CN116736952B

CN116736952B - Big data storage device with dust removal function

Info

Publication number: CN116736952B
Application number: CN202311021207.2A
Authority: CN
Inventors: 李瑾
Original assignee: Taiyuan University of Science and Technology
Current assignee: Taiyuan University of Science and Technology
Priority date: 2023-08-15
Filing date: 2023-08-15
Publication date: 2023-11-03
Anticipated expiration: 2043-08-15
Also published as: CN116736952A

Abstract

The application relates to a big data storage device with a dust removing function, which relates to the technical field of dust removal and comprises a box body, a storage unit, a dust removing component and a purifying component; the box body is provided with a first air inlet and a first air outlet, and the first air inlet and the first air outlet are communicated with the inside of the box body; the storage unit is arranged in the box body; the dust removing assembly comprises a fan, a baffle, a first magnetic sheet and a second magnetic sheet; the fan is arranged in the box body; the baffle cover is arranged at the opening of the first air outlet, and one end of the baffle is hinged with the box body; the first magnetic sheet is fixedly arranged on the baffle; the second magnetic sheet is fixedly arranged on the box body; the purifying component is connected with the box body and is used for purifying air entering the box body from the first air inlet. The application can improve the dust removal efficiency of the big data storage device.

Description

Big data storage device with dust removal function

Technical Field

The application relates to the technical field of dust removal, in particular to a big data storage device with a dust removal function.

Background

The big data store is used to persist the data set into the computer. In the running process of the big data storage, the internal hard disk needs to be cooled continuously because of the large stored files. In the course of cooling the big data storage, the inside of the box is communicated with the outside air, so that dust enters the box, and the operation performance of the storage unit is influenced.

The existing big data storage device comprises a box body, a fan and a storage unit; the box body is provided with an air inlet and an air outlet; the fan is arranged in the box body; the storage unit is arranged in the box body and is used for storing data; when the big data storage is operated, the fan is in a working state, dust in the box body is blown out of the box body through the air outlet, negative pressure is formed in the box body, and outside air enters the box body through the air inlet to form air circulation, so that a dust removing effect is achieved on the storage unit.

In the use process of the big data storage device, when the big data storage device stops working, as the air inlet and the air outlet are communicated with the inside of the box body, external air carries dust into the inside of the box body through the air outlet and the air inlet, so that the dust in the box body is increased, and the dust in the box body is not favorably removed, so that the dust removal efficiency is low.

Disclosure of Invention

In order to improve the dust removal efficiency of the big data storage device, the application provides a big data storage device with a dust removal function.

The application provides a big data storage device with a dust removal function, which adopts the following technical scheme:

a big data storage device with a dust removing function comprises a box body, a storage unit, a dust removing component and a purifying component; the box body is provided with a first air inlet and a first air outlet, and the first air inlet and the first air outlet are communicated with the inside of the box body; the storage unit is arranged in the box body and is used for storing data; the dust removing assembly comprises a fan, a baffle, a first magnetic sheet and a second magnetic sheet; the fan is arranged in the box body and is positioned at the first air outlet, and the fan is used for discharging air in the box body out of the box body through the first air outlet; the baffle cover is arranged at the opening of the first air outlet, and one end of the baffle is hinged with the box body; the first magnetic sheet is fixedly arranged on the baffle; the second magnetic sheet is fixedly arranged on the box body; when the side wall of the baffle is abutted against the side wall of the box body, the first magnetic sheet and the second magnetic sheet are opposite to each other, and mutual attractive force exists between the first magnetic sheet and the second magnetic sheet; the purifying component is connected with the box body and is used for purifying dust carried in air entering the box body from the first air inlet.

Through adopting above-mentioned technical scheme, when storage unit is in operating condition, the fan is also in operating condition, thereby the fan blows the air in the box and promotes the baffle and overcome the mutual appeal between first magnetic sheet and the second magnetic sheet, thereby make the baffle upwards rotate around the articulated axis, air and dust in the box is outside through first air exit discharge box under the effect of fan, the inside negative pressure that forms of box, outside air is after purifying through purifying assembly purification under the inside negative pressure of box, get into the box inside through first air intake, form air cycle, repeat above-mentioned process, keep on removing dust to the box inside. When the wind power of the fan is smaller, the baffle plate rotates downwards around the hinge axis under the action of self gravity to partially shield the first air outlet, and the smaller the wind power of the fan is, the more the first air outlet is shielded, and the outside air cannot enter the box body from the first air outlet. External air entering the box body through the first air inlet is purified through the purifying component, dust is prevented from entering the box body through the first air inlet, the difficulty of dust removal inside the box body is reduced, and therefore the dust removal efficiency inside the box body is improved.

Optionally, the purifying component comprises a purifying box, a first partition board, a first water inlet pipe, a first water outlet pipe, a first electric valve, a second electric valve and a communicating pipe; the purifying box is vertically arranged, a second air inlet is formed in the purifying box, and the second air inlet is communicated with the inside of the purifying box; the first partition plate is vertically arranged in the purifying box, the top end of the first partition plate is fixedly connected with the top wall of the purifying box, and a distance is reserved between the end face of the bottom end of the first partition plate and the bottom wall of the purifying box; the first water inlet pipe is arranged at the top of the purifying box and is communicated with the inside of the purifying box; the first water outlet pipe is arranged at the bottom of the purifying box and is communicated with the inside of the purifying box; the first electric valve is arranged on the first water inlet pipe; the second electric valve is arranged on the first water outlet pipe; a second exhaust outlet is formed in the inner side wall, far away from the second air inlet, of the purifying box; one end of the communicating pipe is communicated with the inside of the box body, and the other end of the communicating pipe is communicated with the second air outlet; the purifying box is internally provided with water in advance, and the water level is positioned between the second air inlet and the end face of the bottom end of the first partition board.

Through adopting above-mentioned technical scheme, because the inside negative pressure that forms of box, outside air gets into the purifying box inside through the second air intake, and the outside air that gets into the purifying box inside flows along V-arrangement orbit in the purifying box under the effect of first baffle, after the water in the purifying box, flows from the second air exit, later gets into the box inside through first air intake. In the process of flowing water in the purifying box, dust carried by the outside air flowing in the purifying box is soaked by the water and dissolved in the water, so that the outside air entering the box body through the first air inlet is purified; when a certain amount of dust is dissolved in the water in the purifying box, the second electric valve is opened, the water in which the dust is dissolved is discharged through the first water outlet pipe, then the second electric valve is closed, and the first electric valve is opened to inject water into the purifying box. The dust carried by the outside air is dissolved in the water, so that the air entering the water is ensured not to carry the dust, and the efficiency of removing dust in the box body is improved.

Optionally, a detection assembly is arranged on the purifying box, and the second air outlet is communicated with the communicating pipe through the detection assembly; the detection assembly comprises a detection box, a second partition board, a second water inlet pipe, a second water outlet pipe, a third electric valve, a fourth electric valve, a turbidity sensor and a controller; the detection box is vertically arranged; a third air inlet is formed in the inner wall of the detection box and is communicated with the second air outlet; a third air outlet is formed in the inner side wall, far away from the third air inlet, of the detection box, and the third air outlet is communicated with the communicating pipe; the second partition board is vertically arranged in the detection box, the top end of the second partition board is fixedly connected with the detection box, and a distance is reserved between the end face of the bottom end of the second partition board and the bottom wall of the detection box; the detection box is internally pre-provided with water, and the water level is between the third air outlet and the end face of the bottom end of the second partition plate; the second water inlet pipe is arranged at the top of the detection box and is communicated with the inside of the detection box; the second water outlet pipe is arranged at the bottom of the detection box and is communicated with the inside of the detection box; the third electric valve is arranged on the second water inlet pipe; the fourth electric valve is arranged on the second water outlet pipe; the turbidity sensor is arranged in the detection box, and is used for detecting turbidity information of water in the detection box and transmitting corresponding turbidity signals; the controller is arranged on the box body, and is electrically connected with the turbidity sensor, the first electric valve, the second electric valve, the third electric valve and the fourth electric valve, responds to corresponding turbidity signals and controls working states of the first electric valve, the second electric valve, the third electric valve and the fourth electric valve; the communication pipe is provided with a fifth electric valve, and the fifth electric valve is electrically connected with the controller.

Through adopting above-mentioned technical scheme, the outside air that flows out the purifying box from the second air outlet gets into the detection incasement portion through the third air intake later, and the outside air that gets into the detection incasement portion flows along V-arrangement orbit under the effect of second baffle in the detection incasement, after the water in the detection case, flows from the third air outlet, gets into the box inside through first air intake later. In the flowing process of the outside air in the detection box, the turbidity sensor detects the turbidity information of the water in the detection box, when a certain amount of dust is accumulated in the water in the purification box, a small amount of dust still enters the detection box after the outside air is purified by the purification box, and in the water process of the outside air passing through the detection box, the dust is soaked by the water, so that the dust is dissolved in the water. When the turbidity of the water in the detection box reaches a preset value, the controller controls the fifth electric valve to be closed, the second electric valve and the fourth electric valve to be opened, the water in the purification box and the detection box is discharged, then the controller controls the second electric valve and the fourth electric valve to be closed, the first electric valve and the third electric valve to be opened, and water is injected into the purification box and the detection box to reach a preset water level. Through detecting the turbidity condition of detecting incasement water, after the water in the purifying box has dissolved the dust of sufficient quantity, in time change purifying box and the water in the detecting box, guarantee the purifying effect of purifying the subassembly. Through the fifth electric valve, avoid changing the in-process to the water in purifying box and the detection case, the dust gets into the box inside, further ensures that the outside air that gets into the box does not carry the dust to improve the dust removal effect to the box inside.

Optionally, a dustproof component is arranged on the purifying box; the dustproof component comprises a baffle pipe, a first baffle plate and a second baffle plate; the baffle pipe is obliquely downwards arranged along the direction away from the purifying box, and the top end of the baffle pipe is communicated with the second air inlet; the first baffle plates and the second baffle plates are arranged on the baffle pipes, a plurality of first baffle plates and a plurality of second baffle plates are oppositely and alternately arranged along the length direction of the baffle pipes, an included angle is formed between the first baffle plates and the bottom wall of the baffle pipes, and a distance is reserved between the end face of one end of each first baffle plate, which is far away from the bottom wall of the baffle pipe, and the top wall of the baffle pipes; an included angle is formed between the second baffle plate and the bottom wall of the baffle pipe, and a distance is reserved between the end face of one end of the second baffle plate, which is far away from the top wall of the baffle pipe, and the bottom wall of the baffle pipe.

Through adopting above-mentioned technical scheme, in the dust removal process to the inside of box, when the inside negative pressure that forms of box, outside air gets into the baffling intraduct under the effect of the inside negative pressure of box, and part outside air flows the direction under the effect of second baffling board and changes, baffles in the baffling pipe, and the outside air that its carried part dust drops to on the second baffling board and in the baffling pipe, and outside air that flow direction changed and follow-up entering baffling pipe take place to convect for the outside air velocity of flow that follow-up got into the baffling pipe reduces, thereby makes the part dust that two sides outside air that takes place the convection carry break away from to the baffling intraduct.

And the other part of external air flows onto the first baffle plate through a gap between the second baffle plate and the bottom wall of the baffle pipe, the flowing direction is changed under the action of the first baffle plate, the dust carried by the external air falls off onto the first baffle plate and into the baffle pipe, and meanwhile, the part of external air and the external air flowing in subsequently generate convection, so that the flow speed of the external air flowing in subsequently is reduced, and part of dust carried by two external air generating convection is separated into the baffle pipe. The outside air passes through the gap between the first baffle plate and the second baffle plate after being deflected for a plurality of times by the first baffle plate and the second baffle plate, and then the outside air enters the purifying box through the second air inlet. In the process of baffling the outside air in the baffling pipe, part of dust carried by the outside air falls into the baffling pipe. The outside air entering the purifying box is enabled to carry dust to be reduced, the replacement frequency of the water inside the detecting box and the purifying box is reduced, and meanwhile the dust removal efficiency inside the box body is improved.

Optionally, the first baffle plate and the second baffle plate are both telescopic plate structures; the first baffle plate movable end is inserted on the bottom wall of the baffle pipe, the first baffle plate fixed end is fixedly connected with the baffle pipe, and the first baffle plate movable end divides the interior of the first baffle plate fixed end into a first plate cavity and a first non-plate cavity; the second baffle plate movable end is inserted into the top wall of the baffle pipe, the second baffle plate fixed end is fixedly connected with the baffle pipe, and the second baffle plate movable end divides the interior of the second baffle plate fixed end into a second plate cavity and a second plate-free cavity; the baffle pipes are provided with adjusting components, and the adjusting components are used for adjusting the extension length of the first baffle plate and the extension length of the second baffle plate according to the flow speed of the external air flowing into the baffle pipes.

Through adopting above-mentioned technical scheme, when outside air flows into the baffle intraductal, through adjusting part, according to the velocity of flow that outside air flowed into the baffle, adjust the extension length of first baffle and second baffle for the distance between first baffle expansion end and the second baffle expansion end reduces, and along with outside air the velocity of flow in the baffle intraductal is bigger, the distance between first baffle expansion end and the second baffle expansion end is less, outside air the time of baffling in the baffle is bigger, and outside air carried dust drops more in the baffling intraductal. The extension length of the first baffle plate and the second baffle plate is adjusted according to the flow speed of the external air flowing into the baffle pipe, so that dust entering the purifying box is reduced on the premise of ensuring the wind speed of the external air entering the box body, the replacement frequency of the water inside the detecting box and the purifying box is further reduced, and the dust removal efficiency of the inside of the box body is improved.

Optionally, a first installation groove is formed on one side, close to the bottom wall of the deflector pipe, of the movable end of the first deflector plate; a second installation groove is formed in one side, close to the top wall of the baffle pipe, of the movable end of the second baffle plate; the adjusting component is provided with a plurality of groups; the adjusting component comprises a first elastic piece, a first connecting pipe, a first spring, a second elastic piece, a second connecting pipe and a second spring; the first elastic piece is of a cavity structure, and one end of the first elastic piece is fixedly arranged in the first mounting groove; two ends of the first connecting pipe are respectively communicated with the inside of the first elastic piece and the inside of the first plate-free cavity; the first spring is arranged in the first plate-free cavity, and two ends of the first spring are fixedly connected with the fixed end of the first baffle plate and the movable end of the first baffle plate respectively; water is reserved in the first elastic piece, the first connecting pipe and the first plate-free cavity; the second elastic piece is of a cavity structure, and one end of the second elastic piece is fixedly arranged in the second mounting groove; two ends of the second connecting pipe are respectively communicated with the inside of the second elastic piece and the inside of the second plate-free cavity; the second spring is arranged in the second plate-free cavity, and two ends of the second spring are fixedly connected with the fixed end of the second baffle plate and the movable end of the second baffle plate respectively; the second elastic piece, the second connecting pipe and the second plate-free cavity are all pre-provided with water.

By adopting the technical scheme, when the outside air flows into the baffle pipe, the first elastic piece and the second elastic piece are extruded; the water in the first elastic piece flows into the first baffle-free cavity through the first connecting pipe, and the first baffle plate extends; the water in the second elastic piece flows into the second plate-free cavity through the second connecting pipe, and the second baffle plate extends; the distance between the movable end of the first baffle plate and the movable end of the second baffle plate is reduced, and the distance between the movable end of the first baffle plate and the movable end of the second baffle plate is smaller as the flow velocity of the external air in the baffle pipe is larger.

Optionally, a third mounting groove is formed in the side wall of the box body, and the third mounting groove is located at the opening of the first air outlet; the hinge joint of the baffle plate and the box body is positioned in the third mounting groove; the second magnetic sheet is positioned in the third mounting groove; when the side wall of the baffle plate is abutted with the box body, the baffle plate is positioned in the third mounting groove.

Through adopting above-mentioned technical scheme, baffle and box articulated department are located the third mounting groove, avoid the dust to get into inside the box through baffle top gap to improve the dust removal efficiency to the box inside.

Optionally, a limiting plate is arranged on the box body; the limiting plate is obliquely arranged above the baffle, the distance between the limiting plate and the box body along the vertical downward direction is gradually increased, and the limiting plate is fixedly connected with the box body.

By adopting the technical scheme, in the process of removing dust in the box body, the baffle plate rotates upwards around the hinge axis under the action of flowing air until the baffle plate is abutted with the limiting plate; the phenomenon that the opening amplitude of the baffle is too large due to the fact that wind power is too large is avoided, so that dust enters the box body through the first air outlet in the falling process of the baffle after the wind power is reduced; the limiting plate is arranged above the baffle plate, so that dust is further prevented from entering the box body through a gap above the baffle plate; thereby improving the dust removal efficiency of the inside of the box body.

Optionally, a dust collecting component is arranged on the box body; the dust receiving assembly comprises a dust receiving box and a flexible piece; the dust collecting box is vertically arranged and is of a top opening structure, and is positioned at the bottom of the third mounting groove and fixedly connected with the box body; the two flexible pieces are respectively positioned at two ends of the baffle plate in the direction of the hinge axis of the box body, one end of each flexible piece is fixedly connected with the baffle plate, and the other end of each flexible piece is fixedly connected with the box body; and a plurality of air outlet holes are formed in the flexible piece.

Through adopting above-mentioned technical scheme, follow first air exit exhaust dust under the fan effect and get into under the effect of baffle and connect the dirt box, conveniently handle the dust. When the baffle rotates upwards around the hinge axis, the flexible part is driven to stretch, the two sides of the baffle and the box body are surrounded, dust is prevented from flowing out of the two sides of the baffle, the dust is difficult to treat, and meanwhile, the outside dust is prevented from entering the inside of the box body through the two sides of the baffle, so that the dust collection efficiency of the inside of the box body is improved.

In summary, the present application includes at least one of the following beneficial technical effects:

through setting up dust removal subassembly and purification subassembly, when storage unit was in operating condition, the fan was also in operating condition, and air and dust in the box are discharged outside the box through first air outlet under the effect of fan; when the wind power of the fan is smaller, the baffle plate rotates downwards around the hinge axis under the action of self gravity to partially shield the first air outlet, and the smaller the wind power of the fan is, the more the first air outlet is shielded, the outside air cannot enter the box body from the first air outlet; the purification assembly is used for purifying the external air entering the box body through the first air inlet, so that dust is prevented from entering the box body through the first air inlet, and the dust removal efficiency inside the box body is improved;

By detecting the turbidity condition of the water in the detection box, when the water in the purification box dissolves enough dust, the purification box and the water in the detection box are replaced in time, so that the purification effect of the purification assembly is ensured, the outside air entering the box body is further ensured not to carry dust, and the dust removal effect of the inside of the box body is improved;

by arranging the dustproof assembly and the adjusting assembly, part of dust carried by the external air falls into the baffling pipe in the baffling process of the inside of the baffling pipe, so that the dust carried by the external air entering the purifying box is reduced, the replacement frequency of water in the detecting box and the purifying box is reduced, and the dust removing efficiency of the inside of the box is improved; the extension length of the first baffle plate and the second baffle plate is adjusted according to the flow speed of the external air flowing into the baffle pipe, and on the premise of ensuring the wind speed of the air flowing into the box body, dust entering the purifying box is reduced, and the replacement frequency of the detecting box and the water in the purifying box is further reduced, so that the dust removal efficiency of the box body is improved.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present application;

FIG. 2 is a cross-sectional view of an embodiment of the present application;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

FIG. 4 is a partial enlarged view at B in FIG. 2;

FIG. 5 is an enlarged view of a portion of FIG. 2 at C;

fig. 6 is an enlarged view of a portion of an embodiment of the present application to show an adjustment assembly.

Reference numerals illustrate:

1. a case; 11. a first air inlet; 12. a first exhaust outlet; 13. a third mounting groove;

2. a storage unit;

3. a dust removal assembly; 31. a blower; 32. a baffle; 33. a first magnetic sheet; 34. a second magnetic sheet;

4. a purification assembly; 41. a purifying box; 411. a second air inlet; 412. a second exhaust outlet; 42. a first separator; 43. a first water inlet pipe; 44. a first water outlet pipe; 45. a first electrically operated valve; 46. a second electrically operated valve; 47. a communicating pipe; 471. a fifth electrically operated valve;

5. a detection assembly; 51. a detection box; 511. a third air inlet; 512. a third exhaust outlet; 52. a second separator; 53. a second water inlet pipe; 54. a second water outlet pipe; 55. a third electrically operated valve; 56. a fourth electrically operated valve; 57. a turbidity sensor; 58. a controller;

6. a dust-proof assembly; 61. a deflector tube; 62. a first baffle; 621. a first plate cavity; 622. a first non-plate cavity; 623. a first mounting groove; 63. a second baffle; 631. a second plate cavity; 632. a second plateless cavity; 633. a second mounting groove;

7. An adjustment assembly; 71. a first elastic member; 72. a first connection pipe; 73. a first spring; 74. a second elastic member; 75. a second connection pipe; 76. a second spring;

8. a limiting plate;

9. a dust receiving assembly; 91. a dust collecting box; 92. a flexible member; 921. and an air outlet hole.

Detailed Description

The application is described in further detail below with reference to fig. 1-6.

The embodiment of the application discloses a big data storage device with a dust removing function. Referring to fig. 1 and 2, a big data storage device with a dust removing function includes a case 1, a storage unit 2, a dust removing assembly 3, a purifying assembly 4; the two opposite outer side walls of the box body 1 are respectively provided with a first air inlet 11 and a first air outlet 12; the first air inlet 11 and the first air outlet 12 are communicated with the inside of the box body 1; the storage unit 2 is arranged inside the box body 1 and is used for storing data; the dust removal assembly 3 comprises a fan 31, the fan 31 is arranged inside the box body 1 and is located at the first air outlet 12, the fan 31 is fixedly connected with the storage unit 2, and the fan 31 is used for discharging air and dust inside the box body 1 through the first air outlet 12. The purifying assembly 4 is used for purifying dust carried in the air entering the box 1 from the first air inlet 11.

When the inside of box 1 removes dust, fan 31 is in operating condition, and fan 31 is with the inside air and the dust of box 1 outside the 1 through first air exit 12 discharge box, and the inside negative pressure that forms of box 1, outside air is after purifying through purifying assembly 4 under the inside negative pressure's of box 1, gets into the inside of box 1 through first air intake 11, forms air cycle, repeats above-mentioned process, continuously removes dust to the inside of box 1.

Referring to fig. 1 and 3, the case 1 is horizontally disposed; a third mounting groove 13 is formed in the side wall of the box body 1; the first exhaust outlet 12 is positioned on the bottom wall of the third mounting groove 13; the storage unit 2 is positioned between the first air inlet 11 and the first air outlet 12 and is fixedly connected with the box body 1; the dust removing assembly 3 further includes a baffle 32, a first magnetic sheet 33, and a second magnetic sheet 34; the baffle 32 is covered at the first air outlet 12, the top of the baffle 32 is hinged with the top wall of the mounting groove, and the hinge axis is horizontally arranged, when the baffle 32 is covered at the first air outlet 12, the baffle 32 is positioned in the third mounting groove 13; the first magnetic sheet 33 is fixedly arranged on one side wall of the baffle 32 close to the box body 1 and is positioned at the bottom of the baffle 32; the second magnetic sheet 34 is located in the third installation groove 13 and is fixedly connected with the bottom wall of the third installation groove 13, when the baffle 32 is covered at the first air outlet 12, the first magnetic sheet 33 and the second magnetic sheet 34 are arranged opposite to each other, and attractive force exists between the first magnetic sheet 33 and the second magnetic sheet 34.

When the interior of the box body 1 is dedusted, the fan 31 is in a working state, and the fan 31 blows air in the box body 1 to push the baffle plate 32 to overcome the mutual attractive force between the first magnetic sheet 33 and the second magnetic sheet 34, so that the baffle plate 32 rotates upwards around the hinge axis, and the air and dust in the box body 1 are discharged out of the box body 1 through the first air outlet 12.

Referring to fig. 2 and 3, a limiting plate 8 is arranged on the box 1, the limiting plate 8 is obliquely arranged, the distance between the limiting plate 8 and the box 1 along the vertical downward direction is gradually increased, the limiting plate 8 is positioned above a baffle 32, and the top end of the limiting plate 8 is fixedly connected with the side wall of the box 1; the box body 1 is provided with a dust receiving component 9; the dust collecting assembly 9 comprises a dust collecting box 91 and a flexible piece 92; the dust receiving box 91 is vertically arranged and is of a top opening structure, the cross section of the dust receiving box 91 is rectangular, the dust receiving box 91 is positioned below the third mounting groove 13, and one side, close to the box body 1, of the dust receiving box 91 is fixedly connected with the box body 1; the two flexible pieces 92 are arranged, the two flexible pieces 92 are respectively positioned at two ends of the baffle 32 in the hinge axis direction of the box body 1, the flexible pieces 92 are in a triangular structure, one end of each flexible piece 92 is fixedly connected with the bottom wall of the third mounting groove 13, and the other end of each flexible piece 92 is fixedly connected with the baffle 32; the flexible member 92 is provided with a plurality of air outlet holes 921.

In the process of dedusting the inside of the box body 1, the baffle 32 rotates upwards around the hinge axis under the action of flowing air until the baffle is abutted with the limiting plate 8; when the baffle 32 rotates upwards around the hinge axis, the flexible piece 92 is driven to stretch, two sides of the baffle 32 are surrounded with the box body 1, air in the box body 1 is discharged from the lower part of the baffle 32 and the air outlet 921 through the first air outlet 12, and dust in the box body 1 enters the dust receiving box 91 through the first air outlet 12 under the action of the baffle 32.

Referring to fig. 2 and 4, the purification assembly 4 includes a purification tank 41, a communication pipe 47, a first partition 42, a first water inlet pipe 43, a first electrically operated valve 45, a first water outlet pipe 44, and a second electrically operated valve 46; the purifying box 41 is vertically arranged, and the purifying box 41 is positioned at one side of the box body 1 close to the first air inlet 11; the top of the side wall of the purifying box 41 is provided with a second air inlet 411 and a second air outlet 412; the second air inlet 411 is positioned at one side of the purifying box 41 far away from the box body 1, the second air outlet 412 is positioned at one side of the purifying box 41 near the box body 1, the second air inlet 411 and the second air outlet 412 are communicated with the inside of the purifying box 41, and the second air inlet 411 and the second air outlet 412 are positioned at the same height; the communicating pipe 47 is positioned between the box body 1 and the purifying box 41, and two ends of the communicating pipe 47 are respectively communicated with the first air inlet 11 and the second air outlet 412;

Referring to fig. 2 and 4, the first partition plate 42 is vertically disposed inside the purifying box 41, the top end of the first partition plate 42 is fixedly connected with the top wall of the purifying box 41, a distance is reserved between the end surface of the bottom end of the first partition plate 42 and the bottom wall of the purifying box 41, and the gas entering the purifying box 41 from the second air inlet 411 flows along a V-shaped track in the purifying box 41 under the action of the first partition plate 42; water is preset in the purifying box 41, and the water level is located between the second air inlet 411 and the end face of the bottom end of the first partition board 42.

Referring to fig. 2 and 4, the first water inlet pipe 43 is vertically disposed at the top of the purifying box 41 and is located at one side of the first partition plate 42 near the second air inlet 411, one end of the first water inlet pipe 43 is communicated with the inside of the purifying box 41, and the other end is externally connected with a water source; the first electrically operated valve 45 is mounted on the first water inlet pipe 43; the first water outlet pipe 44 is vertically arranged at the bottom of the purifying box 41 and is positioned right below the first partition plate 42, and the first water outlet pipe 44 is communicated with the inside of the purifying box 41; a second electrically operated valve 46 is mounted on the first outlet pipe 44.

In the process of dedusting the inside of the box body 1, when negative pressure is formed in the box body 1, external air enters the inside of the purifying box 41 through the second air inlet 411 under the action of the negative pressure in the box body 1, then flows along a V-shaped track in the purifying box 41 under the action of the first partition plate 42, enters the communicating pipe 47 through the second air outlet 412 of water in the purifying box 41, and then enters the inside of the box body 1 through the first air inlet 11. The dust carried by the outside air is soaked with water during passing through the water in the purifying tank 41, thereby being dissolved in the water.

Referring to fig. 2 and 4, the purge bin 41 is provided with a detection assembly 5; the detection assembly 5 comprises a detection box 51, a second partition plate 52, a second water inlet pipe 53, a third electric valve 55, a second water outlet pipe 54, a fourth electric valve 56, a turbidity sensor 57 and a controller 58; the detection box 51 is vertically arranged, and the detection box 51 is positioned between the box body 1 and the purifying box 41; the top of the side wall of the detection box 51 is provided with a third air inlet 511 and a third air outlet 512; the third air inlet 511 and the third air outlet 512 are communicated with the inside of the detection box 51, and the third air inlet 511 and the third air outlet 512 are positioned at the same height; the third air inlet 511 is positioned at one side of the detection box 51 far away from the box body 1, and the third air inlet 511 is communicated with the second air outlet 412; the third air outlet 512 is positioned at one side of the detection box 51 close to the box body 1, and the third air outlet 512 is communicated with the communicating pipe 47; the communication pipe 47 communicates with the second exhaust port 412 through the detection box 51.

Referring to fig. 2 and 4, two partition plates are vertically arranged inside the detection box 51, the top end of the second partition plate 52 is fixedly connected with the top wall of the detection box 51, a distance is reserved between the end face of the bottom end of the second partition plate 52 and the bottom wall of the detection box 51, and the gas entering the purification box 41 from the third air inlet 511 flows along a V-shaped track in the detection box 51 under the action of the second partition plate 52; the detection box 51 is pre-provided with water, and the water level is located between the third air inlet 511 and the bottom end face of the second partition plate 52.

Referring to fig. 2 and 4, a second water inlet pipe 53 is vertically disposed at the top of the detection box 51 and is positioned at one side of the second partition plate 52 near the third air outlet 512, one end of the second water inlet pipe 53 is communicated with the inside of the detection box 51, and the other end is provided with an external water source; the third electrically operated valve 55 is mounted on the second water inlet pipe 53; the second water outlet pipe 54 is vertically arranged at the bottom of the detection box 51 and is positioned right below the second partition plate 52, and the second water outlet pipe 54 is communicated with the inside of the detection box 51; a fourth electrically operated valve 56 is mounted on the second outlet pipe 54; the communication pipe 47 is provided with a fifth electrically operated valve 471, and the fifth electrically operated valve 471 is electrically connected to the controller 58.

Referring to fig. 2 and 4, a turbidity sensor 57 is disposed in the detection tank 51 and fixedly connected to a side wall of the detection tank 51, the turbidity sensor 57 is located below the water level, and the turbidity sensor 57 is configured to detect turbidity information of water in the detection tank 51 and transmit a corresponding turbidity signal; the controller 58 is arranged on the box body 1 and is fixedly connected with the box body 1, the controller 58 is electrically connected with the turbidity sensor 57, the first electric valve 45, the second electric valve 46, the third electric valve 55, the fourth electric valve 56 and the fan 31, and the controller 58 responds to corresponding turbidity signals and controls the working states of the first electric valve 45, the second electric valve 46, the third electric valve 55 and the fourth electric valve 56.

When the outside air is purified by the purifying box 41, it enters the inside of the detecting box 51 through the third air inlet 511, then flows along the V-shaped trajectory in the detecting box 51 by the second partition plate 52, enters the communicating tube 47 through the third air outlet 512 in the detecting box 51, and then enters the inside of the box 1 through the first air inlet 11. In the process of removing dust from the inside of the tank 1, the turbidity sensor 57 is in an operating state, and the turbidity sensor 57 detects turbidity information of water in the detection tank 51. When a certain amount of dust is accumulated in the water in the purifying box 41, a small amount of dust still enters the detecting box 51 after the outside air is purified by the purifying box 41, and the dust is soaked by the water during the process of the outside air passing through the water in the detecting box 51, so that the dust is dissolved in the water. When the turbidity of the water in the detection tank 51 reaches a preset value, the controller 58 controls the fifth electrically operated valve 471 to be closed, controls the second electrically operated valve 46 and the fourth electrically operated valve 56 to be opened, and discharges the water in the purification tank 41 and the detection tank 51, and then the controller 58 controls the second electrically operated valve 46 and the fourth electrically operated valve 56 to be closed, and the first electrically operated valve 45 and the third electrically operated valve 55 to be opened, so that the water in the purification tank 41 and the detection tank 51 is filled with water to a preset water level.

Referring to fig. 2 and 5, the dust-proof assembly 6 is provided on the purge bin 41; the dust assembly 6 comprises a baffle 61, a first baffle 62 and a second baffle 63; the baffle pipe 61 is obliquely arranged at one side of the purifying box 41 away from the detecting box 51, the distance between the baffle pipe 61 and the purifying box 41 gradually increases along the direction away from the purifying box 41, and the top end of the baffle pipe 61 extends towards the direction close to the purifying box 41 and is communicated with the second air inlet 411; the first baffle plates 62 and the second baffle plates 63 are of telescopic plate structures, the first baffle plates 62 and the second baffle plates 63 are both arranged in two along the length direction of the baffle pipes 61, the first baffle plates 62 and the second baffle plates 63 are arranged in a staggered mode, the first baffle plates 62 and the second baffle plates 63 are in one-to-one correspondence, and the second baffle plates 63 are located on one side, away from the purifying box 41, of the corresponding first baffle plates 62.

Referring to fig. 2 and 5, the first baffle plate 62 is horizontally arranged, the movable end of the first baffle plate 62 is inserted into the bottom wall of the baffle tube 61, the fixed end of the first baffle plate 62 is fixedly connected with the outer wall of the baffle tube 61, a distance is reserved between the end face of one end of the first baffle plate 62 far away from the bottom wall of the baffle tube 61 and the corresponding second baffle plate 63, the movable end of the first baffle plate 62 divides the inside of the fixed end of the first baffle plate 62 into a first plate cavity 621 and a first plate cavity 622, the first plate cavity 621 is positioned at one side of the movable end of the first baffle plate 62 far away from the purifying box 41, and the first plate cavity 622 is positioned at one side of the movable end of the first baffle plate 62 near the purifying box 41; a first mounting groove 623 is formed in one side, close to the bottom wall of the baffle tube 61, of the movable end of the first baffle plate 62, and the first mounting groove 623 is always located inside the baffle tube 61.

Referring to fig. 2 and 5, the second baffle 63 is vertically disposed, the movable end of the second baffle 63 is inserted into the top wall of the baffle 61, the fixed end of the second baffle 63 is fixedly connected with the outer wall of the baffle 61, a distance is left between the end face of one end of the second baffle 63 far away from the top wall of the baffle 61 and the bottom wall of the baffle 61, the movable end of the second baffle 63 divides the interior of the fixed end of the second baffle into a second plate cavity 631 and a second plate cavity 632, the second plate cavity 631 is located at one side of the movable end of the second baffle 63 near the baffle 61, and the second plate cavity 632 is located at one side of the movable end of the second baffle 63 far away from the baffle 61; a second installation groove 633 is formed on one side of the movable end of the second baffle 63, which is close to the top wall of the baffle 61, and the second installation groove 633 is always positioned inside the baffle 61.

When the turbidity sensor 57 detects that the turbidity of the water in the detection cavity reaches a preset value, the controller 58 controls the fifth electric valve 471 to be closed, then the water in the detection box 51 and the evolution box is changed, and after the water is changed, the controller 58 controls the fifth electric valve 471 to be opened; in the process of changing water in the detection box 51 and the evolution box, the controller 58 controls the fan 31 to be closed, the baffle 32 rotates around the hinge axis under the action of self gravity, the cover is arranged at the first air outlet 12, the first magnetic sheet 33 and the second magnetic sheet 34 are attracted mutually, and the baffle 32 is fixed in the third mounting groove 13.

In the process of dedusting the inside of the box body 1, when negative pressure is formed in the box body 1, external air enters the inside of the baffle pipe 61 under the action of the negative pressure in the box body 1, part of external air is blocked by the second baffle plate 63, part of dust carried by the external air falls off to the second baffle plate 63, meanwhile, the flowing direction of the part of external air is changed under the action of the second baffle plate 63, the external air is baffled in the baffle pipe 61 and convects with the external air entering the baffle pipe 61 subsequently, so that the flow rate of the external air entering the baffle pipe 61 subsequently is reduced, part of dust carried by the external air entering the baffle pipe 61 subsequently falls off to the baffle pipe 61, and the dust falling off to the baffle pipe 61 can be cleaned by operators periodically.

The other part of external air flows onto the first baffle plate 62 through the gap between the second baffle plate 63 and the bottom wall of the baffle tube 61, and is blocked by the first baffle plate 62, the part of dust carried by the external air falls onto the first baffle plate 62, the flowing direction of the part of external air is changed under the action of the first baffle plate 62, and the part of external air is in convection with the external air flowing in later, so that the flow speed of the external air flowing in later is reduced, and the part of dust carried by the external air flowing in later is separated into the baffle tube 61. After being baffled for a plurality of times by the first baffle plate 62 and the second baffle plate 63, the external air passes through the gap between the first baffle plate 62 and the second baffle plate 63, repeats the above process, and finally enters the purifying box 41 through the second air inlet 411.

Referring to fig. 5 and 6, the big data storage device with dust removing function of the present application is further provided with an adjusting assembly 7, and the adjusting assembly 7 is provided with two groups; the adjusting assembly 7 includes a first elastic member 71, a first connection pipe 72, a first spring 73, a second elastic member 74, a second connection pipe 75, and a second spring 76; the first elastic member 71, the first connection pipe 72 and the first spring 73 are in one-to-one correspondence with the first deflector 62, and the second elastic member 74, the second connection pipe 75 and the second spring 76 are in one-to-one correspondence with the second deflector 63; the first elastic member 71 has a cavity structure, and one end of the first elastic member 71 is fixedly disposed in the first mounting groove 623; the first connecting pipe 72 is fixedly arranged inside the movable end of the first baffle plate 62, and two ends of the first connecting pipe 72 are respectively communicated with the inside of the first elastic piece 71 and the inside of the first non-plate cavity 622; the first elastic member 71, the first connecting tube 72 and the first non-plate cavity 622 are all pre-provided with water; the first spring 73 is horizontally disposed in the first non-plate cavity 622, and one end of the first spring 73 is fixedly connected to the fixed end of the first deflector 62, and the other end is fixedly connected to the movable end of the first deflector 62.

Referring to fig. 5 and 6, the second elastic member 74 has a hollow structure, and one end of the second elastic member 74 is fixedly disposed in the second mounting groove 633; the second connecting pipe 75 is fixedly arranged inside the movable end of the second baffle 63, and two ends of the second connecting pipe 75 are respectively communicated with the inside of the second elastic piece 74 and the inside of the second plate-free cavity 632; the second elastic member 74, the second connecting pipe 75 and the second plate-free chamber 632 are all pre-provided with water; the second spring 76 is horizontally disposed in the second plate-less chamber 632, and one end of the second spring 76 is fixedly connected to the fixed end of the second refraction plate 63, and the other end is fixedly connected to the movable end of the second refraction plate 63.

When the outside air flows into the baffle tube 61, the first elastic member 71 and the second elastic member 74 are pressed; the water inside the first elastic member 71 flows into the first non-plate chamber 622 through the first connection pipe 72, and the first baffle 62 extends; the water inside the second elastic member 74 flows into the second baffle chamber 632 through the second connection pipe 75, and the second baffle 63 extends; the distance between the movable end of the first deflector 62 and the movable end of the second deflector 63 is reduced, and as the flow velocity of the external air in the deflector 61 is larger, the distance between the movable end of the first deflector 62 and the movable end of the second deflector 63 is smaller, the more the number of times the external air is deflected between the first deflector 62 and the second deflector 63, the longer the time of deflection, and the more dust carried by the external air falls off in the deflector 61.

The implementation principle of the big data storage device with the dust removing function provided by the embodiment of the application is as follows:

when the interior of the box body 1 is dedusted, the fan 31 blows air in the box body 1 so as to push the baffle 32 to rotate upwards around the hinge axis until the baffle is abutted against the limiting plate 8; when the baffle plate 32 rotates upwards around the hinge axis, the flexible piece 92 is driven to stretch, the two sides of the baffle plate 32 are surrounded with the box body 1, air in the box body 1 is discharged from the lower part of the baffle plate 32 and the air outlet 921 through the first air outlet 12, and dust in the box body 1 enters the dust receiving box 91 through the first air outlet 12 under the action of the baffle plate 32; the air in the case 1 is discharged so that a negative pressure is formed inside the case 1.

When negative pressure is formed in the box body 1, external air enters the inside of the baffle pipe 61 under the action of the negative pressure in the box body 1, the outside air is deflected in the baffle pipe 61 under the action of the first deflector 62 and the second deflector 63, part of dust carried by the outside air falls into the baffle pipe 61, the distance between the movable end of the first deflector 62 and the movable end of the second deflector 63 changes along with the flow velocity of the outside air in the baffle pipe 61 under the action of the adjusting component 7 in the process of deflecting the outside air in the inside of the baffle pipe 61, and along with the larger flow velocity of the outside air in the baffle pipe 61, the distance between the movable end of the first deflector 62 and the movable end of the second deflector 63 is smaller, so that the larger the time of deflecting the outside air in the baffle pipe 61 is, the dust carried by the outside air falls more in the baffle pipe 61; the outside air then enters the inside of the purge bin 41 through the baffle 61.

The external air entering the purifying box 41 flows in a V shape in the purifying box 41 under the action of the first partition plate 42, and enters the detecting box 51 through the third air inlet 511; when the outside air flows in the purifying tank 41, the dust carried by the water in the purifying tank 41 is soaked with the water, and is dissolved in the water.

Outside air entering the detection box 51 flows along a V-shaped track in the detection box 51 under the action of the second partition plate 52, water passing through the detection box 51 enters the communicating pipe 47 from the third air outlet 512, and then enters the box 1 through the first air inlet 11 to form air circulation, so that dust is continuously removed from the box 1.

During the process of removing dust from the interior of the tank 1, when a certain amount of dust is accumulated in the water in the purifying tank 41, under the action of the detecting assembly 5, the controller 58 controls the fifth electric valve 471 to be closed, then the detecting tank 51 and the purifying tank 41 are replaced with water, and after the water is replaced, the controller 58 controls the fifth electric valve 471 to be opened. In the process of changing water in the detection box 51 and the evolution box, the baffle 32 is covered at the first air outlet 12, and the first magnetic sheet 33 and the second magnetic sheet 34 are attracted to each other, so that the baffle 32 is fixed in the third mounting groove 13.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims

1. A big data storage device with dust removal function, characterized in that: comprises a box body (1), a storage unit (2), a dust removing component (3) and a purifying component (4); a first air inlet (11) and a first air outlet (12) are formed in the box body (1), and the first air inlet (11) and the first air outlet (12) are communicated with the inside of the box body (1); the storage unit (2) is arranged inside the box body (1) and is used for storing data; the dust removing assembly (3) comprises a fan (31), a baffle (32), a first magnetic sheet (33) and a second magnetic sheet (34); the fan (31) is arranged inside the box body (1) and is positioned at the first air outlet (12), and the fan (31) is used for discharging air in the box body (1) out of the box body (1) through the first air outlet (12); the baffle (32) is arranged at the opening of the first exhaust outlet (12) in a covering mode, and one end of the baffle (32) is hinged with the box body (1); the first magnetic sheet (33) is fixedly arranged on the baffle plate (32); the second magnetic sheet (34) is fixedly arranged on the box body (1); when the side wall of the baffle plate (32) is abutted against the side wall of the box body (1), the first magnetic sheet (33) and the second magnetic sheet (34) are arranged opposite to each other, and attractive force exists between the two; the purifying component (4) is connected with the box body (1), and the purifying component (4) is used for purifying dust carried in air entering the box body (1) from the first air inlet (11);

The purification assembly (4) comprises a purification box (41), a first partition board (42), a first water inlet pipe (43), a first water outlet pipe (44), a first electric valve (45), a second electric valve (46) and a communicating pipe (47); the purifying box (41) is vertically arranged, a second air inlet (411) is formed in the purifying box (41), and the second air inlet (411) is communicated with the inside of the purifying box (41); the first partition plate (42) is vertically arranged inside the purifying box (41), the top end of the first partition plate (42) is fixedly connected with the top wall of the purifying box (41), and a distance is reserved between the end face of the bottom end of the first partition plate (42) and the bottom wall of the purifying box (41); the first water inlet pipe (43) is arranged at the top of the purifying box (41) and is communicated with the inside of the purifying box (41); the first water outlet pipe (44) is arranged at the bottom of the purifying box (41) and is communicated with the inside of the purifying box (41); the first electric valve (45) is arranged on the first water inlet pipe (43); the second electric valve (46) is arranged on the first water outlet pipe (44); a second exhaust outlet (412) is formed in the inner side wall, far away from the second air inlet (411), of the purifying box (41); one end of the communicating pipe (47) is communicated with the inside of the box body (1), and the other end of the communicating pipe is communicated with the second exhaust outlet (412); water is preset in the purifying box (41), and the water level is positioned between the second air inlet (411) and the end face of the bottom end of the first partition board (42);

A dustproof assembly (6) is arranged on the purifying box (41); the dustproof assembly (6) comprises a deflector (61), a first deflector (62) and a second deflector (63); the baffle pipe (61) is obliquely downwards arranged along the direction away from the purifying box (41), and the top end of the baffle pipe (61) is communicated with the second air inlet (411); the first baffle plates (62) and the second baffle plates (63) are arranged on the baffle tube (61), the first baffle plates (62) and the second baffle plates (63) are arranged in a plurality of opposite and staggered mode along the length direction of the baffle tube (61), an included angle is formed between the first baffle plates (62) and the bottom wall of the baffle tube (61), and a distance is reserved between the end face of one end, far away from the bottom wall of the baffle tube (61), of the first baffle plates (62) and the top wall of the baffle tube (61); an included angle is formed between the second baffle plate (63) and the bottom wall of the baffle tube (61), and a distance is reserved between the end face of one end of the second baffle plate (63) far away from the top wall of the baffle tube (61) and the bottom wall of the baffle tube (61);

the first baffle plate (62) and the second baffle plate (63) are of telescopic plate structures; the movable end of the first baffle plate (62) is inserted into the bottom wall of the baffle tube (61), the fixed end of the first baffle plate (62) is fixedly connected with the baffle tube (61), and the movable end of the first baffle plate (62) divides the inside of the fixed end of the first baffle plate (62) into a first plate cavity (621) and a first non-plate cavity (622); the movable end of the second baffle plate (63) is inserted into the top wall of the baffle tube (61), the fixed end of the second baffle plate (63) is fixedly connected with the baffle tube (61), and the movable end of the second baffle plate (63) divides the interior of the fixed end of the second baffle plate (63) into a second plate cavity (631) and a second plate-free cavity (632); an adjusting component (7) is arranged on the baffle tube (61), and the adjusting component (7) is used for adjusting the extension length of the first baffle plate (62) and the second baffle plate (63) according to the flow speed of the external air flowing into the baffle tube (61);

A first mounting groove (623) is formed in one side, close to the bottom wall of the baffle tube (61), of the movable end of the first baffle plate (62); a second installation groove (633) is formed in one side, close to the top wall of the baffle tube (61), of the movable end of the second baffle plate (63); the adjusting component (7) is provided with a plurality of groups; the adjusting assembly (7) comprises a first elastic piece (71), a first connecting pipe (72), a first spring (73), a second elastic piece (74), a second connecting pipe (75) and a second spring (76); the first elastic piece (71) is of a cavity structure, and one end of the first elastic piece (71) is fixedly arranged in the first mounting groove (623); both ends of the first connecting pipe (72) are respectively communicated with the inside of the first elastic piece (71) and the inside of the first non-plate cavity (622); the first spring (73) is arranged in the first non-plate cavity (622), and two ends of the first spring (73) are fixedly connected with the fixed end of the first baffle plate (62) and the movable end of the first baffle plate (62) respectively; water is pre-arranged in the first elastic piece (71), the first connecting pipe (72) and the first plate-free cavity (622); the second elastic piece (74) is of a cavity structure, and one end of the second elastic piece (74) is fixedly arranged in the second mounting groove (633); two ends of the second connecting pipe (75) are respectively communicated with the inside of the second elastic piece (74) and the inside of the second plate-free cavity (632); the second spring (76) is arranged in the second plate-free cavity (632), and two ends of the second spring (76) are fixedly connected with the fixed end of the second baffle plate (63) and the movable end of the second baffle plate (63) respectively; water is pre-arranged in the second elastic piece (74), the second connecting pipe (75) and the second plate-free cavity (632).

2. A big data storage device with dust removal function according to claim 1, characterized in that: the purifying box (41) is provided with a detection assembly (5), and the second exhaust outlet (412) is communicated with the communicating pipe (47) through the detection assembly (5); the detection assembly (5) comprises a detection box (51), a second partition plate (52), a second water inlet pipe (53), a second water outlet pipe (54), a third electric valve (55), a fourth electric valve (56), a turbidity sensor (57) and a controller (58); the detection box (51) is vertically arranged; a third air inlet (511) is formed in the inner wall of the detection box (51), and the third air inlet (511) is communicated with the second air outlet (412); a third air outlet (512) is formed in the inner side wall, far away from the third air inlet (511), of the detection box (51), and the third air outlet (512) is communicated with the communicating pipe (47); the second partition plate (52) is vertically arranged inside the detection box (51), the top end of the second partition plate (52) is fixedly connected with the detection box (51), and a distance is reserved between the end face of the bottom end of the second partition plate (52) and the bottom wall of the detection box (51); water is preset in the detection box (51), and the water level is between the third air outlet (512) and the end face of the bottom end of the second partition plate (52); the second water inlet pipe (53) is arranged at the top of the detection box (51) and is communicated with the inside of the detection box (51); the second water outlet pipe (54) is arranged at the bottom of the detection box (51) and is communicated with the inside of the detection box (51); the third electric valve (55) is arranged on the second water inlet pipe (53); the fourth electric valve (56) is arranged on the second water outlet pipe (54); the turbidity sensor (57) is arranged in the detection box (51), and the turbidity sensor (57) is used for detecting turbidity information of water in the detection box (51) and transmitting corresponding turbidity signals; the controller (58) is arranged on the box body (1), the controller (58) is electrically connected with the turbidity sensor (57), the first electric valve (45), the second electric valve (46), the third electric valve (55) and the fourth electric valve (56), and the controller (58) responds to turbidity signals sent by the turbidity sensor (57) and controls working states of the first electric valve (45), the second electric valve (46), the third electric valve (55) and the fourth electric valve (56); a fifth electrically operated valve (471) is arranged on the communicating pipe (47), and the fifth electrically operated valve (471) is electrically connected with the controller (58).

3. A big data storage device with dust removal function according to claim 1, characterized in that: a third mounting groove (13) is formed in the side wall of the box body (1), and the third mounting groove (13) is positioned at the opening of the first exhaust outlet (12); the hinge joint of the baffle plate (32) and the box body (1) is positioned in the third mounting groove (13); the second magnetic sheet (34) is positioned in the third mounting groove (13); when the side wall of the baffle plate (32) is abutted with the box body (1), the baffle plate (32) is positioned in the third mounting groove (13).

4. A big data storage device with dust removal function according to claim 3, characterized in that: a limiting plate (8) is arranged on the box body (1); the limiting plate (8) is obliquely arranged above the baffle plate (32), the distance between the limiting plate (8) and the box body (1) is gradually increased along the vertical downward direction, and the limiting plate (8) is fixedly connected with the box body (1).

5. A big data storage device with dust removal function according to claim 3, characterized in that: the dust collecting assembly (9) is arranged on the box body (1); the dust receiving assembly (9) comprises a dust receiving box (91) and a flexible piece (92); the dust box (91) is vertically arranged and is of a top opening structure, and the dust box (91) is positioned at the bottom of the third mounting groove (13) and is fixedly connected with the box body (1); the two flexible pieces (92) are arranged, the two flexible pieces (92) are respectively positioned at two ends of the baffle (32) in the direction of the hinge axis of the box body (1), one end of each flexible piece (92) is fixedly connected with the baffle (32), and the other end of each flexible piece is fixedly connected with the box body (1); a plurality of air outlet holes (921) are formed in the flexible piece (92).