CN206201583U - A kind of highly dense antistatic cashmere shell-fabric - Google Patents

Abstract

The utility model provides a kind of highly dense antistatic cashmere shell-fabric, belongs to textile technology field.It solves existing cashmere shell-fabric and can produce the technical problems such as electrostatic.This highly dense antistatic cashmere shell-fabric includes cashmere shell-fabric layer, moisture absorption layer and air-permeable layer, the cashmere shell-fabric layer includes base fabric layer and is worth in the cashmere-planted layer on base fabric layer, pass through adhesives between the base fabric layer and cashmere-planted layer, conductive fiber is also sewed between the base fabric layer and cashmere-planted layer, the conductive fiber distributes as net shape, the conductive fiber is silver fiber, the moisture absorption layer laminating is fixed on the medial surface of base fabric layer, and the air-permeable layer laminating is fixed on the medial surface of moisture absorption layer.The utility model has the advantages that to be not in electrostatic.

Description

A kind of highly dense antistatic cashmere shell-fabric

Technical field

The utility model belongs to textile technology field, is related to a kind of highly dense antistatic cashmere shell-fabric.

Background technology

Current clothes are mainly made up of the yarn containing cotton, hair, silk, fiber crops, terylene chemical fibre, and people are in the activity of wearing clothes When, the phase mutual friction of cloth textile can produce electrostatic, clothes is tangled and glue body, cause substantial amounts of absorption dust, when wearing, undressing Discharge spark is sent, or even human body shock phenomenon occurs and the person is damaged, especially dried in wintry weather, clothes is in itself A large amount of electrostatic are produced after friction, electric discharge is produced when causing person to person or object to contact, so that harmful to human；And high-accuracy Electricity industry, chemical industry, scientific research and the especially needed harm for preventing electrostatic from producing of military field.

The content of the invention

The purpose of this utility model is directed to existing technology and there is above mentioned problem, it is proposed that a kind of highly dense antistatic lint Fabric, the technical problem that the utility model is solved is to ensure that cashmere shell-fabric is not in electrostatic.

The purpose of this utility model can be realized by following technical proposal：

A kind of highly dense antistatic cashmere shell-fabric, it is characterised in that described including cashmere shell-fabric layer, moisture absorption layer and air-permeable layer Cashmere shell-fabric layer includes base fabric layer and is worth between the cashmere-planted layer on base fabric layer, the base fabric layer and cashmere-planted layer by viscous Mixture is bonded, and conductive fiber is also sewed between the base fabric layer and cashmere-planted layer, and the conductive fiber distributes as net shape, institute Conductive fiber is stated for silver fiber, the moisture absorption layer laminating is fixed on the medial surface of base fabric layer, the air-permeable layer laminating is fixed On the medial surface of moisture absorption layer.

Moisture absorption layer can absorb steam, improve comfortableness, and air-permeable layer can guarantee that steam is passed through, while moisture absorption layer can improve fabric Humidity, reduction there is the possibility of electrostatic；Occurring conductive fiber during electrostatic on cashmere-planted layer can be by electrostatic dispersion, it is to avoid electrostatic precipitator In, so as to ensure that cashmere shell-fabric is not in electrostatic.

In above-mentioned highly dense antistatic cashmere shell-fabric, if being provided with dry plate between the moisture absorption layer and base fabric layer by silver-colored fine The conducting strip that dimension is knitted to form, conductive fiber of the sewing between base fabric layer and cashmere-planted layer is connected with conducting strip.It is conductive Piece can be by the static elimination on conductive fiber, so as to avoid occurring electrostatic on fabric as ground structure.

In above-mentioned highly dense antistatic cashmere shell-fabric, the conduction distributed as net shape between base fabric layer and cashmere-planted layer Each grid is square in fiber, and the length of side of each grid is 1cm~2cm.The conductive fiber of the Density Distribution can guarantee that position In the cashmere-planted layer in its grid be not in electrostatic.

In above-mentioned highly dense antistatic cashmere shell-fabric, the moisture absorption layer is formed by vinylon fibre and viscose fiber blending. The moisture absorption layer hygroscopicity is preferable.

In above-mentioned highly dense antistatic cashmere shell-fabric, the air-permeable layer is formed by polyster fibre and polyester fiber blending. The air-permeable layer gas permeability is preferable.

In above-mentioned highly dense antistatic cashmere shell-fabric, the moisture absorption layer is sewed by dacron thread with air-permeable layer and fixed.

Compared with prior art, this highly dense antistatic cashmere shell-fabric has the advantages that to be not in electrostatic.

Brief description of the drawings

Fig. 1 is the schematic cross-sectional view of this highly dense antistatic cashmere shell-fabric.

Fig. 2 is the structural representation of conductive fiber and cashmere-planted layer in this highly dense antistatic cashmere shell-fabric.

In figure, 1, base fabric layer；2nd, cashmere-planted layer；3rd, moisture absorption layer；4th, air-permeable layer；5th, conductive fiber；6th, conducting strip.

Specific embodiment

The following is specific embodiment of the utility model and with reference to accompanying drawing, further is made to the technical solution of the utility model Description, but the utility model is not limited to these embodiments.

As depicted in figs. 1 and 2, highly dense antistatic cashmere shell-fabric includes cashmere shell-fabric layer, moisture absorption layer 3 and air-permeable layer 4, lint Precoat includes base fabric layer 1 and is worth in the cashmere-planted layer 2 on base fabric layer 1, by bonding between base fabric layer 1 and cashmere-planted layer 2 Agent is bonded, and conductive fiber 5 is also sewed between base fabric layer 1 and cashmere-planted layer 2, and conductive fiber 5 distributes as net shape, conductive fiber 5 is silver fiber, and moisture absorption layer 3 is formed by vinylon fibre and viscose fiber blending, and air-permeable layer 4 is by polyster fibre and polyester fiber blending Form, the laminating of moisture absorption layer 3 is fixed on the medial surface of base fabric layer 1, and moisture absorption layer 3 is sewed by dacron thread with air-permeable layer 4 and fitted It is fixed on the medial surface of moisture absorption layer 3.

If being provided with the conducting strip 6 that dry plate is knitted to form by silver fiber between moisture absorption layer 3 and base fabric layer 1, sew in basic unit Conductive fiber 5 between fabric 1 and cashmere-planted layer 2 is connected with conducting strip 6.Distribute as net shape base fabric layer 1 and cashmere-planted layer 2 it Between conductive fiber 5 in each grid it is square, the length of side of each grid is 1cm~2cm.

Moisture absorption layer 3 can absorb steam, improve comfortableness, and air-permeable layer 4 can guarantee that steam is passed through, while moisture absorption layer 3 can be improved There is the possibility of electrostatic in the humidity of fabric, reduction；Conductive fiber 5 can be by electrostatic dispersion when there is electrostatic on cashmere-planted layer 2, it is to avoid In electrostatic precipitator.

Specific embodiment described herein is only to the utility model spirit explanation for example.The utility model institute Category those skilled in the art can make various modifications or supplement or using similar to described specific embodiment Mode substitute, but without departing from spirit of the present utility model or surmount scope defined in appended claims.

Claims (6)

1. a kind of highly dense antistatic cashmere shell-fabric, it is characterised in that including cashmere shell-fabric layer, moisture absorption layer and air-permeable layer, the hair The matte bed of material includes base fabric layer and is worth between the cashmere-planted layer on base fabric layer, the base fabric layer and cashmere-planted layer by bonding Agent is bonded, and conductive fiber is also sewed between the base fabric layer and cashmere-planted layer, and the conductive fiber distributes as net shape, described Conductive fiber is silver fiber, and the moisture absorption layer laminating is fixed on the medial surface of base fabric layer, and the air-permeable layer laminating is fixed on On the medial surface of moisture absorption layer.

2. highly dense antistatic cashmere shell-fabric according to claim 1, it is characterised in that the moisture absorption layer and base fabric layer it If between be provided with the conducting strip that dry plate is knitted to form by silver fiber, conductive fiber of the sewing between base fabric layer and cashmere-planted layer It is connected with conducting strip.

3. highly dense antistatic cashmere shell-fabric according to claim 2, it is characterised in that distribute as net shape in base fabric layer Each grid is square in conductive fiber and cashmere-planted layer between, and the length of side of each grid is 1cm~2cm.

4. highly dense antistatic cashmere shell-fabric according to claim 1, it is characterised in that the moisture absorption layer by vinylon fibre and Viscose fiber blending is formed.

5. highly dense antistatic cashmere shell-fabric according to claim 1, it is characterised in that the air-permeable layer by polyster fibre and Polyester fiber blending is formed.

6. highly dense antistatic cashmere shell-fabric according to claim 1, it is characterised in that the moisture absorption layer passes through with air-permeable layer Dacron thread sewing is fixed.