CN112756287B - Computer production is with high-efficient dust removal static-removing device - Google Patents

Abstract

The invention discloses a high-efficiency dust removal and static removal device for computer production, which comprises a support frame, a main dust removal component, an auxiliary dust collection component and a dust collection box, wherein the support frame is fixedly arranged at two sides of a conveying belt in a bridging manner, the top of the support frame is provided with the main dust removal component and the auxiliary dust collection component in a sliding manner, the dust collection box is fixedly arranged at the rear part of the support frame, the lower end of the dust collection box is provided with a plurality of layers of filter plates, a dust collection fan communicated with the dust collection box is arranged below the dust collection box, and the main dust removal component and the auxiliary dust collection component are both communicated with the dust collection box through soft air pipes with enough length; the main dust collection assembly and the auxiliary dust collection assembly are arranged oppositely, the right end of the main dust collection assembly is fixed on the supporting frame through a double-arm cylinder and is used for removing dust and integrally removing static electricity on the surface where a computer screen is located, and the left end of the auxiliary dust collection assembly is fixedly connected with the supporting frame through a single-arm cylinder so as to remove dust on a rear shell part of the computer.

Description

Computer production is with high-efficient dust removal static-removing device

Technical Field

The invention belongs to the technical field of dust removal devices, and particularly relates to a high-efficiency dust removal and static electricity removal device for computer production.

Background

In the computer manufacturing process, because the existence of dust and static electricity can affect the performance and normal operation of the computer, it is very important to research an efficient computer dedusting and static removing device, however, according to data research, the following problems often exist in the existing efficient dedusting and static removing device for computer production:

1. the traditional method of cleaning and dedusting a computer by a fixedly arranged cleaning brush can not effectively remove dust at the corner between the screen and the edge of the shell;

2. the dust removal process of the computer is carried out in an open space, and a static electricity removing device is not arranged, so that static electricity generated after the cleaning brush is rubbed with the computer still can adsorb a large amount of dust;

3. the fixed ion eliminator blows out directional ion wind to destatic the computer, makes the computer remove the ion wind that the in-process received at the conveyer belt even inadequately, produces a large amount of static through the friction with between the cleaning brush again, can't carry out timely effectual elimination to influence the normal operating of computer and even damage.

Therefore, the technical personnel in the field provide an efficient dust removal and static elimination device for computer production to solve the problems in the background technology.

Disclosure of Invention

In order to achieve the purpose, the invention provides the following technical scheme: a high-efficiency dust removal and static removal device for computer production comprises a support frame, a main dust removal component, an auxiliary dust collection component and a dust collection box, wherein the support frame is fixedly arranged at two sides of a conveying belt in a bridging mode, the main dust removal component and the auxiliary dust collection component are arranged at the top of the support frame in a sliding mode, the dust collection box is fixedly arranged behind the support frame, a plurality of layers of filter plates are arranged at the lower end of the dust collection box, a dust collection fan communicated with the dust collection box is arranged below the dust collection box, and the main dust removal component and the auxiliary dust collection component are communicated with the dust collection box through soft air pipes with enough length to meet the left-right displacement of the main dust removal component and the auxiliary dust collection component;

the main dust removal assembly and the auxiliary dust collection assembly are arranged oppositely, the right end of the main dust removal assembly is fixed on the support frame through a double-arm cylinder and is used for removing dust and static electricity on the surface where a computer screen is located and the sides around the computer screen, and the left end of the auxiliary dust collection assembly is fixedly connected with the support frame through a single-arm cylinder so as to remove dust on the rear shell part of the computer.

Further, as preferred, the right end face of the auxiliary dust collection assembly is of an open structure, and a strip-shaped opening with a certain height is also formed in the lower end of the auxiliary dust collection assembly, so that a sufficient accommodating space is reserved for the rear supporting arm of the computer.

Further, as a preferred option, the main dust removal assembly comprises a dust collection plate, a static electricity removal assembly, a sweeping assembly, a swinging device, an ion air box, an air pump and a protective shell, the dust collection plate is fixedly mounted at the left end of the protective shell, the swinging device is slidably arranged in the protective shell, a plurality of sweeping assemblies are vertically and uniformly rotatably arranged on the swinging device, the static electricity removal assembly is rotatably connected between every two adjacent sweeping assemblies, the right end of the static electricity removal assembly is fixed on the protective shell, the ion air box is arranged on the right side of the swinging device, the left side of the ion air box is respectively communicated with the static electricity removal assemblies through a plurality of threaded hoses, and the right end of the ion air box is communicated with the air pump;

the positions and the number of the plurality of threaded hoses are matched with those of the plurality of static removing assemblies, and certain surplus length is reserved on the threaded hoses;

the torsion angle of each sweeping assembly is 32 degrees, so that the sweeping areas of two adjacent sweeping assemblies are partially overlapped.

Further, preferably, the part of the dust collection plate close to the inner wall is provided with an annular air cavity, the top end of the annular air cavity is communicated with the dust collection box through an air pipe, and the inner side wall of the dust collection plate is uniformly provided with a plurality of air holes;

the occupied range of the air holes is matched with the occupied range of the inner side wall of the dust collection plate;

the area occupied by the left end face of the dust collection plate is equal to the area occupied by the right end face of the auxiliary dust collection assembly, so that the auxiliary dust collection assembly is attached to the dust collection plate to form a dust collection space with only a lower end opening.

Preferably, the swing device comprises a connecting plate and an electric telescopic rod, the top end of the connecting plate is fixedly connected with the top wall of the dust collection plate through a plurality of springs I, the electric telescopic rod is mounted at the bottom end of the connecting plate, and the electric telescopic rod is fixed at the bottom of the dust collection plate;

the surface of the connecting plate is uniformly provided with a plurality of through grooves, the through grooves are in one-to-one correspondence with the static removing assemblies, and the width of each through groove is larger than the maximum one-way stroke of the vertical displacement of the connecting plate.

Further, preferably, the static electricity removing assembly comprises a swing air plate and an adjusting rod, the right end of the swing air plate is rotatably arranged at one end of the adjusting rod, and the other end of the adjusting rod is fixed on the left end face of the dust collecting plate;

the left end of swing aerofoil is arc curved surface structure, just, the middle part is evenly covered with a plurality of through-holes on the arc curved surface.

Preferably, the sweeping assembly comprises a buffer sleeve shell, a supporting sleeve seat, an elastic connecting column and a bearing bracket, wherein the right end of the buffer sleeve shell is slidably arranged on the supporting sleeve seat through a plurality of springs, and the right end of the supporting sleeve seat is elastically connected with the bearing bracket through the elastic connecting column;

the left side terminal surface of buffering cover shell is provided with flexible dust removal brush, the scope that occupies of flexible dust removal brush and the scope phase-match of the left side terminal surface of buffering cover shell.

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

1. in the main dust removal assembly, a plurality of sweeping assemblies and static electricity removal assemblies are rotationally arranged, and are driven by a swinging device to continuously swing back and forth, so that dust at the joint and included angle between a computer screen and a shell is well removed;

2. in the device, the main dust removal component and the auxiliary dust collection component are mutually attached, so that the computer is positioned in a dust removal space with only an opening at the lower end, and static electricity generated by cleaning is removed through ion wind blown by the static electricity removal component, so that the static electricity generated by friction is prevented from adsorbing a large amount of dust again;

3. the static-removing component in the equipment is rotatably arranged between the adjacent sweeping components, and the static-removing component can also swing back and forth along with the static-removing component through the swinging device, so that static generated by friction is timely and effectively removed, the computer is prevented from being damaged by the large static generated by friction, and the yield in the production process is further ensured.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is a schematic structural view of a main dust-removing assembly according to the present invention;

FIG. 4 is an enlarged view of the structure at A of FIG. 3;

FIG. 5 is a left side view of the main dedusting assembly of the present invention;

in the figure: 1. a support frame; 2. a main dust removal assembly; 21. a dust collection plate; 22. a static electricity eliminating component; 221. a swing aerofoil; 222. adjusting a rod; 23. a sweeper assembly; 231. a buffer housing; 232. a support sleeve seat; 233. an elastic connection column; 234. a bearing bracket; 235. a flexible dust removal brush; 24. a swing device; 241. a connecting plate; 242. an electric telescopic rod; 25. an ion bellows; 26. an air pump; 27. a protective housing; 3. a dust collection box; 4. an auxiliary dust collection assembly; 5. a dust collection fan; 6. a single-arm cylinder; 7. double arm cylinder.

Detailed Description

Referring to fig. 1 and 2, in an embodiment of the present invention, an efficient dust removing and static eliminating device for computer production includes a supporting frame 1, a main dust removing component 2, an auxiliary dust collecting component 4 and a dust collecting box 3, wherein the supporting frame 1 is fixedly bridged at two sides of a conveyor belt, the top of the supporting frame 1 is slidably provided with the main dust removing component 2 and the auxiliary dust collecting component 4, the dust collecting box 3 is fixedly arranged at the rear of the supporting frame 1, the lower end of the dust collecting box 3 is provided with a plurality of layers of filter plates, a dust collecting fan 5 communicated with the dust collecting box is arranged below the dust collecting box 3, and the main dust removing component 2 and the auxiliary dust collecting component 4 are both communicated with the dust collecting box 3 through a soft air pipe with sufficient length so as to satisfy the left-right displacement of the main dust removing component 2 and the auxiliary dust collecting component 4;

the main dust removal component 2 and the auxiliary dust collection component 4 are arranged oppositely, the right end of the main dust removal component 2 is fixed on the support frame 1 through the double-arm cylinder 7 and is used for removing dust and static electricity on the surface where a computer screen is located and the peripheral side edges, and the left end of the auxiliary dust collection component 4 is fixedly connected with the support frame 1 through the single-arm cylinder 6 so as to remove dust on the rear shell part of the computer.

In this embodiment, the right-hand member face of supplementary dust absorption subassembly 4 is open structure, and, the bar mouth of take the altitude has also been seted up to its lower extreme to it leaves sufficient accommodation space to support the arm for the computer rear, that is to say, because the existence of bar mouth, makes supplementary dust absorption subassembly 4 and main dust removal subassembly 2 can laminate each other, thereby makes the computer in only have lower extreme open-ended dust removal space, has improved dust removal effect to a certain extent.

Referring to fig. 3, as a preferred embodiment, the main dust removing assembly 2 includes a dust collecting plate 21, a static electricity removing assembly 22, a brush assembly 23, a swinging device 24, an ion bellows 25, an air pump 26 and a protective housing 27, the dust collecting plate 21 is fixedly mounted at the left end of the protective housing 27, the swinging device 24 is slidably disposed in the protective housing 27, a plurality of brush assemblies 23 are vertically and uniformly rotatably disposed on the swinging device 24, and, adjacently, the static electricity removing assembly 22 is rotatably connected between two brush assemblies 23, the right end of the static electricity removing assembly 22 is fixed on the protective housing 27, the ion bellows 25 is disposed at the right side of the swinging device 24, the left side of the ion bellows 25 is respectively communicated with the static electricity removing assemblies 22 through a plurality of threaded hoses, and the right end of the ion bellows is communicated with the air pump 26;

the positions and the number of the threaded hoses are matched with those of the static elimination assemblies 22, a certain extra length is left in the threaded hoses, and the threaded hoses are used for adapting to the distance between the static elimination assemblies 22 and the protective shell 27 when the sweeping brush assembly 23 is attached to the computer screen, so that the distance between the static elimination assemblies 22 and the computer screen is constant, namely the static elimination area of the static elimination assemblies 22 is larger than the occupied range of the computer screen, a blind zone caused by the fact that the static elimination assemblies 22 are too close to the computer screen is prevented, and the static elimination effect is further improved;

the torsion angle of each wiper assembly 23 is 32 ° so that the wiping areas of two adjacent wiper assemblies 23 are partially overlapped, that is, in the device, in the process of removing dust and static electricity from a computer, when the flexible dust removing brush 235 in the wiper assembly 23 is just in contact with the computer screen, the torsion angle just can meet the requirement of cleaning and removing dust in an area on one side of the whole computer screen, however, in order to ensure a better dust removing effect, a moderate acting force needs to be present between the flexible dust removing brush 235 and the computer screen, and as the acting force is continuously increased, the swinging effect of the flexible dust removing brush 235 is gradually reduced, and the dust removing effect is also reduced accordingly, so that after multiple tests, the 32 ° torsion angle selected by the wiper assembly 23 in the device can enable the dust removing effect on the computer to reach an optimal state.

Referring to fig. 5, in this embodiment, a portion of the dust collection plate 21 close to the inner wall is provided with an annular air cavity, the top end of the annular air cavity is communicated with the dust collection box 3 through an air pipe, the inner side wall of the dust collection plate 21 is uniformly provided with a plurality of air holes, and the air holes are used for absorbing dust brushed by the sweeper assembly 23 and performing dust collection treatment on the peripheral side edge of the computer, so as to improve the overall dust collection effect;

the occupied range of the air holes is matched with the occupied range of the inner side wall of the dust collection plate 21;

the area that the left side terminal surface of dust absorption board 21 occupied equals with the area that supplementary dust absorption subassembly 4 right-hand member face occupied to supplementary dust absorption subassembly 4 laminates with dust absorption board 21 mutually and forms a dust removal space that only has lower extreme open-ended, that is to say, under the state of laminating each other between supplementary dust absorption subassembly 4 and the dust absorption board 21, the computer is in a dust removal space that only has the lower extreme open-ended comparatively inclosed, prevents effectively that the dust of brush subassembly 23 brush from scattering into external environment, and then improves dust removal effect.

In this embodiment, the swing device 24 includes a connecting plate 241 and an electric telescopic rod 242, the top end of the connecting plate 241 is fixedly connected to the top wall of the dust collection plate 21 through a plurality of springs, the electric telescopic rod 242 is installed at the bottom end of the connecting plate 241, and the electric telescopic rod 242 is fixed to the bottom of the dust collection plate 21;

many logical grooves have evenly been seted up on the surface of connecting plate 241, just, many it corresponds with a plurality of subassembly 22 one-to-one to lead to the groove respectively, every the width that leads to the groove is greater than the biggest unidirectional stroke of connecting plate 241 upper and lower displacement, that is to say, when brushing subassembly 23 is under the horizontality, the connecting pipe between subassembly 22 and the ion bellows 25 that destatics is in the middle part that leads to the groove, when the displacement drives brushing subassembly 23 and destatics subassembly 22 swing about connecting plate 241, the upper and lower end that leads to the groove all can not contact with the connecting pipe to guarantee that the work of destaticizing of removing dust goes on with high efficiency and stability.

Referring to fig. 4, in the embodiment, the static electricity removing assembly 22 includes a swing air plate 221 and an adjusting rod 222, the right end of the swing air plate 221 is rotatably disposed at one end of the adjusting rod 222, and the other end of the adjusting rod 222 is fixed on the left end surface of the dust collecting plate 21, wherein the static electricity removing assembly 22 can swing together with the wiper assembly 23 due to the rotational connection between the swing air plate 221 and the adjusting rod 222 and the rotational connection between the static electricity removing assembly 22 and the wiper assembly 23, so that large static electricity generated by friction between the flexible dust removing brush 235 and a computer screen is timely removed, the computer is prevented from being damaged due to over-large static electricity, and the static electricity removing effect is further improved;

the left end of the swing air plate 221 is of an arc-shaped curved surface structure, a plurality of through holes are uniformly distributed in the middle of the arc-shaped curved surface, and the through holes formed in the arc-shaped curved surface enable the through holes on two sides of the middle of the arc-shaped curved surface to have a certain inclination angle, so that the blowing range of ion wind is enlarged, and the static electricity removing efficiency is improved.

In a preferred embodiment, the sweeping assembly 23 includes a buffer casing 231, a supporting sleeve seat 232, an elastic connection column 233 and a receiving bracket 234, wherein the right end of the buffer casing 231 is slidably disposed on the supporting sleeve seat 232 through a plurality of springs, and the right end of the supporting sleeve seat 232 is elastically connected to the receiving bracket 234 through the elastic connection column 233;

the left end face of the buffer casing 231 is provided with a flexible dust removing brush 235, and the range occupied by the flexible dust removing brush 235 matches the range of the left end face of the buffer casing 231.

Specifically, a computer to be dedusted and destaticized is conveyed by a conveying belt, when the computer moves to the position under a support frame, at the moment, a single-arm cylinder and a double-arm cylinder respectively drive an auxiliary dust collection assembly and a main dust collection assembly to be close to each other until the main dust collection assembly is completely attached, the computer is positioned in a relatively closed dust collection space with only a lower end opening, then a swinging device drives a sweeping brush assembly to swing, one side of a computer screen is cleaned and dedusted, at the moment, the destaticization assembly also swings along with the sweeping brush assembly, an air pump supplies air to the air pump through an ion air box, one side of the computer screen is destaticized, meanwhile, a dust collection fan intervenes to work, the auxiliary dust collection assembly performs dust collection treatment on the rear shell part of the computer, a dust collection plate absorbs dust scattered by the sweeping brush assembly and collects dust on the peripheral side edges of the computer, the whole process lasts for not less than 30s, after the dust removal is finished, the main dust removal component and the auxiliary dust removal component stop working, the auxiliary dust removal component and the main dust removal component are restored to original positions by the single-arm cylinder and the double-arm cylinder respectively, the computer continuously flows into the next procedure along with the conveying belt, and the device continuously finishes the dust removal and static electricity removal work on the computers behind one another one by one.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent substitutions or changes according to the technical solution and the inventive concept of the present invention should be covered by the scope of the present invention.

Claims (5)

1. The utility model provides a computer production is with high-efficient dust removal static-removing device, its includes support frame (1), main dust removal subassembly (2), supplementary dust absorption subassembly (4) and dust collection box (3), wherein, the both sides of conveyer belt are fixed to support frame (1) bridging, the top of support frame (1) slides and is provided with main dust removal subassembly (2) and supplementary dust absorption subassembly (4), the fixed rear that sets up at support frame (1) of dust collection box (3), the lower extreme of dust collection box (3) is provided with the multilayer filter, just, installs dust absorption fan (5) that are linked together with it below it, its characterized in that: the main dust removal component (2) and the auxiliary dust collection component (4) are communicated with the dust collection box (3) through soft air pipes with enough length so as to meet the left-right displacement of the main dust removal component (2) and the auxiliary dust collection component (4);

the main dust removal component (2) and the auxiliary dust collection component (4) are arranged oppositely, the right end of the main dust removal component (2) is fixed on the support frame (1) through a double-arm cylinder (7) and is used for removing dust and static electricity on the surface where a computer screen is located and the peripheral side edges, and the left end of the auxiliary dust collection component (4) is fixedly connected with the support frame (1) through a single-arm cylinder (6) so as to remove dust on a computer rear shell part;

the main dust removal assembly (2) comprises a dust collection plate (21), a static electricity removal assembly (22), sweeping brush assemblies (23), a swinging device (24), an ion air box (25), an air pump (26) and a protective shell (27), wherein the dust collection plate (21) is fixedly arranged at the left end of the protective shell (27), the swinging device (24) is arranged in the protective shell (27) in a sliding manner, the swinging device (24) is vertically and uniformly provided with a plurality of sweeping brush assemblies (23) in a rotating manner, in addition, the static electricity removal assembly (22) is connected between every two adjacent sweeping brush assemblies (23) in a rotating manner, the right end of the static electricity removal assembly (22) is fixed on the protective shell (27), the ion air box (25) is arranged on the right side of the swinging device (24), the left side of the ion air box (25) is respectively communicated with the static electricity removal assemblies (22) through a plurality of threaded hoses, and the right end of the air pump is communicated with an air pump (26);

the positions and the number of the threaded hoses are matched with those of the plurality of static removing assemblies (22), and certain surplus length is reserved on the threaded hoses;

the torsion angle of each sweeping assembly (23) is 32 degrees, so that the sweeping areas of two adjacent sweeping assemblies (23) are partially overlapped;

the swinging device (24) comprises a connecting plate (241) and an electric telescopic rod (242), the top end of the connecting plate (241) is fixedly connected with the top wall of the dust collection plate (21) through a plurality of springs I, the electric telescopic rod (242) is installed at the bottom end of the connecting plate (241), and the electric telescopic rod (242) is fixed at the bottom of the dust collection plate (21);

the surface of the connecting plate (241) is uniformly provided with a plurality of through grooves, the through grooves are in one-to-one correspondence with the static removing assemblies (22), and the width of each through groove is larger than the maximum one-way stroke of the vertical displacement of the connecting plate (241).

2. The high-efficiency dust removing and static eliminating device for computer production according to claim 1, wherein: the right end face of the auxiliary dust collection assembly (4) is of an opening structure, and a strip-shaped opening with a certain height is also formed in the lower end of the auxiliary dust collection assembly so as to leave enough accommodating space for the rear supporting arm of the computer.

3. The high-efficiency dust removing and static eliminating device for computer production according to claim 1, wherein: the part of the dust collection plate (21) close to the inner wall is provided with an annular air cavity, the top end of the annular air cavity is communicated with the dust collection box (3) through an air pipe, and the inner side wall of the dust collection plate (21) is uniformly provided with a plurality of air holes;

the occupied range of the air holes is matched with the occupied range of the inner side wall of the dust collection plate (21);

the area occupied by the left end face of the dust collection plate (21) is equal to the area occupied by the right end face of the auxiliary dust collection assembly (4), so that the auxiliary dust collection assembly (4) is attached to the dust collection plate (21) to form a dust collection space with only a lower end opening.

4. The high-efficiency dust removing and static eliminating device for computer production according to claim 1, wherein: the static electricity removing assembly (22) comprises a swing air plate (221) and an adjusting rod (222), the right end of the swing air plate (221) is rotatably arranged at one end of the adjusting rod (222), and the other end of the adjusting rod (222) is fixed on the left end face of the dust collecting plate (21);

the left end of swing aerofoil (221) is arc curved surface structure, just, the middle part is evenly covered with a plurality of through-holes on the arc curved surface.

5. The high-efficiency dust-removing and static-removing device for computer production according to claim 1, characterized in that: the sweeping brush assembly (23) comprises a buffer sleeve shell (231), a supporting sleeve seat (232), an elastic connecting column (233) and a bearing bracket (234), the right end of the buffer sleeve shell (231) is arranged on the supporting sleeve seat (232) in a sliding mode through a plurality of springs II, and the right end of the supporting sleeve seat (232) is elastically connected with the bearing bracket (234) through the elastic connecting column (233);

the flexible dust removing brush (235) is arranged on the left end face of the buffer sleeve (231), and the range occupied by the flexible dust removing brush (235) is matched with the range of the left end face of the buffer sleeve (231).

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