CN213681136U

CN213681136U - Antistatic multifunctional interwoven fabric

Info

Publication number: CN213681136U
Application number: CN202022067561.7U
Authority: CN
Inventors: 施屹; 蔡芳; 周小利; 郁晓琴
Original assignee: Zhejiang Caidi Industrial Co ltd
Current assignee: Zhejiang Caidi Industrial Co ltd
Priority date: 2020-09-21
Filing date: 2020-09-21
Publication date: 2021-07-13
Anticipated expiration: 2030-09-21

Abstract

The utility model discloses an antistatic multifunctional interwoven fabric, which is formed by weaving four guide bars of GB1, GB2, GB3 and GB4, the organizational structure of GB1 is 1-0/2-3//, the organizational structure of GB2 is 1-2/1-0//, the organizational structure of GB3 is 1-0/1-1/2-3/3-3/4-5/5-5/6-7/7-7/8-9/8-8/7-6/6-6/5-4/4-4/3-2/2-2//, the organizational structure of GB4 is 7-7/7-6/5-5/5-4/3-3/3-2/1-1 1-0/2-2/2-3/4-4/4-5/6-6/6-7/8-8/8-9//; both GB1 and GB2 adopt terylene semi-gloss filaments; both GB3 and GB4 adopt nylon 66 carbon black conductive yarns. The utility model has the advantages of better antistatic effect and better snugness of fit.

Description

Antistatic multifunctional interwoven fabric

Technical Field

The utility model belongs to the conductive fabric field especially relates to an antistatic multi-kinetic energy interweaving fabric.

Background

The conductive fabric refers to a fabric comprising conductive fibers, and has multiple functions of excellent electrical conductivity, heat conductivity, shielding and absorbing electromagnetic waves and the like. The conductive fabric is widely applied to conductive nets and conductive working clothes in the power industry, electric heating clothes, electric heating surfaces and electric heating bandages in the medical industry, electromagnetic shielding covers in the aerospace or precise electronic industry and the like. The conductive fiber can be used in the fields of antistatic textiles, electromagnetic radiation prevention textiles, intelligent textiles, military textiles and the like.

The existing conductive fabric is generally a knitted fabric, and conductive fibers exist in the conductive fabric in a warp direction or a weft direction, so that higher voltage is easily generated under the surface friction of the conductive fabric, the surface specific resistance is higher, the antistatic performance is lower, and the antistatic effect is poorer. In addition, the existing conductive fabric has no elasticity in the longitudinal direction and the transverse direction, and the air permeability is poor, so that the wearing comfort is poor.

Therefore, the existing conductive fabric has the defects of poor antistatic effect and poor wearing comfort.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an antistatic multi-functional interweaving surface fabric. The utility model has the advantages of antistatic effect is better and the snugness of fit is better.

The technical scheme of the utility model: an antistatic multifunctional interwoven fabric is formed by weaving four guide bars of GB1, GB2, GB3 and GB4, the organization structure of GB1 is 1-0/2-3//, the organization structure of GB2 is 1-2/1-0//, the organization structure of GB3 is 1-0/1-1/2-3/3-3/4-5/5-5/6-7/7-7/8-9/8-8/7-6/6-6/5-4/4-4/3-2/2-2//, the organization structure of GB4 is 7-7/7-6/5-5/5-4/3-3/3-2/1-1/1-0 /2-2/2-3/4-4/4-5/6-6/6-7/8-8/8-9//.

In the antistatic multifunctional interwoven fabric, the GB1 and the GB2 both adopt polyester semi-gloss filaments.

In the antistatic multifunctional interwoven fabric, the polyester semi-gloss filaments have the specification of 50D/24F.

In the antistatic multifunctional interwoven fabric, the GB3 and the GB4 both adopt nylon-based black conductive filaments.

In the antistatic multifunctional interwoven fabric, the nylon-based black conductive filament has a specification of 20D/3F.

Compared with the prior art, the utility model discloses a black conductive filament of polyamide fibre base is chooseed for use to conductive fiber, and conductive fiber is netted the distribution in the surface fabric, constitutes a holistic electrically conductive net, and this voltage that just makes the surface fabric friction produce down is lower, and surface specific resistance is littleer, and antistatic effect is better. The utility model discloses an optimization to the organizational structure of four sley bars makes the fibre on the surface fabric all possess a plurality of bending to make the surface fabric all possess certain elasticity on vertical and horizontal, and form comparatively abundant space structure, improved the gas permeability, thereby improve the travelling comfort of dress. Therefore, the utility model has the advantages of antistatic effect is better and the snugness of fit is better.

Drawings

Fig. 1 is a schematic view of the tissue structure of the present invention.

Fig. 2 is a schematic diagram of GB3 and GB4 in the present invention.

Detailed Description

The following description is made with reference to the accompanying drawings and examples, but not to be construed as limiting the invention.

Examples are given. An antistatic multifunctional interwoven fabric is woven by four guide bars of GB1, GB2, GB3 and GB4 as shown in figure 1, the manufacturing equipment is a German KARL MAYER warp knitting machine with the model number HKS4E28, the tissue structure of GB1 is 1-1-3//, the tissue structure of GB1 is 1-1-0//, the tissue structure of GB1 is 1-1-1-1-1-1-1-1-1/, the tissue structure of GB1 is 7-1-1-1-1-1-3// 3-2/1-1/1-0/2-2/2-3/4-4/4-5/6-6/6-7/8-8/8-9//.

And the GB1 and the GB2 adopt commercially available polyester semi-gloss filaments with the specification of 50D/24F.

The GB3 and the GB4 both adopt the nylon-based black conductive filament sold in the market, and the specification of the nylon-based black conductive filament is 30D/3F.

The polyester semi-gloss filaments account for 95% of the weight of the fabric, and the balance are nylon-based black conductive filaments.

The utility model discloses a black conductive filament of polyamide fibre base is chooseed for use to conductive fiber, and conductive fiber is netted the distribution in the surface fabric, constitutes a holistic electrically conductive net, and this voltage that just makes the surface fabric friction produce down is lower, and surface specific resistance is littleer, and antistatic effect is better. The utility model discloses an optimization to the organizational structure of four sley bars makes the fibre on the surface fabric all possess a plurality of bending to make the surface fabric all possess certain elasticity on vertical and horizontal, and form comparatively abundant space structure, improved the gas permeability, thereby improve the travelling comfort of dress. Therefore, the utility model has the advantages of antistatic effect is better and the snugness of fit is better.

Claims

1. Antistatic multi-functional interweaving surface fabric, its characterized in that: is formed by weaving four guide bars of GB1, GB2, GB3 and GB4, the organizational structure of GB1 is 1-0/2-3//, the organizational structure of GB2 is 1-2/1-0//, the organizational structure of GB3 is 1-0/1-1/2-3/3-3/4-5/5-5/6-7/7-7/8-9/8-8/7-6/6-6/5-4/4-4/3-2/2-2//, the organizational structure of GB4 is 7-7/7-6/5-5/5-4/3-3/3-2/1-1/1-0/2-2/2- 3/4-4/4-5/6-6/6-7/8-8/8-9//.

2. The antistatic multifunctional interwoven fabric according to claim 1, wherein: and both GB1 and GB2 adopt terylene semi-gloss filaments.

3. The antistatic multifunctional interwoven fabric according to claim 2, wherein: the specification of the terylene semi-bright filament is 50D/24F.

4. The antistatic multifunctional interwoven fabric according to claim 2, wherein: and the GB3 and the GB4 both adopt nylon-based black conductive filaments.

5. The antistatic multifunctional interwoven fabric according to claim 4, wherein the antistatic multifunctional interwoven fabric comprises: the specification of the nylon-based black conductive filament is 20D/3F.