A dust collection and recycling device for fiberglass processing

By combining cleaning and anti-clogging mechanisms, the problem of dust accumulation and clogging of suction holes during fiberglass polishing is solved, achieving efficient dust cleaning and adsorption and ensuring stable operation of the device.

CN118046281BActive Publication Date: 2026-06-30ANHUI TELMA TECH LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
ANHUI TELMA TECH LTD
Filing Date
2024-04-02
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Existing vacuum cleaners are prone to clogging of suction holes due to dust accumulation during fiberglass polishing, which affects their performance.

Method used

A dust collection and recycling device including a cleaning mechanism and an anti-clogging mechanism was designed. The cleaning brush driven by a motor sweeps away the dust, and the dust is adsorbed by a fan. At the same time, a unclogging rod is used to prevent the dust suction hole from clogging.

Benefits of technology

It effectively cleans dust from the fiberglass surface, prevents the dust extraction holes from becoming clogged, and ensures the continuous and efficient operation of the device.

✦ Generated by Eureka AI based on patent content.

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Abstract

This invention discloses a dust collection and recovery device for fiberglass processing, relating to the technical field of fiberglass processing. It includes a mobile cart, a cleaning mechanism, and an anti-clogging mechanism. The mobile cart has a connecting plate on its front side, and a mounting box on the upper side of the connecting plate. The cleaning mechanism is mounted on the mounting box and is used to clean and absorb dust generated after fiberglass processing. The anti-clogging mechanism is located in the mounting box and prevents the suction holes on the mounting box from becoming clogged. This invention uses a motor to drive multiple cleaning brushes to clean the dust generated after fiberglass grinding, ensuring that dust accumulated in the crevices of the fiberglass is thoroughly cleaned. Simultaneously, the input shaft of the fan rotates to absorb the dust. During absorption, vibration causes a cleaning rod to move within the suction holes, thereby preventing the suction holes from becoming clogged.
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Description

Technical Field

[0001] This invention relates to the technical field of fiberglass processing, and specifically to a dust removal and recycling device for fiberglass processing. Background Technology

[0002] Fiberglass, or fiber-reinforced plastic, generally refers to reinforced plastics made by reinforcing unsaturated polyester, epoxy resin, and phenolic resin matrices with glass fibers, using glass fibers or their products as reinforcing materials. It is different from tempered glass. After production, many manufacturers use grinding equipment to polish the edges of fiberglass to improve its performance and appearance. This polishing process generates dust that accumulates on the fiberglass. To avoid dust affecting worker health, dust collection devices are typically used. However, the dust inlets of existing dust collection devices tend to become clogged after prolonged use, severely affecting the device's effectiveness. Therefore, a solution to this problem is needed. Summary of the Invention

[0003] The purpose of this invention is to provide a dust removal and recycling device for fiberglass processing, so as to overcome the above-mentioned defects in the prior art.

[0004] A dust collection and recycling device for fiberglass processing includes a mobile vehicle, a cleaning mechanism, and an anti-clogging mechanism. The front of the mobile vehicle is provided with a connecting plate, and the upper side of the connecting plate is provided with an installation box. The cleaning mechanism is located on the installation box and is used to clean and absorb the dust generated after fiberglass processing. The anti-clogging mechanism is located in the installation box and prevents the dust suction holes on the installation box from becoming clogged.

[0005] Preferably, the cleaning mechanism includes a motor, a cleaning brush, and a fan. A rotating shaft is symmetrically rotatably connected to the mounting box. The end of the rotating shaft is rotatably connected to a mounting plate and has a bevel gear one mounted on it. A drive shaft is also rotatably connected to the mounting plate. A bevel gear two, meshing with bevel gear one, is mounted on the drive shaft. The cleaning brush is located on the outside of the mounting box and is rotatably connected to the mounting box via a connecting shaft. A pulley one is mounted on the connecting shaft. The pulley one is connected to pulley two on the drive shaft via a drive belt one. The motor is mounted in the mounting box, and a pulley three is mounted on its output shaft. The pulley three is connected to pulley four on one of the rotating shafts via drive belt two. The fan is mounted in the mounting box, and a pulley five on its input shaft is connected to pulley three via drive belt three. The fan's outlet is connected to the top of a collection box on a mobile vehicle via a connecting pipe.

[0006] Preferably, the anti-blocking mechanism includes a moving plate, a spring, a dredging rod and a cam. Both ends of the moving plate are respectively slidably connected to the guiding rods inside the installation box. A stop disc is provided at the end of the guiding rod. The spring is sleeved on the guiding rod and is located between the installation box and the moving plate. A cam abutting against the moving plate is provided on the driving shaft. The moving plate is provided with dredging rods corresponding to the dust suction holes on the installation box one by one.

[0007] Preferably, the installation plate has a "U" - shaped structure.

[0008] Preferably, the connecting pipe has an inverted "L" - shaped structure and its lower end is connected to the top of the collection box through a fixing plate.

[0009] The present invention has the following advantages:

[0010] When the present invention is in use, the motor drives multiple cleaning brushes to clean the dust generated after the fiberglass is polished, so that the dust accumulated in the narrow gaps of the fiberglass can be cleaned up. At the same time, the input shaft of the fan is driven to rotate to adsorb the dust. While adsorbing, the dredging rod is moved in the dust suction hole by vibration, thereby preventing the dust suction hole from being blocked. Brief Description of the Drawings

[0011] Figure 1 It is a three - dimensional structural schematic diagram of the whole of the present invention.

[0012] Figure 2 It is a side view of the whole of the present invention and the inside of the installation box.

[0013] Figure 3 It is a top - view structural schematic diagram of the inside of the installation box of the present invention. [[ID=2,]]

[0014] Figure 4 It is Figure 3 a partial enlarged view of A in

[0015] Figure 5 It is a bottom structural schematic diagram of the inside of the installation box of the present invention.

[0016] Where: 1. Mobile vehicle, 2. Connecting plate, 3. Installation box, 31. Dust suction hole, 4. Cleaning mechanism, 41. Rotating shaft, 411. Bevel gear one, 412. Pulley four, 42. Installation plate, 43. Driving shaft, 431. Bevel gear two, 432. Pulley two, 44. Cleaning brush, 441. Connecting shaft, 442. Pulley one, 443. Driving belt one, 45. Motor, 451. Pulley three, 452. Driving belt two, 46. Fan, 461. Pulley five, 462. Driving belt three, 47. Connecting pipe, 48. Collection box, 5. Anti - blocking mechanism, 51. Moving plate, 52. Guiding rod, 53. Stop disc, 54. Spring,​​

[0017] The following detailed description of the embodiments, with reference to the accompanying drawings, will further illustrate the specific implementation of the present invention, in order to help those skilled in the art to have a more complete, accurate, and in-depth understanding of the concept and technical solutions of the present invention.

[0018] like Figure 1-5 As shown, the present invention provides a dust removal and recycling device for fiberglass processing, including a mobile vehicle 1, a cleaning mechanism 4 and an anti-clogging mechanism 5. The front side of the mobile vehicle 1 is provided with a connecting plate 2, and the upper side of the connecting plate 2 is provided with a mounting box 3. The cleaning mechanism 4 is provided on the mounting box 3 and is used to clean and absorb the dust generated after fiberglass processing. The anti-clogging mechanism 5 is provided in the mounting box 3 and prevents the dust suction hole 31 on the mounting box 3 from being blocked.

[0019] It should be noted that the cleaning mechanism 4 includes a motor 45, a cleaning brush 44, and a fan 46. A rotating shaft 41 is symmetrically rotatably connected to the mounting box 3. The end of the rotating shaft 41 is rotatably connected to the mounting plate 42 and has a bevel gear 411 mounted thereon. The mounting plate 42 has a U-shaped structure. A drive shaft 43 is also rotatably connected to the mounting plate 42. A bevel gear 431 that meshes with the bevel gear 411 is mounted on the drive shaft 43. The cleaning brush 44 is located on the outside of the mounting box 3 and is rotatably connected to the mounting box 3 via a connecting shaft 441. A pulley 442 is mounted on the connecting shaft 441, and the pulley 442 is connected to the drive shaft 43 via a drive belt 443. The motor 45 is installed in the mounting box 3 and its output shaft is equipped with a pulley 451. The pulley 451 is connected to a pulley 412 on one of the rotating shafts 41 via a drive belt 452. The fan 46 is installed in the mounting box 3 and its input shaft is connected to a pulley 451 via a drive belt 462. The air outlet of the fan 46 is connected to the top of the collection box 48 on the mobile vehicle 1 via a connecting pipe 47. The connecting pipe 47 has an inverted "L" shape and its lower end is connected to the top of the collection box 48 via a fixing plate, which facilitates the installation and removal of the connecting pipe 47 on the collection box 48.

[0020] In addition, the anti-blocking mechanism 5 includes a movable plate 51, a spring 54, a drain rod 56, and a cam 55. The two ends of the movable plate 51 are slidably connected to the guide rod 52 inside the mounting box 3. The end of the guide rod 52 is provided with a baffle 53. The spring 54 is sleeved on the guide rod 52 and located between the mounting box 3 and the movable plate 51. The drive shaft 43 is provided with a cam 55 that abuts against the movable plate 51. The movable plate 51 is provided with a drain rod 56 that corresponds one-to-one with the dust suction hole 31 on the mounting box 3.

[0021] Detailed implementation methods and principles:

[0022] In practical application, when the fiberglass is being polished, the device of this application is moved to the polishing area and the motor 45 is turned on. The pulley 451 on the output shaft of the motor 45 drives the rotating shaft 41 and the fan 46 to rotate through the drive belt 452 and drive belt 462 respectively. The bevel gear 431 on the rotating shaft 41 drives the drive shaft 43 to rotate. The pulley 432 on the drive shaft 43 drives the cleaning brush 44 to rotate through the drive belt 443. The cleaning brush 44 cleans the dust generated after the fiberglass is polished. At the same time, the fan 46 sucks the dust into the collection box 48 through the dust suction hole 31 on the mounting box 3 via the connecting pipe 47. While sucking the dust, the cam 55 on the rotating shaft 41 drives the moving plate 51. The unblocking rod 56 on the moving plate 51 guides the dust suction hole 31 to prevent the dust suction hole 31 from becoming blocked.

[0023] In summary, the present invention uses a motor 45 to drive multiple cleaning brushes 44 to clean the dust generated after the fiberglass is polished, so that the dust accumulated in the slits of the fiberglass can be cleaned. At the same time, the input shaft of the blower 46 is rotated to adsorb the dust. While adsorbing, the unblocking rod 56 is moved in the dust suction hole 31 by vibration, thereby preventing the dust suction hole 31 from being blocked.

[0024] The present invention has been described above by way of example with reference to the accompanying drawings. Obviously, the specific implementation of the present invention is not limited to the above-described manner. Any non-substantial improvements made using the concept and technical solution of the present invention, or the direct application of the present invention and technical solution to other situations without modification, are all within the protection scope of the present invention.

Claims

1. A dust collection and recycling device for fiberglass processing, characterized in that: It includes a mobile vehicle (1), a cleaning mechanism (4) and an anti-blocking mechanism (5). A connecting plate (2) is provided on the front side of the mobile vehicle (1), and a mounting box (3) is provided on the upper side of the connecting plate (2). The cleaning mechanism (4) is arranged on the mounting box (3) and is used for cleaning and adsorbing the dust generated after fiberglass processing. The anti-blocking mechanism (5) is arranged in the mounting box (3) to prevent the dust suction holes (31) on the mounting box (3) from being blocked; The cleaning mechanism (4) includes a motor (45), a cleaning brush (44) and a fan (46). Rotating shafts (41) are symmetrically and rotatably connected in the mounting box (3). The ends of the rotating shafts (41) are rotatably connected to a mounting plate (42) and are equipped with bevel gears I. A driving shaft (43) is also rotatably connected to the mounting plate (42). A bevel gear II (431) meshing with the bevel gear I is installed on the driving shaft (43). The cleaning brush (44) is arranged outside the mounting box (3) and is rotatably connected to the mounting box (3) through a connecting shaft (441). A pulley I (442) is installed on the connecting shaft (441). The pulley I (442) is connected to a pulley II (432) on the driving shaft (43) through a driving belt I (443). The motor (45) is installed in the mounting box (3), and a pulley III (451) is installed on its output shaft. The pulley III (451) is connected to a pulley IV on one of the rotating shafts (41) through a driving belt II (452). The fan (46) is installed in the mounting box (3), and a pulley V (461) on its input shaft is connected to the pulley III (451) through a driving belt III (462). The air outlet of the fan (46) is connected to the top of a collection box (48) on the mobile vehicle (1) through a connecting pipe (47); The anti-blocking mechanism (5) includes a moving plate (51), a spring (54), a dredging rod (56) and a cam (55). The two ends of the moving plate (51) are respectively slidably connected to guide rods (52) inside the mounting box (3). A stop plate (53) is provided at the end of the guide rod (52). The spring (54) is sleeved on the guide rod (52) and is located between the mounting box (3) and the moving plate (51). A cam (55) abutting against the moving plate (51) is provided on the rotating shaft (41). Dredging rods (56) corresponding to the dust suction holes (31) on the mounting box (3) are provided on the moving plate (51).

2. The dust collection and recovery device for fiberglass processing according to claim 1, characterized in that: The mounting plate (42) is of a "U" - shaped structure.

3. The dust collection and recycling device for fiberglass processing according to claim 1, characterized in that: The connecting pipe (47) is of an inverted "L" - shaped structure, and its lower end is connected to the top of the collection box (48) through a fixing plate.