Winding and unwinding integrated substrate surface treatment equipment
By designing an integrated unwinding and winding substrate surface treatment equipment, and adopting a plasma treatment zone and active drive of guide rollers, the problem of low substrate surface treatment efficiency was solved, achieving efficient and high-quality substrate treatment.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- KUNSHAN SUNCOLA ELECTROMECHANICAL TECH CO LTD
- Filing Date
- 2025-08-11
- Publication Date
- 2026-07-03
Smart Images

Figure CN224460149U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to surface treatment technology and its equipment, specifically, a substrate surface treatment equipment that integrates unwinding and winding. Background Technology
[0002] For some products, the substrate has circuits or coatings on it, and the substrate generally needs to have protective films applied to the top and bottom. At present, the film is usually peeled off manually, the substrate is placed in the storage bin and then surface treated collectively. After the surface treatment is completed, new protective films are applied to the top and bottom surfaces of the substrate. The surface treatment efficiency of the substrate is low.
[0003] Therefore, it is necessary to provide an integrated unwinding and winding substrate surface treatment equipment to solve the above problems. Utility Model Content
[0004] The purpose of this invention is to provide an integrated substrate surface treatment equipment that combines unwinding and winding.
[0005] The technical solution is as follows:
[0006] An integrated unwinding and rewinding substrate surface treatment equipment includes an unwinding area, a treatment area, and a rewinding area;
[0007] The unwinding area includes an unwinding motor module that carries the product roll. The product roll is a double-layer protective mold with a substrate-carrying mechanism in the middle. A film-tearing shaft is provided corresponding to the unwinding motor module.
[0008] The processing area includes several sets of corresponding electrode plate modules. Each set of electrode plate modules consists of a corresponding upper electrode plate and a lower electrode plate. The upper electrode plate and the lower electrode plate form a plasma processing area. Each set of electrode plate modules is set at an angle. Several sets of electrode plate modules are combined to form an arc-shaped plasma processing area structure.
[0009] Each electrode plate module has guide rollers installed between the upper and lower electrode plates, with each guide roller located at 1 / 2 to 2 / 3 of the distance between the corresponding upper and lower electrode plates.
[0010] Furthermore, the winding area includes a winding motor module, a new protective film unwinding module corresponding to the winding motor module, and a new protective film pressing roller module between the winding motor module and the new protective film unwinding module.
[0011] Furthermore, a winding tension roller is provided for the corresponding winding motor module.
[0012] Furthermore, a correction roller is also provided between the winding tension roller and the new protective film pressing roller module.
[0013] Furthermore, a film-tearing unwinding roller and an unwinding tension roller are provided corresponding to the film-tearing shaft and the unwinding motor module.
[0014] Furthermore, the guide rollers are driven by an active mechanism.
[0015] Compared with existing technologies, this invention ensures that the substrate's lines or coatings do not come into contact with the guide rollers throughout the entire processing, effectively guaranteeing the quality of the processed substrate. The entire conveying process in the processing area is driven by a main drive, reducing friction between the substrate and the guide rollers during transport. The guide rollers have a certain curvature, ensuring that the substrate does not sag when passing through the plasma treatment area, maintaining the distance between the substrate and the electrode plate in the treatment area for better processing results. This also ensures constant tension on the substrate, preventing expansion and contraction of lines or holes on the substrate, thus guaranteeing substrate quality. The length of the plasma treatment area can be adjusted according to actual requirements. When the processed substrate is conveyed to the winding area, a new protective film simultaneously covers the substrate, protecting it. Attached Figure Description
[0016] Figure 1 A schematic diagram of this utility model. Detailed Implementation Example:
[0017] Please see Figure 1 This embodiment demonstrates an integrated unwinding and winding substrate surface treatment equipment, including an unwinding area 100, a treatment area 200, and a winding area 300.
[0018] The unwinding area 100 includes an unwinding motor 1 that carries the product roll. The product roll is a double-layer protective mold with a substrate 400 in the middle. A film-tearing shaft 2 is provided corresponding to the unwinding motor module 1.
[0019] The processing area 200 includes several sets of correspondingly arranged electrode plate modules 3. Each set of electrode plate modules 3 is composed of a correspondingly arranged upper electrode plate 31 and lower electrode plate 32. A plasma processing area is formed between the upper electrode plate 31 and the lower electrode plate 32. Each set of electrode plate modules 3 is set at an inclination. Several sets of electrode plate modules 3 are combined to form an arc-shaped plasma processing area setting structure.
[0020] Each electrode plate module 3 has a guide roller 201 between the upper electrode plate 31 and the lower electrode plate 32. Each guide roller 201 is located at 1 / 2 to 2 / 3 of the distance between the corresponding upper electrode plate 31 and the lower electrode plate 32.
[0021] The winding area 300 includes a winding motor module 4, a new protective film unwinding module 5 corresponding to the winding motor module 4, and a new protective film pressing roller module 6 between the winding motor module 4 and the new protective film unwinding module 5.
[0022] The winding motor module 4 is equipped with a winding tension roller 7.
[0023] A correction roller 8 is also provided between the winding tension roller 7 and the new protective film pressing roller module 6.
[0024] The film-tearing shaft 2 and the unwinding motor module 1 are equipped with a film-tearing unwinding roller 9 and an unwinding tension roller 10.
[0025] Guide roller 201 is driven by an active drive.
[0026] Compared with existing technologies, this invention ensures that the substrate's lines or coatings do not come into contact with the guide rollers throughout the entire processing, effectively guaranteeing the quality of the processed substrate. The entire conveying process in the processing area is driven by a main drive, reducing friction between the substrate and the guide rollers during transport. The guide rollers have a certain curvature, ensuring that the substrate does not sag when passing through the plasma treatment area, maintaining the distance between the substrate and the electrode plate in the treatment area for better processing results. This also ensures constant tension on the substrate, preventing expansion and contraction of lines or holes on the substrate, thus guaranteeing substrate quality. The length of the plasma treatment area can be adjusted according to actual requirements. When the processed substrate is conveyed to the winding area, a new protective film simultaneously covers the substrate, protecting it.
[0027] For those skilled in the art, various modifications and improvements can be made without departing from the inventive concept of this utility model, and these modifications and improvements all fall within the protection scope of this utility model.
Claims
1. A roll-to-roll substrate surface treatment apparatus, characterized by: Includes unwinding area, processing area, and rewinding area; The unwinding area includes an unwinding motor module that carries the product roll. The product roll is a double-layer protective mold with a substrate-carrying mechanism in the middle. A film-tearing shaft is provided corresponding to the unwinding motor module. The processing area includes several sets of corresponding electrode plate modules. Each set of electrode plate modules consists of a corresponding upper electrode plate and a lower electrode plate. The upper electrode plate and the lower electrode plate form a plasma processing area. Each set of electrode plate modules is set at an angle. Several sets of electrode plate modules are combined to form an arc-shaped plasma processing area structure. Each electrode plate module has guide rollers installed between the upper and lower electrode plates, with each guide roller located at 1 / 2 to 2 / 3 of the distance between the corresponding upper and lower electrode plates.
2. The roll and unwind integrated substrate surface treatment apparatus of claim 1, wherein: The winding area includes a winding motor module, a new protective film unwinding module corresponding to the winding motor module, and a new protective film pressing roller module between the winding motor module and the new protective film unwinding module.
3. The roll and unwind integrated substrate surface treatment apparatus of claim 1, wherein: The corresponding winding motor module is equipped with a winding tension roller.
4. The roll and unwind integrated substrate surface treatment apparatus of claim 1, wherein: A correction roller is also installed between the winding tension roller and the new protective film pressing roller module.
5. The roll and unwind integrated substrate surface treatment apparatus of claim 1, wherein: The corresponding film-tearing shaft and unwinding motor module are equipped with a film-tearing unwinding roller and an unwinding tension roller.
6. The roll and unwind integrated substrate surface treatment apparatus of any of claims 1-5, wherein: The guide rollers are driven by a drive mechanism.