CN213266891U - Dacron and spandex blended moisture-absorbing sweat-releasing high-elastic breathable fish scale fabric - Google Patents

Abstract

The utility model relates to a dacron, high-elastic ventilative fish scale surface fabric of spandex blending moisture absorption sweat releasing. The fabric is a terylene blended spandex fabric, is obtained by weaving warp yarns and weft yarns in a staggered manner, and has uneven interweaving intervals; the weaving of the warp and weft yarns in a staggered mode comprises the following steps: the first spandex yarns (1) and the first polyester yarns (2) are arranged in a warp-wise staggered manner, and the second spandex yarns (3) and the second polyester yarns (4) are arranged in a weft-wise staggered manner. The utility model discloses increase the mobility of moisture absorption passageway, the moisture absorption rapid-curing cutback effect is excellent, improves the gas permeability of fabric simultaneously, reaches the nice and cool effect of dress.

Description

Dacron and spandex blended moisture-absorbing sweat-releasing high-elastic breathable fish scale fabric

Technical Field

The utility model relates to a nice and cool surface fabric field of absorbing moisture especially relates to a dacron, high-elastic ventilative fish scale surface fabric of spandex blending moisture absorption sweat-releasing.

Background

The traditional clothes lining layer focuses on the use of natural fibers in one direction, the natural fibers such as cotton are used as the clothes lining material, the defects that the natural fibers are soaked and expanded and the gaps between fabrics are blocked are ignored, and the heat and moisture exchange of a human body is hindered. On the other hand, excessive moisture absorption can also cause moisture absorption and heat release, then the moisture absorption and heat release gradually stop along with the saturation of moisture absorption, and the fibers in the fabric absorb the heat on the surface of the human body in turn and enable the wet clothes to be stuck with the human body, so that people feel sultry and then feel wet and cold, and in severe cases, muscles are trembled.

Therefore, the development of the novel moisture-conductive sweat-releasing knitted fabric is a direction for future development by breaking through the limitation of cotton as a main part and standing at a new angle and combining novel fiber raw materials with advanced processing technology to ensure that the novel moisture-conductive sweat-releasing knitted fabric has the functions of moisture conduction, quick drying and the like and has the comfort of comfort, softness and the like, so that the market competitiveness of textile clothes in China is improved, and the development of the comfortable functional moisture-absorbing sweat-releasing knitted fabric is a direction for future development.

The moisture-absorbing cool fabric is a living article closely related to the life of people, and is usually formed by blending and interweaving non-water-absorbing polyester fibers and elastic spandex. The folded yarn in the fabric is formed by pulling out the fiber with a certain length according to a certain rule by a machine, so that the fabric has good moisture absorption and quick drying performance. The fabric is soft in hand feeling and is one of the largest-dosage sports fabrics. Although the polyester fiber is used as a common raw material of the sports fabric and has excellent characteristics of quick drying and the like, the elasticity of the polyester fiber is deficient. The original moisture absorption and sweat releasing fiber in the market is formed by adding moisture absorption channels to polyester fibers through the change of the cross section. But the non-hygroscopic characteristic of the terylene is not changed, so the effect of quick drying after moisture absorption can not be achieved.

Disclosure of Invention

The utility model aims to solve the technical problem that a dacron, spandex blending moisture absorption sweat releasing high-elastic ventilative fish scale surface fabric is provided to overcome among the prior art quick-drying effect of surface fabric moisture absorption and the not good defect of gas permeability.

The utility model provides a technical scheme that its technical problem adopted is: the terylene and spandex blended moisture absorption and sweat releasing high-elastic breathable fish scale fabric is quick-dry and wear-resistant terylene blended spandex fabric, is woven by warps and wefts in a staggered mode, and is uneven in interweaving intervals; the weaving of the warp and weft yarns in a staggered mode comprises the following steps: the high-elastic breathable first spandex yarns and the wear-resistant quick-drying first polyester yarns are arranged in a warp-wise staggered manner, and the high-elastic breathable second spandex yarns and the wear-resistant quick-drying second polyester yarns are arranged in a weft-wise staggered manner; and the spandex convex points at the overlapping part of the high-elastic breathable first spandex yarn and the wear-resistant quick-drying second spandex yarn on the same-layer fabric are staggered, and the spandex convex points at the overlapping part of the wear-resistant quick-drying first spandex yarn and the high-elastic breathable second spandex yarn are staggered.

The warp and weft yarns are woven in a staggered mode by adopting uneven alternate looping of the warp and weft yarns.

The elastic direction of the high-elastic breathable first spandex yarn is perpendicular to the elastic direction of the wear-resistant quick-drying second polyester yarn.

The elastic direction of the high-elastic breathable second polyurethane yarn is perpendicular to the elastic direction of the wear-resistant quick-drying first polyester yarn.

The second spacing area in the interleaving interval is 4 times the first spacing area. Effectively improves the air permeability of the fabric and keeps the moisture absorption channel dry.

The fish scale fabric comprises: knitting the weft polyester-spandex fibers in a thread respectively, then knitting the weft polyester-spandex fibers in a tuck manner, repeating the knitting of three times of floating threads, and continuously circularly knitting to form fish scale-like sheet-shaped structural arrangement; the back inlet wire weaved fiber covers the former one to form a fish scale-shaped layer with interlaced terylene and polyurethane.

The thickness of the fabric is 150 mu m, and the first interval is 100 mu m²And the second interval is 400 μm²。

The utility model discloses utilize the numerous capillary that the fine groove in polyester fiber surface formed, make the moisture and the sweat on human surface transfer to outer fibre rapidly through the wicking action.

The utility model discloses an on the basis that the tradition increased the change of dacron cross-section, the fibre surface has numerous hole or slot, utilizes the capillary effect that its surperficial fine groove produced for the fibre can absorb skin surface moisture and sweat rapidly, through wicking, diffusion, transmits the skin of fabric rapidly and disperses, thereby reaches the rapid-curing cutback purpose. The polyester-spandex warp and weft yarns are subjected to uneven alternate looping weaving, spandex convex points at the overlapping part of the high-elasticity breathable first spandex yarn and the wear-resistant quick-drying second polyester yarn on the same layer of fabric appear in sequence, polyester convex points at the overlapping part of the high-elasticity breathable second spandex yarn and the wear-resistant quick-drying first polyester yarn appear in sequence, and the elasticity direction of the polyester-spandex yarns is vertical. The fluidity of the moisture absorption channel is increased, and the moisture absorption and quick drying effect is excellent. The lattice point hollow weaving technology simultaneously improves the air permeability of the fabric, and achieves better moisture absorption, sweat releasing and quick drying effects.

Advantageous effects

(1) The utility model adopts the terylene fiber and spandex fiber blended fish-scale cloth, which not only has the excellent characteristics of the terylene fiber and the blended fabric thereof, but also has lasting softness performance, and the functionality of the fish-scale cloth is obviously superior to that of the prior terylene-spandex blended fabric;

(2) the warp and weft yarns are alternatively looped by using fine polyester and spandex fiber threads, so that the fabric has the advantages of good strength, smoothness, stiffness, easiness in washing, quick drying and the like of the original polyester fiber, and also has the advantages of soft handfeel, good elasticity and the like of the spandex. The defects of hard hand feeling, poor touch feeling, soft luster, poor moisture absorption and the like of the original fabric are overcome;

(3) in the uneven alternate blending process, some lattice points are woven in an empty mode, fiber gaps are increased on the premise that the wearing is not affected, the air permeability of the fabric is improved, and the effect of cooling the wearing is achieved.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic cross-sectional structure of the present invention.

Detailed Description

The present invention will be further described with reference to the following specific examples. It should be understood that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. Furthermore, it should be understood that various changes and modifications of the present invention may be made by those skilled in the art after reading the teachings of the present invention, and these equivalents also fall within the scope of the appended claims.

As shown in fig. 1 and 2, the embodiment of the present invention relates to a terylene and spandex blended moisture absorption sweat releasing high elastic breathable fish scale fabric, which is a terylene and spandex blended spandex fabric, and is woven by warp and weft yarns in a staggered manner, and the interweaving interval is not uniform; the weaving of the warp and weft yarns in a staggered way comprises the following steps: the high-elastic breathable first spandex yarns 1 and the wear-resistant quick-drying first polyester yarns 2 are arranged in a warp-wise staggered manner, and the high-elastic breathable second spandex yarns 3 and the wear-resistant quick-drying second polyester yarns 4 are arranged in a weft-wise staggered manner; the spandex convex points at the overlapped part of the first spandex yarn 1 and the second spandex yarn 4 are staggered, and the terylene convex points at the overlapped part of the first terylene yarn 2 and the second spandex yarn 3 are staggered.

The warp and weft yarns are woven in a staggered manner by adopting uneven alternate looping of the warp and weft yarns.

The elastic direction of the first spandex yarn 1 is vertical to that of the second polyester yarn 4.

The elastic direction of the second polyurethane yarn 3 is perpendicular to the elastic direction of the first polyester yarn 2.

The area of the second interval 6 in the interweaving interval is 4 times of the area of the first interval 5, and the air permeability of the fabric is effectively improved.

The fish scale fabric comprises: knitting the weft polyester-spandex fibers in a thread respectively, then knitting the weft polyester-spandex fibers in a tuck manner, repeating the knitting of three times of floating threads, and continuously circularly knitting to form fish scale-like sheet-shaped structural arrangement; the fiber woven by the rear inlet wire covers the former one to form a terylen and polyurethane staggered fish scale-shaped middle layer and an inner layer.

The thickness of the fabric is controlled to be 150 mu m, and the first interval 5 is 100μm²The second interval 6 is 400 μm²。

Finally, it should be noted that: the above embodiments are only used to illustrate the present invention and not to limit the technical solutions of the present invention, therefore, although the present invention has been described in detail with reference to the above embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, and all modifications thereof should be covered by the scope of the claims of the present invention.

Claims (5)

1. The terylene and spandex blended moisture-absorbing sweat-releasing high-elastic breathable fish scale fabric is characterized in that the fabric is a terylene blended spandex fabric, and is obtained by weaving warps and wefts in a staggered manner, and the interweaving intervals are uneven; the weaving of the warp and weft yarns in a staggered mode comprises the following steps: the first spandex yarns (1) and the first polyester yarns (2) are arranged in a warp-wise staggered manner, and the second spandex yarns (3) and the second polyester yarns (4) are arranged in a weft-wise staggered manner; and the spandex convex points at the overlapped part of the first spandex yarn (1) and the second spandex yarn (4) on the same-layer fabric are staggered, and the terylene convex points at the overlapped part of the first terylene yarn (2) and the second spandex yarn (3) are staggered.

2. The terylene and spandex blended moisture-absorbing sweat-releasing high-elastic breathable fish scale fabric according to claim 1, wherein the warp and weft yarns are woven in a staggered manner by adopting uneven alternate looping of the warp and weft yarns.

3. The terylene-spandex blended moisture-absorbing sweat-releasing high-elastic breathable fish scale fabric according to claim 1, wherein the elastic direction of the first spandex yarn (1) is perpendicular to the elastic direction of the second terylene yarn (4).

4. The terylene and spandex blended moisture-absorbing sweat-releasing high-elastic breathable fish scale fabric according to claim 1, wherein the elastic direction of the second spandex yarn (3) is perpendicular to the elastic direction of the first terylene yarn (2).

5. The terylene and spandex blended moisture-absorbing sweat-releasing high-elastic breathable fish scale fabric according to claim 1, wherein the area of the second interval (6) in the interweaving interval is 4 times that of the first interval (5).

Images