A processing product cleaning device

By integrating a cylinder, cleaning brush, dust extraction nozzle, ion air bar, and air blowing nozzle, the product cleaning device solves the problem of electrostatic splashing of tiny dust particles during laser processing, achieving efficient cleaning and stable laser engraving process, and improving product quality and production efficiency.

CN224405835UActive Publication Date: 2026-06-26SHENZHEN AIPYANG LASER TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENZHEN AIPYANG LASER TECHNOLOGY CO LTD
Filing Date
2025-04-08
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

In the laser processing industry, tiny dust particles are prone to generating static electricity during cleaning, and the direction of the splash is difficult to control, resulting in incomplete cleaning, affecting the precision and quality of the laser engraving process, and reducing product yield and production efficiency.

Method used

The product cleaning device, which adopts a square box structure, includes a cylinder, cleaning brush, dust extraction nozzle, ion bar, ion nozzle and air blowing nozzle. Through the synergistic effect of flexible bristles, conical air extraction port, corona discharge technology and positive pressure airflow, it achieves all-round multi-level cleaning and neutralizes the static electricity of dust particles.

Benefits of technology

It effectively removes fine dust particles, improves cleaning efficiency, ensures no residue on product surfaces, enhances laser engraving quality and yield, reduces the impact of electrostatic adsorption and splashing, and lowers equipment costs and maintenance difficulty.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224405835U_ABST
    Figure CN224405835U_ABST
Patent Text Reader

Abstract

The utility model relates to laser processing auxiliary equipment field especially, and more particularly to a kind of processing product cleaning device.The utility model provides a kind of processing product cleaning device, including four square boxes, air cylinder, cleaning brush, product, dust extraction nozzle, ion wind stick, ion wind nozzle and blow nozzle etc., four square boxes are located above product, air cylinder is installed in four square boxes front side, air cylinder telescopic end is connected with cleaning brush, cleaning brush is contacted with product, dust extraction nozzle is installed in four square boxes back side, ion wind nozzle is installed in four square boxes left lower side, ion wind stick is arranged in four square boxes left side, and blow nozzle is installed in four square boxes front side.The synergies of air cylinder, cleaning brush, dust extraction nozzle, ion wind stick, ion wind nozzle and blow nozzle, can carry out all-round, multi-level cleaning to tiny and electrostatic dust particles, effectively improve cleaning efficiency, ensure that product surface is no dust residue, significantly improve the processing quality and yield of product in multiple laser etching process.
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Description

Technical Field

[0001] This utility model relates to the field of laser processing auxiliary equipment, and in particular to a cleaning device for processed products. Background Technology

[0002] Processed product cleaning equipment refers to devices or systems used to clean products during or after manufacturing. These devices are designed to remove impurities, residues, oil, dust, metal shavings, and other contaminants from product surfaces to ensure that product quality and performance meet standards.

[0003] In the laser processing industry, especially in the process of laser engraving fine patterns on photovoltaic materials, a large number of tiny dust particles are generated, with sizes reaching micrometers or even nanometers. Because these small particles are prone to generating static electricity during cleaning and their splashing direction is difficult to control, traditional cleaning methods are unable to effectively remove them. The residual dust particles will affect the precision and quality of subsequent laser engraving processes, such as causing problems like blurred patterns and inconsistent laser engraving depth, which will seriously reduce the product yield and production efficiency.

[0004] To address the above issues, it is necessary to design a product cleaning device capable of thoroughly removing tiny dust particles from the product surface. Utility Model Content

[0005] To overcome the drawbacks of these small particles easily generating static electricity during cleaning and having difficulty controlling their splashing direction, this utility model provides a cleaning device for processed products.

[0006] The technical implementation scheme of this utility model is as follows: a product cleaning device includes a square box, a cylinder, a cleaning brush, a product, a dust extraction nozzle, an ion bar, an ion nozzle, and an air blowing nozzle. The square box is located above the product. A cylinder is installed on the front side of the square box. The extension end of the cylinder is connected to the cleaning brush, which contacts and cooperates with the product. A dust extraction nozzle is installed on the rear side of the square box. An ion nozzle is installed on the lower left side of the square box. An ion bar is provided on the left side of the square box. An air blowing nozzle is installed on the front side of the square box, and the air blowing nozzle is located above the cleaning brush.

[0007] Furthermore, the cleaning brush is made of a bristle material that is both flexible and dense.

[0008] Furthermore, the ion nozzle and ion bar employ corona discharge technology.

[0009] Furthermore, the air intake of the dust extraction nozzle adopts a conical design.

[0010] Furthermore, the air source type of the air nozzle is a stable positive pressure airflow.

[0011] The beneficial effects of this utility model are as follows: 1. Through the synergistic action of the cylinder, cleaning brush, dust extraction nozzle, ion air bar, ion air nozzle and blowing nozzle, it can perform all-round and multi-layer cleaning of tiny and electrostatic dust particles, effectively improve cleaning efficiency, ensure that there is no dust residue on the product surface, and significantly improve the processing quality and yield of the product in multiple laser engraving processes.

[0012] 2. By using ion bar and ion nozzle together, the static electricity of dust particles can be actively neutralized, which solves the problem of dust adsorption and disorderly splashing caused by static electricity at the root, making the cleaning process more stable and controllable, and reducing the adverse effects of the cleaning process on products and the surrounding environment.

[0013] 3. By integrating multiple cleaning functions into a square box structure, the components are rationally and compactly arranged, occupying little space, which facilitates installation and use in laser processing equipment, while reducing equipment costs and maintenance difficulty. Attached Figure Description

[0014] Fig. 1 This is a three-dimensional structural diagram of the present invention.

[0015] Fig. 2 This is a three-dimensional structural diagram of the square box, the product, and the dust extraction nozzle of this utility model.

[0016] Fig. 3 This is a three-dimensional structural diagram of the cleaning brush, product, and air nozzle of this utility model.

[0017] Attached image numbers: 1_square box, 2_cylinder, 3_cleaning brush, 4_product, 5_dust extraction nozzle, 6_ion air bar, 7_ion air nozzle, 8_air blowing nozzle. Detailed Implementation

[0018] The present invention will be further described below with reference to the accompanying drawings and embodiments.

[0019] Example: A product cleaning device, such as Figs. 1-3As shown, the system includes a square box 1, a cylinder 2, a cleaning brush 3, a product 4, a dust extraction nozzle 5, an ionizer 6, an ionizer nozzle 7, and an air blower 8. The square box 1 is located above the product 4, providing a stable mounting base and a relatively enclosed cleaning environment for its internal cleaning components, reducing dust spillage. The cylinder 2 is installed on the front of the square box 1, and the extension end of the cylinder 2 is connected to the cleaning brush 3. The cleaning brush 3 contacts and cooperates with the product 4. The cleaning brush 3 is made of a bristle material that is both flexible and fine to avoid scratching the surface of the product 4 during cleaning, while ensuring effective contact and cleaning of fine dust particles. The dust extraction nozzle 5 is installed on the rear of the square box 1, and the suction port of the dust extraction nozzle 5... The cone-shaped design ensures that the dust extraction nozzle 5 can capture the sweeping and blowing dust particles to the maximum extent. An ion nozzle 7 is installed on the lower left side of the square box 1, and an ion bar 6 is connected to the left side of the square box 1. The ion nozzle 7 and the ion bar 6 use corona discharge technology. Both the ion nozzle 7 and the ion bar 6 can generate ion wind to neutralize the static electricity of the dust particles and avoid particle adsorption and disorderly splashing caused by static electricity. An air blowing nozzle 8 is installed on the front side of the square box 1. The air blowing nozzle 8 is located above the cleaning brush 3. The air source of the air blowing nozzle 8 is a stable positive pressure airflow. After being blown out by the air blowing nozzle 8, it forms a downward airflow impact, which assists the cleaning brush 3 in cleaning and guides the dust to the dust extraction nozzle 5.

[0020] During the processing of product 4, when this device is needed to clean the surface of product 4, the cylinder 2 is activated when product 4 passes under the cleaning brush 3. The extension rod of the cylinder 2 drives the cleaning brush 3 to move downward until the cleaning brush 3 makes direct contact with the surface of product 4, which can initially clean the dust particles attached to product 4. Then, the dust extraction nozzle 5 is activated, and the dust particles swept up by the cleaning brush 3 and the surrounding dust particles are promptly removed from the cleaning area to prevent them from being deposited or splashed again. At the same time, the ion nozzle 7 and ion bar 6 are activated, which can generate ion wind to neutralize the static electricity of the dust particles and avoid particle adsorption and disorderly splashing caused by static electricity. During this process, the air blowing nozzle 8 is activated, and by blowing air downward, it can not only further blow off the stubborn dust particles that the cleaning brush 3 failed to clean, but also blow the dust particles neutralized by the ion wind toward the dust extraction nozzle 5, so that the dust extraction nozzle 5 can collect dust particles more efficiently, thereby achieving all-round cleaning of product 4.

[0021] The technical principles of the present invention have been described above with reference to specific embodiments. These descriptions are merely for explaining the principles of the present invention and should not be construed as limiting the scope of protection of the present invention in any way. Based on this explanation, those skilled in the art can conceive of other specific embodiments of the present invention without creative effort, and these embodiments will all fall within the scope of protection of the present invention.

Claims

1. A cleaning device for processed products, characterized in that it includes: There is a square box (1), a cylinder (2), a cleaning brush (3), a product (4), a dust extraction nozzle (5), an ion air bar (6), an ion air nozzle (7), and an air blowing nozzle (8). The square box (1) is located above the product (4). The cylinder (2) is installed on the front side of the square box (1). The cleaning brush (3) is fixedly connected to the telescopic end of the cylinder (2). The cleaning brush (3) is in contact with the product (4). The dust extraction nozzle (5) is installed on the back side of the square box (1). The ion air nozzle (7) is set on the lower left side of the square box (1). The ion air bar (6) is set on the left side of the square box (1). The air blowing nozzle (8) is installed on the upper front side of the square box (1). The air blowing nozzle (8) is located above the cleaning brush (3).

2. A product cleaning device according to claim 1, characterized in that, The cleaning brush (3) is made of a material that is both flexible and fine.

3. A product cleaning device according to claim 2, characterized in that, Ion nozzle (7) and ion bar (6) employ corona discharge technology.

4. A product cleaning device according to claim 3, characterized in that, The suction port of the dust extraction nozzle (5) adopts a conical design.

5. A product cleaning device according to claim 4, characterized in that, The air source type of the air nozzle (8) is a stable positive pressure airflow.