CN214655526U - Double-guide and double-twisted sandwich beating-up anti-static change structure - Google Patents

Abstract

The utility model belongs to the technical field of textile fabric, and relates to a double-guide and twisted sandwich beating-up anti-static change structure, which comprises a weft structure and a warp structure, wherein the weft structure and the warp structure are mutually interwoven; the arrangement mode of the warp structure is as follows: from left to right every 12 second warp coordinate first warp arrange in proper order, the arrangement mode of weft structure: sequentially arranging a weft A, a weft B, a weft A and nine weft B from top to bottom; the first warp and the first weft both adopt conductive yarns. The structure is visual, and the antistatic performance is better.

Description

Double-guide and double-twisted sandwich beating-up anti-static change structure

Technical Field

The utility model belongs to the technical field of textile fabric, a static change structure is prevented in double-guide and twisting sandwich beating-up is related to.

Background

Ordinary antistatic product shows not enough at the higher workplace of some protection level in the market, along with the improvement of people's safety consciousness, no matter be staff's oneself protection consciousness, still the enterprise to staff's the degree of regard to the life and property, this all needs a large amount of protective work clothes.

Disclosure of Invention

The utility model aims at the above problem, a static change structure is prevented in two leading double-twisting intermediate layer beating-up is provided, and this structure is directly perceived, and antistatic performance is better.

According to the technical scheme of the utility model: the utility model provides a structure of static change is prevented in double-guide double-twisting sandwich beating-up which characterized in that: the warp structure comprises a first warp and a second warp, and the weft structure comprises a first weft and a second weft;

the arrangement mode of the warp structure is as follows: from left to right, every 12 second warps are matched with one first warp in turn,

weft structure's arrangement mode: sequentially arranging a weft A, a weft B, a weft A and nine weft B from top to bottom;

the first warp and the first weft both adopt conductive yarns.

As a further improvement of the utility model, the arrangement mode of the first weft and the second weft in the weft structure is: the first weft nail and the warp structure are matched from top to bottom in a way that the first weft nail is sequentially arranged on two warps in the warp structure and then arranged below the two warps;

the first second weft is matched with the warp structure from top to bottom in a way that the first second weft is sequentially arranged on one warp in the warp structure and then arranged under one warp;

the second first weft is matched with the warp structure from top to bottom in a way that the second first weft is sequentially arranged below two warps in the warp structure and then arranged on the two warps;

and each second weft in the nine second wefts is alternately arranged above and below each warp in the warp structure.

As a further improvement of the utility model, the diameter of the second weft is smaller than the first weft.

As a further improvement of the utility model, the second weft adopts a T/C single yarn.

The technical effects of the utility model reside in that: the utility model discloses the product adopts the mode that two conductive yarn and a single yarn of TC are twisted in two, weaves respectively in the warp direction and the latitudinal direction of fabric, further improves the antistatic performance of fabric.

The weft structure arrangement mode is special, the first weft adopts an upper-lower two arrangement mode, the first second weft adopts an upper-lower one arrangement mode, the second first weft adopts an upper-lower two arrangement mode, the second weft is a T/C single yarn with thinner yarn count, and the two first wefts are twisted yarns, so that the thinner second weft is clamped between the two thick twisted yarns of the first wefts, the two twisted yarns of the first wefts float on the surface of the fabric, and the resistance value test is more visual and has better anti-static effect.

The utility model discloses the arrangement ratio of first warp in the product and second warp is 4: 48, the arrangement ratio of the first wefts to the second wefts is 2:10, and the first warps and the first wefts are twisted yarns containing black conductive yarns, so that the fabric has a latticed appearance style.

Drawings

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

Detailed Description

The following description will further describe embodiments of the present invention with reference to the accompanying drawings.

As shown in figure 1, the utility model relates to a static change structure is prevented in double-guide draw-in sandwich beating-up, including the weft structure and the warp structure that interweave, the warp structure includes first warp and second warp, and the weft structure includes first latitude and second latitude.

The arrangement mode of the warp structure is as follows: from left to right, every 12 second meridians are matched with one first meridian in turn.

Weft structure's arrangement mode: a weft A, a weft B, a weft A and nine weft B are arranged from top to bottom in sequence.

The first warp and the first weft are both made of conductive yarns, and in specific application, the conductive yarns are formed by twisting two conductive yarns and one T/C single yarn.

The arrangement mode of the weft A and the weft B in the weft structure is as follows: the first weft is arranged on two warp threads in the warp structure in sequence and then arranged under the two warp threads.

The first second weft is matched with the warp structure from top to bottom in a way that the first second weft is sequentially arranged on one warp in the warp structure and then arranged under one warp.

The second first weft is arranged below two warps in the warp structure in sequence and then arranged on the two warps.

And each second weft in the nine second wefts is alternately arranged above and below each warp in the warp structure.

The diameter of the second weft is smaller than that of the first weft, so that the second weft is clamped between the two thicker first wefts, the first wefts float on the surface of the fabric, and the antistatic performance is better. In specific application, the second weft adopts T/C single yarn.

As shown in figure 1, the utility model discloses the product is when using, and two kinds of raw materials are adopted to the warp direction, and the latitudinal direction adopts two kinds of raw materials, and the first warp is the twist yarn that doubles that two conductive fiber and a single yarn twisting of T/C formed with the first latitude, and the second warp is the twin-stranded yarn of T/C, and the second latitude is the single yarn of T/C that the yarn count is littleer.

In terms of fabric structure, an "x" in the figure indicates that a warp structure point is above a weft structure point, and a "blank grid" indicates that the warp structure point is below the weft structure point; one first warp exists in every 12 second warps in the warp direction, and 4 groups have one cycle, namely the minimum number of cycles in the warp direction is 52; the weft direction is one weft A, one weft B, another weft A and then 9 weft B, and the arrangement mode of '1 +1+1+ 9' is presented, namely the minimum cycle number of the weft direction is 12. All weft B and warp (warp A and warp B) adopt an organization structure of 'one-over-one-under', and the weft A and warp (warp A and warp B) adopt an organization structure of 'two-over-two-under'. Wherein, the special description is that: because the first weft is a twisted yarn formed by twisting two conductive fibers and a T/C single yarn, and the second weft is a thinner T/C single yarn, the second weft is clamped between two thicker twisted yarns, so that the first weft floats on the surface of the fabric, and the antistatic performance is better.

Claims (4)

1. The utility model provides a structure of static change is prevented in double-guide double-twisting sandwich beating-up which characterized in that: the warp structure comprises a first warp and a second warp, and the weft structure comprises a first weft and a second weft;

the arrangement mode of the warp structure is as follows: from left to right, every 12 second warps are matched with one first warp in turn,

weft structure's arrangement mode: sequentially arranging a weft A, a weft B, a weft A and nine weft B from top to bottom;

the first warp and the first weft both adopt conductive yarns.

2. The double-guided and twisted sandwich beating-up antistatic change structure of claim 1, wherein: the arrangement mode of weft A and weft B in the weft structure is as follows: the first weft nail and the warp structure are matched from top to bottom in a way that the first weft nail is sequentially arranged on two warps in the warp structure and then arranged below the two warps;

the first second weft is matched with the warp structure from top to bottom in a way that the first second weft is sequentially arranged on one warp in the warp structure and then arranged under one warp;

the second first weft is matched with the warp structure from top to bottom in a way that the second first weft is sequentially arranged below two warps in the warp structure and then arranged on the two warps;

and each second weft in the nine second wefts is alternately arranged above and below each warp in the warp structure.

3. The double-guided and twisted sandwich beating-up antistatic change structure of claim 1, wherein: the diameter of the weft B is smaller than that of the weft A.

4. The double-guided and twisted sandwich beating-up antistatic change structure of claim 3, wherein: and the weft B adopts T/C single yarn.

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