Knitted composite fabric

By designing a soft layer with raised dots and breathable holes, and a wear-resistant layer with grooves and hard raised strips in the composite fabric, the problem of poor breathability of the composite fabric is solved, and breathability and comfort are improved.

CN224335253UActive Publication Date: 2026-06-09BAIFENG SHAOXING TEXTILE

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
BAIFENG SHAOXING TEXTILE
Filing Date
2025-05-08
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Existing composite fabrics are relatively thick, resulting in poor breathability.

Method used

Design a knitted composite fabric comprising a soft layer and an abrasion-resistant layer. The soft layer has raised dots and breathable holes, while the abrasion-resistant layer has grooves and rigid raised strips. The breathable holes are located between the grooves, and the rigid raised strips are located on both sides of the breathable holes. The grooves are used to accommodate float yarns to provide cushioning, and the breathable holes ensure air exchange.

Benefits of technology

It improves the breathability and comfort of the fabric, maintains its softness and abrasion resistance, and ensures the support effect of the raised dots and stripes.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a kind of knitted composite fabric, it is related to textile field, and its technical scheme main point is: including soft layer and wear-resistant layer, soft layer is woven to form several convex points on the side of wear-resistant layer's back, wear-resistant layer is woven to form several grooves on the side of soft layer's direction, groove is divided into several groove groups, the number of groove in groove group is two and two grooves are close to each other, wear-resistant layer is equipped with hard convex strip on the side of soft layer's back, wear-resistant layer and soft layer are commonly provided with several air holes. By setting air hole, the air permeability of fabric is ensured, the setting of convex point and hard convex strip ensures that the both ends of air hole are not easy to be blocked, further ensure the air permeability of fabric, the setting of groove provides certain buffer space for hard convex strip extrusion towards soft layer direction, so that the comfort of hard convex strip to fabric whole is less, cotton fiber has good softness and hygroscopicity, so as to ensure the softness of soft layer.
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Description

Technical Field

[0001] This utility model relates to the textile field, and more specifically, to a knitted composite fabric. Background Technology

[0002] Fabric is the material used to make our everyday textile items. Existing fabrics are divided into single-layer fabrics and composite fabrics.

[0003] Composite fabrics are formed by combining multiple functional layers, which enhances the functionality of the fabric. However, the large number of layers in composite fabrics makes the fabric relatively thick, which makes it difficult for air to exchange between the inside and outside, resulting in poor overall breathability.

[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 knitted composite fabric.

[0006] The above-mentioned technical objective of this utility model is achieved through the following technical solution: a knitted composite fabric, comprising a soft layer and an abrasion-resistant layer, wherein the soft layer has a plurality of raised dots woven on the side opposite to the abrasion-resistant layer, and the abrasion-resistant layer has a plurality of grooves woven on the side facing the soft layer, the grooves being divided into a plurality of groove groups, each groove group containing two grooves that are close to each other, and the abrasion-resistant layer having a hard raised strip located above the groove on the side opposite to the soft layer, the plurality of hard raised strips being arranged in a linear array along the length of the groove, and the abrasion-resistant layer and the soft layer having a plurality of ventilation holes, the ventilation holes being located between two close grooves and the hard raised strips being located on both sides of the ventilation holes.

[0007] The present invention is further configured such that: the soft layer is woven from cotton yarn to form a weft plain knit structure, the weft plain knit structure includes a plurality of plain knit loops, two adjacent plain knit loops are stacked together, and the protrusions are formed at the intersection of the two plain knit loops.

[0008] The present invention is further configured such that: the hard convex strip is woven from low elastic yarn, and the low elastic yarn is embroidered on the wear-resistant layer by feeding it into an embroidery machine.

[0009] The present invention is further configured such that the low-elastic yarn is made of twisted nylon fiber.

[0010] The present invention is further configured such that: the wear-resistant layer is formed by weaving colored yarn one and colored yarn two, wherein colored yarn one is only used for weaving the grooves in the wear-resistant layer.

[0011] The present invention is further configured such that both the first colored yarn and the second colored yarn are made of high-elastic polyester yarn twisted together.

[0012] In summary, this utility model has the following beneficial effects: the opening of the ventilation holes allows air from inside and outside to interact through the ventilation holes, thereby ensuring the overall breathability of the fabric; the raised dots protrude on the soft layer, creating a gap between the skin and the soft layer, making it less likely for the skin-facing end of the ventilation holes to be blocked; and the raised dots are woven into a relatively soft shape, thus ensuring the softness of the soft layer; the hard raised strips are set on both sides of the ventilation holes, allowing the hard raised strips to support the outer garment, thus ensuring that the skin-facing end of the ventilation holes is not easily blocked; and the hard raised strips are relatively stiff, thus ensuring their support effect; the groove design allows the floating threads of the hard raised strips on the abrasion-resistant layer to be accommodated in the grooves, while the grooves also provide a certain buffer space for the hard raised strips to be squeezed towards the soft layer, thus minimizing the impact of the hard raised strips on the overall comfort of the fabric. Attached Figure Description

[0013] Figure 1 This is a schematic diagram of the structure of this utility model;

[0014] Figure 2 This is a cross-sectional view of the present invention;

[0015] Figure 3 This is a schematic diagram of the woven structure of the soft layer in this utility model.

[0016] In the diagram: 1. Soft layer; 2. Abrasion-resistant layer; 3. Raised dots; 4. Groove; 5. Hard raised strip; 6. Breathable holes; 7. Cotton yarn. Detailed Implementation

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

[0018] Knitted composite fabrics, such as Figure 1 and Figure 2As shown, the fabric includes a soft layer 1 and an abrasion-resistant layer 2. The side of the soft layer 1 facing away from the abrasion-resistant layer 2 has several raised dots 3 woven into it. The side of the abrasion-resistant layer 2 facing the soft layer 1 has several grooves 4 woven into it. These grooves 4 are divided into several groove groups, with two grooves 4 within each group, and these two grooves 4 are close to each other. The side of the abrasion-resistant layer 2 facing away from the soft layer 1 has hard raised strips 5 located above the grooves 4. These hard raised strips 5 are arranged in a linear array along the length of the grooves 4. Several ventilation holes 6 are provided on both the abrasion-resistant layer 2 and the soft layer 1. The ventilation holes 6 are located between two close-to-each grooves 4, with the hard raised strips 5 located on either side of the ventilation holes 6. The soft layer 1 is used to contact the skin, and the abrasion-resistant layer 2 is used to contact external clothing. The soft layer 1 is relatively soft, thus ensuring the overall comfort and skin-friendliness of the fabric. The abrasion-resistant layer 2 makes the fabric surface more abrasion-resistant, ensuring the overall durability of the fabric. The fabric's abrasion resistance is enhanced by the ventilation holes 6, which allow for air exchange between the inside and outside, ensuring overall breathability. The raised dots 3 protrude from the soft layer 1, creating a gap between the skin and the soft layer 1, preventing the skin-facing end of the ventilation holes 6 from being blocked. The raised dots 3 are woven and relatively soft, ensuring the softness of the soft layer 1. The rigid raised strips 5 are positioned on both sides of the ventilation holes 6, supporting the outer garment and preventing the skin-facing end of the ventilation holes 6 from being blocked. The rigid raised strips 5 are also relatively stiff, ensuring their support effect. The grooves 4 allow the floating threads of the rigid raised strips 5 on the abrasion-resistant layer 2 to be accommodated within the grooves. The grooves 4 also provide a buffer space for the rigid raised strips 5 when pressed towards the soft layer 1, minimizing their impact on the overall comfort of the fabric.

[0019] like Figure 2 and Figure 3As shown, the soft layer 1 is woven from cotton yarn 7 to form a plain weave structure. The plain weave structure includes several plain weave loops, with two adjacent plain weave loops overlapping each other. The raised point 3 is formed at the intersection of two plain weave loops. The cotton yarn 7 has good moisture absorption and softness, thus ensuring the softness and comfort of the soft layer 1. The raised point 3 is formed by the stacking of loops, making the raised point 3 relatively soft overall, thus ensuring the comfort of the raised point 3. The hard raised strip 5 is woven from low-elasticity yarn, which is embroidered onto the wear-resistant layer 2 by a feeding embroidery machine. The low-elasticity yarn itself has relatively low elasticity, resulting in a small deformation in the diameter direction. The hard raised strip 5 is also embroidered by a embroidery machine, making the low-elasticity yarn in the hard raised strip 5 relatively tight, thus ensuring the support effect of the hard raised strip 5. The low-elasticity yarn is made of twisted nylon fiber. Polyester fiber has good abrasion resistance, ensuring the abrasion resistance of the hard convex strip 5. The abrasion-resistant layer 2 is woven from colored yarn one and colored yarn two. Colored yarn one is only used to weave the groove 4 of the abrasion-resistant layer 2. This design allows people to visually distinguish the location of the hard convex strip 5 by the color difference between colored yarn one and colored yarn two when weaving the hard convex strip 5 on one side of the abrasion-resistant layer 2. This design facilitates production. After weaving the hard convex strip 5 on the abrasion-resistant layer 2, the soft layer 1 and the abrasion-resistant layer 2 are laminated. After lamination, ventilation holes 6 are set between the two hard convex strips 5 using laser perforation technology. Both colored yarn one and colored yarn two are made of high-elastic polyester yarn twisted together. High-elastic polyester yarn has good abrasion resistance and elasticity. Therefore, while ensuring the abrasion resistance of the abrasion-resistant layer 2, the abrasion-resistant layer 2 also has a certain degree of extensibility and elasticity.

[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 knitted composite fabric, characterized by: The material includes a soft layer (1) and a wear-resistant layer (2). The soft layer (1) has several protrusions (3) woven on the side facing away from the wear-resistant layer (2). The wear-resistant layer (2) has several grooves (4) woven on the side facing the soft layer (1). The grooves (4) are divided into several groove groups. There are two grooves (4) in each groove group, and the two grooves (4) are close to each other. The wear-resistant layer (2) has a hard protrusion (5) above the groove (4) on the side facing away from the soft layer (1). Several hard protrusions (5) are arranged in a linear array along the length of the groove (4). Several vent holes (6) are opened on both the wear-resistant layer (2) and the soft layer (1). The vent holes (6) are located between two close grooves (4) and the hard protrusions (5) are located on both sides of the vent holes (6).

2. The knitted composite fabric of claim 1, wherein: The soft layer (1) is woven from cotton yarn (7) to form a weft plain knit structure, which includes several plain knit loops. Two adjacent plain knit loops are stacked and crossed, and the protrusions (3) are formed at the intersection of the two plain knit loops.

3. The knitted composite fabric of claim 2, wherein: The hard convex strip (5) is woven from low elastic yarn, which is embroidered onto the wear-resistant layer (2) by feeding it into an embroidery machine.

4. The knitted composite fabric of claim 3, wherein: The low-elasticity yarn is made of twisted nylon fibers.

5. The knitted composite fabric of claim 4, wherein: The wear-resistant layer (2) is formed by weaving colored yarn one and colored yarn two. Colored yarn one is only used to weave the groove (4) of the wear-resistant layer (2).

6. The knitted composite fabric of claim 5, wherein: Both yarn one and yarn two are made of high-elastic polyester yarn twisted together.