Resist deformation fabric

By setting tensile layers and protrusions on the base layer of the fabric to form air-permeable cavities, and combining them with reinforcing yarns, the contradiction between air permeability and deformation resistance is resolved, achieving a balance between high air permeability and high deformation resistance.

CN224323694UActive Publication Date: 2026-06-05SHAOXING SUTENG TEXTILE TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHAOXING SUTENG TEXTILE TECH CO LTD
Filing Date
2025-02-21
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

Existing fabrics, after increasing breathability, have reduced deformation resistance, making it difficult to simultaneously possess good breathability and deformation resistance.

Method used

A tensile layer and protrusions are set on the base layer to form a breathable cavity, which is connected to the breathable cavity through breathable holes. Reinforcing yarn is combined to enhance the tensile strength of the base layer. The tensile layer is woven with tensile breathable yarn and twisted with cotton and linen fibers. The base layer adopts a 2*2 rib structure.

Benefits of technology

This design achieves significant improvements in the fabric's resistance to deformation and strength while maintaining its breathability, ensuring both drape and a soft, comfortable feel.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224323694U_ABST
    Figure CN224323694U_ABST
Patent Text Reader

Abstract

The utility model discloses an anti-deformation fabric relates to the field of fabric, aims at solving weak anti-deformation ability of fabric, and its technical scheme main points are: including base layer, be equipped with a plurality of convex parts on base layer, the anti-tension layer is bonded on base layer, and the anti-tension layer is fixedly connected with the convex part, and the adjacent convex part is formed with the breathable cavity between the anti-tension layer, is set up a plurality of breathable holes on base layer, and the breathable hole is located between the adjacent convex part. The utility model discloses through setting up the anti-tension layer with base layer connection on base layer to increase the anti-deformation performance of base layer, and the convex part is set up on base layer and is connected with the anti-tension layer to form the breathable cavity, and the breathable hole on base layer is located between the adjacent convex part to communicate with the breathable hole and the breathable cavity, and the base layer breathability is increased, and the anti-tension layer is woven with the anti-tension breathable yarn, and the anti-tension breathable yarn is twisted with cotton fiber and hemp fiber to form, so that the anti-tension layer has the better tensile strength while having the better breathability.
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Description

Technical Field

[0001] This utility model relates to the field of fabrics, and more specifically, to deformation-resistant fabrics. Background Technology

[0002] Fabric is the material used to make clothing, usually referring to the material that forms the surface of a garment. It embodies the shape, style, characteristics, and quality of the clothing. Fabric not only interprets the style and characteristics of clothing but also directly influences the color and shape of the garment. In the vast world of clothing, fabrics are diverse and constantly evolving. However, generally speaking, high-quality, high-end fabrics mostly possess characteristics such as comfortable wear, breathability and sweat absorption, good drape, elegant appearance, and soft touch.

[0003] To increase the breathability of a fabric, breathable structures are added to it, but this reduces the fabric's resistance to deformation.

[0004] Therefore, a new solution is needed to address this problem. Utility Model Content

[0005] In view of the shortcomings of the existing technology, the purpose of this utility model is to provide a deformation-resistant fabric.

[0006] The above-mentioned technical objective of this utility model is achieved through the following technical solution: a deformation-resistant fabric, including a base layer, a plurality of protrusions on the base layer, a tensile layer bonded to the base layer, the tensile layer being fixedly connected to the protrusions, a breathable cavity being formed between adjacent protrusions and the tensile layer, and a plurality of breathable holes being opened on the base layer, the breathable holes being located between adjacent protrusions.

[0007] The present invention is further configured such that: the base layer is a 2*2 ribbed weave with a five-way loop pattern, and the third longitudinal coil and the fourth longitudinal coil of the base layer form a protrusion.

[0008] The present invention is further configured such that: a single-needle single-row tufting loop is formed on both the second needle of the first row and the first needle of the fourth row of the base layer, and the vent hole is located at the single-needle single-row tufting loop.

[0009] The present invention is further configured such that: a reinforcing yarn is padded on the base layer, and the reinforcing yarn is located between the third and fourth stitches.

[0010] The present invention is further configured such that the reinforcing yarn is made of several chenille fibers twisted together.

[0011] The present invention is further configured such that: the tensile layer is woven from tensile breathable yarn, and the tensile breathable yarn is made of cotton fiber and linen fiber twisted together.

[0012] In summary, this utility model has the following beneficial effects:

[0013] By setting a tensile layer on the base layer and connecting it to the base layer, the deformation resistance of the base layer is increased. At the same time, protrusions are set on the base layer and connected to the tensile layer to form a breathable cavity. The air vents on the base layer are located between adjacent protrusions, so that the air vents and the air vents are connected, increasing the air permeability of the base layer. Attached Figure Description

[0014] Figure 1 This is a schematic diagram of the structure of this utility model;

[0015] Figure 2 This is a schematic diagram of the weaving structure of the base layer in this utility model.

[0016] In the diagram: 1. Base layer; 2. Protrusion; 3. Tensile layer; 4. Air cavity; 5. Air vent; 6. Reinforcing yarn. Detailed Implementation

[0017] The present invention will now be described in detail with reference to the accompanying drawings and embodiments.

[0018] Deformation-resistant fabrics, such as Figure 1 and Figure 2 As shown, the substrate includes a base layer 1 with several protrusions 2. A tensile layer 3 is bonded to the base layer 1, and the tensile layer 3 is bonded to the protrusions 2 by hot melt adhesive. A breathable cavity 4 is formed between adjacent protrusions 2 and the tensile layer 3. Several breathable holes 5 are provided on the base layer 1, located between adjacent protrusions 2. By setting the tensile layer 3 on the base layer 1 and connecting it to the base layer 1, the deformation resistance of the base layer 1 is increased. At the same time, the protrusions 2 on the base layer 1 are connected to the tensile layer 3 to form the breathable cavity 4. The breathable holes 5 on the base layer 1 are located between adjacent protrusions 2, so the breathable holes 5 are connected to the breathable cavity 4, increasing the breathability of the base layer 1. The tensile layer 3 is woven from tensile breathable yarn, which is made of cotton fiber and hemp fiber twisted together. Cotton fiber has good breathability, and hemp fiber has good deformation resistance. Thus, the tensile layer 3 has good breathability and good tensile strength.

[0019] like Figure 2As shown, base layer 1 is a 2*2 rib knit with a five-row repeat pattern. The third and fourth longitudinal loops of base layer 1 form a protrusion 2. Due to the concave-convex structure of the rib knit, protrusion 2 can be formed on base layer 1. Single-needle single-row tufting loops are formed on the second needle of the first row and the first needle of the fourth row of base layer 1, resulting in a staggered distribution of these loops. Ventilation holes 5 are located at the single-needle single-row tufting loops, thus forming ventilation holes 5 on base layer 1. These ventilation holes 5 are staggered, ensuring the breathability of base layer 1 while maintaining its strength. The padding has a reinforcing yarn 6, which is located between the third and fourth stitches. The reinforcing yarn 6 is located at the junction of the front and back loops of the base layer 1, and the reinforcing yarn 6 is padded behind the first and fifth yarns of the base layer. The reinforcing yarn 6 on the other side is located in front of the second, third, and fourth yarns of the base layer, which increases the contact area between the reinforcing yarn 6 and the base layer, making the reinforcing yarn 6 stable in the base layer 1, thereby improving the strength of the base layer 1. The reinforcing yarn 6 is made of several chenille fibers twisted together. Chenille fibers have good strength, which makes the reinforcing yarn 6 have good resistance to deformation.

[0020] The above description is merely a preferred embodiment of this utility model. The protection scope of this utility model is not limited to the above embodiments. All technical solutions falling within the scope of this utility model's concept are protected. It should be noted that for those skilled in the art, any improvements and modifications made without departing from the principle of this utility model should also be considered within the protection scope of this utility model.

Claims

1. A deformation-resistant fabric, comprising a base layer (1), characterized in that: The base layer (1) is provided with several protrusions (2), and a tensile layer (3) is bonded to the base layer (1). The tensile layer (3) is fixedly connected to the protrusions (2). A breathable cavity (4) is formed between adjacent protrusions (2) and tensile layer (3). Several breathable holes (5) are opened on the base layer (1). The breathable holes (5) are located between adjacent protrusions (2).

2. The deformation-resistant fabric according to claim 1, characterized in that: The base layer (1) is a 2*2 ribbed weave with a five-way loop pattern. The third longitudinal coil and the fourth longitudinal coil of the base layer (1) form a protrusion (2).

3. The deformation-resistant fabric according to claim 2, characterized in that: The base layer (1) has single-needle single-row loops formed on the first row of the second needle and the fourth row of the first needle, and the ventilation hole (5) is located at the single-needle single-row loop.

4. The deformation-resistant fabric according to claim 2, characterized in that: The base layer (1) is padded with reinforcing yarn (6), which is located between the third and fourth stitches.

5. The deformation-resistant fabric according to claim 4, characterized in that: The reinforcing yarn (6) is made by twisting several chenille fibers.

6. The deformation-resistant fabric according to claim 1, characterized in that: The tensile layer (3) is woven from tensile breathable yarn, which is made of cotton fiber and hemp fiber twisted together.