High tenacity wear resistant webbing

By using a rigid connection between a hot press plate and a connector seat, a protective layer, and wear-resistant protrusions, combined with high-toughness fiber weaving and a snap-fit ​​structure, the durability and safety issues of webbing when adjusting length are solved, manufacturing costs are reduced, the production process is simplified, and the wear resistance and flexibility of the webbing are enhanced.

CN224494698UActive Publication Date: 2026-07-14WENZHOU CHANGTAI PLASTIC PROD CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
WENZHOU CHANGTAI PLASTIC PROD CO LTD
Filing Date
2025-08-28
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Existing webbing uses perforation or hook connection methods to adjust length, which damages the fiber structure, affecting durability and safety. At the same time, the complex design increases manufacturing costs and installation difficulties.

Method used

The device uses a hot-press plate and connector seat for rigid connection, combined with high-toughness fiber weaving, a protective layer and wear-resistant protrusions to enhance wear resistance, a snap-fit ​​structure for easy adjustment, and a magnetic closure between the protective box and the lid to prevent dust and moisture from entering.

Benefits of technology

It improves the connection strength and durability of the webbing, reduces manufacturing costs, simplifies the production process, enhances the flexibility and abrasion resistance of use, prevents webbing damage, and extends service life.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a high toughness wear -resisting type braid, including the braid body of setting, the upper and lower surface heat pressure of braid body has the protection layer, the braid body side end is wrapped and is connected with the protection layer, the protection layer surface has sprayed wear -resisting boss, braid body one end is provided with the protection assembly, the protection assembly includes the joint seat of installation in braid body one end, the inside fixed plate of joint seat is installed, the inside hot press board of fixed plate is connected with first clamping link with the running through hot press board in fixed plate, hot press board is located braid body end. This high toughness wear -resisting type braid, and the end of braid body is closely combined with hot press board through the hot press process, and the hot press board is rigidly connected with the joint seat through first clamping link of fixed plate, makes the stress of braid end through hot press board and joint seat dispersion transmission, and the whole structure is simple, has reduced the problem that the overall design and manufacturing cost increase caused by complex structure.
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Description

Technical Field

[0001] This utility model relates to the technical field of webbing, specifically a high-toughness and wear-resistant webbing. Background Technology

[0002] In the current use of webbing, especially when it is necessary to adjust the effective length, multiple perforations are usually set on the webbing or the adjustment ring is connected to the webbing. However, this adjustment method has certain drawbacks. Drilling holes will damage the fiber structure of the webbing, resulting in a significant reduction in the stress strength of the drilled part, thereby affecting the overall durability and safety of the webbing.

[0003] To overcome the above-mentioned defects, the existing technology (Chinese patent with announcement number CN218291237U, announcement date January 13, 2023) provides a connecting buckle webbing structure, including a webbing and a connecting buckle. The webbing includes a first webbing and a second webbing, which are integrally woven to form multiple connecting parts, with a connecting sleeve formed between two adjacent connecting parts. The connecting buckle includes a connecting part for connecting the webbing, and a hook is provided on one side of the connecting part for engaging with the connecting sleeve. This webbing can replace the use of multiple through holes on the webbing for webbing adjustment, avoiding damage to the webbing structure, ensuring the strength of the webbing, and eliminating the need to increase the thickness of the webbing, thus reducing material usage. By engaging with the connecting sleeve through the hook, the hook can be limited within the connecting sleeve, ensuring the stability of the connection.

[0004] In the existing technology, although the connection of the webbing is achieved by hooking the connecting sleeve, in actual use, the spacing between the connecting sleeve and the hook needs to be designed reasonably, which increases the overall design cost. The precision design of the integrated woven webbing, hook and connecting buckle makes the production process more complicated, increases the manufacturing cost, and frequent disassembly and installation may also bring certain difficulties and affect the overall connection strength.

[0005] To address the aforementioned issues, there is an urgent need for innovative designs based on existing high-toughness and abrasion-resistant webbing. Therefore, we proposed that high-toughness and abrasion-resistant webbing can effectively solve these problems. Summary of the Invention

[0006] The purpose of this utility model is to provide a high-toughness and wear-resistant webbing to solve the problem mentioned in the background art. Currently, the webbing is connected by hooks and clips into connecting sleeves. However, in actual use, the distance between the connecting sleeve and the hook needs to be designed reasonably, which increases the overall design cost. The precision design of the integrally woven webbing, hooks, and connecting buckles makes the production process more complicated, increases the manufacturing cost, and frequent disassembly and installation may also bring certain difficulties, affecting the overall connection strength.

[0007] To achieve the above objectives, this utility model provides the following technical solution: a high-toughness wear-resistant webbing, comprising a webbing body, with protective layers hot-pressed onto the upper and lower surfaces of the webbing body, a protective layer wrapped around and connected to the side end of the webbing body, wear-resistant protrusions sprayed onto the surface of the protective layer, a protective component provided at one end of the webbing body, the protective component including a connector seat installed at one end of the webbing body, a fixing plate installed inside the connector seat, a hot-pressing plate snapped into the inner side of the fixing plate, a first snapping rod connected through the hot-pressing plate inside the fixing plate, and the hot-pressing plate located at the end of the webbing body.

[0008] Preferably, the other end of the webbing body is provided with a snap-fit ​​component, the snap-fit ​​component including a first buckle and a second buckle installed on the other end of the webbing body.

[0009] Preferably, both the first and second buckles are provided with a second locking rod inside. The other end of the webbing body is wrapped around the second locking rod and sewn to the back of the webbing body. The first buckle is provided with a locking block, which is located at the side end of the second buckle.

[0010] Preferably, a protective box is fitted over the outer side of the webbing body, and a lid is connected to the surface of the protective box via a hinge.

[0011] Preferably, the upper surface of the protective box is provided with a snap-fit ​​groove, and a first magnetic block is installed inside the snap-fit ​​groove.

[0012] Preferably, a snap-fit ​​block is installed under the cover, and the snap-fit ​​block is adapted to the snap-fit ​​groove.

[0013] Preferably, a second magnetic block is installed at the bottom of the snap-fit ​​block, and the second magnetic block is adapted to the first magnetic block.

[0014] Preferably, the protective box and the box cover are equipped with snap-fit ​​pieces inside, the snap-fit ​​pieces are staggered and have a toothed structure.

[0015] Compared with the prior art, the beneficial effects of this utility model are: the high-toughness wear-resistant webbing has a hot-pressing plate that is tightly bonded to the end of the webbing body through a hot-pressing process, and a fixing plate that rigidly connects the hot-pressing plate to the connector seat through a first snap-fit ​​rod, so that the force on the end of the webbing is distributed and transmitted through the hot-pressing plate and the connector seat. The overall structure is simple, reducing the problem of increased overall design and manufacturing costs caused by complex structures. The specific details are as follows:

[0016] (1) The protective component at one end of the webbing is hot-pressed together with the end of the webbing body by a hot-press plate. The fixing plate is rigidly connected to the joint seat by the first snap-fit ​​rod, which distributes the end force to a larger area, reduces the unit area pressure, effectively prevents tearing caused by local stress concentration, significantly improves the end connection strength, and ensures the safety of the webbing when under stress.

[0017] (2) The webbing body is woven with high-toughness fibers, which have excellent tensile and bending resistance. In scenarios with frequent stress or repeated bending, it can effectively resist breakage and deformation, maintain structural stability for a long time, and enable the webbing body to meet various high-intensity use requirements, thus improving the cost-effectiveness of use.

[0018] (3) The protective layers on the upper and lower surfaces of the webbing are composited by hot pressing process to enhance the overall wear resistance and resist external friction and impact. The protective layer on the side avoids edge wear and delamination, solving the problem of easy loosening of the edges of traditional webbing. The wear-resistant protrusions on the surface of the protective layer further enhance the side scratch resistance and greatly extend the service life.

[0019] (4) The other end of the webbing is wrapped around the second locking rod to form an adjustable ring. The length of use can be flexibly adjusted by changing the wrapping length. The first buckle and the second buckle are locked and separated by the locking block. When locked, the connection is stable. When unlocked, it can be operated by a single person without tools, which is convenient and efficient and enhances the flexibility of the webbing.

[0020] (5) The protective box and the lid are tightly closed by snap-fit ​​blocks, snap-fit ​​grooves and magnetic blocks, which effectively prevents dust and moisture from entering and avoids the sewing area from getting damp and moldy. The snap-fit ​​pieces with interlocking teeth inside form a flexible clamp for the webbing, which fixes the position and prevents excessive compression and deformation, further extending the durability of the webbing. Attached Figure Description

[0021] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0022] Figure 2 This is a schematic diagram of the cross-sectional structure of the webbing body of this utility model;

[0023] Figure 3 This is a cross-sectional structural diagram of the connector seat of this utility model;

[0024] Figure 4 This is a schematic diagram of the connection structure between the webbing body and the first buckle of this utility model;

[0025] Figure 5 This is a top view schematic diagram of the first and second buckles of this utility model;

[0026] Figure 6 This is a schematic diagram of the structure of the first buckle and the second connecting rod of this utility model;

[0027] Figure 7 This is a schematic diagram of the protective box structure of this utility model;

[0028] Figure 8 This is a cross-sectional structural diagram of the protective box and lid of this utility model.

[0029] In the diagram: 1. Webbing body; 2. Protective layer; 3. Protective layer; 4. Wear-resistant protrusion; 5. Connector seat; 6. Hot press plate; 7. Fixing plate; 8. First snap-fit ​​rod; 9. First buckle; 10. Second snap-fit ​​rod; 11. Second buckle; 12. Clip block; 13. Box cover; 14. Hinge; 15. Protective box; 16. Snap-fit ​​groove; 17. First magnet; 18. Snap-fit ​​block; 19. Second magnet; 20. Snap-fit ​​piece. Detailed Implementation

[0030] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0031] Example 1: In this example, the fixing plate 7 rigidly connects the heat-pressing plate 6 and the connector seat 5 via the first snap-fit ​​rod 8, so that the force on the end of the webbing is distributed and transmitted through the heat-pressing plate 6 and the connector seat 5, preventing tearing caused by local stress concentration. Figures 1-3The technical solution shown includes a webbing body 1, with protective layers 2 hot-pressed onto the upper and lower surfaces of the webbing body 1, and a protective layer 3 wrapped around the side of the webbing body 1. The surface of the protective layer 3 is coated with wear-resistant protrusions 4. A protective component is provided at one end of the webbing body 1, including a connector seat 5 installed at one end of the webbing body 1. A fixing plate 7 is installed inside the connector seat 5, and a hot-pressing plate 6 is snapped onto the inner side of the fixing plate 7. A first snapping rod 8 passes through the hot-pressing plate 6 inside the fixing plate 7. The hot-pressing plate 6 is located at the end of the webbing body 1. The webbing body 1 is woven from high-toughness fibers, possessing tensile and bending resistance. Even under frequent stress or repeated bending, it is not easily broken or deformed, maintaining structural stability for a long time and meeting high-strength usage requirements. The protective layers 2 on the upper and lower surfaces of the webbing body 1, through a hot-pressing process, directly resist external friction and impact, improving overall wear resistance. The protective layer 3 wrapped around the side of the webbing body 1 prevents the webbing body from being damaged. The edge wear or fraying of the webbing body 1 solves the common problem of loose edges in traditional webbing bodies 1, ensuring the structural integrity of the webbing body 1. The wear-resistant protrusions 4 sprayed on the surface of the protective layer 3 further enhance the side scratch resistance and extend the service life of the webbing body 1. The protective component at one end of the webbing body 1 is used to strengthen the end connection strength and prevent the end from tearing under stress. The connector seat 5 serves as the end fixing base. The internal fixing plate 7 is snapped to the hot pressure plate 6 through the first snap-fit ​​rod 8. The hot pressure plate 6 is directly pressed onto the end of the webbing body 1. During installation, the hot pressure plate 6 is tightly bonded to the end of the webbing body 1 through the hot pressing process. The fixing plate 7 is rigidly connected to the hot pressure plate 6 and the connector seat 5 through the first snap-fit ​​rod 8, so that the force on the end of the webbing is distributed and transmitted through the hot pressure plate 6 and the connector seat 5, dispersing the local stress on the end to a larger area and preventing tearing caused by local stress concentration. The overall structure is simple, reducing the problem of increased overall design and manufacturing costs caused by complex structures.

[0032] Example 2: In this example, the connection is secured by the first buckle 9 and the second buckle 11 at the end of the webbing body 1, as detailed below. Figure 1 and Figures 4-6As shown, a snap-fit ​​assembly is provided at the other end of the webbing body 1. The snap-fit ​​assembly includes a first buckle 9 and a second buckle 11 installed at the other end of the webbing body 1. A second snap-fit ​​rod 10 is provided inside both the first buckle 9 and the second buckle 11. The other end of the webbing body 1 is wrapped around the second snap-fit ​​rod 10 and sewn to the back of the webbing body 1. A locking block 12 is provided on the first buckle 9, located on the side of the second buckle 11. After the other end of the webbing body 1 is wrapped around the second snap-fit ​​rod 10, it is sewn to its own back to form an adjustable loop structure. The usable length of the webbing body 1 can be flexibly adjusted by changing the wrapping length. When fixation is required, the locking block 12 engages with the corresponding position of the second buckle 11, and the first buckle 9 and the second buckle 11 at the end of the webbing body 1 are locked together to ensure a stable connection. To unlock, pressing the locking block 12 separates the first buckle 9 and the second buckle 11. The overall operation is convenient and requires no tools.

[0033] Example 3: In this example, the snap-fit ​​piece 20 can flexibly clamp the webbing body 1 with moderate clamping force, which not only fixes the position of the webbing body 1 to prevent shaking, but also prevents the webbing body 1 from deforming due to excessive compression, thus further extending the durability of the webbing body 1. Specifically, as shown below... Figure 1 , Figure 7 and Figure 8 As shown, a protective box 15 is fitted over the outer side of the webbing body 1. A cover 13 is connected to the surface of the protective box 15 via a hinge 14. A snap-fit ​​groove 16 is formed on the upper surface of the protective box 15, and a first magnetic block 17 is installed inside the snap-fit ​​groove 16. A snap-fit ​​block 18 is installed under the cover 13, and the snap-fit ​​block 18 is adapted to the snap-fit ​​groove 16. A second magnetic block 19 is installed at the bottom of the snap-fit ​​block 18, and the second magnetic block 19 is adapted to the first magnetic block 17. Snap-fit ​​pieces 20 are installed inside the protective box 15 and the cover 13. The snap-fit ​​pieces 20 are staggered and have a toothed structure. The protective box 15 is fitted over the outer side of the webbing body 1. The cover 13 on its surface is opened and closed by hinge 14. When closed, the snap-fit ​​block 18 under the cover 13 is inserted into the snap-fit ​​groove 16 on the protective box 15, and simultaneously snaps the webbing body 15 shut. The second magnetic block 19 at the bottom of block 18 magnetically attaches to the first magnetic block 17 in the snap-fit ​​groove 16, achieving a tight closure between the cover 13 and the protective box 15. The dual fixation of magnetic attraction and snap-fit ​​effectively prevents dust and moisture from entering, avoiding mold growth at the seams of the webbing body 1 due to moisture, thus extending the service life of the webbing body 1. The snap-fit ​​pieces 20 inside the protective box 15 and the cover 13 have an interlaced tooth structure. When the webbing body 1 passes through the protective box 15, the interlaced snap-fit ​​pieces 20 can form a flexible clamp on the webbing body 1 with moderate clamping force. This not only fixes the position of the webbing body 1 to prevent shaking, but also prevents the webbing body 1 from deforming due to excessive compression, further extending the durability of the webbing body 1. The contents not described in detail in this specification are existing technologies known to those skilled in the art.

[0034] Although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present invention should be included within the protection scope of the present invention.

Claims

1. A high-toughness, wear-resistant webbing, comprising a webbing body (1), characterized in that, The upper and lower surfaces of the webbing body (1) are hot-pressed with protective layers (2), and the side ends of the webbing body (1) are wrapped with protective layers (3). The surface of the protective layers (3) is sprayed with wear-resistant protrusions (4). One end of the webbing body (1) is provided with a protective component. The protective component includes a connector seat (5) installed at one end of the webbing body (1). A fixing plate (7) is installed inside the connector seat (5). A hot-pressing plate (6) is snapped into the inside of the fixing plate (7). A first snapping rod (8) is connected through the hot-pressing plate (6) inside the fixing plate (7). The hot-pressing plate (6) is located at the end of the webbing body (1).

2. The high-toughness wear-resistant webbing according to claim 1, characterized in that: The other end of the webbing body (1) is provided with a snap-fit ​​assembly, which includes a first buckle (9) and a second buckle (11) installed at the other end of the webbing body (1).

3. The high-toughness wear-resistant webbing according to claim 2, characterized in that: The first buckle (9) and the second buckle (11) are both provided with a second locking rod (10). The other end of the webbing body (1) is wrapped around the second locking rod (10) and sewn to the back of the webbing body (1). The first buckle (9) is provided with a locking block (12), which is located on the side of the second buckle (11).

4. The high-toughness wear-resistant webbing according to claim 1, characterized in that: The outer side of the webbing body (1) is fitted with a protective box (15), and the surface of the protective box (15) is connected to a box cover (13) by a hinge (14).

5. The high-toughness wear-resistant webbing according to claim 4, characterized in that: The upper surface of the protective box (15) is provided with a snap-fit ​​groove (16), and a first magnetic block (17) is installed inside the snap-fit ​​groove (16).

6. The high-toughness wear-resistant webbing according to claim 4, characterized in that: A snap-fit ​​block (18) is installed under the cover (13), and the snap-fit ​​block (18) is adapted to the snap-fit ​​groove (16).

7. The high-toughness wear-resistant webbing according to claim 6, characterized in that: The bottom of the snap-fit ​​block (18) is equipped with a second magnetic block (19), which is compatible with the first magnetic block (17).

8. The high-toughness wear-resistant webbing according to claim 4, characterized in that: The protective box (15) and the cover (13) are equipped with snap-fit ​​pieces (20), which are staggered and have a toothed structure.