CN101660240A

CN101660240A - Method for producing radiation-proof checkered flannelette

Info

Publication number: CN101660240A
Application number: CN200910034406A
Authority: CN
Inventors: 龚新戈; 华明浩
Original assignee: Individual
Current assignee: Individual
Priority date: 2009-08-28
Filing date: 2009-08-28
Publication date: 2010-03-03

Abstract

The invention relates to a method for producing radiation-proof checkered flannelette. The method comprises the following technical processes: yarns of metal fiber are selected as warp yarns of checkered flannelette; two groups of yarns with different colors are selected as weft yarns of checkered flannelette; after woven, the two groups of weft yarns with different colors float at the front and back of the fabric alternately, then the double-faced raising is carried out on the fabric; the yarns of metal fiber are made of the metal fiber or made by mixing the metal fiber and other fibers. Theradiation-proof checkered flannelette produced by the method can solve the problem of nudity of metal wire, and keep good flatness of the cloth cover without influencing the color of the cloth cover,and is comfortable when being worn without the prickle and itchy feeling.

Description

The production method of radiation-proof checkered flannelette

(1) technical field

The present invention relates to a kind of grid flannelette, especially relate to a kind of production method of radiation-proof checkered flannelette.Belong to the garment material field.

(2) background technology

Continuous progress in science and technology when offering convenience to people, has brought many adverse factors also for people's life.Along with the fast development of electronics, information industry technology, radiation such as electromagnetic wave are having a strong impact on human beings'health, and are especially more unfavorable to the growth of fetus.Particularly be engaged in computer operation for a long time and, be subjected to the harm of electromagenetic wave radiation constantly the people of electronic information technical field work.For this reason, everybody is avoiding by every means or is reducing the injury that electromagenetic wave radiation brings to people.So all kinds of radiation-proof fabrics also arise at the historic moment.

Below be some typical several modes of producing radiation-proof fabric:

1, give garment material coated with metal reflecting layer, the reflection of electromagnetic wave that utilizes metal coating will be radiated garment material is fallen.The degree comfortable and easy to wear of these class clothes is relatively poor, and metal coating easily comes off, and influences the attractive in appearance and clothes of clothes to electromagnetic reflection function.

Mode such as 2, adopt to hand over also, interweave wire is inweaved in the cloth, the gauze screen that utilizes wire to form blocks the injury of external electromagnetic ripple to human body.The lining that this mode is produced easily exposes wire the surface at cloth, design, the variation of influence flower type.And because wire can not shrink in the back arrangement process of textiles as other textile fabric yarns, so wire and easily wrinkling on cloth cover influence the flatness (except the lining of need corrugation effect) of cloth cover.Exposed too much, also have the people with the yarn looping around for fear of wire, though exposed problem wiry makes moderate progress, the flatness of cloth cover is still very poor, does not obtain a bit change.

3, wire is pulled to cuts into metal fibre behind the metal fibril that diameter is the 1-15 micron and will make dyeing cloth or yarn-dyed fabric after metal fibre and other textile fabric blending then.This class lining particularly can not adularescent or light color in the colored type of lining because wire can not dye, so the colored type and the colour match of lining be restricted.In addition, this lining during the contact human body, produces prodding and itching feeling to human body because the rigidity of metal fibre is bigger easily.

(3) summary of the invention

The objective of the invention is to overcome above-mentioned deficiency, provide a kind of and can improve exposed problem wiry, do not influence the cloth cover color, can keep good cloth surface evenness again, comfortable and easy to wear, the production method of the radiation-proof checkered flannelette of no prodding and itching feeling.

The object of the present invention is achieved like this: a kind of production method of radiation-proof checkered flannelette, described method comprises following technical process: selecting the metal fibre yarn for use is the warp thread of grid flannelette, select two groups of different weft yarns that yarn is the grid flannelette of color for use, after weaving, two groups of weft yarns that color is different alternately float over the positive and negative of fabric, again fabric are carried out two-sided napping.Through the two-sided napping to fabric, metal fibre is covered by weft yarn fully.

Described metal fibre yarn is yarn that is spun into by metal fibre or the yarn of being made by metal fibre and other fiber blends.

The invention has the beneficial effects as follows:

1, warp thread adopts the metal fibre yarn, and the positive and negative of cloth is alternately covered by the weft yarn of two groups of different colours, and through two-sided napping, metal fibre is covered by weft yarn fully.Like this, inoperative as the color of the metallic yarn of warp thread to the color of whole cloth cover, and metal fibre do not reach human body skin, so can not cause the prodding and itching feeling of fabric to skin yet.

2, owing to contain metal fibre in the warp thread, thereby the present invention has good shielding to radiation such as electromagnetic waves, and the grid color of cloth cover depends primarily on the variation of two groups of weft yarns.Weft yarn can adopt any raw material, is applicable to the yarn of any different thicknesses.

3, in manufacturing process, the metal fibre yarn need not dye.As select the mode that warp thread is thin, weft yarn is thick to arrange in pairs or groups, weft yarn is covered warp thread better.Reach gratifying effect.

(4) description of drawings

Fig. 1 is the technological process of production figure of radiation-proof checkered flannelette of the present invention.

(5) specific embodiment

Embodiment 1:

Making warp thread is 40S all steel metallic yarn, and weft yarn is the 16S cotton yarn; Through close be 275/10cm, filling density is the radiation proof grid flannelette of 354/10cm.

Embodiment 2:

Change the warp thread of embodiment 1 blended yarn of 40S stainless steel copper fiber and polyster fibre into, all the other are constant, make another radiation proof grid flannelette.

Embodiment 3:

Change the warp thread of embodiment 1 blended yarn of 21S stainless steel fibre and polyster fibre into, weft yarn changes the 10Nm wool yarns into; Through close be 276/10cm, filling density is 268/10cm, makes another radiation proof grid flannelette.

Embodiment 4:

Change the weft yarn of embodiment 3 into the 6S cotton yarn, all the other are constant, make another radiation proof grid flannelette.

Embodiment 5:

Making warp thread is the blended yarn of 32S stainless steel fibre and polyster fibre, and weft yarn is 8S fibre and soya and cotton blended yarn; Through close be 283/10cm, filling density is the radiation proof grid flannelette of 300/10cm.

Embodiment 6:

Change the warp thread of embodiment 5 into 32S all steel silvalin, weft yarn changes the 12Nm acrylic yarn into, and all the other are constant, makes another radiation proof grid flannelette.

More than each routine technological process of production as shown in Figure 1.

Claims

1, a kind of production method of radiation-proof checkered flannelette, it is characterized in that: described method comprises following technical process: selecting the metal fibre yarn for use is the warp thread of grid flannelette, select two groups of different weft yarns that yarn is the grid flannelette of color for use, after weaving, two groups of weft yarns that color is different alternately float over the positive and negative of fabric, again fabric are carried out two-sided napping;

2, the production method of a kind of radiation-proof checkered flannelette according to claim 1 is characterized in that: described warp thread is a 40S all steel metallic yarn, and weft yarn is the 16S cotton yarn; Through close be 275/10cm, filling density is 354/10cm.

3, the production method of a kind of radiation-proof checkered flannelette according to claim 1 is characterized in that: described warp thread is the blended yarn of 40S stainless steel copper fiber and polyster fibre, and weft yarn is the 16S cotton yarn; Through close be 275/10cm, filling density is 354/10cm.

4, the production method of a kind of radiation-proof checkered flannelette according to claim 1 is characterized in that: described warp thread is the blended yarn of 21S stainless steel fibre and polyster fibre, and weft yarn is the 10Nm wool yarns; Through close be 276/10cm, filling density is 268/10cm.

5, the production method of a kind of radiation-proof checkered flannelette according to claim 1 is characterized in that: described warp thread is the blended yarn of 21S stainless steel fibre and polyster fibre, and weft yarn is the 6S cotton yarn; Through close be 276/10cm, filling density is 268/10cm.

6, the production method of a kind of radiation-proof checkered flannelette according to claim 1 is characterized in that: described warp thread is the blended yarn of 32S stainless steel fibre and polyster fibre, and weft yarn is 8S fibre and soya and cotton blended yarn; Through close be 283/10cm, filling density is 300/10cm.

7, the production method of a kind of radiation-proof checkered flannelette according to claim 1 is characterized in that: described warp thread is a 32S all steel silvalin, and weft yarn is the 12Nm acrylic yarn; Through close be 283/10cm, filling density is 300/10cm.