CN215628519U - Double-sided opposite-property wrinkled tweed fabric - Google Patents

Abstract

The utility model provides a double-sided opposite-property wrinkled tweed fabric, which belongs to the technical field of textile fabrics and comprises the following components: the fabric main body is formed by interweaving warp yarns and weft yarns, wherein the warp yarns comprise first warp yarns, and the weft yarns comprise first weft yarns, second weft yarns and third weft yarns; the first weft yarns and the second weft yarns are weft-doubled yarns, and the first weft yarns and the third weft yarns are weft-doubled yarns; the first warp yarns and the first, second and third weft yarns form a weft doublet; the first warp yarns are plied viscose yarns; the first weft yarns are cotton yarns; the second weft yarns are wool-acrylic blended corrugated yarns; the third weft yarn is a wool-nylon blended roving yarn. The front and back surfaces of the fabric have different styles, and the front surface of the fabric is wrinkled, so that the fabric is attractive in appearance and high in texture.

Description

Double-sided opposite-property wrinkled tweed fabric

Technical Field

The utility model relates to the technical field of textile fabrics, in particular to a double-sided anisotropic wrinkled tweed fabric.

Background

The fancy woolen is a general name of fancy wool fabrics and is one of important varieties of worsted woolen fabrics. The fabric is in the shape of various patterns such as dots, strips, grids and the like, and is the variety with the most change of the colors in the worsted woolen cloth. For example: different raw materials, different yarn fineness, different yarn twist, twist direction, color, fancy yarn, different warp-weft density ratio, fabric texture change, special printing and dyeing finishing process and the like are used. It has various varieties and different styles. With the development of science and technology and the progress of society, people have higher and higher requirements on clothes, and ordinary fabrics can not meet the requirements of people gradually, so that new fabrics are continuously emerged. In order to meet the pursuit of people for new fabrics, the utility model provides a double-sided opposite-folded tweed fabric.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a double-sided opposite-property wrinkled tweed fabric.

In order to solve the technical problem, the utility model aims to realize that:

a double-sided opposite-property wrinkled tweed fabric comprises: the fabric main body is formed by interweaving warp yarns and weft yarns, wherein the warp yarns comprise first warp yarns, and the weft yarns comprise first weft yarns, second weft yarns and third weft yarns; the first weft yarns and the second weft yarns are weft-doubled yarns, and the first weft yarns and the third weft yarns are weft-doubled yarns; the first warp yarns and the first, second and third weft yarns form a weft doublet;

the first warp yarns are plied viscose yarns; the first weft yarns are cotton yarns; the second weft yarns are wool-acrylic blended corrugated yarns; the third weft yarn is a wool-nylon blended roving yarn.

In addition to and as a preferable mode of the above mode, an arrangement ratio of the second weft yarns to the third weft yarns is 1: 1.

On the basis of the scheme, the preferable scheme is that the first warp yarn is formed by twisting and plying two viscose filaments, and the fineness is 68S/2.

On the basis of the scheme, the preferable scheme is that the first weft yarn is single-strand combed cotton yarn and has the fineness of 16S/1.

In addition to and as a preferred mode of the above mode, the fineness of the second weft yarn is 4S/1.

In addition to and as a preferred mode of the above mode, the fineness of the third weft yarn is 12S/1.

The utility model has the beneficial effects that: the fabric provided by the utility model is produced by adopting double-sided weave, and the front side of the fabric is formed by interweaving first warp yarn 68S/2 plied viscose yarn containing 100 wt% of viscose and first weft yarn 16S/1 single-stranded combed cotton yarn containing 100 wt% of cotton; the reverse side is formed by interweaving the first warp yarn 68S/2 twisted viscose yarn containing 100 wt% of viscose, the second weft yarn 4S/1 wool-acrylic blended corrugated yarn and the third weft yarn 12S/1 wool-nylon blended roving yarn. Due to the difference of the yarn thickness of the front side and the yarn thickness of the back side, a fine cotton style is formed on the front side, a rough soft woolen style is formed on the back side, the two sides are opposite, the styles are different, and the attractiveness and the identification degree of the fabric are improved. The front weft yarn is 100 wt% of cotton yarn, the back weft yarn contains wool, and due to different shrinkage rates of fiber raw materials, the shrinkage of the back weft yarn is larger than that of the front weft yarn by using the felting property of the wool in a felting process, so that the front weft yarn forms irregular natural wrinkles, the appearance is attractive, and the fabric has better texture.

Drawings

FIG. 1 is a schematic side sectional view of two aspects of the present invention.

FIG. 2 is a schematic view of the reverse structure of the present invention.

In the figure: 1. a fabric main body; 2. a first warp yarn; 3. a first weft yarn; 4. a second weft yarn; 5. and a third weft yarn.

Detailed Description

The utility model is further described with reference to the following figures and specific examples.

As shown in fig. 1, a double-faced anisotropic creped tweed fabric comprises: the fabric comprises a fabric main body 1, wherein the fabric main body 1 is formed by interweaving warp yarns and weft yarns, the warp yarns comprise first warp yarns 2, and the weft yarns comprise first weft yarns 3, second weft yarns 4 and third weft yarns 5; the first weft yarns 3 and the second weft yarns 4 are heavy wefts, and the first weft yarns 3 and the third weft yarns 5 are heavy wefts; the first warp yarn 2 forms a weft doublet with the first weft yarn 3, the second weft yarn 4, and the third weft yarn 5. Specifically, the first warp yarns 2 and the first weft yarns 3 are interwoven to form the front surface of the fabric, the first warp yarns 2, the second weft yarns 4 and the third weft yarns 5 are interwoven to form the back surface of the fabric, and the first weft yarns 3, the second weft yarns 4 and the third weft yarns 5 are made of different materials, so that the two-sided double-wearing garment can be made according to the characteristics of the front surface and the back surface of the fabric. Preferably, as shown in fig. 2, the arrangement ratio of the second weft yarns 4 to the third weft yarns 5 is 1: 1. Specifically, the weft yarns are arranged in a manner that a set of overlapping weft yarns of a first weft yarn 3 and a second weft yarn 4 and a set of overlapping weft yarns of a first weft yarn 2 and a third weft yarn 5 are arranged in a 1:1 manner. Preferably, the front surface of the fabric body 1 is wrinkled.

The first warp yarn 2 is a plied viscose yarn; the first weft yarns 3 are cotton yarns; the second weft yarns 4 are wool-acrylic blended corrugated yarns; the third weft yarns 5 are wool and nylon blended roving yarns. Further preferably, the first warp 2 is formed by twisting and plying two viscose filaments, and the fineness is 68S/2; the first weft yarns 3 are single-strand combed cotton yarns and have the fineness of 16S/1; the fineness of the second weft yarns 4 is 4S/1; the fineness of the third weft yarns 5 is 12S/1. Wherein the first warp yarns 2 are made of hundred percent viscose fibers; the first weft yarns 3 are made of hundred percent cotton fibers; the weight ratio of the wool in the second weft yarns 4 is 80-90 &, and the weight ratio of the acrylic fibers is 10-20%; the weight ratio of the wool in the third weft yarns 5 is 80-85%, and the weight ratio of the nylon is 15-20%. In the embodiment, the weight ratio of the wool in the second weft 4 is preferably 80%, and the weight ratio of the acrylic fiber is preferably 20%; the weight ratio of the wool in the third weft yarns 5 is 82%, and the weight ratio of the chinlon is 18%.

The fabric provided by the embodiment is produced by adopting a double-faced weave, and the front side of the fabric is formed by interweaving first warp yarns 2 with fineness of 68S/2 and 100 wt% of viscose and first weft yarns 3 with fineness of 16S/1 and 100 wt% of cotton; the back side is formed by interweaving a first warp yarn with fineness of 68S/2 and 100 wt% of viscose, a second weft yarn 4 with fineness of 4S/1 and containing 80 wt% of wool and 20 wt% of acrylic, and a third weft yarn 5 with fineness of 12S/1 and containing 82 wt% of wool and 18 wt% of nylon. Due to the difference of the yarn thickness and the material of the front side and the back side, a fine cotton style is formed on the front side, and a rough soft woolen style is formed on the back side, so that the fabric is double-sided and has higher texture.

Generally, the double-sided woolen fabric with different front and back raw materials has the key point of controlling the shrinkage of different fiber raw materials on the same level during finishing. The weft yarns on the front side are 100 wt% of cotton yarns by utilizing different shrinkage rates of fiber raw materials, the weft yarns on the back side contain 82 wt% of wool, and due to the fact that wool has fulling property, when the fabric is subjected to a post-finishing fulling process, the shrinkage of the weft yarns on the back side of the fabric is larger than that of the weft yarns on the front side, irregular natural folds are formed on the front side, the appearance of the tweed fabric is more attractive, and the texture is better.

The foregoing detailed description of the preferred embodiments of the utility model has been presented. It should be understood that numerous modifications and variations could be devised by those skilled in the art in light of the present teachings without departing from the inventive concepts. Therefore, the technical solutions available to those skilled in the art through logic analysis, reasoning and limited experiments based on the prior art according to the concept of the present invention should be within the scope of protection defined by the claims.

Claims (6)

1. The utility model provides a two-sided opposite sex wrinkled tweed fabric which characterized in that includes: the fabric comprises a fabric main body (1), wherein the fabric main body (1) is formed by interweaving warp yarns and weft yarns, the warp yarns comprise first warp yarns (2), and the weft yarns comprise first weft yarns (3), second weft yarns (4) and third weft yarns (5); the first weft yarn (3) and the second weft yarn (4) are mutually doubled, and the first weft yarn (3) and the third weft yarn (5) are mutually doubled; the first warp threads (2) form a weft doublet with the first weft threads (3), the second weft threads (4) and the third weft threads (5);

the first warp (2) is a plied viscose yarn; the first weft yarns (3) are cotton yarns; the second weft yarns (4) are wool-acrylic blended corrugated yarns; the third weft (5) is a wool-nylon blended roving.

2. A double-faced anisotropic creped tweed fabric according to claim 1, wherein the arrangement ratio of the second weft yarns (4) to the third weft yarns (5) is 1: 1.

3. A double-faced hetero-creped tweed fabric according to claim 1, wherein the first warp yarns (2) are twisted and plied with two viscose filament yarns and have a fineness of 68S/2.

4. A double-faced hetero-creped tweed fabric according to claim 1, wherein the first weft yarns (3) are single-strand combed cotton yarns with a fineness of 16S/1.

5. A double-faced anisotropic creped tweed fabric according to claim 1, wherein the fineness of the second weft yarns (4) is 4S/1.

6. A double-faced anisotropic creped tweed fabric according to claim 1, wherein the fineness of the third weft yarns (5) is 12S/1.

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