Anti-skid shock-absorbing self-adapting adjustable shoulder strap

CN224402952UActive Publication Date: 2026-06-26GUANGDONG 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
2025-08-07
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

一方面,普通肩带与肩部的摩擦力较小,在人体运动或日常活动过程中,容易出现滑落现象,不仅影响穿着者的使用体验,还可能造成尴尬局面;另一方面,现有的肩带往往缺乏有效的减震设计,当穿着者进行较大幅度的运动或活动时,胸部的震动会直接传递到肩部,对肩部造成较大压力,导致肩部酸痛不适

Benefits of technology

[0012]进一步优选的,上述第二段织带设置有3-5个磁铁,每个磁铁之间的距离为0.5-2cm。通过在第二段织带设置有3-5个磁铁,在实现肩带的逐级调节长度的前提下,多个吸附磁铁,可以进一步保障吸附连接效果,在某一个磁铁因为运动位移时,其它磁铁也还能保持相应的作用。

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Abstract

The utility model provides an adjustable shoulder strap of antiskid shock attenuation self -adaptation, including the braid, the braid is multilayer braid, fills with self -adaptation material between the braid layer or has the self -adaptation material and is bonded in the one side of braid, the braid is divided into first section braid and second section braid, and first section braid and second section braid are equipped with the magnet that can mutually adsorb respectively in the position close to the end, wherein first section braid is discontinuous and is provided with a plurality of magnets respectively along the braid length direction. Through embedding self -adaptation material such as ACF material or other material that can deform on the shoulder strap, the outer surface of braid is bonded with the antiskid material layer, can realize the state of recovery after pressing, thereby make the shoulder strap can be more close to the body of the wearer, can antiskid, shock attenuation, also can make the wearer not feel tight. Through setting up the magnet in one section of braid, another section also is provided with the magnet, has the mutual adsorption effect, can therefore not need the shoulder strap buckle etc. function, and can adjust the length at random.
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Description

Technical Field

[0001] This utility model belongs to the field of webbing technology, specifically relating to an adjustable shoulder strap that is anti-slip, shock-absorbing, and self-adaptive. Background Technology

[0002] In modern lingerie design, shoulder straps are an important component of the bra, not only supporting the bra and the breasts, but also significantly influencing the comfort and aesthetics of wearing it.

[0003] Currently, bra straps on the market have many problems. On the one hand, ordinary bra straps have low friction with the shoulder, making them prone to slipping during movement or daily activities, affecting the wearer's experience and potentially causing embarrassment. On the other hand, existing bra straps often lack effective shock absorption design. When the wearer engages in significant movement or activity, the vibration of the chest is directly transmitted to the shoulder, putting considerable pressure on it and causing shoulder pain and discomfort. Furthermore, traditional bra strap adjustment mechanisms are relatively simple and cannot meet the needs of users with different body types and wearing requirements. Additionally, figure-eight ring adjustments can be loose or loose, and their stability after adjustment is poor, easily leading to loosening. As people's demands for bra comfort and functionality continue to increase, developing a bra strap that is effectively anti-slip, shock-absorbing, and flexible in adjustment has become an urgent problem to be solved. Utility Model Content

[0004] The main purpose of this invention is to provide an adjustable shoulder strap that is anti-slip, shock-absorbing, and self-adjusting, thereby solving the shortcomings of current bra shoulder straps in terms of anti-slip properties, shock absorption, and flexible adjustment.

[0005] To achieve the above objectives, the technical solution of this utility model is: an anti-slip, shock-absorbing, adaptive adjustable shoulder strap, comprising a webbing, wherein the webbing is a multi-layered webbing, with an adaptive material filling the spaces between the webbing layers; an anti-slip material layer is adhered to the outer surface of the webbing; the webbing is divided into a first section and a second section, wherein the first section and the second section are respectively provided with magnets that can attract each other near their ends; wherein multiple magnets are intermittently arranged along the length of the webbing in the first section.

[0006] By embedding adaptive materials such as ACF or other deformable materials into the shoulder straps, a return-to-normal state after being pressed can be achieved. The anti-slip material layer is made of hydrogel, which is more suitable for human skin. Utilizing a nano-gecko claw texture, it adheres to the skin and maintains strong adhesion even when sweating, achieving an anti-slip effect. This allows the shoulder straps to fit the wearer's body more closely, providing both anti-slip and shock absorption without feeling constricting. By placing magnets at both ends of the webbing, they attract each other, eliminating the need for shoulder strap buckles and allowing for easy length adjustment. This eliminates the need for users to cumbersomely open and close shoulder strap buckles to adjust the length.

[0007] More preferably, the aforementioned adaptive material is one or more of ACF material, shock-absorbing yarn, or ACF material wrapped with shock-absorbing yarn; the anti-slip material layer is a hydrogel material.

[0008] Further preferably, the aforementioned adaptive material is filled intermittently, with the interval not exceeding 2cm. By intermittently setting the adaptive material, material is saved, and it is also easier to fix the adaptive material on the webbing; at the same time, it is also easier for the adaptive material to release deformation pressure, making the adaptive material fit the wearer's body more closely.

[0009] More preferably, the anti-slip material layer described above has a nano-gecko claw-like texture on the side that comes into contact with the wearer.

[0010] In a further preferred embodiment, the magnet is recessed in the first section of the webbing and protruded in the second section of the webbing, wherein the recessed and protruding magnets can fit together. Besides magnetic attraction in the direction perpendicular to the magnet surfaces, the fitting structure of the recessed and protruding magnets also provides some of the hooking friction, thereby increasing the attraction and bonding force.

[0011] Preferably, the first section of the webbing is equipped with 3-5 magnets, with a distance of 0.5-2 cm between each magnet. By incorporating 3-5 magnets into the first section of the webbing, the shoulder strap length can be adjusted in stages.

[0012] Preferably, the second section of the webbing is equipped with 3-5 magnets, with a distance of 0.5-2cm between each magnet. By incorporating 3-5 magnets into the second section of the webbing, the multiple magnets not only allow for gradual adjustment of the shoulder strap length but also ensure effective adhesion. Even if one magnet shifts due to movement, the other magnets can still maintain their function.

[0013] Compared with existing technologies, the specific advantages of this utility model mainly include: by embedding adaptive materials such as ACF or other deformable materials into the shoulder strap, it can achieve a return to its original state after being pressed; by using hydrogel material as the anti-slip material, which is more suitable for human skin composition, and employing nano-gecko claw texture, it can adhere to human skin, and even when sweating, it also has strong adhesion on the vertical surface, achieving an anti-slip effect. This allows the shoulder strap to fit the wearer's body more closely, providing both anti-slip and shock absorption, while preventing the wearer from feeling constricted. By setting magnets at one end of the webbing and another at the other end, they have a mutual attraction effect, thus eliminating the need for shoulder strap buckles such as figure-eight rings and allowing for arbitrary length adjustment; this eliminates the need for users to cumbersomely open and close shoulder strap buckles to adjust the length. Attached Figure Description

[0014] Figure 1 This is a side cross-sectional view of the anti-slip and shock-absorbing adaptive adjustable shoulder strap in Example 1;

[0015] Figure 2 This is a schematic diagram of the component installation structure of the anti-slip and shock-absorbing adaptive adjustable shoulder strap in Example 1;

[0016] Figure 3 This is a schematic diagram of the anti-slip material layer structure in Example 1;

[0017] Figure 4 This is a side cross-sectional view of the anti-slip and shock-absorbing adaptive adjustable shoulder strap in Example 2.

[0018] The labels in the diagram are: 1. Webbing; 11. First section of webbing; 12. Second section of webbing; 2. Adaptive material; 3. Magnet; 4. Anti-slip material layer; 41. Pile. Detailed Implementation

[0019] To facilitate understanding of this utility model, the following description will be provided in more comprehensive and detailed form with reference to the accompanying drawings and preferred embodiments. However, the scope of protection of this utility model is not limited to the specific embodiments described below. It should be particularly noted that in the description of this utility model, the terms "center," "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," and "outer," etc., indicating orientations or positional relationships, are based on the orientations or positional relationships shown in the accompanying drawings and are only for the convenience of describing this utility model and simplifying the description. They do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as a limitation of this utility model. Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance.

[0020] Example 1

[0021] An anti-slip, shock-absorbing, adaptive adjustable shoulder strap

[0022] like Figure 1 As shown, the shoulder strap includes a webbing 1, which is a double-layer webbing with an adaptive material 2 filling the space between the layers. The adaptive material is ACF material. The adaptive material 2 is filled by filling the entire webbing with ACF material through an opening on the side of the webbing. An anti-slip material layer 4 is bonded to one side of the webbing 1. The anti-slip material layer is a hydrogel material. The webbing 1 is divided into a first section 11 and a second section 12. The first section 11 and the second section 12 are respectively provided with magnets 3 that can attract each other near their ends. The first section 11 has multiple magnets 3 intermittently arranged along the length of the webbing.

[0023] Ordinary webbing has a rigid horizontal structure with no rebound space, causing the shoulders to experience direct downward force during strenuous exercise. The fixed structure of ordinary materials lacks flexibility, resulting in stiffness and discomfort. ACF (Anti-Flat Fabric) is adaptable, conforming to different body shapes to better fit the contours of the human body. Wearing this adaptive material provides greater comfort. This solution utilizes ACF material embedded in the middle layer of the webbing. ACF strongly absorbs intense impact, dispersing the downward force on the chest during vigorous exercise, resulting in a stronger shock absorption effect.

[0024] Commercially available silicone materials require significant pressure to achieve an anti-slip effect; once this pressure is released, the anti-slip effect disappears. They also lose their effectiveness when sweating, and the material may react negatively with human skin, causing allergies. Furthermore, silicone materials lack multi-angle adhesion during various body movements, causing the webbing to shift. This solution uses a hydrogel material for anti-slip, which is more suitable for human skin. Utilizing a nano-gecko claw texture, it adheres to the skin, maintaining strong adhesion even when sweating, achieving an anti-slip effect on vertical surfaces. During daily body movements at various angles, the webbing adheres to the skin, preventing shifting, shoulder strap slippage, or bandage misalignment.

[0025] In this embodiment, the anti-slip material layer 4 has nano-gecko claw-like fibers 41 on the side that comes into contact with the wearer.

[0026] In this embodiment, the first magnet 3 is recessed in the first section of webbing 11 and protruded in the second section of webbing 12, wherein the recessed and protruding magnets can fit together.

[0027] In this embodiment, the first section of webbing is provided with 4 magnets, and the distance L2 between each magnet is 1cm.

[0028] In this embodiment, the second section of the webbing is provided with 3 magnets, and the distance L3 between each magnet is 1cm.

[0029] Example 2

[0030] An adjustable shoulder strap that is anti-slip, shock-absorbing, and adaptive.

[0031] like Figure 1 As shown, the shoulder strap includes a webbing 1, which is a double-layered webbing with an adaptive material 2 filled between the layers. The adaptive material is ACF material. The adaptive material 2 is filled intermittently through openings on the side of the webbing, with an interval L1 of 1.5 cm. An anti-slip material layer 4 is bonded to one side of the webbing 1. The anti-slip material layer is a hydrogel material. The webbing 1 is divided into a first section 11 and a second section 12. The first section 11 and the second section 12 are respectively provided with magnets 3 that can attract each other near their ends. The first section 11 has multiple magnets 3 intermittently arranged along the length of the webbing.

[0032] In this embodiment, the anti-slip material layer 4 has nano-gecko claw-like fibers 41 on the side that comes into contact with the wearer.

[0033] In this embodiment, the first magnet 3 is recessed in the first section of webbing 11 and protruded in the second section of webbing 12, wherein the recessed and protruding magnets can fit together.

[0034] In this embodiment, the first section of webbing is provided with 3 magnets, and the distance L2 between each magnet is 1cm.

[0035] In this embodiment, the second section of the webbing is provided with 3 magnets, and the distance L3 between each magnet is 1cm.

Claims

1. An adjustable shoulder strap with anti-slip and shock-absorbing self-adaptive properties, characterized in that, Includes a webbing (1), which is a multi-layer webbing with an adaptive material (2) filling between the webbing layers; an anti-slip material layer (4) is bonded to the outer surface of the webbing (1); the webbing is divided into a first section of webbing (11) and a second section of webbing (12), and the first section of webbing (11) and the second section of webbing (12) are respectively provided with magnets (3) that can attract each other near the end; wherein the first section of webbing (11) is provided with multiple magnets (3) intermittently along the length of the webbing.

2. The adjustable shoulder strap according to claim 1, characterized in that, The adaptive material is one or more of ACF material, shock-absorbing yarn, or ACF material wrapped with shock-absorbing yarn; the anti-slip material layer is a hydrogel material.

3. The adjustable shoulder strap according to claim 2, characterized in that, The adaptive material is filled intermittently, with the interval not exceeding 2 cm.

4. The adjustable shoulder strap according to any one of claims 1-3, characterized in that, The anti-slip material layer (4) has nano-gecko claw-like fibers (41) on the side that comes into contact with the wearer.

5. The adjustable shoulder strap according to claim 4, characterized in that, The magnet (3) is recessed in the first section of webbing (11) and protruded in the second section of webbing (12), wherein the recessed and protruding magnets can fit together.

6. The adjustable shoulder strap according to claim 5, characterized in that, The first section of the webbing is equipped with 3-5 magnets, with a distance of 0.5-2cm between each magnet.

7. The adjustable shoulder strap according to claim 6, characterized in that, The second section of the webbing is equipped with 3-5 magnets, with a distance of 0.5-2cm between each magnet.