CN219653237U - Anti-wrinkling textile fabric - Google Patents

Abstract

The utility model discloses an anti-wrinkling textile fabric, which structurally comprises a weft-knitted layer, wherein the weft-knitted layer is of a weft-flat structure woven by main yarns, an anti-wrinkling layer is interwoven on the weft-knitted layer, and the anti-wrinkling layer has elasticity.

Description

Anti-wrinkling textile fabric

Technical Field

The utility model relates to the field of textile fabrics, in particular to an anti-wrinkling textile fabric.

Background

The fabric is a material for making clothing, and various fibers are generally selected as fabrics of the fabric, and are woven together through spinning to form cloth fabrics for making various clothing.

After the fabric in the prior art is manufactured into clothes, the fabric is often required to be folded and stored during the season change, different stresses are generated inside the fibers due to physical extrusion, so that the fabric is wrinkled, the surface properties of the fabric are affected by the wrinkled, and the attractiveness of the fabric is also affected.

Disclosure of Invention

The utility model provides an anti-wrinkling textile fabric, which structurally comprises a weft knitting layer, wherein the weft knitting layer is of a weft flat structure formed by weaving main yarns, an anti-wrinkling layer is interwoven on the weft knitting layer, the anti-wrinkling layer has elasticity, loop-shaped needle knitting arcs and settlement arcs formed by the main yarns are respectively adopted between adjacent main yarns of the weft knitting layer to be nested with each other, the anti-wrinkling layer comprises warp drawn yarns and weft drawn yarns in weft directions, the warp drawn yarns pass through the intersection point of the settlement arcs and the needle knitting arcs and are staggered and passed through in two adjacent radial directions, and the weft drawn yarns sequentially pass through the settlement arcs and the needle knitting arcs in two adjacent radial directions.

Further, the warp drawn yarns and the weft drawn yarns are cored yarns, the core yarns of the cored yarns are elastic yarns, and the strand yarns are metal yarns.

Further, the warp drawn yarns and the weft drawn yarns are multi-ply yarns, and the multi-ply yarns are formed by twisting elastic yarns and metal yarns.

Advantageous effects

Compared with the prior art, the utility model has the following beneficial effects:

according to the utility model, the crease-resistant layer is interwoven with the weft-knitted layer of the fabric main body, when the fabric is folded, the folding part is supported by the elasticity generated by the metal yarns, when the fabric is unfolded again, the folded part is unfolded straightly by the toughness of the bent metal yarns, the folds and marks at the folding part are reduced by the toughness of the metal yarns, meanwhile, the crease-resistant layer is further stretched by the natural sagging of the fabric, and the weft-knitted layer is stretched at the same time, so that the weft-drawn yarns and the weft-knitted layer are not folded, and the fabric is further resistant to folds.

Drawings

Fig. 1 is a schematic structural view of an anti-wrinkling textile fabric according to the present utility model.

Fig. 2 is a schematic diagram of the front structure of a weft layer.

Fig. 3 is a schematic diagram of the frontal structure of the warp and weft layers.

Fig. 4 is a schematic diagram of the front structure of a weft drawn yarn and weft knitted layer.

Fig. 5 is a three-dimensional schematic of one embodiment of warp and weft yarns.

Fig. 6 is a three-dimensional schematic view of another embodiment of warp and weft draw yarns.

In the figure: 1. a weft knitting layer; 2. an anti-wrinkle layer; 11. a main yarn; 1a, knitting an arc by a needle; 1b, a sedimentation arc; 21. drawing yarn; 22. weft drawing yarn; 2a, elastic yarns; 2b, metal yarn.

Detailed Description

The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings.

Examples

As shown in fig. 1-6, the utility model provides an anti-wrinkling textile fabric, which structurally comprises a weft-knitted layer 1, wherein the weft-knitted layer 1 is a weft-flat structure formed by knitting main yarns 11, and loop-shaped needle knitting arcs 1a and sinker arcs 1b formed by the main yarns 11 are respectively nested between adjacent main yarns 11 of the weft-knitted layer 1.

An elastic crease-resistant layer 2 is interwoven on the weft layer 1, and the crease-resistant layer 2 includes warp drawn yarns 21 in the warp direction and weft drawn yarns 22 in the weft direction.

Wherein, as shown in fig. 3, the warp drawn yarn 21 passes through the intersection point of the sinker loop 1b and the needle-knitting loop 1a and passes through the two adjacent radial directions in a staggered manner, the two sides of the downward sinker loop 1b generated by the main yarn 11 in the previous weft direction are nested with one side of the upward two needle-knitting loops 1a generated by the main yarn 1 in the next weft direction, so that the intersection point of the warp drawn yarn 21 passing through the sinker loop 1b and the needle-knitting loop 1a is the nesting point, and as shown in fig. 3, the nesting point and the intersection point are positioned on the inner side of the sinker loop 1b and the inner side of the needle-knitting loop 1a in a staggered manner in the radial direction;

as shown in fig. 4, the weft drawn yarn 22 sequentially passes through the adjacent two radial sinker loops 1b and needle stitch loops 1a, and it is known to those skilled in the art to employ the adjacent or non-adjacent sinker loops 1b and needle stitch loops 1a in two adjacent radial directions according to the density of the fabric.

This example provides an embodiment, as shown in fig. 5, in which the warp drawn yarn 21 and the weft drawn yarn 22 are cored yarns, the core yarn of the cored yarns is an elastic yarn 2a, and the strand yarn is a metal yarn 2b, and the strand yarns are all spirally wound on the core yarn.

When the fabric is folded, the weft knitting layer 1 and the crease-resistant layer 2 are folded and attached, when the fabric is folded by taking the radial direction as an axis, the weft yarn 22 is mainly stressed, when the fabric is folded by taking the weft direction as an axis, the warp yarn 21 is mainly stressed, namely, when the fabric is folded, the folded part is supported by the elasticity generated by the metal yarn 2b, when the fabric is unfolded again, the toughness of the bent metal yarn 2b enables the folded part to be unfolded straight, the crease and trace at the folded part are reduced by the toughness of the metal yarn 2b, and meanwhile, the yarns of the part perpendicular to the current stress are adjusted to the horizontal position, if the weft yarn 22 is unfolded, the fabric is adjusted to rotate the warp yarn 21 to the horizontal position, the dead weight of the warp yarn 21 drives the weft yarn 22 to be pulled downwards, the weft yarn 22 is further stretched, and the metal yarn 2b is spirally wound on the elastic yarn 2a, so that when the metal yarn 2b is stretched again, the metal yarn 2b has enough stretching allowance to be stretched until the weft knitting layer 1 is stretched, the weft yarn 22 and the weft yarn 1 are not folded, and the fabric is further resistant to the crease when the warp yarn 21 is folded;

when the folding crease and the warp direction and the weft direction are both included, namely, the folding crease is obliquely folded, the warp drawn yarn 21 and the weft drawn yarn 22 act together to bear force at the moment, when the folding crease is unfolded again, the toughness of the bent metal yarn 2b enables the folding crease and trace at the folding position to be reduced through the toughness of the metal yarn 2b, and then the fabric can be further made to resist the crease through the dead weight stretching of the warp drawn yarn 21 and the weft drawn yarn 22.

In this example, as shown in fig. 6, the warp drawn yarn 21 and the weft drawn yarn 22 are multi-ply yarns, which are formed by twisting an elastic yarn 2a and a metal yarn 2 b.

As is well known, the skilled person can select stainless steel yarns for the metal yarns 2b, while the elastic yarns 2a can be polyurethane fibers, polyether ester elastic fibers, etc.

The technical features of the above embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

Claims (5)

1. The utility model provides an anti fold's textile fabric, its structure includes weft layer, weft layer is the flat texture structure of weft that forms by main yarn is woven, its characterized in that: an anti-wrinkle layer is interwoven on the weft knitting layer, and the anti-wrinkle layer has elasticity;

loop needle knitting arcs and settlement arcs formed by the main yarns are respectively nested between adjacent main yarns of the weft knitting layer;

the crease-resistant layer comprises warp drawn yarns in the warp direction and weft drawn yarns in the weft direction;

the drawn yarn passes through the intersection point of the settling arc and the needle knitting arc and passes through the two adjacent radial directions in a staggered way;

the weft drawn yarns sequentially pass through two adjacent settling arcs and needle knitting arcs in the radial direction.

2. A wrinkle resistant textile fabric according to claim 1, wherein: the warp drawn yarns and the weft drawn yarns are cored yarns.

3. A wrinkle resistant textile fabric according to claim 2, wherein: the core yarn of the cored wire is elastic yarn, and the strand yarn is metal yarn.

4. A wrinkle resistant textile fabric according to claim 2, wherein: the warp drawn yarns and the weft drawn yarns are multi-ply yarns.

5. The wrinkle resistant textile fabric of claim 4, wherein: the multi-ply yarn is formed by twisting elastic yarns and metal yarns.