from the center, the upper end surface of the main body is fixedly connected with a working box, the left end in the working box is provided with an impeller cavity, a rotatable impeller is arranged in the impeller cavity, the upper end of the left side of the heat dissipation water pipe upwards extends into the working box and is connected with the right wall in the impeller cavity, the invention drives a reciprocating scraper to continuously reciprocate up and down to scrape marine organisms attached to the front, rear, left and right end surfaces of the main body while cooling the data server, thereby ensuring the cleanness degree of the main body, preventing the surface of the main body from being corroded due to excessive attachments, prolonging the service life of the main body, and simultaneously preventing the heat dissipation effect of the, the heat dissipation efficiency is ensured.)

1. An apparatus for clean protection of a data server, comprising a main body, characterized in that: the main body is internally and fixedly provided with a data server, one side of the main body, which is far away from the center of the data server, is uniformly provided with heat dissipation water pipes in an array manner, the upper end surface of the main body is fixedly connected with a working box, the left end in the working box is provided with an impeller cavity, a rotatable impeller is arranged in the impeller cavity, the upper end of the left side of each heat dissipation water pipe upwards extends into the working box to be connected with the right wall in the impeller cavity, the center of the left wall in the impeller cavity is fixedly provided with a water inlet pipe connected with external seawater, the right end in the working box is fixedly provided with a water suction pump, the right end surface of the water suction pump is connected with the outside, the upper end of the right side of the middle heat dissipation water pipe upwards extends into the working box to be connected with the middle heat dissipation water pipe, and the upper ends of, can get into through the inlet tube the impeller intracavity, and then get into in the suction pump through the heat dissipation water pipe, the external sea water can carry out cooling work to the data server when passing through in the heat dissipation water pipe, discharge to the external world through the suction pump at last, when the sea water flows in the heat dissipation water pipe, the impeller can be driven by the sea water and then begin to rotate constantly, the lower extreme is equipped with the reciprocal scraper blade chamber that the opening is decurrent in the work box and is located main part keep away from center one side, be equipped with the reciprocal scraper blade that can slide from top to bottom in the reciprocal scraper blade chamber, can strike off work to both ends face around the main part and about when the reciprocal scraper blade slides down, thereby can prevent that the main part is located the deposit that its front and back and four end faces produced about in the sea water for a long time, the inner wall lower extreme slides respectively and is equipped with the, the reciprocating scraper is characterized in that telescopic sealing plates are arranged at the lower ends of the inner walls of the front side and the rear side of the cavity of the reciprocating scraper in a sliding mode respectively, the sealing baffle and the telescopic sealing plates can seal the cavity of the reciprocating scraper and remove seawater, and therefore the reciprocating scraper in the cavity of the reciprocating scraper is dried, and corrosion caused by long-time contact with seawater is prevented.

2. The apparatus for clean protection of data servers as claimed in claim 1, wherein: the utility model discloses a work case, including work case, impeller cavity, power chamber, bevel gear, power chamber, gear shaft, power chamber, spline shaft left end, spline shaft right-hand member, the bilateral symmetry is equipped with the power chamber around just being located in the impeller cavity, it is equipped with the impeller shaft to rotate between two walls around the impeller cavity, impeller shaft outer disc with impeller fixed connection, both ends extend to both sides around the impeller shaft respectively the power intracavity is fixed to be equipped with power bevel gear, bilateral symmetry is equipped with bevel gear switching chamber around the center department in the work case, the power chamber with rotate between the intracavity wall in the bevel gear switching chamber and be equipped with the spline shaft bevel gear with power bevel gear engaged with, the spline shaft.

3. The apparatus for clean protection of data servers as claimed in claim 2, wherein: bevel gear switches the intracavity and is located the outer disc splined connection of integral key shaft has a rotation piece, rotate the interior fixed reverse bevel gear that is equipped with of right-hand member face of piece, reverse bevel gear left side just is located rotate the outer disc of piece and fix and be equipped with corotation bevel gear, it just is located to rotate the piece left end face be equipped with in the work box and rotate the piece chamber, it is fixed and is equipped with annular electromagnet to rotate the piece intracavity left side wall, rotate the piece intracavity and be located rotate the left end face fixed be equipped with the rotation piece magnet that annular electromagnet magnetism is connected, annular electromagnet right-hand member face with it is fixed to be equipped with.

4. The apparatus for clean protection of data servers as claimed in claim 1, wherein: the left and right sides closed baffle is close to the fixed first waterproof material that is equipped with of data server terminal surface, both ends are kept away from about the reciprocal scraper blade intracavity data server one side inner wall intercommunication has closed baffle chamber, both ends are close to about the reciprocal scraper blade intracavity data server one side inner wall intercommunication has closed chamber, closed baffle keeps away from a waterproof material terminal surface with both ends are kept away from about the closed baffle chamber fixed closed baffle spring that is equipped with between the inner wall of data server one side, closed baffle keeps away from a waterproof material terminal surface center is fixed and is equipped with the closed baffle stay cord.

5. The apparatus for clean protection of data servers as claimed in claim 3, wherein: the centers of the lower walls in the bevel gear switching cavities on the front side and the rear side are respectively and rotatably provided with a threaded shaft, the upper end of the threaded shaft extends upwards into the bevel gear switching cavities and is fixedly provided with driven bevel gears capable of being meshed with the forward bevel gears and the reverse bevel gears, the lower ends of the threaded shafts on the front side and the rear side extend downwards into the reciprocating scraper blade cavities and are in threaded connection with the front end and the rear end of the reciprocating scraper blade, the inner walls of the front side and the rear side of the reciprocating scraper blade cavity, which are far away from the data server, are communicated with a telescopic sealing plate cavity, the telescopic sealing plate slides forwards and backwards in the telescopic sealing plate cavity, one end face of the telescopic sealing plate, which is close to the data server, is fixedly provided with a third waterproof material, the inner walls of the front side and the rear side of the reciprocating scraper, and a second waterproof material is fixedly arranged on one end face, close to the threaded shaft, of the driven closing plate.

6. The apparatus for clean protection of data servers as claimed in claim 4, wherein: a driven closing plate spring is fixedly arranged between one end face of the driven closing plate far away from the threaded shaft and the inner wall of one side of the driven closing plate cavity far away from the threaded shaft, a driven closing plate pull rope is fixedly arranged on the upper side of one end face of the driven closing plate far away from the driven closing plate spring, a telescopic motor is fixedly arranged at the center of the lower end in the working box, the front end and the rear end of the telescopic motor are symmetrically and dynamically connected with telescopic motor shafts, one end face of the telescopic motor shaft far away from the telescopic motor extends to the front side and the rear side respectively, the inner wall of the telescopic closing plate cavity is connected with the telescopic closing plate through internal threads, a telescopic closing plate spring is fixedly arranged between one end face of the telescopic closing plate far away from the threaded shaft and the inner wall of one side of the telescopic closing plate cavity far away from the threaded shaft, and the end, the upper side of the telescopic closing plate pull rope is connected with the driven closing plate pull rope, and the lower side of the telescopic closing plate pull rope is connected with the closing baffle pull rope.

7. The apparatus for clean protection of data servers as claimed in claim 5, wherein: a meshing cavity is arranged between the telescopic closed plate cavity and the telescopic motor at the front side of the lower end in the working box, the telescopic motor shaft penetrates through the front wall and the rear wall in the meshing cavity, a driving bevel gear is fixedly arranged on the outer circular surface, a rotating shaft is rotatably arranged at the center of the upper wall in the meshing cavity, a rotating bevel gear meshed with the driving bevel gear is fixedly arranged at the lower end of the rotating shaft, a reciprocating piston cavity is arranged at the upper side of the meshing cavity, a reciprocating piston capable of sliding back and forth is arranged in the reciprocating piston cavity, the upper end of the rotating shaft extends upwards to the reciprocating piston cavity and is fixedly provided with a rotating rod, the upper side of the rotating rod and one end far away from the rotating center are hinged with a connecting rod, the connecting rod is close to one end of the reciprocating piston and is connected with the reciprocating piston through a hinge, an exhaust one-way valve is fixedly arranged on the inner front wall of the cavity of the reciprocating piston, and an air inlet one-way valve is fixedly arranged on the front side of the inner upper wall of the cavity of the reciprocating piston.

8. The apparatus for clean protection of data servers as claimed in claim 1, wherein: a fixed base is fixedly arranged at the lower sides of the front end face, the rear end face, the left end face and the right end face of the main body, a lower spring block cavity with an upward opening is symmetrically arranged at the front end and the rear end of the upper end face of the fixed base, a lower spring block capable of sliding up and down is arranged in the lower spring block cavity, a second distance sensor is fixedly arranged at the lower wall in the lower spring block cavity, a lower spring block spring is fixedly arranged between the lower end face of the lower spring block and the upper end face of the second distance sensor, an upper spring block cavity is symmetrically arranged at the front side and the rear side of the upper wall in the reciprocating scraper blade cavity and communicated with the upper spring block cavity, an upper spring block capable of sliding up and down is arranged in the upper spring block cavity, a first distance sensor is fixedly arranged at the upper wall in the upper spring block cavity, an upper spring block spring is fixedly arranged between the upper end face of the upper spring block and the lower end face of the first distance sensor, the inner wall of one side, far away from the data server, of the reciprocating scraper cavity is fixedly connected with a drain pipe communicated with the outside.

Technical Field

The invention relates to the technical field of data servers, in particular to equipment for cleaning and protecting a data server.

Background

With the development of electronic information technology, more and more electronic devices are used, a data server is used for storing data and providing data services, a large amount of heat can be generated during working, in order to cool the server, a plurality of companies put the data server into the sea and naturally cool the server by using seawater, but the server is easy to be attacked by marine organisms when being located in the sea for a long time, for example, barnacles and seaweeds can attach to the surface of a server shell, so that not only is the server shell seriously corroded, but also the heat dissipation effect of the server shell is greatly reduced.

Disclosure of Invention

In order to solve the problems, the embodiment designs a device for cleaning and protecting the data server, the device for cleaning and protecting the data server comprises a main body, the data server is fixedly arranged in the main body, heat dissipation water pipes are uniformly arranged in the main body and positioned on one side of the data server, which is far away from the center, in an even array manner, the upper end surface of the main body is fixedly connected with a working box, an impeller cavity is arranged at the left end in the working box, a rotatable impeller is arranged in the impeller cavity, the upper end of the left side of each heat dissipation water pipe upwards extends into the working box and is connected with the right wall in the impeller cavity, a water inlet pipe connected with external seawater is fixedly arranged at the center of the left wall in the impeller cavity, a water suction pump is fixedly arranged at the right end in the working box, the right end surface of the water suction pump is connected with the outside, the upper end of the right, the upper end of the right side of the heat dissipation water pipe extends upwards to the inside of the working box and is connected with the middle heat dissipation water pipe, when the water suction pump is started, the water can enter the impeller cavity through the water inlet pipe, then the water can enter the water suction pump through the heat dissipation water pipe, external seawater can cool the data server when passing through the heat dissipation water pipe, and finally the seawater is discharged to the outside through the water suction pump, when the seawater in the heat dissipation water pipe flows, the impeller can be driven by the seawater and starts to rotate continuously, a reciprocating scraper cavity with a downward opening is arranged at the lower end in the working box and at one side of the main body far away from the center, a reciprocating scraper capable of sliding up and down is arranged in the reciprocating scraper cavity, when the reciprocating scraper slides down, the front end face and the rear end face of the main body and the left end face and the right end face of the main body can be scraped, so that attachments generated at the front end face, reciprocating scraper blade intracavity left and right sides inner wall lower extreme slides respectively and is equipped with closed baffle, reciprocating scraper blade intracavity front and back both sides inner wall lower extreme slides respectively and is equipped with flexible closed plate, closed baffle reaches flexible closed plate can with reciprocating scraper blade chamber seals and sea water gets rid of work, thereby to its interior reciprocating scraper blade carries out drying process, prevents its corrosion phenomenon that causes with the sea water contact for a long time.

Preferably, power cavities are symmetrically arranged on the front side and the rear side of the impeller cavity in the working box, an impeller shaft is arranged between the front wall and the rear wall of the impeller cavity in a rotating mode, the outer circular surface of the impeller shaft is fixedly connected with the impeller, the front end and the rear end of the impeller shaft respectively extend to the front side and the rear side of the impeller cavity, power bevel gears are fixedly arranged in the power cavities, bevel gear switching cavities are symmetrically arranged on the front side and the rear side of the center of the working box, spline shafts are rotatably arranged between the power cavities and the inner walls of the bevel gear switching cavities, the left ends of the spline shafts extend leftwards to the center of the right wall of the power cavity and are fixedly provided with spline shaft bevel gears meshed with the power bevel gears, and the right ends of the spline shafts extend.

But preferably, bevel gear switches the intracavity and is located spline connection has the rotation piece outside the integral key shaft disc, rotate the fixed reverse bevel gear that is equipped with of right-hand member face in the piece, reverse bevel gear left side just is located rotate the fixed corotation bevel gear that is equipped with of outer disc of piece, it just is located to rotate a left end face be equipped with and rotates the piece chamber in the work box, it is fixed and is equipped with annular electromagnet to rotate a intracavity left side wall, it just is located to rotate the piece intracavity rotate left end face fixed be equipped with the rotation piece magnet that annular electromagnet magnetism is connected, annular electromagnet right-hand member face with it is fixed to be equipped with the electro-.

But preferably, the left and right sides the closure flap is close to the fixed first waterproof material that is equipped with of data server terminal surface, both ends are kept away from about the reciprocal scraper blade intracavity data server one side inner wall intercommunication has the closure flap chamber, both ends are close to about the reciprocal scraper blade intracavity data server one side inner wall intercommunication has the closure chamber, the closure flap is kept away from a waterproof material terminal surface with both ends are kept away from about the closure flap chamber the fixed closure flap spring that is equipped with between the inner wall of data server one side, the closure flap is kept away from a waterproof material terminal surface center is fixed and is equipped with the closure flap stay cord.

Preferably, the centers of the lower walls in the bevel gear switching cavities on the front side and the rear side are respectively and rotatably provided with a threaded shaft, the upper end of the threaded shaft extends upwards into the bevel gear switching cavity and is fixedly provided with a driven bevel gear which can be meshed with the forward bevel gear and the reverse bevel gear, the lower ends of the threaded shafts on the front side and the rear side extend downwards into the front side and the rear side of the reciprocating scraper cavity and are in threaded connection with the front end and the rear end of the reciprocating scraper, the inner walls of the front side and the rear side of the reciprocating scraper cavity, which are far away from the data server, are communicated with a telescopic sealing plate cavity, the telescopic sealing plate slides forwards and backwards in the telescopic sealing plate cavity, one end face of the telescopic sealing plate, which is close to the data server, is fixedly provided with a third waterproof material, the inner walls of the front side and the rear side, and a second waterproof material is fixedly arranged on one end face, close to the threaded shaft, of the driven closing plate.

Preferably, a driven closing plate spring is fixedly arranged between one end face of the driven closing plate far away from the threaded shaft and the inner wall of one side of the driven closing plate cavity far away from the threaded shaft, a driven closing plate pull rope is fixedly arranged on the upper side of one end face of the driven closing plate far away from the driven closing plate spring, a telescopic motor is fixedly arranged at the center of the lower end in the working box, the front end and the rear end of the telescopic motor are symmetrically and dynamically connected with telescopic motor shafts, one end face of the telescopic motor shaft far away from the telescopic motor at the front end and the rear end respectively extends to the front side and the rear side in the telescopic closing plate cavity and is in threaded connection with the telescopic closing plate, a telescopic closing plate spring is fixedly arranged between one end face of the telescopic closing plate far away from the threaded shaft and the inner wall of one side of the telescopic closing plate cavity far away from the threaded shaft, and, the upper side of the telescopic closing plate pull rope is connected with the driven closing plate pull rope, and the lower side of the telescopic closing plate pull rope is connected with the closing baffle pull rope.

Preferably, a meshing cavity is arranged between the telescopic closed plate cavity and the telescopic motor at the front side of the lower end in the working box, the telescopic motor shaft penetrates through the front wall and the rear wall in the meshing cavity, a driving bevel gear is fixedly arranged on the outer circular surface, a rotating shaft is rotatably arranged at the center of the upper wall in the meshing cavity, a rotating bevel gear meshed with the driving bevel gear is fixedly arranged at the lower end of the rotating shaft, a reciprocating piston cavity is arranged at the upper side of the meshing cavity, a reciprocating piston capable of sliding back and forth is arranged in the reciprocating piston cavity, the upper end of the rotating shaft extends upwards to the reciprocating piston cavity and is fixedly provided with a rotating rod, the upper side of the rotating rod and one end far away from the rotating center are hinged with a connecting rod, the connecting rod is close to one end of the reciprocating piston and is connected with the reciprocating piston through a hinge, an exhaust one-way valve is fixedly arranged on the inner front wall of the cavity of the reciprocating piston, and an air inlet one-way valve is fixedly arranged on the front side of the inner upper wall of the cavity of the reciprocating piston.

Preferably, the lower sides of the front end face, the rear end face, the left end face and the right end face of the main body are fixedly provided with a fixed base, the front end face and the rear end face of the upper end face of the fixed base are symmetrically provided with lower spring block cavities with upward openings, lower spring blocks capable of sliding up and down are arranged in the lower spring block cavities, the lower wall in the lower spring block cavities is fixedly provided with a second distance sensor, lower spring block springs are fixedly arranged between the lower end face of the lower spring block and the upper end face of the second distance sensor, the front side and the rear side of the upper wall in the reciprocating scraper blade cavity are symmetrically and communicated with upper spring block cavities, upper spring blocks capable of sliding up and down are arranged in the upper spring block cavities, the upper wall in the upper spring block cavity is fixedly provided with a first distance sensor, upper spring block springs are fixedly arranged between the upper end face of the upper spring block and the lower end face of the first distance sensor, the front side and the rear side of the upper wall in the, the inner wall of one side, far away from the data server, of the reciprocating scraper cavity is fixedly connected with a drain pipe communicated with the outside.

The invention has the beneficial effects that: the invention drives the reciprocating scraper to continuously reciprocate up and down to scrape off marine organisms attached to the front, rear, left and right end surfaces of the main body while cooling the data server, thereby ensuring the cleanness of the main body, preventing the surface of the main body from being corroded due to excessive attachments, prolonging the service life of the main body, preventing the heat radiation effect of the main body from being influenced due to excessive attachments and ensuring the heat radiation efficiency of the main body.

Drawings

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

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the structure a-a in fig. 1.

FIG. 3 is a schematic diagram of B-B in FIG. 1.

Fig. 4 is a schematic view of the structure of C-C in fig. 1.

Fig. 5 is an enlarged schematic view of D in fig. 1.

Fig. 6 is an enlarged schematic view of E in fig. 3.

Fig. 7 is an enlarged structural view of F in fig. 3.

Detailed Description

The invention will now be described in detail with reference to fig. 1-7, wherein for ease of description the orientations described below are now 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 equipment for cleaning and protecting a data server, which comprises a main body 11, wherein the main body 11 is internally and fixedly provided with the data server 12, one side of the main body 11, which is far away from the center of the data server 12, is uniformly provided with heat dissipation water pipes 23 in an array manner, the upper end surface of the main body 11 is fixedly connected with a working box 16, the left end in the working box 16 is provided with an impeller cavity 18, a rotatable impeller 19 is arranged in the impeller cavity 18, the upper end of the left side of each heat dissipation water pipe 23 upwards extends into the working box 16 to be connected with the right wall in the impeller cavity 18, the center of the left wall in the impeller cavity 18 is fixedly provided with a water inlet pipe 20 connected with external seawater, the right end in the working box 16 is fixedly provided with a water suction pump 22, the right end surface of the water suction pump 22 is connected with the outside, the upper end of the right side of the middle heat, the upper end of the right side of the heat dissipation water pipe 23 extends upwards to the inside of the working box 16 and is connected with the heat dissipation water pipe 23 in the middle, when the water suction pump 22 is started, the water can enter the impeller cavity 18 through the water inlet pipe 20, then the water enters the water suction pump 22 through the heat dissipation water pipe 23, external seawater can cool the data server 12 when passing through the heat dissipation water pipe 23, and is discharged to the outside through the water suction pump 22 at last, when the seawater flows in the heat dissipation water pipe 23, the impeller 19 can be driven by the seawater and starts to rotate continuously, the lower end in the working box 16 is positioned at one side of the main body 11 far away from the center and is provided with a reciprocating scraper cavity 14 with a downward opening, a reciprocating scraper 15 capable of sliding up and down is arranged in the reciprocating scraper cavity 14, when the reciprocating scraper 15 slides down, the front end face, the rear end face and the left end face and the right end face of the main, thereby can prevent main part 11 is located the deposit that four terminal surfaces produced around it in the sea water for a long time, the left and right sides inner wall lower extreme slides respectively and is equipped with closure flap 42 in reciprocal scraper chamber 14, the both sides inner wall lower extreme slides respectively and is equipped with flexible closure plate 60 around in reciprocal scraper chamber 14, closure flap 42 reaches flexible closure plate 60 can with reciprocal scraper chamber 14 seals and the work is got rid of to the it reciprocal scraper 15 carries out drying process, prevents its corrosion phenomenon that causes with the sea water contact for a long time.

Advantageously, power cavities 36 are symmetrically arranged in the working box 16 at the front side and the rear side of the impeller cavity 18, an impeller shaft 17 is rotatably arranged between the front wall and the rear wall in the impeller cavity 18, the outer circular surface of the impeller shaft 17 is fixedly connected with the impeller 19, the front end and the rear end of the impeller shaft 17 extend to the front side and the rear side respectively, a power bevel gear 37 is fixedly arranged in the power cavity 36, bevel gear switching cavities 25 are symmetrically arranged at the front side and the rear side of the inner center of the working box 16, spline shafts 34 are rotatably arranged between the power cavity 36 and the inner walls of the bevel gear switching cavities 25, the left end of the spline shaft 34 extends to the center of the inner right wall of the power cavity 36 leftwards, a spline shaft bevel gear 35 meshed with the power bevel gear 37 is fixedly arranged, the right end of the spline shaft 34 extends rightwards into the bevel gear switching cavity 25 and is connected with the center of the right wall in the bevel gear switching cavity 25 in a rotating mode.

Beneficially, the bevel gear switching cavity 25 is located on the outer circular surface of the spline shaft 34 and is connected with a rotating part 28 through a spline, a reverse bevel gear 27 is fixedly arranged on the inner right end surface of the rotating part 28, a forward bevel gear 29 is fixedly arranged on the left side of the reverse bevel gear 27 and is located on the outer circular surface of the rotating part 28, a rotating part cavity 31 is arranged in the working box 16 and is located on the left end surface of the rotating part 28, an annular electromagnet 32 is fixedly arranged on the inner left wall of the rotating part cavity 31, a rotating part magnet 30 magnetically connected with the annular electromagnet 32 is fixedly arranged on the inner left end surface of the rotating part cavity 31 and is located on the left end surface of the rotating part 28, and an electromagnet spring 33 is fixedly arranged.

Beneficially, a first waterproof material 39 is fixedly arranged on one end face, close to the data server 12, of the closed baffle 42 on the left side and the right side, a closed baffle cavity 41 is communicated with the inner wall, far away from the data server 12, of one side of the reciprocating scraper cavity 14 at the left end and the right end, a closed cavity 38 is communicated with the inner wall, close to the data server 12, of one side of the reciprocating scraper cavity 14 at the left end and the right end, a closed baffle spring 40 is fixedly arranged between one end face, far away from the first waterproof material 39, of the closed baffle 42 and the inner wall, far away from the data server 12, of the left end and the right end of the closed baffle cavity 41, and a closed baffle pull rope 46 is fixedly arranged in the center.

Beneficially, a threaded shaft 26 is rotatably arranged at the center of the lower wall in the bevel gear switching cavity 25 at the front and rear sides respectively, the upper end of the threaded shaft 26 extends upwards into the bevel gear switching cavity 25 and is fixedly provided with a driven bevel gear 47 capable of meshing with the forward bevel gear 29 and the reverse bevel gear 27, the lower ends of the threaded shafts 26 at the front and rear sides respectively extend downwards to the front and rear sides in the reciprocating scraper cavity 14 and are in threaded connection with the front and rear ends of the reciprocating scraper 15, the inner walls of the front and rear sides in the reciprocating scraper cavity 14 at the side far from the data server 12 are communicated with a telescopic sealing plate cavity 57, the telescopic sealing plate 60 slides back and forth in the telescopic sealing plate cavity 57, a third waterproof material 61 is fixedly arranged on one end surface of the telescopic sealing plate 60 near the data server 12, the inner walls of the front and rear sides in the reciprocating scraper cavity 14 at the side near the data server 12 are communicated with, a driven closing plate 63 capable of sliding back and forth is arranged in the driven closing plate cavity 64, and a second waterproof material 62 is fixedly arranged on one end face, close to the threaded shaft 26, of the driven closing plate 63.

Beneficially, a driven closing plate spring 65 is fixedly arranged between an end face of the driven closing plate 63 far away from the threaded shaft 26 and an inner wall of the driven closing plate cavity 64 far away from the threaded shaft 26, a driven closing plate pull rope 66 is fixedly arranged on an upper side of an end face of the driven closing plate 63 far away from the driven closing plate spring 65, a telescopic motor 24 is fixedly arranged at the center of the lower end in the work box 16, the front end and the rear end of the telescopic motor 24 are symmetrically and dynamically connected with telescopic motor shafts 58, an end face of the telescopic motor shaft 58 far away from the telescopic motor 24 at the front end and the rear end respectively extends into the telescopic closing plate cavity 57 at the front side and the rear side to be in threaded connection with the telescopic closing plate 60, and a telescopic closing plate spring 59 is fixedly arranged between an end face of the telescopic closing plate 60 far away from the threaded shaft 26 and an inner wall of the, the end face, far away from the threaded shaft 26, of the telescopic closing plate 60 is vertically symmetrical and fixedly provided with telescopic closing plate pull ropes 56, the upper telescopic closing plate pull rope 56 is connected with the driven closing plate pull rope 66, and the lower telescopic closing plate pull rope 56 is connected with the closing baffle pull rope 46.

Beneficially, an engagement cavity 55 is provided between the retractable closed plate cavity 57 and the retractable motor 24 at the front side of the lower end in the working box 16, the retractable motor shaft 58 penetrates through the front and rear walls in the engagement cavity 55, and the outer circular surface is fixedly provided with a driving bevel gear 54, a rotating shaft 71 is rotatably provided at the center of the upper wall in the engagement cavity 55, a rotating bevel gear 70 engaged with the driving bevel gear 54 is fixedly provided at the lower end of the rotating shaft 71, a reciprocating piston cavity 69 is provided at the upper side of the engagement cavity 55, a reciprocating piston 53 capable of sliding back and forth is provided in the reciprocating piston cavity 69, the upper end of the rotating shaft 71 extends upwards to the reciprocating piston cavity 69 and is fixedly provided with a rotating rod 68, a connecting rod 67 is hinged at the upper side of the rotating rod 68 and at the end far away from the rotation center, one end of the connecting rod 67 close to the reciprocating piston 53 is hinged with the reciprocating piston 53, and an exhaust one-, an air inlet one-way valve 52 is fixedly arranged on the front side of the inner upper wall of the reciprocating piston cavity 69.

Beneficially, the fixing bases 13 are fixedly arranged on the lower sides of the front end face, the rear end face, the left end face and the right end face of the main body 11, the front end face and the rear end face of the upper end face of the fixing base 13 are symmetrically provided with lower spring block cavities 74 with upward openings, lower spring blocks 72 capable of sliding up and down are arranged in the lower spring block cavities 74, the lower wall in the lower spring block cavities 74 is fixedly provided with second distance sensors 75, lower spring block springs 73 are fixedly arranged between the lower end face of the lower spring blocks 72 and the upper end face of the second distance sensors 75, the front side and the rear side of the upper wall in the reciprocating scraper cavity 14 are symmetrically communicated with upper spring block cavities 50, the upper spring blocks 44 capable of sliding up and down are arranged in the upper spring block cavities 50, the first distance sensors 48 are fixedly arranged on the upper wall in the upper spring block cavities 50, the upper spring block springs 49 are fixedly arranged between the upper end face of the upper spring blocks 44 and the lower end, both sides just are located both sides around the upper wall in reciprocal scraper cavity 14 go up the symmetry and fixedly between spring block chamber 50 and be equipped with drainage check valve 45, reciprocal scraper cavity 14 keeps away from data server 12 one side inner wall fixedly connected with and the external drain pipe 43 that is linked together.

The following describes in detail the use steps of an apparatus for cleaning and protecting a data server with reference to fig. 1 to 7:

in the initial state, the water pump 22 stops working, the impeller 19 does not rotate, the reciprocating scraper cavity 14 is in a closed state, the reciprocating scraper 15 is located in the reciprocating scraper cavity 14, the forward bevel gear 29 is meshed with the driven bevel gear 47, the reverse bevel gear 27 is disengaged from the driven bevel gear 47, the lower end of the drainage check valve 45 is communicated with the reciprocating scraper cavity 14, the upper end of the drainage check valve 45 is connected with the exhaust check valve 51, the air inlet check valve 52 is communicated with the outside dry air, the lower spring block spring 73 is in a natural state, the telescopic motor 24 is in a stopped state, and the driven closed plate spring 65 is in a stretched state.

When the internal temperature of the data server 12 rises, the water pump 22 is started, external seawater is driven to enter the impeller cavity 18 through the water inlet pipe 20 and further enter the water pump 22 through the heat dissipation water pipe 23 and is discharged to the outside through the water pump 22, the seawater flowing in the heat dissipation water pipe 23 cools the data server 12 at the moment, meanwhile, the impeller 19 can be driven to rotate when the seawater flows in the impeller cavity 18, the impeller 19 drives the impeller shaft 17 to rotate through a fixed connection, the impeller shaft 17 can further drive the front and rear power bevel gears 37 to synchronously rotate, the power bevel gears 37 drive the spline shaft bevel gears 35 to rotate through gear meshing, the spline shaft bevel gears 35 drive the spline shaft 34 to rotate through a fixed connection, the spline shaft 34 drives the rotating member 28 to rotate through a spline, and the rotating member 28 can simultaneously drive the bevel gear forward rotation 29 and the reverse rotation bevel, the forward rotation bevel gear 29 drives the driven bevel gear 47 to rotate through gear engagement, the driven bevel gear 47 drives the threaded shaft 26 to rotate through fixed connection, the threaded shaft 26 drives the reciprocating scraper 15 to move downwards through threaded connection, at the moment, the telescopic motor 24 is started to drive the front and rear telescopic motor shafts 58 to rotate, the telescopic motor shafts 58 drive the telescopic closing plate 60 to move towards the direction away from the threaded shaft 26 through threaded connection, the telescopic closing plate 60 drives the third waterproof material 61 to move towards the direction away from the threaded shaft 26, when the telescopic closing plate 60 moves, the upper and lower telescopic closing plate pull ropes 56 can be driven to move towards the direction away from the threaded shaft 26, the upper telescopic closing plate pull rope 56 drives the driven closing plate pull rope 66 to move towards the direction away from the threaded shaft 26 through fixed connection, and then the driven closing plate 63 is driven to move towards the direction away from the threaded shaft 26 through self-restoring force, the driven closing plate 63 further drives the second waterproof material 62 to move, the lower telescopic closing plate pull rope 56 drives the closing baffle pull rope 46 to move towards the direction far away from the data server 12 through fixed connection, the closing baffle pull rope 46 further drives the closing baffle 42 to move towards the direction far away from the data server 12 through fixed connection, the data server 12 further drives the first waterproof material 39 to slide towards the closing baffle cavity 41, and at the moment, the lower end in the reciprocating scraper cavity 14 is opened to be communicated with the outside;

the reciprocating scraper 15 slides downwards to the lower end face of the reciprocating scraper 15 and abuts against the upper end face of the lower spring block 72 to drive the lower spring block 72 to slide downwards, the second distance sensor 75 is started to detect the distance between the second distance sensor and the lower spring block 72, the distance is shortened when the lower spring block 72 slides downwards, the second distance sensor 75 starts the annular electromagnet 32, the annular electromagnet 32 drives the rotating piece magnet 30 to slide leftwards through magnetic connection, the rotating piece magnet 30 drives the rotating piece 28 to slide leftwards through fixed connection, further the forward bevel gear 29 is driven to be disengaged from the driven bevel gear 47, the reverse bevel gear 27 is engaged with the driven bevel gear 47, the reverse bevel gear 27 rotates to drive the driven bevel gear 47 to rotate reversely through gear engagement, the driven bevel gear 47 drives the threaded shaft 26 to rotate reversely to drive the reciprocating scraper 15 to slide upwards into the reciprocating scraper cavity 14 through threaded connection, the upper end face of the reciprocating scraper 15 abuts against the lower end face of the upper spring block 44 to drive the upper In the upper spring block cavity 50, the first distance sensor 48 detects that the distance between the first distance sensor and the upper spring block 44 is reduced, and then the annular electromagnet 32 is started, the annular electromagnet 32 drives the rotating piece magnet 30 to slide rightwards through magnetic connection, the rotating piece magnet 30 drives the forward bevel gear 29 to be meshed with the driven bevel gear 47 through the rotating piece 28, the reverse bevel gear 27 is disengaged from the driven bevel gear 47, the driven bevel gear 47 rotates forwards, and then the reciprocating scraper 15 is driven to slide downwards through the threaded shaft 26, and the attachment on the front end face, the rear end face, the left end face, the rear end face, the front end face, the rear end face, the left end face, the rear end face, the front end face, the, the telescopic motor 24 is started to drive the telescopic closing plate 60 to slide towards the reciprocating scraper cavity 14, the telescopic closing plate 60 drives the driven closing plate 63 and the sealing baffle 42 to slide towards the reciprocating scraper cavity 14 through the telescopic closing plate pull rope 56, and further the reciprocating scraper cavity 14 is sealed, the first waterproof material 39, the second waterproof material 62 and the third waterproof material 61 can prevent external seawater from entering the reciprocating scraper cavity 14, when the telescopic motor shaft 58 rotates, the driving bevel gear 54 is driven to rotate, the driving bevel gear 54 drives the rotating bevel gear 70 to rotate through gear meshing, the rotating bevel gear 70 drives the rotating shaft 71 to rotate, further the rotating shaft 68 is driven to rotate, the connecting rod 68 drives the connecting rod 67 to rotate, the connecting rod 67 drives the reciprocating piston 53 to continuously reciprocate back and forth in the reciprocating piston cavity 69 through hinge connection, and further drives external air to enter the reciprocating piston cavity 69 through the air inlet one-way valve 52, then, the seawater enters the drainage check valve 45 through the exhaust check valve 51, the seawater enters the reciprocating scraper cavity 14 through the drainage check valve 45, when the third waterproof material 61 and the second waterproof material 62 are in contact with the outer circular surface of the threaded shaft 26, the seawater in the reciprocating scraper cavity 14 is driven by the drainage check valve 45 to be discharged to the outside through the drain pipe 43, at the moment, the telescopic sealing plate 60 continues to move, the third waterproof material 61, the second waterproof material 62 and the first waterproof material 39 are driven to deform, the outside seawater is better isolated, and after the seawater in the reciprocating scraper cavity 14 is completely discharged, the reciprocating scraper 15 is in a dry environment, so that the seawater is beneficial to storage and the service life of the seawater is prolonged.

The invention has the beneficial effects that: the invention drives the reciprocating scraper to continuously reciprocate up and down to scrape off marine organisms attached to the front, rear, left and right end surfaces of the main body while cooling the data server, thereby ensuring the cleanness of the main body, preventing the surface of the main body from being corroded due to excessive attachments, prolonging the service life of the main body, preventing the heat radiation effect of the main body from being influenced due to excessive attachments and ensuring the heat radiation efficiency of the main body.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.