Conductive cloth dust removal device

By introducing electrostatic elimination and adjustment components into the conductive fabric dust removal equipment, the problems of static residue and thickness adaptability are solved, achieving thorough cleaning and efficient dust removal of conductive fabrics.

CN224412158UActive Publication Date: 2026-06-26JIANGSU DEBAI INTELLIGENT TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JIANGSU DEBAI INTELLIGENT TECH CO LTD
Filing Date
2025-04-30
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

Existing conductive fabric dust removal equipment lacks an effective electrostatic elimination device, resulting in residual charge on the fabric surface after dust removal, making it easy for dust to be re-adsorbed. Furthermore, it cannot be adjusted according to different fabric thicknesses, resulting in poor adaptability.

Method used

A dust removal device including an electrostatic elimination component and an adjustment component was designed. The electrostatic elimination roller eliminates static electricity on the fabric surface, and the brush roller driven by a servo motor cleans the dust. The adjustment component adjusts the distance between the dust removal hood and the fabric to adapt to fabrics of different thicknesses.

Benefits of technology

It achieves thorough cleaning of conductive fabric surfaces, eliminates static electricity, improves dust removal efficiency, adapts to fabrics of different thicknesses, and enhances the flexibility and adaptability of the equipment.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224412158U_ABST
    Figure CN224412158U_ABST
Patent Text Reader

Abstract

The utility model relates to a kind of electrically conductive cloth dust removal equipment, including processing table, the top of the processing table is close to one end and is provided with unwinding roller, the top of the processing table is provided with mounting seat, the top of the mounting seat is provided with two symmetrical support plates, the top of the processing table is located in the side of mounting seat and is further provided with dust suction box, the top of the dust suction box is provided with dust suction hose, the utility model is equipped with static electricity elimination roller first to eliminate the static electricity of the two sides of electrically conductive cloth, then servo motor is driven to rotate brush roller to clean the dust on the surface of electrically conductive cloth, dust suction box works through dust suction hose and the dust suction port of the inner wall of upper dust cover and lower dust cover two sides can be collected to the dust cleaned by brush roller, to improve dust removal effect, ensure that the two sides of electrically conductive cloth can be thoroughly cleaned.
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Description

Technical Field

[0001] This application relates to the field of fabric dust removal technology, and in particular to a conductive fabric dust removal device. Background Technology

[0002] With the rapid development of industries such as electronics and smart wearables, conductive fabrics, as a new type of material with special functions, are being used more and more widely. However, conductive fabrics are prone to attracting dust during production, processing, and use, which not only affects the appearance of the product but also reduces its quality.

[0003] Currently, some conductive fabric dust removal equipment on the market lacks effective static electricity elimination devices, resulting in a large amount of charge remaining on the fabric surface after dust removal. Dust is easily re-adsorbed, making it difficult to meet the requirements of high-quality dust removal. Furthermore, some existing equipment cannot be adjusted according to conductive fabrics of different thicknesses, reducing its adaptability. Utility Model Content

[0004] In order to solve the problems mentioned in the background art, this application provides a dust removal device for conductive fabric.

[0005] The conductive fabric dust removal device provided in this application adopts the following technical solution:

[0006] A dust removal device for conductive fabric includes a processing table. A roll-up roller is located near one end of the top of the processing table. A mounting base is located on the top of the processing table. Two symmetrical support plates are located on the top of the mounting base. A dust removal mechanism is located between the two support plates. Adjustment components for moving the dust removal mechanism up and down are located on the side walls of the support plates. A dust collection box is also located on one side of the mounting base on the top of the processing table. A suction hose is located on the top of the dust collection box. One end of the suction hose is connected to the dust removal mechanism. The dust removal mechanism includes an upper dust removal hood and a lower dust removal hood installed between the two support plates. The upper and lower dust removal hoods are vertically aligned. Identical brush rollers are installed inside the upper and lower dust removal hoods. One end of each brush roller rotates within a shaft hole at one end of the upper and lower dust removal hoods, and the other end of the brush roller passes through a through hole at the other end of the upper and lower dust removal hoods and is connected to a servo motor.

[0007] Preferably, the inner walls of the upper and lower dust hoods are provided with symmetrical dust suction ports, and the two ends of the upper and lower dust hoods are also provided with symmetrical movable plates. One end of the movable plate passes through the openings in the side walls of the two support plates, and the servo motor is also fixedly mounted on the movable plate.

[0008] Preferably, the back of the upper dust cover and the lower dust cover are connected to one end of the suction hose, and the front of the upper dust cover and the lower dust cover are also provided with an electrostatic elimination component, which includes an upper fixing frame and a lower fixing frame installed on the front of the upper dust cover and the lower dust cover.

[0009] Preferably, symmetrical spring rods are provided near both ends of the upper and lower fixed frames, one end of each spring rod is connected to a connecting block, and an electrostatic eliminator roller is rotatably mounted between the connecting blocks.

[0010] Preferably, the adjusting assembly includes a bidirectional lead screw installed between two fixed blocks on the side wall of one of the support plates. One end of the bidirectional lead screw is connected to a bearing seat on the top of one of the fixed blocks, and the other end of the bidirectional lead screw passes through a through hole in the other fixed block and is connected to a drive motor installed on the top. A slide rod is fixedly connected to the side wall of the other support plate between the two fixed blocks.

[0011] Preferably, the movable plate at one end of the upper and lower dust hoods is adapted to the bidirectional lead screw, and the movable plate at the other end of the upper and lower dust hoods is adapted to the slide rod.

[0012] In summary, this application includes the following beneficial technical effects:

[0013] This utility model is equipped with a dust removal mechanism and an electrostatic elimination component. The electrostatic elimination roller in the electrostatic elimination component first eliminates the static electricity on both sides of the conductive fabric. Then, the servo motor drives the brush roller to rotate and clean the dust on the surface of the conductive fabric. The dust collection box can collect the dust cleaned by the brush roller through the dust collection hose and the dust collection ports set on the inner walls of the upper and lower dust collection hoods, thereby improving the dust removal effect and ensuring that both sides of the conductive fabric are thoroughly cleaned.

[0014] This invention features an adjustment component that drives a bidirectional lead screw via a drive motor, allowing the upper and lower dust collectors to move and adjust their distances. This enables dust removal of conductive fabrics of varying thicknesses and simultaneously drives two static elimination rollers to eliminate static electricity on both sides of the conductive fabrics of different thicknesses. This ensures that the upper and lower dust collectors, along with the static elimination rollers, maintain optimal distance and contact strength with the fabric surface, improving dust removal efficiency and enhancing flexibility and adaptability. Attached Figure Description

[0015] Figure 1 This is a schematic diagram of the structure of a conductive fabric dust removal device according to an embodiment of this application;

[0016] Figure 2 This is a schematic diagram of the side structure of the processing table in an embodiment of this application;

[0017] Figure 3 This is a schematic diagram of the dust removal mechanism in the embodiments of this application;

[0018] Figure 4 This is a schematic diagram of the upper and lower dust collector hoods in an embodiment of this application;

[0019] Figure 5 This is a schematic diagram of the electrostatic dust removal component structure in the embodiments of this application.

[0020] Explanation of reference numerals in the attached drawings: 1. Processing table; 2. Mounting base; 3. Support plate; 4. Dust collection box; 5. Dust collection hose; 6. Upper dust collection hood; 7. Lower dust collection hood; 8. Brush roller; 9. Servo motor; 10. Dust collection port; 11. Movable plate; 12. Upper fixed frame; 13. Lower fixed frame; 14. Spring rod; 15. Connecting block; 16. Static elimination roller; 17. Bidirectional lead screw; 18. Drive motor; 19. Slide rod. Detailed Implementation

[0021] The following is in conjunction with the appendix Figure 1 —5 provides further detailed description of this application.

[0022] This application discloses a dust removal device for conductive fabric, including a processing table 1. A unwinding roller is located near one end of the top of the processing table 1. A mounting base 2 is located on the top of the processing table 1. Two symmetrical support plates 3 are located on the top of the mounting base 2. A dust removal mechanism is located between the two support plates 3. Adjustment components for moving the dust removal mechanism up and down are located on the side walls of the support plates 3. A dust collection box 4 is also located on one side of the mounting base 2 on the top of the processing table 1. A suction hose 5 is located on the top of the dust collection box 4. One end of the suction hose 5 is connected to the dust removal mechanism. The dust removal mechanism includes an upper dust collection hood 6 and a lower dust collection hood 7 installed between the two support plates 3. The upper dust collection hood 6 and the lower dust collection hood 7 are vertically aligned. The dust hood 7 also houses an identical brush roller 8. One end of the brush roller 8 rotates within a shaft hole located at one end of the upper dust hood 6 and the lower dust hood 7, while the other end of the brush roller 8 passes through a through hole at the other end of the upper dust hood 6 and the lower dust hood 7 and is connected to a servo motor 9. Symmetrical suction ports 10 are located on the inner walls of both sides of the upper dust hood 6 and the lower dust hood 7. Symmetrical movable plates 11 are also located at both ends of the upper dust hood 6 and the lower dust hood 7. One end of the movable plate 11 passes through an opening in the side wall of the two support plates 3, and the servo motor 9 is fixedly mounted on the movable plate 11. The back of the upper dust hood 6 and the lower dust hood 7 is connected to one end of the suction hose 5. Static electricity elimination devices are also located on the front of the upper dust hood 6 and the lower dust hood 7. In addition to the components, the static elimination component includes an upper fixed frame 12 and a lower fixed frame 13 installed on the front sides of the upper dust cover 6 and the lower dust cover 7. Symmetrical spring rods 14 are provided on the upper fixed frame 12 and the lower fixed frame 13 near their ends. One end of the spring rod 14 is connected to a connecting block 15. Static elimination rollers 16 are rotatably installed between the connecting blocks 15. More specifically, when dusting the conductive fabric, the upper dust cover 6 and the lower dust cover 7 are moved to the closest distance positions to the top and bottom of the conductive fabric, while the servo motor 9 and the dust collection box 4 are driven. The servo motor 9 drives the brush roller 8 to rotate and clean the dust on the surface of the conductive fabric. The dust collection box 4 is connected to the upper dust cover 6 and the lower dust cover 7 by the dust collection hose 5. The dust suction port 10 on the inner wall can collect the dust cleaned by the brush roller 8, thereby improving the dust removal effect and ensuring that both sides of the conductive fabric are thoroughly cleaned. By setting an upper fixing frame 12 and a lower fixing frame 13 on the front side of the upper dust removal hood 6 and the lower dust removal hood 7, the bottom of the upper fixing frame 12 and the top of the lower fixing frame 13 are equipped with the same spring rod 14, connecting block 15 and static elimination roller 16. When removing dust from the conductive fabric, the upper dust removal hood 6 and the lower dust removal hood 7 move towards each other, causing the static elimination roller 16 to move towards each other and fit against the conductive fabric. The static elimination roller 16 can eliminate the static electricity on the surface of the conductive fabric. At the same time, under the action of the spring rod 14, it avoids pressing the fabric too tightly and prevents the fabric from being damaged.

[0023] refer to Figure 3 and Figure 4The adjustment assembly includes a bidirectional lead screw 17 installed between two fixed blocks on the side wall of one of the support plates 3. One end of the bidirectional lead screw 17 is connected to a bearing seat on the top of one of the fixed blocks, and the other end of the bidirectional lead screw 17 passes through a through hole in the other fixed block and is connected to a drive motor 18 mounted on the top. A sliding rod 19 is fixedly connected to the side wall of the other support plate 3 between the two fixed blocks. Movable plates 11 at one end of the upper dust collector hood 6 and the lower dust collector hood 7 are adapted to the bidirectional lead screw 17. The other end of the upper dust collector hood 6 and the lower dust collector hood 7... The movable plate 11 at one end is adapted to the slide bar 19. More specifically, after the drive motor 18 works, it drives the bidirectional lead screw 17 to rotate, causing the movable plate 11 at one end of the upper dust collector hood 6 and the lower dust collector hood 7 to move towards each other along the bidirectional lead screw 17. This causes the movable plate 11 at the other end of the upper dust collector hood 6 and the lower dust collector hood 7 to move towards each other along the slide bar 19. This causes the upper dust collector hood 6 and the lower dust collector hood 7 to move towards each other and adjust the distance, so that they can maintain the best distance and contact force with the conductive fabric surface, improve the dust removal effect, and improve flexibility and adaptability.

[0024] The implementation principle of the conductive fabric dust removal device in this application embodiment is as follows: During use, the conductive fabric is unwound by the unwinding roller, causing one end of the conductive fabric to move to the bottom of the two static elimination rollers 16. The drive motor 18 drives the bidirectional lead screw 17 to rotate, causing the upper dust removal hood 6 and the lower dust removal hood 7 to move towards each other. This brings the two static elimination rollers 16 into contact with both sides of the conductive fabric, eliminating static electricity on the conductive fabric. Then, the conductive fabric is moved to the bottom of the upper dust removal hood 6 and the lower dust removal hood 7, and the drive motor 18... 8 continues to work, driving the bidirectional lead screw 17 to rotate, causing the upper dust cover 6 and the lower dust cover 7 to move to the closest distance between the two sides of the conductive fabric. At this time, the servo motor 9 and the dust collection box 4 are driven. The servo motor 9 drives the brush roller 8 to rotate and clean the dust on both sides of the conductive fabric. The dust collection box 4 works to collect the dust cleaned by the brush roller 8 through the dust collection hose 5 and the dust collection ports 10 set on the inner walls of the upper dust cover 6 and the lower dust cover 7, thereby improving the dust removal effect and ensuring that both sides of the conductive fabric are thoroughly cleaned.

Claims

1. A dust removal device for conductive fabric, comprising a processing table (1), wherein a unwinding roller is provided near one end of the top of the processing table (1), and a mounting base (2) is provided on the top of the processing table (1), wherein two symmetrical support plates (3) are provided on the top of the mounting base (2), characterized in that: A dust removal mechanism is provided between the two support plates (3). The side wall of the support plate (3) is provided with an adjustment component that drives the dust removal mechanism to move up and down. The top of the processing table (1) is located on one side of the mounting base (2) and a dust collection box (4) is also provided. A dust collection hose (5) is provided on the top of the dust collection box (4). One end of the dust collection hose (5) is connected to the dust removal mechanism. The dust removal mechanism includes an upper dust collection hood (6) and a lower dust collection hood (7) installed between the two support plates (3). The upper dust collection hood (6) and the lower dust collection hood (7) are vertically aligned. The upper dust collection hood (6) and the lower dust collection hood (7) are also provided with the same brush roller (8). One end of the brush roller (8) rotates in the shaft hole provided at one end of the upper dust collection hood (6) and the lower dust collection hood (7). The other end of the brush roller (8) passes through the through hole opened at the other end of the upper dust collection hood (6) and the lower dust collection hood (7) and is connected to the servo motor (9).

2. The conductive cloth dust removal device according to claim 1, characterized in that: The upper dust hood (6) and the lower dust hood (7) are provided with symmetrical dust suction ports (10) on both sides of the inner wall. The upper dust hood (6) and the lower dust hood (7) are also provided with symmetrical movable plates (11) at both ends. One end of the movable plate (11) passes through the openings opened in the side walls of the two support plates (3). The servo motor (9) is also fixedly installed on the movable plate (11).

3. The conductive cloth dust removal device according to claim 2, characterized in that: The back of the upper dust cover (6) and the lower dust cover (7) are connected to one end of the suction hose (5). The front of the upper dust cover (6) and the lower dust cover (7) is also provided with an electrostatic elimination component. The electrostatic elimination component includes an upper fixing frame (12) and a lower fixing frame (13) installed on the front of the upper dust cover (6) and the lower dust cover (7).

4. The conductive cloth dust removal device according to claim 3, characterized in that: Symmetrical spring rods (14) are provided near the two ends of the upper fixed frame (12) and the lower fixed frame (13). One end of the spring rod (14) is connected to a connecting block (15), and an electrostatic eliminator roller (16) is rotatably installed between the connecting blocks (15).

5. The conductive fabric dust removal device according to claim 4, characterized in that: The adjustment assembly includes a bidirectional lead screw (17) installed between two fixed blocks on the side wall of one of the support plates (3). One end of the bidirectional lead screw (17) is connected to a bearing seat on the top of one of the fixed blocks, and the other end of the bidirectional lead screw (17) passes through a through hole on the other fixed block and is connected to a drive motor (18) installed on the top. A slide rod (19) is fixedly connected to the side wall of the other support plate (3) between the two fixed blocks.

6. The conductive fabric dust removal device according to claim 5, characterized in that: The movable plate (11) at one end of the upper dust hood (6) and the lower dust hood (7) is adapted to the bidirectional lead screw (17), and the movable plate (11) at the other end of the upper dust hood (6) and the lower dust hood (7) is adapted to the slide rod (19).