CN213389076U - Multi-component summer anti-static tooling fabric - Google Patents

Abstract

The utility model belongs to the technical field of the surface fabric weaving, a static frock surface fabric is prevented in multicomponent summer specifically disclosed. The utility model discloses a prevent static frock surface fabric includes warp and woof, still includes conductive fiber, conductive fiber evenly inlays to weave and distributes in surface fabric warp direction and latitudinal direction inboard, and the long line stridees across in the latitude between the long line that floats through the long line that floats, and adjacent long line dislocation cross arrangement and interconnect float through the long line that floats or latitude, wherein the warp is the mixed yarn of dacron, cotton, day silk fibre and flax long fiber, the woof is the mixed yarn of dacron, cotton, day silk fibre and flax short fiber. The utility model discloses both realized the high count high density of surface fabric, on satisfying the performance basis of traditional static frock surface fabric is prevented in summer simultaneously, further promoted the high-grade impression of surface fabric, dangle feel, comfortable feel, especially high moisture absorption gas permeability, bacterinertness, performance such as ultraviolet resistance have compensatied the not enough of current static frock is prevented in summer.

Description

Multi-component summer anti-static tooling fabric

Technical Field

The utility model belongs to the technical field of textile fabric, concretely relates to static frock surface fabric is prevented in multicomponent summer.

Background

At present, the traditional protective tooling fabric mainly has three types according to raw material classification: 1. polyester cotton fabric; 2. cotton polyester fabric; 3. all-cotton fabric. The fiber components are as follows: polyester and cotton are widely used because of their high spinnability and suitable cost. However, these materials are also suitableThe cotton fiber has the characteristics of moisture absorption, air permeability, soft hand feeling and the like, but has poor elasticity, large shrinkage rate, easy creasing, easy mildew generation and the like; the terylene fiber has high strength and good wear resistance, but has poor moisture absorption, stuffy feeling when worn, and easy adhesion to skin after sweating, and the like. Simultaneously, traditional cotton-polyester antistatic summer frock accords with the relevant standard of country in order to ensure that the index such as intensity, wearability of surface fabric, and yarn count is thicker, density is lower than what compare in civilian summer clothing surface fabric, and the specification commonly used is like: 32S, 130/10 cm 70/10 cm, 145g/m²。

However, with the upgrade of the whole national consumption, the comprehensive performance requirements on the clothes are also improved, and the related indexes of the protective clothing not only meet the performance indexes required by the corresponding national standards, but also have the characteristics of fineness, smoothness, lightness, thinness, ventilation, smoothness, stiffness, smoothness, environmental protection and the like under the fashion trend of civil fabrics. In order to ensure indexes such as breaking strength, tearing strength and the like of a conventional summer anti-static tooling fabric, the yarn count density specification of the fabric is controlled within a proper range in the spinning process, so that the summer anti-static tooling fabric is more wild in yarn count texture than a conventional civil fabric; the corresponding aspects of fabric air permeability, drapability, wrinkle resistance, mildew resistance and the like in textiles with terylene and cotton fibers as the leading factors need to be improved, and particularly, the textile is stuffy when worn in hot summer or in a high-temperature environment, and sweat cannot be removed in time and adheres to the skin, so that the wearing experience is poor. The development of a high-quality summer anti-static tooling fabric which not only ensures the protective performance (indexes such as breaking strength and tearing strength) of the fabric, but also has high count, high density, silky handfeel and beautiful appearance like high-grade civil fabrics, and simultaneously has high moisture absorption and air permeability, antibacterial and mildew resistance becomes the target of the upgrading of industrial fabrics of the utility model.

Disclosure of Invention

An object of the utility model is to overcome the not enough of existence among the prior art, provide a static frock surface fabric is prevented in multicomponent summer. The utility model discloses a prevent static frock surface fabric has both realized that the height of surface fabric is highly dense, and on satisfying the performance basis that traditional static frock surface fabric was prevented in summer, the high-grade impression that has further promoted the surface fabric, the feel of dangling, comfortable feel, especially high moisture absorption gas permeability, bacterinertness, performance such as ultraviolet resistance have compensatied the not enough of current static frock of preventing in summer.

In order to solve the technical problem, the utility model adopts the following technical scheme: the multi-component summer anti-static tooling fabric comprises warp yarns, weft yarns and conductive fibers, wherein the conductive fibers are uniformly embedded and woven on the inner sides of the warp direction and the weft direction of the fabric, the warp floating long yarns span between the weft floating long yarns, and the adjacent warp floating long yarns or weft floating long yarns are staggered, crossed, configured and connected with each other, wherein the warp yarns are blended yarns of polyester, cotton, tencel fibers and flax long fibers, and the weft yarns are blended yarns of polyester, cotton, tencel fibers and flax short fibers.

The conductive fibers are made by drawing conductive yarns and polyester filament yarns.

The number of the warp yarns is larger than that of the weft yarns, the warp yarns are thinner than the weft yarns, and the arrangement density of the warp yarns is larger than that of the weft yarns.

The yarn count of the warp yarn is 80S/2, the yarn count of the weft yarn is 54S/2-60S/2, the density of the warp yarn is 120-130 pieces/10 cm, and the density of the weft yarn is 70-80 pieces/10 cm.

The density of the warp yarns is 120-130 yarns/10 cm.

The density of the weft yarns is 70-80 yarns/10 cm.

The fabric adopts an 1/2 right twill weave structure.

The gram weight of the fabric is 138-148g/m²。

Compared with the prior art, the utility model has the advantages of it is following:

the utility model discloses a surface fabric has high count high density, ventilative nice and cool, the smooth and smooth characteristics of hanging down of silk of feeling, the while has the mould proof, health care effects such as antibiotic, prevent static frock surface fabric brute force in guaranteeing summer, color fastness, on dimensional stability's the basis, flax fiber has been added for the ventilative nice and cool performance of further promotion surface fabric, it is fibrous to have added the tencel for the smooth sense of silk that realizes the surface fabric, with dacron, cotton, conductive fiber makes up the back, through the ratio trial-production that relapse many times, finally obtain the high count of multiunit distribution ratio, the surface fabric that has high yield of high-density yarn blending.

The utility model provides a tencel has remain the cotton hygroscopicity, the intensity of chemical fibre, the gloss of pure silk, has the softness and dangles, the sense of touch is unique, elegant sensation is active, ventilative moisture permeable, simple and elegant gloss, prevent that the mite is antistatic, the durability is strong, elasticity is good, be difficult for corrugating, be convenient for manage advantages such as washing.

The utility model discloses use flax fiber, it is the cortex fibre of plant, and the function is similar with people's skin, has that the hygroscopicity is strong, the heat dissipation is fast, antifriction, high temperature resistant, nonflammable, difficult split, electric conductivity is little, the dust absorption rate is low, unique advantages such as antibacterial health care. The flax fiber is tough and flexible, and the strength of the flax fiber is 1.5 times that of the cotton fiber; flax fiber is the only fasciculate plant fiber in natural fiber, fasciculate fiber is formed by flax unicellular which is bonded together by means of colloid, and the air permeability of flax fabric is as high as more than 25 percent because of no more air-remaining condition, so that the heat-conducting property (air permeability) is excellent.

Due to the natural spindle-shaped structure and the unique pectin inclined edge holes of the flax fibers, the actual temperature of a human body can be reduced by 4-5 ℃ when the flax clothing is worn at normal temperature; scientific experiments of a contact method prove that the linen has a remarkable bacteriostatic action, and the bacteriostatic rate can reach more than 65-90%; the hemicellulose contained in the flax fiber is more than 18 percent, which is several times higher than that of the cotton fiber. When it is used as clothes, it can protect the skin from the damage of ultraviolet rays.

The linen fabric has the functions of temperature regulation, allergy resistance, static electricity prevention and bacteria resistance, and as the linen has good hygroscopicity and can absorb moisture which is 20 times of the self weight, the official moisture regain is 14 percent (8.5 percent of the official moisture regain of cotton, 0.4 percent of the official moisture regain of polyester and 10 percent of the official moisture regain of tencel), the linen fabric feels dry and comfortable, and is a preferred textile raw material in summer pursuing green and environmental protection.

Drawings

Fig. 1 is the utility model discloses the structural schematic diagram of static frock surface fabric is prevented in multicomponent summer.

Fig. 2 is the surface texture of the multi-component summer antistatic tooling fabric of the present invention.

Fig. 3 is the cross section structure sketch map of the utility model discloses static frock surface fabric is prevented in multicomponent summer.

Fig. 4 is the utility model discloses multicomponent prevents static frock surface fabric's longitudinal section structure sketch map in summer.

1, fabric; 2. warp yarns; 3. a weft yarn; 4. conductive fibers.

Detailed Description

The technical solution of the present invention will be described in detail with reference to the accompanying drawings and the detailed description.

Example 1

The multi-component summer anti-static tooling fabric comprises warp yarns 2, weft yarns 3 and conductive fibers 4, wherein the conductive fibers 4 are uniformly embedded and woven on the inner sides of the warp direction and the weft direction of the fabric 1, warp floating long yarns cross over weft floating long yarns, and adjacent warp floating long yarns or weft floating long yarns are staggered, crossed, configured and connected with each other, wherein the warp yarns 2 are blended yarns of terylene, cotton, tencel fibers and flax long fibers, and the weft yarns 3 are blended yarns of terylene, cotton, tencel fibers and flax short fibers.

The conductive fiber 4 is made by drawing conductive yarn and polyester filament yarn.

The number of the warp yarns 2 is larger than that of the weft yarns 3, the warp yarns 2 are thinner than the weft yarns 3, and the arrangement density of the warp yarns is larger than that of the weft yarns.

The yarn count of the warp yarn 2 is 80S/2, the yarn count of the weft yarn 3 is 54S/2, the density of the warp yarn 2 is 126 pieces/10 cm, and the density of the weft yarn is 75 pieces/10 cm.

The warp yarn 2 is formed by blending polyester, cotton, tencel fiber and flax long fiber in a ratio of 4:3:2: 1.

The weft yarns 3 are formed by blending polyester fibers, cotton fibers, tencel fibers and flax short fibers in a ratio of 3:3:1: 3.

The fabric 1 adopts an 1/2 right twill weave structure.

The gram weight of the fabric 1 is 142g/m²。

The fabric 1 comprises, by mass, 39% of polyester, 30% of cotton, 15% of tencel, 15% of flax and 1% of conductive fibers.

Example 2

The multi-component summer anti-static tooling fabric comprises warp yarns 2, weft yarns 3 and conductive fibers 4, wherein the conductive fibers 4 are uniformly embedded and woven on the inner sides of the warp direction and the weft direction of the fabric 1, warp floating long yarns cross over weft floating long yarns, and adjacent warp floating long yarns or weft floating long yarns are staggered, crossed, configured and connected with each other, wherein the warp yarns 2 are blended yarns of terylene, cotton, tencel fibers and flax long fibers, and the weft yarns 3 are blended yarns of terylene, cotton, tencel fibers and flax short fibers.

The conductive fiber 4 is made by drawing conductive yarn and polyester filament yarn.

The number of the warp yarns 2 is larger than that of the weft yarns 3, the warp yarns 2 are thinner than the weft yarns 3, and the arrangement density of the warp yarns is larger than that of the weft yarns.

The yarn count of the warp yarn 2 is 80S/2, the yarn count of the weft yarn 3 is 60S/2, the density of the warp yarn 2 is 130 pieces/10 cm, and the density of the weft yarn is 80 pieces/10 cm.

The warp yarn 2 is formed by blending polyester, cotton, tencel fiber and flax long fiber in a ratio of 4:3:2: 1.

The weft yarns 3 are formed by blending polyester fibers, cotton fibers, tencel fibers and flax short fibers in a ratio of 3:3:1: 3.

The fabric 1 adopts an 1/2 right twill weave structure.

The gram weight of the fabric 1 is 148g/m²。

The fabric 1 comprises, by mass, 39% of polyester, 30% of cotton, 15% of tencel, 15% of flax and 1% of conductive fibers.

Example 3

The multi-component summer anti-static tooling fabric comprises warp yarns 2, weft yarns 3 and conductive fibers 4, wherein the conductive fibers 4 are uniformly embedded and woven on the inner sides of the warp direction and the weft direction of the fabric 1, warp floating long yarns cross over weft floating long yarns, and adjacent warp floating long yarns or weft floating long yarns are staggered, crossed, configured and connected with each other, wherein the warp yarns 2 are blended yarns of terylene, cotton, tencel fibers and flax long fibers, and the weft yarns 3 are blended yarns of terylene, cotton, tencel fibers and flax short fibers.

The conductive fiber 4 is made by drawing conductive yarn and polyester filament yarn.

The number of the warp yarns 2 is larger than that of the weft yarns 3, the warp yarns 2 are thinner than the weft yarns 3, and the arrangement density of the warp yarns is larger than that of the weft yarns.

The yarn count of the warp yarn 2 is 80S/2, the yarn count of the weft yarn 3 is 50S/2, the density of the warp yarn 2 is 120 pieces/10 cm, and the density of the weft yarn is 70 pieces/10 cm.

The warp yarn 2 is formed by blending polyester, cotton, tencel fiber and flax long fiber in a ratio of 4:3:2: 1.

The weft yarns 3 are formed by blending polyester fibers, cotton fibers, tencel fibers and flax short fibers in a ratio of 3:3:1: 3.

The fabric 1 adopts an 1/2 right twill weave structure.

The gram weight of the fabric 1 is 138g/m²。

The fabric 1 comprises, by mass, 39% of polyester, 30% of cotton, 15% of tencel, 15% of flax and 1% of conductive fibers.

The technical difficulty of the utility model is solving flax short fiber's blending nature, because natural fusiform structure and unique pectin bevel connection hole in the fibrilia, the thickness of fibre itself differs and feels like the flat smoothness of bamboo joint, makes it form lively unsmooth texture at the weaving in-process of conventionality, and dyeing nature is not good, and its density is also not as high as conventional cotton fabric. The utility model aims to maintain the excellent performance brought by the unique structure of the fibrilia, and solve the problems of high yarn breakage rate and low product yield in the process of blending the fibrilia into the high-count high-density fabric; the product solves the problem that cotton, polyester, tencel fiber and flax are more and more difficult to spin through the proportion balance of the multi-component yarns, breaks through the problem that the difficulty of high-count high-density blending of the fibrilia is high, and realizes the function upgrading of the traditional tooling fabric.

The above is only the preferred embodiment of the present invention, and the patent scope of the present invention is not limited thereby, all the equivalent structure changes made by the present invention or the direct/indirect application in other related technical fields are included in the patent protection scope of the present invention.

Claims (8)

1. The multi-component summer anti-static tooling fabric comprises warp yarns (2) and weft yarns (3), and is characterized by further comprising conductive fibers (4), wherein the conductive fibers (4) are uniformly distributed on the inner sides of the warp direction and the weft direction of the fabric in an embedded manner by drawing conductive filaments and polyester filament yarns, the warp floating long yarns cross over the weft floating long yarns, and the adjacent warp floating long yarns or weft floating long yarns are staggered, crossed, configured and connected with each other, wherein the warp yarns (2) are blended yarns of the polyester yarns, the cotton yarns, the tencel fibers and the flax long fibers, and the weft yarns (3) are blended yarns of the polyester yarns, the cotton yarns, the tencel fibers and the flax short fibers.

2. The multi-component summer antistatic tooling fabric as claimed in claim 1, wherein the conductive fibers (4) are made by drawing conductive yarns and polyester filaments.

3. The multi-component summer antistatic tooling fabric according to claim 1, wherein the number of the warp yarns (2) is greater than that of the weft yarns (3), the warp yarns (2) are thinner than the weft yarns (3), and the arrangement density of the warp yarns (2) is greater than that of the weft yarns (3).

4. The multi-component summer antistatic tooling fabric as claimed in claim 1, wherein the yarn count of the warp (2) is 80S/2, the yarn count of the weft (3) is 54S/2-60S/2, the density of the warp (2) is 120-130/10 cm, and the density of the weft (3) is 70-80/10 cm.

5. The multi-component summer antistatic tooling fabric as claimed in claim 1, wherein the density of the warp yarns (2) is 120-130 yarns/10 cm.

6. The multi-component summer antistatic tooling fabric as claimed in claim 1, wherein the density of the weft yarns (3) is 70-80 yarns/10 cm.

7. The multi-component summer antistatic tooling fabric as claimed in claim 1, wherein the fabric (1) adopts 1/2 right twill weave structure.

8. The multi-component summer antistatic tooling fabric as claimed in claim 1, wherein the gram weight of the fabric (1) is 138-²。

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