A type of anti-slip webbing with segmented patterns

By combining a segmented pattern design with a hydrogel anti-slip layer, the problems of hardening, wrinkling, and comfort of traditional webbing are solved, improving the flexibility, anti-slip properties, and comfort of the webbing, and extending its service life.

CN224431110UActive Publication Date: 2026-06-30GUANGDONG SHENGYI IND CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GUANGDONG SHENGYI IND CO LTD
Filing Date
2025-08-19
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

The continuous pattern design of traditional webbing causes the edges of the webbing to harden, wrinkle, and become uneven, affecting comfort and service life. In addition, the continuous pattern is prone to friction damage when in contact with the skin, and the lack of rigidity restricts the freedom of movement.

Method used

It adopts a segmented pattern design with pattern units spaced apart. Combined with an ultra-high molecular weight polyethylene fiber webbing matrix and a hydrogel anti-slip layer, it forms a flexible area and an anti-slip layer through an integrated weaving process, which disperses stress and improves flexibility and comfort.

Benefits of technology

It achieves smooth bending and conforming to curved surfaces of the webbing, reduces material fatigue and tear risk, improves anti-slip performance and comfort, extends service life, and enhances flexibility and breathability.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224431110U_ABST
    Figure CN224431110U_ABST
Patent Text Reader

Abstract

This utility model relates to the field of webbing technology and discloses an anti-slip webbing with a segmented pattern, including a webbing base and a patterned portion. The patterned portion is disposed at the top and bottom edges along the length direction of the webbing base, and the patterned portion is composed of several patterned unit groups arranged at intervals along the length direction of the webbing base. This anti-slip webbing with a segmented pattern, by spaced out several patterned unit groups, leaves a flexible area between the patterned unit components to maintain the original unprocessed state of the webbing base. When the webbing needs to bend, it can effectively disperse stress, avoiding local stiffness and wrinkling. Furthermore, the segmented design acts as stress release points, so when the webbing is under stress, the force is more evenly distributed across the entire webbing, thereby extending the overall service life of the product.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to the field of webbing processing technology, specifically to anti-slip webbing with segmented patterns. Background Technology

[0002] In numerous applications of webbing, such as clothing, bags, footwear, and sports equipment, there are increasingly diverse and demanding requirements for the aesthetics, functionality, and comfort of webbing. Traditional webbing designs often feature a single pattern continuously distributed along the length of the webbing. While this continuous pattern can meet decorative needs to some extent, it also has many drawbacks.

[0003] Traditional segmented or single-piece patterned shoulder straps require three processes: first, weaving the pattern; then, cutting; then, weaving the webbing; and finally, sewing the cut pattern and webbing together. This makes the manufacturing process complex. Furthermore, traditional continuous patterns (especially those with a certain degree of rigidity formed by embroidery, heat pressing, or printing) can harden the edges of the webbing, causing wrinkles and unevenness when bending or wrapping, and even affecting its lifespan. In terms of comfort, continuous patterns have a large contact area with the skin, which can easily cause skin friction damage with prolonged use, affecting wearing comfort. The continuous pattern design makes the webbing too rigid and not flexible enough, making it difficult to conform to the curves of the human body and complex movements, easily creating a feeling of constriction and restricting the freedom of movement. In hot and humid environments, it can easily cause skin dampness and discomfort, and breed bacteria, thus affecting the practicality of the webbing and the user experience.

[0004] In view of the shortcomings of traditional webbing in terms of aesthetics, anti-slip properties, comfort, flexibility and breathability, there is a need for a webbing product that combines reliable anti-slip performance with good comfort and practicality to meet different needs. Utility Model Content

[0005] The purpose of this invention is to provide an anti-slip webbing with segmented patterns. The segmented pattern design can improve the aesthetics, and the intervals between the pattern units form unprocessed flexible areas. When the webbing needs to be bent, the entire webbing can fit the curved surface more smoothly and naturally, avoiding the problems of local stiffness and wrinkling.

[0006] To achieve the above objectives, the present invention provides the following technical solution: an anti-slip webbing with segmented patterns, comprising a webbing base; a patterned portion, wherein the patterned portion is disposed on both sides of the webbing base along its length direction, and the patterned portion is composed of several patterned unit groups arranged at intervals along the length direction of the webbing base; and an anti-slip layer, wherein the anti-slip layer is disposed in the central region of the webbing base along its length direction.

[0007] Preferably, the webbing substrate is integrally woven from warp and weft threads, and both the warp and weft threads are composed of ultra-high molecular weight polyethylene fibers.

[0008] Preferably, the spacing between the plurality of pattern unit groups is the same.

[0009] Preferably, the spacing between the plurality of pattern unit groups is not the same.

[0010] Preferably, the width of the anti-slip layer is smaller than the width of the webbing substrate.

[0011] Preferably, the width of the anti-slip layer is the same as the width of the webbing base.

[0012] Compared with existing technologies, this utility model provides an anti-slip webbing with segmented patterns, which has the following beneficial effects: The anti-slip webbing with segmented patterns is composed of several pattern unit groups arranged at intervals along the length of the webbing base. By setting several pattern unit groups at intervals, there are flexible areas between the pattern unit components to maintain the original unprocessed flexible area of ​​the webbing base. When the webbing needs to bend, stress can be effectively dispersed because bending mainly occurs in these flexible areas. This allows the entire webbing to fit the curved surface more smoothly and naturally, avoiding the problems of local stiffness and wrinkling. Furthermore, the segmented design, by interrupting the continuous stress line formed by the continuous pattern in the traditional process, acts as a "stress release point." When the webbing is under force, the force will be more evenly distributed across the entire webbing, rather than just concentrated on the fragile pattern edges. This effectively reduces the risk of material fatigue and damage caused by stress concentration, significantly improves the adhesion of the pattern and the tear resistance of the webbing itself, thereby extending the overall service life of the product.

[0013] The anti-slip layer made of hydrogel effectively increases the friction between the webbing and the object it contacts, preventing the webbing from slipping during use. In addition to the anti-slip effect, the texture of hydrogel can reduce friction and pressure on the skin, improving the comfort of wearing and using it. Attached Figure Description

[0014] Figure 1 This is a schematic diagram of the three-dimensional structure of the anti-slip webbing with segmented patterns of this utility model;

[0015] Figure 2 This is a top view schematic diagram of the anti-slip webbing with segmented patterns of this utility model;

[0016] Figure 3 This is a schematic diagram of the structure of the anti-slip webbing with segmented patterns of the present invention, including the webbing base and the anti-slip layer.

[0017] Figure 4This is a schematic diagram of the segmented pattern structure of the anti-slip webbing of this utility model when equipped with an adjustment buckle;

[0018] Figure 5 This is a three-dimensional schematic diagram of the anti-slip webbing with segmented patterns of this utility model when equipped with an adjustment buckle.

[0019] In the diagram: 1. Ribbon base; 2. Pattern unit group; 3. Anti-slip layer. Detailed Implementation

[0020] To further understand the features, technical means, and specific objectives and functions achieved by this utility model, the following detailed description of this utility model is provided in conjunction with the accompanying drawings and specific embodiments.

[0021] Please refer to Figures 1-5 A segmented patterned anti-slip webbing includes a webbing base 1, which is integrally woven from warp and weft threads. Both warp and weft threads are composed of ultra-high molecular weight polyethylene (UHMWPE) fibers. This integrally woven structure, combined with the inherent flexibility of UHMWPE fibers, allows the webbing base to maintain a certain degree of stiffness while possessing good flexibility. This enables the webbing to bend and fold flexibly during use, adapting to various complex usage environments and operational needs.

[0022] Traditional segmented or single-piece patterned shoulder straps require three processes: first, weaving the pattern; then, cutting; then, weaving the webbing; and finally, sewing the cut pattern and webbing together. This complex process increases costs significantly. Figure 4 and Figure 5 As shown, this anti-slip webbing adopts an integrated weaving process with segmented patterns, which allows the pattern to be displayed on the front or back half of the webbing alone. This avoids the adjustment space of the figure-eight loop, making it more beautiful and practical. It reduces two processes, saves manpower, materials, and costs, and improves efficiency.

[0023] It should be noted that traditional continuous patterns (especially those with a certain degree of hardness formed by embroidery, hot pressing, or offset printing) can harden the edges of the webbing, causing wrinkles and unevenness when the webbing is bent or wrapped, and even affecting its service life. Furthermore, when continuous patterns are subjected to long-term stretching or friction, stress will concentrate at the bonding line between the pattern and the substrate, which can easily lead to cracking and peeling of the pattern layer, or tearing of the webbing edges. Therefore, the following section on patterns is designed to solve these technical problems.

[0024] The specific shape and pattern of the pattern section are not specifically limited. The pattern section is set at the top edge and bottom edge of the webbing substrate along the length direction. The pattern section is composed of several pattern unit groups 2 arranged at intervals along the length direction of the webbing substrate. By setting several pattern unit groups 2 at intervals, there are left between the pattern unit components to maintain the original unprocessed flexible area of ​​the webbing substrate 1.

[0025] When the webbing needs to be bent (e.g., used as shoulder straps for backpacks, edging for clothing, sweatbands for hats, etc.), stress can be effectively dispersed. The bending mainly occurs in these flexible areas, allowing the entire webbing to conform more smoothly and naturally to the curved surface, avoiding the problems of local stiffness and wrinkling. Furthermore, the segmented design acts as a "stress release point" by interrupting the continuous stress lines formed by the continuous patterns in traditional processes.

[0026] When the webbing is under stress, the force is distributed more evenly across the entire webbing, rather than being concentrated only at the vulnerable edges of the pattern. This effectively reduces the risk of material fatigue and damage caused by stress concentration, significantly improves the adhesion of the pattern and the tear resistance of the webbing itself, thereby extending the overall service life of the product.

[0027] The anti-slip layer 3 has no specific shape limitation. The anti-slip layer 3 is set in the central area of ​​the webbing base 1 along its length. By setting it in the central area, it ensures contact with human skin, improves the stability of the webbing base 1, and prevents the webbing base 1 from shifting when worn.

[0028] The anti-slip layer 3 is prepared and formed on the surface of the webbing substrate 1 through the following three steps:

[0029] Step 1: Cleaning, drying, and pre-treatment of the webbing substrate: Clean the webbing to remove surface dust, oil, and finishing agents. Then, dry the cleaned webbing completely in an oven at 60-80°C. The middle area of ​​the webbing undergoes plasma surface activation treatment, which improves the adhesion of subsequent coatings.

[0030] Step 2: Coating. The prepared hydrogel precursor solution is coated onto the middle part of the webbing substrate by screen printing and doctor blade.

[0031] Step 3: The coated webbing is fed into the curing equipment and passed through the UV lamp irradiation zone. Under the set wavelength and energy, the webbing is irradiated for tens of seconds to several minutes to initiate polymerization and cross-linking reactions. During this process, the monomer molecular chains grow and are connected by the cross-linking agent to form a stable three-dimensional polymer network structure, locking water molecules in it. Finally, a layer of elastic and sticky hydrogel anti-slip layer is formed on the surface of the webbing.

[0032] Specifically, the spacing between several pattern unit groups 2 is the same. When the spacing between several pattern unit groups 2 is the same, the resulting texture can improve flexibility, stability, and breathability. Specifically, the breathability is improved because when the pattern unit groups 2 are formed by hot pressing or offset printing to create a pattern with a certain degree of hardness, the edges of the webbing become harder, while the blank areas created by the segmented spacing retain the original breathable pores of the webbing substrate. This allows moisture and heat to dissipate more easily, greatly improving the product's breathability and providing users with a more comfortable wearing experience.

[0033] Specifically, varying the spacing between different pattern unit groups 2 can improve flexibility, comfort, and breathability. Furthermore, the different spacing allows for a rational design of the pattern distribution and density based on the different applications and functional requirements of the webbing. For example, increasing the density and complexity of the pattern in areas where decoration is emphasized, while using more spaced patterns in areas prioritizing comfort and breathability, allows the webbing to meet aesthetic requirements while also possessing better practicality and functionality.

[0034] Specifically, the anti-slip layer 3 is an elastomer with a three-dimensional network structure formed by a curing reaction of a mixture containing a polymer, a crosslinking agent and water.

[0035] Specifically, the polymer is selected from at least one of polyacrylates, polyacrylamides, polyvinyl alcohols, or alginates. Of course, copolymers of acrylic acid and acrylamide, copolymers of sodium alginate and chitosan, copolymers of polyacrylamide and acrylamide, etc., can also be used.

[0036] Specifically, the anti-slip layer 3 is formed by applying a solution to the central area of ​​the webbing substrate and then curing it by light or heat.

[0037] Specifically, the width of the anti-slip layer 3 is smaller than the width of the webbing base 1.

[0038] Specifically, the width of the anti-slip layer 3 is the same as the width of the webbing base 1.

[0039] The above embodiments only illustrate one or more implementations of this utility model, and their descriptions are relatively specific and detailed, but they should not be construed as limiting the scope of this utility model. It should be noted that those skilled in the art can make various modifications and improvements without departing from the concept of this utility model, and these all fall within the protection scope of this utility model. Therefore, the protection scope of this utility model should be determined by the appended claims.

Claims

1. A non-slip fabric belt having a segmented pattern, characterized by: It includes a webbing base (1); a patterned portion, which is disposed on both sides of the length direction of the webbing base (1), and the patterned portion is composed of a number of patterned unit groups (2) arranged at intervals along the length direction of the webbing base (1); and an anti-slip layer (3), which is disposed in the central area of ​​the length direction of the webbing base (1).

2. The anti-slip webbing with segmented patterns according to claim 1, characterized in that, The webbing substrate (1) is woven from warp and weft threads, both of which are made of ultra-high molecular weight polyethylene fibers.

3. The anti-slip webbing with segmented patterns according to claim 1, characterized in that, The spacing between several of the pattern unit groups (2) is the same.

4. The anti-slip webbing with segmented pattern according to claim 1, characterized in that, The spacing between several of the pattern unit groups (2) is not the same.

5. The anti-slip webbing with segmented patterns according to claim 1, characterized in that, The width of the anti-slip layer (3) is smaller than the width of the webbing substrate (1).

6. The anti-slip webbing with segmented pattern according to claim 1, characterized in that, The width of the anti-slip layer (3) is the same as the width of the webbing base (1).