CN217671542U - Breathable antistatic fabric - Google Patents

Abstract

The utility model discloses a ventilative antistatic fabric relates to textile fabric technical field, aims at solving the not good problem of traditional textile fabric antistatic behavior. The key points of the technical scheme are as follows: including ventilative sandwich layer and rather than two-layer wet layer of leading of two terminal surface fixed connection, the hygroscopicity of ventilative sandwich layer is greater than wet layer and ventilative sandwich layer leads wet and be less than wet layer, is formed with a plurality of logical grooves that run through the setting on the ventilative sandwich layer, and ventilative sandwich layer is woven by the yarn that discharges and is formed. The utility model discloses in be provided with chitin fibre, utilize the characteristics that the antistatic properties that this kind of novel material has is good to improve the holistic antistatic properties of surface fabric.

Description

Breathable antistatic fabric

Technical Field

The utility model relates to a textile fabric technical field, more specifically says that it relates to a ventilative antistatic fabric.

Background

Textiles, i.e., products made by weaving, include yarns, woven fabrics, knitted fabrics, and are generally classified into woven fabrics and knitted fabrics.

The textile is full of various places in people's life, including various home textiles, clothes, toys and the like, wherein the clothes are necessities of people's life, although with the continuous development of textile technology, the fabric has more and more perfect properties, but the most important requirement of people on the clothes comes to the end is still comfortable, the factors influencing the comfort of the clothes are also various, various chemical fiber fabrics can generate static electricity in dry autumn and winter, the occurrence of the static electricity can bring great troubles to users, the textile is usually made of the fabric, and therefore, the fabric with good antistatic performance is necessary to be arranged.

Therefore, a new solution is needed to solve this problem.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a ventilative antistatic fabric reaches the purpose that improves the whole antistatic properties of surface fabric through setting up of structure.

The above technical object of the present invention can be achieved by the following technical solutions: this ventilative antistatic fabric, including ventilative sandwich layer and rather than two-layer wet layer of leading of two terminal surface fixed connection, the hygroscopicity of ventilative sandwich layer is greater than wet layer and the wet layer of leading of ventilative sandwich layer and is less than wet layer, be formed with a plurality of logical grooves that run through the setting on the ventilative sandwich layer, ventilative sandwich layer is woven by the yarn that discharges and is formed.

Through adopting above-mentioned technical scheme, utilize and lead in wet layer carries moisture to ventilative sandwich layer for sufficient moisture has in the ventilative sandwich layer, and then make the whole moisture that has the capacity of surface fabric, reduce the accumulation volume of the inside electric charge of structure, and then improve the holistic antistatic properties of structure, utilize the electric conduction that the yarn that discharges has and discharge performance and lead to the groove set up to discharge the yarn process that discharges and provide sufficient space and further improve the holistic antistatic properties of surface fabric.

The utility model discloses further set up to: the moisture-conducting layer is a plain weave, and the breathable core layer is a through hole weave.

Through adopting above-mentioned technical scheme, the stable in structure's that utilizes plain weave to have characteristics ensure to lead wet layer and the holistic stability of structure, utilize the thru hole tissue to weave out logical groove, and then provide the space for the process of discharging, the holistic antistatic properties of additional strengthening structure.

The utility model discloses further set up to: the three discharge yarns are woven in a bundle to form the through hole tissue, the through hole tissue is 6-page healds, and the through hole tissue consists of a three-upper three-lower coplanar tissue, a three-lower three-upper coplanar tissue, a three-upper three-lower coplanar tissue and a three-lower three-upper coplanar tissue from left to right.

The utility model discloses further set up to: the first tissue points of the through-hole tissue are three, one above the other, the second tissue points of the through-hole tissue are three, one below the other, three above the other, the fourth tissue points of the through-hole tissue are three, one below the other, one above the other, the fifth tissue points of the through-hole tissue are three, one above the other, three below the other, and one above the other, and the sixth tissue points of the through-hole tissue are three, one above the other, three below the other.

The utility model discloses further set up to: the discharging yarn comprises a moisture absorption yarn core and a discharging covering yarn covering the outer side of the moisture absorption yarn core, the moisture absorption yarn core is formed by twisting chitin fibers, and the discharging covering yarn is formed by twisting polyester copper ion profiled fibers, viscose fibers and copper fibers with Y-shaped cross sections.

By adopting the technical scheme, the characteristics of good moisture absorption, air permeability and antistatic performance of the chitin fiber are utilized to enhance the overall performance of the fabric, the characteristics of good moisture absorption of the viscose fiber are utilized to ensure that the discharging yarn has good moisture absorption and moisture retention performance, the characteristics of good conductivity of the copper fiber are utilized to ensure that the charges in the discharging yarn can be better discharged, and the stability of the overall antistatic performance of the structure is ensured.

The utility model discloses further set up to: the outer side of the discharging covering yarn is provided with a fluff layer.

By adopting the technical scheme, the arranged fluff layer can enable copper fibers in the discharging covering yarn to be better scattered into the through groove, and the stability of the discharging covering yarn and the whole antistatic performance of the structure is ensured.

The utility model discloses further set up to: the wet guide layer is formed by plain weaving of wet guide yarns, each wet guide yarn comprises a reinforcing yarn core and wet guide wrapping yarns wrapping the outer side of the reinforcing yarn core, each reinforcing yarn core is formed by twisting nylon fibers, and each wet guide wrapping yarn is formed by twisting polypropylene fiber profiled fibers with Y-shaped cross sections.

By adopting the technical scheme, the stability of the moisture-conducting performance of the moisture-conducting layer is ensured by utilizing the moisture-conducting performance of the moisture-conducting yarns, the structural strength of the moisture-conducting layer and the whole structure is enhanced by utilizing the strength of the reinforcing yarn core, and the whole performance of the moisture-conducting yarns and the moisture-conducting layer is enhanced by utilizing the characteristics of water repellency, moisture permeability and good air permeability of the polypropylene fiber profiled fibers with the Y-shaped cross section.

To sum up, the utility model discloses following beneficial effect has:

utilize wet layer to carry moisture to ventilative sandwich layer in for ventilative sandwich layer has sufficient moisture in for make the whole moisture that has of surface fabric, reduce the accumulation volume of the inside electric charge of structure, and then improve the holistic antistatic properties of structure, utilize the electric conduction and the discharge performance that the yarn that discharges has and lead to the groove set up to the discharge process of yarn and provide sufficient space and further improve the holistic antistatic properties of surface fabric.

Drawings

FIG. 1 is an exploded view of the present invention;

FIG. 2 is a knitting structure diagram of the middle air permeable core layer of the present invention;

FIG. 3 is a structural diagram of the middle air permeable core layer of the present invention;

fig. 4 is a schematic structural view of the discharge yarn of the present invention;

fig. 5 is a schematic structural view of the middle moisture-permeable yarn of the present invention.

In the figure: 1. a breathable core layer; 2. a moisture-wicking layer; 3. a through groove; 4. discharging the yarn; 5. a moisture-absorbing yarn core; 6. discharging the covered yarn; 7. chitin fiber; 8. terylene copper ion profiled fiber; 9. viscose fibers; 10. copper fibers; 11. a fluff layer; 12. moisture-conducting yarns; 13. a reinforcing yarn core; 14. moisture-conducting wrap yarn; 15. nylon fiber; 16. polypropylene profiled fiber.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and examples.

This ventilative antistatic fabric, as shown in fig. 1 and 4, including ventilative sandwich layer 1 and two-layer wet guide layer 2 that realize fixed connection through the mode of yarn sewing with its two terminal surfaces, the hygroscopicity of ventilative sandwich layer 1 is greater than wet guide layer 2 and the wet guide of ventilative sandwich layer 1 is less than wet guide layer 2, the setting of this structure makes wet guide layer 2 can carry the moisture that it was collected to ventilative sandwich layer 1 in better, make ventilative sandwich layer 1 have sufficient moisture, and then can reduce the electric charge amount that gathers in the whole structure, strengthen the holistic antistatic performance of surface fabric, be formed with a plurality of logical grooves 3 that run through the setting on ventilative sandwich layer 1, utilize logical groove 3 that forms to make the inside of structure have more cavities that supply charge releases, make the electric charge that produces in the structure emit better, can also strengthen the intercommunication degree of the inside and outside both sides of ventilative sandwich layer 1 simultaneously, improve the holistic gas permeability of structure, the sandwich layer is woven by discharge yarn 4, the electric charge that the electric conduction and the discharge performance that the yarn 4 has can discharge can be arranged the electric charge that the inside of structure is removed, reduce the circumstances that the electric charge accumulation appears, and then ensure the whole stable antistatic performance of structure.

As shown in fig. 1 and 4, the moisture guiding layer 2 is a plain weave, the structure of the plain weave has the characteristic of stable structure to ensure the stability of the whole structure of the moisture guiding layer 2, the breathable core layer 1 is a through hole structure, the breathable core layer 1 is ensured to have enough through grooves 3 by the weaving mode of the through hole structure, and then sufficient space is provided for the whole charge releasing process of the structure, and the whole antistatic performance of the fabric is ensured to be stable, the discharging yarn 4 comprises a moisture absorbing yarn core 5 and a discharging covering yarn 6 covering the outside of the moisture absorbing yarn core 5, and the moisture absorbing yarn core 5 has the characteristic of good moisture absorption to ensure that the moisture absorbing yarn core 5 has enough water, so that the charge amount appearing in the moisture absorbing yarn core 5 can be reduced.

As shown in fig. 1 and 4, the moisture absorption yarn core 5 is formed by twisting chitin fiber 7, the overall performance of the moisture absorption yarn core 5 and the discharge yarn 4 is enhanced by utilizing the characteristics of moisture absorption, ventilation, static resistance and good antibacterial property of the chitin fiber 7, the discharge covering yarn 6 is formed by twisting polyester copper ion profiled fiber 8 with a Y-shaped cross section, viscose fiber 9 and copper fiber 10, the surface of the polyester copper ion profiled fiber 8 with the Y-shaped cross section is provided with a strip-shaped groove to increase water conveying and ventilation pores in the discharge covering yarn 6, so that the overall ventilation and moisture guiding performance of the discharge yarn 4 is enhanced, the inhibition and killing effect on the microbial breeding process is realized by utilizing free copper ions of the polyester copper ion profiled fiber 8, so that the antibacterial property of the overall structure can be enhanced, the electric charge accumulated in the structure can be better discharged by utilizing the characteristic of good conductivity of the copper fiber 10, the outer side of the discharge covering yarn 6 is provided with a fluff layer 11, the outer side of the discharge yarn 4 is provided with a fluff layer 11, so that the copper fiber 10 can better penetrate into the through groove 3, and the fluff can be better introduced into the through groove 3.

As shown in fig. 1, 4 and 5, the moisture guiding layer 2 is formed by plain weaving of moisture guiding yarns 12, the moisture guiding performance of the moisture guiding layer 2 is utilized to ensure the stability of the overall moisture guiding performance of the moisture guiding layer 2, the moisture guiding layer 2 can convey the collected moisture into the breathable core layer 1 to ensure that moisture in the fabric is gathered, the amount of electric charge generated in the structure is reduced, and further the generation of static phenomena is reduced, the moisture guiding yarns 12 comprise reinforcing yarn cores 13 and moisture guiding covering yarns 14 covering the outer sides of the reinforcing yarn cores, the reinforcing yarn cores 13 are formed by twisting nylon fibers 15, the structural strength of the reinforcing yarn cores 13, the moisture guiding yarns 12 and the moisture guiding layer 2 is high to ensure the stability of the overall structural strength, the moisture guiding covering yarns 14 are formed by twisting polypropylene profiled fibers 16 with a Y-shaped cross section, the profiled fibers 16 and the profiled fibers 8 are utilized to ensure that the moisture in the reinforcing yarn cores 2 can flow onto the breathable core layer 1 to be stored, the moisture guiding layer 1 is contacted with the dacron copper ion fibers, the antistatic performance of the profiled fibers is improved, and the overall moisture guiding performance of the moisture guiding layer 2 is improved, and the moisture guiding performance of the fabric is improved.

As shown in fig. 1 to 4, three discharge yarns 4 are braided into a bundle to form a through hole tissue, the through hole tissue is 6-page healds, the through hole tissue is composed of a three-up and three-down coplanar tissue, a three-down and three-up coplanar tissue, a three-up and three-down coplanar tissue and a three-down and three-down coplanar tissue, first tissue points of the through hole tissue are three one-up and one-down, second tissue points of the through hole tissue are one-down and three-up and three-down, third tissue points of the through hole tissue are three-up and one-down, fourth tissue points of the through hole tissue are three-down and one-up, fifth tissue points of the through hole tissue are one-up and three-down, and sixth tissue points of the through hole tissue are three one-down and one-up.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (5)

1. A breathable, antistatic fabric characterized by: including ventilative sandwich layer (1) and rather than two-layer wet layer (2) of leading of two terminal surface fixed connection, the hygroscopicity of ventilative sandwich layer (1) is greater than wet layer (2) and leads of ventilative sandwich layer (1) wet less than wet layer (2), be formed with a plurality of logical grooves (3) that run through the setting on ventilative sandwich layer (1), ventilative sandwich layer (1) is woven by discharge yarn (4) and is formed.

2. The breathable antistatic fabric of claim 1, wherein: the moisture-conducting layer (2) is a plain weave, and the breathable core layer (1) is a through hole weave.

3. The breathable antistatic fabric of claim 1, characterized in that: the discharge yarn (4) comprises a moisture absorption yarn core (5) and a discharge wrapping yarn (6) wrapping the outer side of the moisture absorption yarn core, the moisture absorption yarn core (5) is formed by twisting chitin fibers (7), and the discharge wrapping yarn (6) is formed by twisting polyester copper ion profiled fibers (8), viscose fibers (9) and copper fibers (10) with Y-shaped cross sections.

4. The breathable antistatic fabric of claim 3, characterized in that: the outer side of the discharging covering yarn (6) is provided with a fluff layer (11).

5. The breathable antistatic fabric of claim 1, characterized in that: the wet guide layer (2) is formed by plain weaving of wet guide yarns (12), each wet guide yarn (12) comprises a reinforcing yarn core (13) and a wet guide covering yarn (14) covering the outside of the reinforcing yarn core, each reinforcing yarn core (13) is formed by twisting nylon fibers (15), and each wet guide covering yarn (14) is formed by twisting polypropylene profiled fibers (16) with Y-shaped cross sections.

Images