A comfortable elastic webbing
By setting multiple functional zones on the main body of the webbing and utilizing a thickness-differentiated design and mesh structure, the discomfort caused by thickness deviation of the binding tape is solved, improving the comfort and breathability of the webbing and meeting diverse market demands.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- NEW HORIZON ELASTIC FABRIC
- Filing Date
- 2025-08-13
- Publication Date
- 2026-07-03
AI Technical Summary
In the current packaging technology, the thickness variation of the edge banding leads to an uncomfortable wearing experience, and its functions and appearance are limited, making it difficult to meet the diverse market demands.
A comfortable elastic webbing is designed, which adopts multiple functional zones. By setting a first folding zone, a connecting zone and a second folding zone along the width direction of the webbing body, and setting different thicknesses and functional zones in each zone, including a planar connecting zone, a mesh breathable zone and a functional planar zone, the webbing achieves a breathable and non-slip effect by using thickness differentiation design and mesh structure combined with elastic yarn material.
It improves the comfort and breathability of the webbing, reduces the amount of raw materials used, achieves uniform connection with the garment fabric, and has a simple and beautiful appearance, meeting diverse market demands.
Smart Images

Figure CN224440486U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to a webbing, specifically a comfortable elastic webbing. Background Technology
[0002] In the current apparel industry, binding tape is a commonly used accessory. After the binding tape connects to the garment fabric, its thickness increases compared to other sections of the tape, leading to variations in thickness. Significant thickness variations can cause discomfort when wearing the tape. Furthermore, the functionality and appearance of binding tape currently on the market are relatively limited, making it difficult to meet the increasingly diverse and demanding product requirements of the apparel market. Summary of the Invention
[0003] To address the aforementioned technical problems, this invention provides a comfort elastic webbing that enhances comfort.
[0004] To solve the above-mentioned technical problems, the present invention adopts the following technical solution:
[0005] A comfortable elastic webbing includes a webbing body. The webbing body includes a first folding area, a connecting area, and a second folding area along its width. The first folding area and the second folding area are connected on both sides of the connecting area. The first folding area includes a first planar connecting area and a first mesh ventilation area connected together. The second folding area includes a second planar connecting area and a second mesh ventilation area connected together. The thickness T1 of the first planar connecting area is less than the thickness T2 of the first mesh ventilation area, and the thickness difference T2-T1 ≥ 5 mm. The thickness T7 of the second planar connecting area is less than the thickness T6 of the second mesh ventilation area, and the thickness difference T6-T7 ≥ 5 mm.
[0006] As a further improvement, the widths of the first folding area and the second folding area are the same, and the widths W1 of the first planar connecting area and W7 of the second planar connecting area satisfy the following proportional relationship:
[0007] As a further improvement, the first folding area also includes a first functional plane area, one side of which is connected to the connecting area and the other side of which is connected to the first mesh ventilation area; the second folding area also includes a second functional plane area, one side of which is connected to the connecting area and the other side of which is connected to the connecting area.
[0008] As a further improvement, the thickness T3 of the first functional planar region is greater than the thickness T4 of the connecting region, and the thickness difference is greater than that of the first functional planar region. The thickness T5 of the second functional plane is greater than the thickness T4 of the connecting area, and the thickness difference is greater than that of the second functional plane.
[0009] As a further improvement, the first planar connection area, the first functional planar area and / or the first mesh ventilation area, as well as the second planar connection area, the second functional planar area and / or the second mesh ventilation area, are woven together to form a plurality of pattern unit structures. A pattern unit structure includes a first adjustment area, a pattern area and a second adjustment area arranged in sequence. The pattern area is woven to form a LOGO or a pattern, and the first adjustment area and the second adjustment area are located on both sides of the pattern area.
[0010] As a further improvement, the widths W1 and W7 of the first planar connecting area and the second planar connecting area are both ≥5 mm, the widths W2 and W6 of the first mesh breathable area are both ≥3 mm, the widths W3 and W5 of the first functional plane area are both ≥1 mm, the widths of the first planar connecting area and the second planar connecting area are the same or different, the widths of the first mesh breathable area and the second mesh breathable area are the same or different, and the widths of the first functional plane area and the second functional plane area are the same or different.
[0011] As a further improvement, both the first and second mesh ventilation areas include a solid area and several holes. The ratio of the total area of the holes in the first mesh ventilation area to the total area of the first mesh ventilation area is ≥1%, and the ratio of the total area of the holes in the second mesh ventilation area to the total area of the second mesh ventilation area is ≥1%.
[0012] As a further improvement, the holes are concave in shape, and the solid areas are convex in shape.
[0013] As a further improvement, the main body of the webbing is woven from polyester, nylon, cotton or acrylic, and elastic yarn is added to the main body of the webbing, which is covered yarn, spandex or rubber.
[0014] As a further improvement, the main body of the webbing is a knitted structure or a woven structure.
[0015] Compared with the prior art, the present invention has the following beneficial technical effects:
[0016] Multiple functional zones are formed along the width of the webbing, and the thickness varies. When connected with the garment fabric, it can form a smoother surface and a more uniform thickness, improving comfort. The mesh ventilation zone not only provides breathability, but also uses the height difference between the solid zone and the holes to create an anti-slip effect. The proportion of holes can achieve lightweighting, reducing the production cost of raw materials while reducing the amount of raw materials used. Attached Figure Description
[0017] Figure 1 This is a schematic diagram of the structure of Embodiment 1 of the present utility model;
[0018] Figure 2This is a schematic diagram of the structure of Embodiment 2 of the present invention;
[0019] Figure 3 This is a structural schematic diagram of the present invention from another angle;
[0020] Figure 4 This is a partial loop diagram of the present invention;
[0021] Figure 5 This is a schematic diagram of the cross-sectional state of the present invention when worn by the human body;
[0022] Figure 6 This is a schematic diagram of the knitting process of this utility model;
[0023] Figure 7 This is a partial planar schematic diagram of the knitting process of this utility model;
[0024] Figure 8 This is a schematic diagram of the weaving process of this utility model;
[0025] Figure 9 This is a schematic diagram of the woven fabric process of this utility model.
[0026] Figure 10 This is a schematic diagram illustrating the effect of the finished product in application of this utility model. Detailed Implementation
[0027] Embodiments of the present invention are described in detail below, examples of which are shown in the accompanying drawings, wherein the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the accompanying drawings are exemplary and are only used to explain the present invention, and should not be construed as limiting the present invention.
[0028] In the description of this invention, it should be understood that if terms such as "center," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," and "counterclockwise" are used to indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings, they are only for the convenience of describing the invention and simplifying the description, and 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 the invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of indicated technical features. Thus, features defined with "first" and "second" may explicitly or implicitly include one or more of the stated features. In the description of this invention, "a plurality of" means two or more, unless otherwise explicitly specified.
[0029] In the description of this invention, it should be noted that, unless otherwise explicitly specified and limited, the terms "installation," "connection," and "joining" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection. They can refer to a mechanical connection or an electrical connection. They can refer to a direct connection or an indirect connection through an intermediate medium, and they can refer to the internal communication of two components or the interaction between two components. For those skilled in the art, the specific meaning of the above terms in this invention can be understood according to the specific circumstances.
[0030] Example 1
[0031] like Figure 1 As shown, a comfortable elastic webbing includes a webbing body. The webbing body includes a first folding area, a connecting area 4, and a second folding area along its width. The first folding area and the second folding area are connected on both sides of the connecting area. The first folding area includes a first planar connecting area 1 and a first mesh ventilation area 2 connected together. The second folding area includes a second planar connecting area 7 and a second mesh ventilation area 6 connected together. The thickness T1 of the first planar connecting area 1 is less than the thickness T2 of the first mesh ventilation area 2, and the thickness difference T2-T1 ≥ 5 mm. The thickness T7 of the second planar connecting area 7 is less than the thickness T6 of the second mesh ventilation area 6, and the thickness difference T6-T7 ≥ 5 mm. The whole webbing forms 5 sections, which are symmetrically distributed on both sides with the connecting area as the center.
[0032] By utilizing the first mesh ventilation zone 2 and the second mesh ventilation zone 6, the overall breathability of the webbing can be effectively enhanced, while increasing airflow, thereby improving the quick-drying performance of the webbing to a certain extent and enhancing the comfort when wearing it.
[0033] The first and second folding areas have the same width, resulting in a neater appearance during application. The first planar connecting area 1 and the second planar connecting area 7 are used to connect with the garment fabric. Folding is performed with the connecting area 4 as the folding center, causing the edges of the first and second folding areas to fit together and fold in opposite directions to form a binding edge. Through processes such as cutting, ultrasonic heat-melting welding, and bonding, a seamless, ring-shaped V-shaped binding tape is ultimately formed.
[0034] After the first planar connecting area 1 and the second planar connecting area 7 are combined with the fabric, the thickness of these areas will increase accordingly. To avoid the problem of localized thickening after combining with the garment fabric, a thickness differentiation design is adopted in different sections. That is, there is a thickness difference between the first planar connecting area 1 and the first mesh ventilation area 2, and a thickness difference between the second planar connecting area 7 and the second mesh ventilation area 6. This optimized design eliminates the height difference between the mesh ventilation area and the garment connection area to a certain extent, making the overall thickness of the webbing more consistent. This provides the wearer with a more comfortable skin-hugging feel and gives the finished product a simple and beautiful visual effect.
[0035] Example 2
[0036] refer to Figure 2-4 As shown in Figure 10, unlike the first embodiment which has 5 functional zones, this embodiment has 7 functional zones.
[0037] A comfortable elastic webbing includes a webbing body. The webbing body includes a first folding area, a connecting area 4, and a second folding area along its width. The first folding area and the second folding area are connected on both sides of the connecting area. The first folding area includes a first planar connecting area 1, a first mesh ventilation area 2, and a first functional planar area 3 connected in sequence. The second folding area includes a second planar connecting area 7, a second mesh ventilation area 6, and a second functional planar area 5 connected in sequence. One side of the first functional planar area 3 is connected to the connecting area 4, and the other side of the first functional planar area 3 is connected to the first mesh ventilation area 3. One side of the second functional planar area 5 is connected to the connecting area 4, and the other side of the second functional planar area 5 is connected to the second mesh ventilation area 6. The thickness T1 of the first planar connecting area is less than the thickness T2 of the first mesh ventilation area, and the thickness difference T2-T1 ≥ 5 mm. The thickness T7 of the second planar connecting area is less than the thickness T6 of the second mesh ventilation area, and the thickness difference T6-T7 ≥ 5 mm.
[0038] The thickness and width of each partition have the following specific structural relationships:
[0039] The first folding area and the second folding area have the same total width, and the width W1 of the first planar connecting area and the width W7 of the second planar connecting area satisfy the following proportional relationship: W1 and W7 ≥ 5MM, preferably ≥ 10MM.
[0040] The width W2 of the first mesh ventilation area and the width W6 of the second mesh ventilation area are both ≥3 mm. Since the larger the mesh area, the better the air permeability, it is preferable to choose W2 and W7 ≥10 mm.
[0041] The width W3 of the first functional plane area 3 and the width W5 of the second functional plane area 5 are both ≥1 mm, preferably ≥3 mm. The widths of the first plane connecting area 1 and the second plane connecting area 7 may be the same or different, the widths of the first mesh ventilation area 3 and the second mesh ventilation area 6 may be the same or different, and the widths of the first functional plane area 3 and the second functional plane area 5 may be the same or different. These can be flexibly set according to the usage scenario.
[0042] The thickness T3 of the first functional planar region is greater than the thickness T4 of the connecting region and the thickness difference is greater. The thickness T5 of the second functional plane is greater than the thickness T4 of the connecting area, and the thickness difference is greater than that of the second functional plane. This thickness difference makes the first and second folding areas easy to fold.
[0043] Example 3
[0044] like Figure 2-5 As shown in Figure 10, the first planar connecting area 1, the first functional planar area 3, and / or the first mesh ventilation area 2, as well as the second planar connecting area 7, the second functional planar area 5, and / or the second mesh ventilation area 6, are woven together to form several pattern unit structures. Each pattern unit structure includes a first adjustment area 8, a pattern area 9, and a second adjustment area 10 arranged sequentially. The pattern area is woven to form a logo or pattern. The first adjustment area 8 and the second adjustment area 10 are located on both sides of the pattern area 9, and the first and second adjustment areas are blank areas. By reserving two adjustment areas, when the loop length of the pattern area is too short, the length is supplemented by the first and second adjustment areas to ensure that the loop length of the webbing accurately matches the requirements; if the loop length of the pattern area is too long, the redundant part of the adjustment area is cut off, thereby achieving flexible adjustment.
[0045] Both the first mesh breathable area 2 and the second mesh breathable area 6 include a solid area 11 and several holes 12. The holes 12 have a concave structure, while the solid area 11 has a convex structure, creating a height difference. When worn by a person, the webbing exerts pressure on the skin 13. Because the skin 13 is elastic, there is a slight deformation where the skin contacts the mesh. When moving left and right, a certain amount of friction is generated, thus providing a certain anti-slip effect. The ratio of the total area of the holes in the first mesh breathable area to the total area of the first mesh breathable area is ≥1%, and the ratio of the total area of the holes in the second mesh breathable area to the total area of the second mesh breathable area is ≥1%. For better breathability, the porosity is preferably set to ≥10%. The number and shape of the holes in the first and second mesh breathable areas can be the same or different.
[0046] The perforated air zones increase airflow and improve the rate of moisture evaporation, thereby enhancing quick-drying performance to some extent. Thanks to the perforated structure design, the webbing achieves lightweight construction, reducing raw material production costs and decreasing raw material usage. The main body of the webbing is woven from polyester, nylon, cotton, or acrylic fibers, and elastic yarns, such as covered yarn, spandex, or rubber, are added to the main body.
[0047] In addition, the main body of the webbing is a knitted structure or a woven structure.
[0048] The following description uses a production example.
[0049] Production Implementation 1
[0050] This paper uses a knitting and crochet machine as an example to illustrate the specific implementation method of this product.
[0051] 1. Process Design:
[0052] like Figure 6 The following is a detailed example using seven functional zones along the width direction. Weft weft structures 14 and 20 are distributed in the bottom and top layers, each shifting 8 stitches laterally, with a padding yarn number of 9-1. These form the first planar connecting area 1 and the second planar connecting area 7. Both use nylon material, with the bottom and top layers using a yarn specification of 40 / 34 / 2SD per piece. Simultaneously, six weft weft structures 15 and 19 are located in the bottom and top layers respectively, using a padding yarn number of 4-1-3-1-3-1-4-2-4-2 as a repeating unit to repeatedly weave the first mesh ventilation area 2 and the second mesh ventilation area 6. These two areas also use nylon material, with a yarn specification of 70 / 68 / 2SD per piece. The yarn used in these areas is thicker than that used in the first planar connecting area 1 and the first planar connecting area 7, thus creating a thickness difference between them. The weft weft structures 16 and 18 form the first functional plane area 3 and the second functional plane area 5 by shifting 4 stitches laterally in the bottom and top layers respectively, with a yarn padding number of 5-1. The raw material is nylon, and the yarn specification is 70 / 68 / 2SD for both the bottom and top layers. The weft weft structure 4 connects the first and second functional plane areas by shifting 2 stitches laterally in the bottom layer and using a yarn padding number of 3-1 in a repeating weave. The yarn is nylon, with a yarn specification of 40 / 34 / 2SD, making the connecting area 4 thinner and easier to fold than the first and second functional plane areas 3 and 2. Elastic yarn is woven between the bottom and top weft layers, with a yarn padding number of 2-1. The yarn material is spandex, with a specification of 560D, and the elastic yarn gives the webbing its elasticity. The webbing can be used for logo / pattern jacquard, such as... Figure 7As shown, the "SPORT" logo is formed by weaving 280 rows of three weft threads (21, 22, 23) onto the mesh surface according to a set weft yarn number. Adjustment areas 8 and 10 between the logos are formed by regularly shifting one stitch horizontally after the "SPORT" logo is woven, for a total of 200 rows. The yarn material is nylon, with one yarn each of 70 / 68 / 2SD specifications. All weft threads are secured by a chain stitch, also made of nylon with a specification of 70 / 68 / 2SD.
[0053] 2. Production process:
[0054] Raw materials are prepared according to the above process plan, and production begins on the machine to produce blank webbing. Subsequently, with the help of finishing processes, the blank webbing is transformed into finished webbing. Finally, using ultrasonic cutting, welding, and bonding techniques, the finished webbing is crafted into a seamless, looped V-shaped binding tape, such as... Figure 9 As shown.
[0055] Example 2:
[0056] This embodiment mainly uses the JM6 / 42 woven computer jacquard machine as the main production equipment.
[0057] 1. Weaving process
[0058] like Figure 9 As shown, it is divided into seven functional areas. The first planar connection area 1 and the second planar connection area are planar connection areas; the first mesh ventilation area and the second mesh ventilation area are mesh ventilation areas; and the first functional planar area 3 and the second functional planar area are planar areas. Figure 8As shown, frames five and six are spandex-covered yarn structures with a body skeleton, and the yarn runs in a one-up-one-down pattern. Frames seven, eight, nine, and ten are the structures of the first and second planar connection areas. To make the connection area thinner, the yarn mainly follows a three-up-one-down and three-down-up-down planar structure. The material is 40 / 34 / 2SD nylon, and the width W1 = W7 = 8mm. Frames 1, 2, 3, and 4 are the structures of the first and second mesh ventilation areas. The movement of the twill warp and the ground warp is controlled by the combination of twill and structure, so that the twill warp interweaves with the weft yarns on both sides of the ground warp, realizing the left and right movement of the twill warp in the weft direction, thus forming a mesh effect. The material is 70 / 68 / 2SD nylon, and the width W2 = W6 = 10MM; Frames 11, 12, 13, and 14 represent the structure of the first functional plane area 3 and the second functional plane area in the jacquard flat area. The yarn in the flat area mainly follows a three-up-one-down and three-down-one-up pattern, using computer-controlled loose hem to control the LOGO weaving. The material is 70 / 68 / 2SD nylon. Because the materials used in the first and second mesh breathable areas, and the first and second functional plane areas 3 and 2 are thicker than those used in the first and second plane connecting areas 1 and 2, a thickness difference is formed. Since the materials used in the first and second plane connecting areas 1 and 2 are finer, the thickness is relatively thinner, resulting in a more consistent overall thickness and a more aesthetically pleasing appearance after connection with the garment. Frames 15 and 16 represent the A4 connecting area structure, using three strands of N4201 / 38 binding yarn. These strands are interwoven to form a fold line, connecting F1 and F2, creating a comfortable and elastic webbing with breathability.
[0059] 2. Circulation process
[0060] The aforementioned breathable and comfortable elastic webbing is selected, and ultrasonic cutting is used to initially bond the webbing into loops. Then, it is bonded using a hot-melt adhesive film at high temperature and pressure to form a ring-shaped V-shaped binding tape. Figure 10 As shown.
[0061] It should be noted that the above are merely preferred embodiments of the present invention and are not intended to limit the present invention. Although the present invention has been described in detail with reference to the 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. However, 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 comfort elastic webbing comprising a webbing body, characterized by, The main body of the webbing includes a first folding area, a connecting area, and a second folding area along the width direction. The first folding area and the second folding area are connected on both sides of the connecting area. The first folding area includes a first planar connecting area and a first mesh ventilation area that are connected to each other. The second folding area includes a second planar connecting area and a second mesh ventilation area that are connected to each other. The thickness T1 of the first planar connecting area is less than the thickness T2 of the first mesh ventilation area and the thickness difference T2-T1 ≥ 5 mm. The thickness T7 of the second planar connecting area is less than the thickness T6 of the second mesh ventilation area and the thickness difference T6-T7 ≥ 5 mm.
2. The comfort elastic web of claim 1, wherein, The first folding area and the second folding area have the same width, and the width W1 of the first planar connecting area and the width W7 of the second planar connecting area satisfy the following proportional relationship:
3. The comfort elastic web of claim 1, wherein, The first folding area further includes a first functional plane area, one side of which is connected to the connecting area, and the other side of which is connected to the first mesh ventilation area; the second folding area further includes a second functional plane area, one side of which is connected to the connecting area, and the other side of which is connected to the connecting area.
4. The comfort elastic web of claim 3, wherein, The thickness T3 of the first functional planar region is greater than the thickness T4 of the connecting region and the thickness difference is greater. The thickness T5 of the second functional plane is greater than the thickness T4 of the connecting area, and the thickness difference is greater than that of the second functional plane.
5. The comfort elastic web of claim 3, wherein, The first planar connection area, the first functional planar area and / or the first mesh ventilation area, and the second planar connection area, the second functional planar area and / or the second mesh ventilation area are woven together to form a plurality of pattern unit structures. A pattern unit structure includes a first adjustment area, a pattern area and a second adjustment area arranged in sequence. The pattern area is woven to form a LOGO or a pattern. The first adjustment area and the second adjustment area are located on both sides of the pattern area.
6. The comfort elastic web of claim 3, wherein, The widths of the first planar connecting area W1 and the second planar connecting area W7 are both ≥5 mm, the widths of the first mesh ventilation area W2 and the second mesh ventilation area W6 are both ≥3 mm, the widths of the first functional plane area W3 and the second functional plane area W5 are both ≥1 mm, the widths of the first planar connecting area and the second planar connecting area are the same or different, the widths of the first mesh ventilation area and the second mesh ventilation area are the same or different, and the widths of the first functional plane area and the second functional plane area are the same or different.
7. The comfort elastic web of claim 1, wherein, Both the first and second mesh breathable areas include a solid area and several holes. The ratio of the total area of the holes in the first mesh breathable area to the total area of the first mesh breathable area is ≥1%, and the ratio of the total area of the holes in the second mesh breathable area to the total area of the second mesh breathable area is ≥1%.
8. The comfort elastic web of claim 7, wherein, The holes have a concave structure, while the solid areas have a convex structure.
9. The comfort elastic web of claim 1, wherein, The main body of the webbing is woven from polyester, nylon, cotton or acrylic, and elastic yarn is added to the main body of the webbing. The elastic yarn is covered yarn, spandex or rubber.
10. The comfort elastic web of claim 1, wherein, The main body of the webbing is a knitted structure or a woven structure.