CN210177049U - Anti-static terylene single-guide fabric - Google Patents

Abstract

The utility model discloses an anti-static terylene single-guide fabric, including the fabric basic unit, the fabric basic unit interweave by warp and woof and form. The warp yarns are polyester filaments, the weft yarns are formed by arranging weft yarns A, weft yarns B and weft yarns C, the weft yarns A are the polyester filaments, the weft yarns B are polypropylene filaments, the weft yarns C are conductive fibers, and the weft yarns B are distributed on the inner side face of the fabric base layer. The utility model discloses an useful part lies in: the polypropylene fiber has the functions of water repellency, suction and conduction, and can discharge sweat generated by skin to the cloth surface, so that the surface of the cloth, which is contacted with the skin, can keep dry and comfortable; the conductive fiber can make static gathered on human body disappear quickly, and static is not easy to generate, thereby bringing comfort and air permeability to wearing.

Description

Anti-static terylene single-guide fabric

Technical Field

The utility model belongs to the technical field of textile fabric, in particular to prevent static dacron list and lead surface fabric.

Background

The vigorous development of outdoor sports enables people to have higher and higher functional requirements on outdoor fabrics, and the functions of moisture absorption quick-drying property, super wear resistance, high water pressure high moisture permeability, unidirectional absorption guiding property (single guide for short) and the like become an indispensable part of the outdoor fabrics, wherein the terylene single guide fabrics are loved by more consumers due to the unique unidirectional absorption guiding function because polypropylene fibers are added, the polypropylene fibers have the water-repellent absorption guiding function and can discharge sweat generated by skin to the cloth surface, so that the fabric can keep dry and comfortable when contacting with the skin surface, but the antistatic problem is easily generated due to the low moisture regain of the terylene fibers in the actual wearing process, and the service performance of the fabric is greatly reduced.

Disclosure of Invention

To the above problem, an object of the utility model is to provide an prevent static dacron list and lead surface fabric, solved present conventional textile fabric and produced the problem of static easily in the actual use of wearing.

In order to realize the purpose, the utility model discloses a technical scheme as follows:

an anti-static terylene single-guide fabric comprises a fabric base layer, wherein the fabric base layer is formed by interweaving warps and wefts. The warp yarns are polyester filaments, the weft yarns are formed by arranging weft yarns A, weft yarns B and weft yarns C correspondingly, the weft yarns A are the polyester filaments, the weft yarns B are polypropylene filaments, the weft yarns C are conductive fibers, and the weft yarns B are distributed on the inner side surface of the fabric base layer.

In one embodiment, the weft yarn is formed by two A weft yarns and one B weft yarn which are alternately arranged for N times in sequence, and then two A weft yarns and one C weft yarn are arranged, wherein N is an integer greater than or equal to 1.

In another embodiment, the weft yarns are formed by sequentially and alternately arranging four A weft yarns, one B weft yarn, two A weft yarns and one B weft yarn for X times, and then arranging four A weft yarns, one B weft yarn, two A weft yarns and one C weft yarn, wherein X is an integer greater than or equal to 1.

In another embodiment, the weft yarns are formed by sequentially and alternately arranging four A weft yarns and one B weft yarn for M times, and then arranging four A weft yarns and one C weft yarn, wherein M is an integer greater than or equal to 1.

Furthermore, the denier number of the warp yarn is 50D-150D.

Furthermore, the denier number of the weft yarn A is 50D-150D, the denier number of the weft yarn B is 50D-150D, and the denier number of the weft yarn C is 50D-170D.

Furthermore, the fabric base layer is a woven fabric layer with double-faced jacquard patterns.

The utility model discloses following beneficial effect has: the antistatic terylene single-guide fabric is provided, and the polypropylene has the functions of water repellency, suction and conduction, so that sweat generated by skin can be discharged to the surface of the fabric, and the surface of the fabric contacting the skin can keep dry and comfortable; the conductive fibers can enable static gathered on a human body to disappear quickly and not to generate static easily, so that comfort and air permeability are brought to wearing, the problems of stuffiness and static of the existing textile fabric in the actual wearing and using process are solved, and the practicability of the garment fabric is enhanced.

Drawings

Fig. 1 is a fabric weave arrangement diagram of the first embodiment.

Fig. 2 is a weave arrangement diagram of the fabric of example two.

Fig. 3 is a fabric weave arrangement diagram of the third embodiment.

Description of the main component symbols: 1. warp yarns; 21. a weft yarn; 22. b, weft yarns; 23. and C, weft yarns.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the following detailed description.

Example one

As shown in fig. 1, the anti-static terylene single-guide fabric comprises a fabric base layer, wherein the fabric base layer is a woven fabric layer with double-faced jacquard weave, and the fabric base layer is formed by interweaving warp yarns 1 and weft yarns. Warp 1 is polyester filament 50D/72F low stretch yarn, and the weft is formed by arranging weft A21, weft B22 and weft C23 correspondingly, and specifically comprises the following steps: two a weft yarns 21 and one B weft yarn 22 repeat the cycle N times, plus two a weft yarns 21 and one C weft yarn 23 are arranged, N =17 in this example. Weft yarn A21 is polyester filament yarn 50D/72F low stretch yarn, weft yarn B22 is polypropylene filament yarn 75D/68F, and weft yarn C23 is conductive fiber 95D/39F.

The fabric prepared by the embodiment can solve the problem that the terylene single conductive fabric is easy to be subjected to static electricity, and the charge surface density (mu C/square meter) GB/T12703.2-2009 is not more than 7.0, so that the wearability of the terylene single conductive fabric is improved.

Example two

As shown in fig. 2, the anti-static polyester single-guide fabric comprises a fabric base layer, wherein the fabric base layer is a woven fabric layer with double-faced jacquard weave, and the fabric base layer is formed by interweaving warp yarns 1 and weft yarns. Warp 1 is polyester filament 75D/72F low stretch yarn, and the weft is formed by arranging weft A21, weft B22 and weft C23 correspondingly, and specifically comprises the following steps: four a weft yarns 21, one B weft yarn 22, two a weft yarns 21, one B weft yarn 22 are arranged X times alternately in this order, plus four a weft yarns 21, one B weft yarn 22, two a weft yarns 21, one C weft yarn 23 are arranged, in this example X = 2. Weft yarn A21 is polyester filament 75D/72F high stretch yarn, weft yarn B22 is polypropylene filament 100D/144F, and weft yarn C23 is conductive fiber 95D/39F.

The fabric prepared by the embodiment can solve the problem that the terylene single conductive fabric is easy to be subjected to static electricity, and the charge surface density (mu C/square meter) GB/T12703.2-2009 is not more than 7.0, so that the wearability of the terylene single conductive fabric is improved.

EXAMPLE III

As shown in fig. 3, the anti-static polyester single-guide fabric comprises a fabric base layer, wherein the fabric base layer is a woven fabric layer with double-faced jacquard weave, and the fabric base layer is formed by interweaving warp yarns 1 and weft yarns. Warp 1 is polyester filament 150D/96F high stretch yarn, and the weft is formed by arranging weft A21, weft B22 and weft C23 correspondingly, and specifically comprises the following steps: four a weft yarns 21 and one B weft yarn 22 are repeated M times, and four a weft yarns 21 and one C weft yarn 23 are arranged, M =15 in this example. Weft yarn A21 is polyester filament yarn 100D/96F high stretch yarn, weft yarn B22 is polypropylene filament yarn 150D/144F, and weft yarn C23 is conductive fiber 170D/99F.

The fabric prepared by the embodiment can solve the problem that the terylene single conductive fabric is easy to be subjected to static electricity, and the charge surface density (mu C/square meter) GB/T12703.2-2009 is not more than 7.0, so that the wearability of the terylene single conductive fabric is improved.

While the invention has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (7)

1. The utility model provides an anti-static dacron single lead surface fabric, includes the surface fabric basic unit, the surface fabric basic unit form its characterized in that by warp and woof interweave: the warp yarns are polyester filaments, the weft yarns are formed by arranging weft yarns A, weft yarns B and weft yarns C, the weft yarns A are the polyester filaments, the weft yarns B are polypropylene filaments, the weft yarns C are conductive fibers, and the weft yarns B are distributed on the inner side face of the fabric base layer.

2. The anti-static polyester single-guide fabric as claimed in claim 1, wherein: the weft yarns are formed by sequentially and alternately arranging two weft yarns A and one weft yarn B for N times, and arranging two weft yarns A and one weft yarn C, wherein N is an integer greater than or equal to 1.

3. The anti-static polyester single-guide fabric as claimed in claim 1, wherein: the weft yarns are formed by arranging four A weft yarns, one B weft yarn, two A weft yarns and one B weft yarn in sequence and alternately for X times, and then arranging the four A weft yarns, the one B weft yarn, the two A weft yarns and the one C weft yarn, wherein X is an integer greater than or equal to 1.

4. The anti-static polyester single-guide fabric as claimed in claim 1, wherein: the weft yarns are formed by sequentially and alternately arranging four weft yarns A and one weft yarn B for M times, and arranging four weft yarns A and one weft yarn C, wherein M is an integer greater than or equal to 1.

5. The anti-static polyester single-guide fabric as claimed in claim 1, wherein: the denier number of the warp yarn is 50D-150D.

6. The anti-static polyester single-guide fabric as claimed in claim 1, wherein: the denier number of the weft yarn A is 50D-150D, the denier number of the weft yarn B is 50D-150D, and the denier number of the weft yarn C is 50D-170D.

7. The anti-static polyester single-guide fabric as claimed in any one of claims 1 to 6, wherein: the fabric base layer is a woven fabric layer with double-faced jacquard.

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