A glass card strip structure
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- FUJIAN YOUBEITE MOLDING TECH CO LTD
- Filing Date
- 2025-05-20
- Publication Date
- 2026-07-03
Smart Images

Figure CN224452618U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of glass clip technology, specifically a glass clip structure. Background Technology
[0002] A glass retaining strip structure is a frame system used to fix and install glass. It is usually made of metal or high-strength plastic. Its main function is to fix the glass panel to prevent it from shifting or falling off during use, while also providing a certain decorative effect. Glass, as a common decoration material, is widely used in bathroom partitions, doors, and walls due to its advantages such as transparency, beauty, and ease of cleaning. However, glass requires a special fixing structure during installation to ensure its stability and safety. The glass retaining strip structure was developed to solve this problem.
[0003] The existing glass clip structure has the following main shortcomings:
[0004] The existing glass retaining strip structure uses a relatively rigid direct clamping method to fix the glass. When faced with external vibrations or slight displacements, the glass is prone to shaking within the retaining strip. With long-term use, this shaking may increase the friction between the glass and the retaining strip, which may scratch the glass surface and pose a risk of loosening or even falling off the glass. When subjected to external impacts, especially large impacts or frequent vibrations, the rubber anti-collision components are prone to falling off or shifting, thus failing to continue to provide effective impact protection for the glass. The corners of the glass still have a high risk of breaking upon impact, and the safety needs to be improved. Utility Model Content
[0005] To overcome the above-mentioned defects, this utility model provides a glass clip structure, which solves the problems in the prior art.
[0006] To achieve the above objectives, this utility model provides the following technical solution: a glass clip structure, comprising: a clip body, wherein anti-collision mounting structures are provided at the center of the front end face and the center of the rear end face of the clip body;
[0007] The two anti-collision mounting structures include eight grooves, with four grooves in each group. The two groups of grooves are respectively located at the four opposite corners of the front face and the four opposite corners of the rear face of the card strip body. Magnets are provided at the center of the four grooves at the front and the center of the groove at the rear. Anti-collision rubber plates are provided at the center of the front face and the center of the rear face of the card strip body.
[0008] The inner side wall of the card strip body is fitted with a card strip mounting structure.
[0009] As a further embodiment of this utility model: the card strip mounting structure includes a rubber protective layer, which is sleeved on the inner side wall of the card strip body. An elastic silicone layer is sleeved on the inner side wall of the rubber protective layer. A sliding groove is provided at the center of the inner wall of the card strip body and at the center of the lower end face of the elastic silicone layer. A slider is provided at the center of the lower inner wall and at the center of the lower end face of the rubber protective layer.
[0010] As a further embodiment of this utility model: a rubber placement layer is provided at the center of the lower inner wall of the elastic silicone layer, and multiple locking blocks are arranged front to back at the center of the lower end face of the rubber placement layer. Multiple rubber filling blocks are arranged front to back at the upper center of both inner side walls of the elastic silicone layer, and one end of each locking block penetrates through the lower inner wall of the elastic silicone layer to the interior of the elastic silicone layer.
[0011] As a further embodiment of this utility model, the plurality of rubber filler blocks are staggered.
[0012] As a further embodiment of this utility model: the two sliders are respectively slidably connected at the center of the two grooves.
[0013] As a further embodiment of this utility model: multiple wear-resistant strips are arranged vertically at the center of both sides of the card strip body.
[0014] As a further embodiment of this utility model: magnetic blocks are provided at the four opposite corners of the rear end face of the front anti-collision rubber plate and the four opposite corners of the front end face of the rear anti-collision rubber plate, and the eight magnetic blocks are respectively adapted to the eight grooves.
[0015] Compared with the prior art, the beneficial effects of this utility model are as follows:
[0016] 1. This utility model, by employing a rubber protective layer, an elastic silicone layer, and multiple layers of different functional structures in combination, not only provides a certain degree of buffer protection but also enhances the flexibility and elasticity of the structure. At the same time, the elastic silicone layer, the rubber placement layer, the locking block, and the staggered rubber filling block can apply frictional force to the glass from different angles and positions, achieving stable fixation of the glass from multiple angles and layers. This effectively improves the stability and firmness of the glass installation within the locking strip, preventing glass shaking and displacement.
[0017] 2. This utility model uses a combination of magnets and magnetic blocks for positioning and installing anti-collision rubber plates. This method can quickly and accurately position the anti-collision rubber plates, ensuring their installation accuracy and tight fit. It can also effectively prevent the anti-collision rubber plates from shifting due to collision impacts during transportation, installation, and daily use, thereby improving the anti-collision performance and safety of the glass in various environments. Attached Figure Description
[0018] Figure 1 This is a three-dimensional structural diagram of the present invention;
[0019] Figure 2 This is a three-dimensional side sectional view of the present invention;
[0020] Figure 3 This is a three-dimensional orthographic structural diagram of the present invention;
[0021] Figure 4 This is a three-dimensional disassembled structural diagram of the anti-collision installation structure of this utility model;
[0022] Figure 5 for Figure 3 Enlarged diagram of point A in the middle.
[0023] In the diagram: 1. Card strip body; 2. Wear-resistant strip; 3. Anti-collision mounting structure; 301. Groove; 302. Magnet; 303. Anti-collision rubber plate; 304. Magnetic block; 4. Card strip mounting structure; 401. Rubber protective layer; 402. Elastic silicone layer; 403. Slide groove; 404. Slider; 405. Rubber placement layer; 406. Card block; 407. Rubber filler block. Detailed Implementation
[0024] The technical solution of this patent will be further described in detail below with reference to specific embodiments.
[0025] like Figures 1-5 As shown, this utility model provides a technical solution:
[0026] A glass clip structure, comprising:
[0027] The card strip body 1 has multiple wear-resistant strips 2 arranged vertically at the center of both side walls. Anti-collision mounting structures 3 are provided at the center of both the front and rear faces of the card strip body 1. Each of the two anti-collision mounting structures 3 includes eight grooves 301, arranged in groups of four. The two groups of grooves 301 are respectively located at the four opposite corners of the front and rear faces of the card strip body 1. Magnets 302 are provided at the center of the rearmost four grooves 301 and the center of the frontmost and rearmost grooves 301. Anti-collision rubber plates 303 are provided at the center of both the front and rear faces of the card strip body 1. Magnetic blocks 304 are provided at the four opposite corners of the rear and front faces of the anti-collision rubber plates 303. The eight magnetic blocks 304 are mutually compatible with the eight grooves 301.
[0028] The wear-resistant strip 2 is used to install the card strip body 1 inside the aluminum alloy card slot, serving a positioning and initial fixing function, allowing the card strip body 1 to be accurately installed in the aluminum alloy card slot. At the same time, the wear-resistant strip 2 can reduce friction and wear between the card strip body 1 and the card slot, extending the service life of the card strip body 1 and the card slot. Through the mutual attraction between the magnet 302 and the magnetic block 304 inside the groove 301, the card strip body 1 can be quickly adsorbed and positioned during the use and installation of glass, ensuring that the front and rear anti-collision rubber plates 303 of the card strip body 1 are correctly installed and tightly fitted, preventing the anti-collision rubber plates 303 from shifting position due to collision. When the glass is subjected to external impact, the anti-collision rubber plates 303 play a buffering and shock-absorbing role, reducing the impact force on the glass, protecting the glass edges and corners, and reducing the risk of glass breakage due to edge and corner collisions.
[0029] The inner wall of the card strip body 1 is fitted with a card strip mounting structure 4. The card strip mounting structure 4 includes a rubber protective layer 401, which is fitted onto the inner wall of the card strip body 1. An elastic silicone layer 402 is fitted onto the inner wall of the rubber protective layer 401. A groove 403 is provided at the center of the upper inner wall of the card strip body 1 and at the center of the lower end face of the elastic silicone layer 402. A slider 404 is provided at the center of the lower inner wall and the center of the lower end face of the rubber protective layer 401. The elastic silicone layer 402... A rubber placement layer 405 is provided at the center of the lower inner wall. Multiple locking blocks 406 are arranged front to back at the center of the lower end face of the rubber placement layer 405. Multiple rubber filling blocks 407 are arranged front to back at the upper center of the two inner side walls of the elastic silicone layer 402. One end of each locking block 406 penetrates the lower inner wall of the elastic silicone layer 402 and extends into the interior of the elastic silicone layer 402. The multiple rubber filling blocks 407 are staggered. Two sliders 404 are slidably connected to the center of the two sliding grooves 403 respectively.
[0030] The rubber protective layer 401 slides within the groove 403 via the slider 404, allowing it to be fitted onto the inner wall of the clip body 1. Its position can be adjusted to achieve installation with the clip body 1. The elastic silicone layer 402 is installed on the inner wall of the rubber protective layer 401 via the groove 403 and the slider 404. This layered structure ensures both the flexibility of clip installation and enhances the overall structural stability. The rubber placement layer 405 and the clip 406 are used to clamp the glass edge, fitting tightly against it. The elasticity and friction of the clip 406 fix the glass within the clip body 1 structure, preventing it from shaking or shifting. The staggered arrangement of the rubber filling block 407 provides multiple force points when clamping the glass, offering more balanced friction and providing frictional fixation from multiple angles, preventing loosening and increasing the stability of the glass installation.
[0031] The working principle of this utility model is as follows:
[0032] The wear-resistant strip 2 is used to install the card strip body 1 inside the aluminum alloy card slot, serving a positioning and initial fixing function, allowing the card strip body 1 to be accurately installed in the aluminum alloy card slot. At the same time, the wear-resistant strip 2 can reduce friction and wear between the card strip body 1 and the card slot, extending the service life of the card strip body 1 and the card slot. Through the mutual attraction between the magnet 302 and the magnetic block 304 inside the groove 301, the card strip body 1 can be quickly adsorbed and positioned during the use and installation of glass, ensuring that the front and rear anti-collision rubber plates 303 of the card strip body 1 are correctly installed and tightly fitted, preventing the anti-collision rubber plates 303 from shifting position due to collision. When the glass is subjected to external impact, the anti-collision rubber plates 303 play a buffering and shock-absorbing role, reducing the impact force on the glass, protecting the glass edges and corners, and reducing the risk of glass breakage due to edge and corner collisions.
[0033] The rubber protective layer 401 slides within the groove 403 via the slider 404, allowing it to be fitted onto the inner wall of the clip body 1. Its position can be adjusted to achieve installation with the clip body 1. The elastic silicone layer 402 is installed on the inner wall of the rubber protective layer 401 via the groove 403 and the slider 404. This layered structure ensures both the flexibility of clip installation and enhances the overall structural stability. The rubber placement layer 405 and the clip 406 are used to clamp the glass edge, fitting tightly against it. The elasticity and friction of the clip 406 fix the glass within the clip body 1 structure, preventing it from shaking or shifting. The staggered arrangement of the rubber filling block 407 provides multiple force points when clamping the glass, offering more balanced friction and providing frictional fixation from multiple angles, preventing loosening and increasing the stability of the glass installation.
[0034] The preferred embodiments of the present invention have been described in detail above. However, the present invention is not limited to the above embodiments. Within the scope of knowledge possessed by those skilled in the art, various changes can be made without departing from the spirit of the present invention.
Claims
1. A glass card strip structure, characterized by, include: Card strip body (1), the front end face center and the rear end face center of the card strip body (1) are provided with anti-collision installation structure (3); The two anti-collision mounting structures (3) include eight grooves (301). The eight grooves (301) are arranged in groups of four. The two groups of grooves (301) are respectively located at the four opposite corners of the front face and the four opposite corners of the rear face of the card strip body (1). Magnets (302) are provided at the rear center of the four grooves (301) at the front and the rear center of the grooves (301) at the rear. Anti-collision rubber plates (303) are provided at the center of the front face and the center of the rear face of the card strip body (1). The inner wall of the card strip body (1) is fitted with a card strip mounting structure (4); Magnetic blocks (304) are provided at the four opposite corners of the rear end face of the anti-collision rubber plate (303) at the front end and at the four opposite corners of the front end face of the anti-collision rubber plate (303) at the rear end. The eight magnetic blocks (304) are respectively adapted to the eight grooves (301).
2. The glass card strip structure of claim 1, wherein: The card strip mounting structure (4) includes a rubber protective layer (401), which is sleeved on the inner wall of the card strip body (1). An elastic silicone layer (402) is sleeved on the inner wall of the rubber protective layer (401). A sliding groove (403) is provided at the center of the upper inner wall of the card strip body (1) and at the center of the lower end face of the elastic silicone layer (402). A slider (404) is provided at the center of the lower inner wall and the center of the lower end face of the rubber protective layer (401).
3. The glass card strip structure of claim 2, wherein: A rubber placement layer (405) is provided at the center of the lower inner wall of the elastic silicone layer (402). Multiple locking blocks (406) are arranged in a front-to-back pattern at the center of the lower end face of the rubber placement layer (405). Multiple rubber filling blocks (407) are arranged in a front-to-back pattern at the upper center of both inner walls of the elastic silicone layer (402). One end of each locking block (406) penetrates the lower inner wall of the elastic silicone layer (402) and extends into the interior of the elastic silicone layer (402).
4. The glass card strip structure of claim 3, wherein: The multiple rubber filler blocks (407) are all staggered.
5. The glass card strip structure of claim 2, wherein: The two sliders (404) are slidably connected at the center of the two grooves (403).
6. The glass card strip structure of claim 1, wherein: Multiple wear-resistant strips (2) are arranged vertically at the center of both sides of the card strip body (1).