CN212555282U - Radiation-proof fabric - Google Patents

Abstract

The utility model discloses a radiation protection fabric, which comprises a lace layer, a radiation protection layer and a skin-friendly layer, wherein the radiation protection layer is clamped between the lace layer and the skin-friendly layer; the radiation-proof layer comprises an upper radiation-proof layer and a lower radiation-proof layer, and the upper radiation-proof layer and the lower radiation-proof layer are interwoven into a whole; the lower radiation-proof layer comprises first wefts and first warps; the upper radiation-proof layer comprises a plurality of second warps which are parallel to each other; the second warp threads are wound into a plurality of interwoven rings; the first weft threads sequentially penetrate through the interweaving loops formed by the second warp threads which are parallel to each other; the first warp threads are interwoven with the first weft threads. The utility model discloses make the flower bud silk surface fabric possess the characteristic of protecting against radiation, play the effect of protection human body.

Description

Radiation-proof fabric

Technical Field

The utility model belongs to the technical field of the fabrics and specifically relates to indicate a radiation protection surface fabric.

Background

Lace fabrics are usually embroidered fabrics, also called embroidery fabrics. Lace fabrics are light, thin and transparent due to material quality, have elegant and mysterious artistic effects, and are widely applied to underwear for women. Because people have a high use rate of electronic equipment at present, the electronic equipment has radiation in the use process, and can cause damage to human bodies for a long time. The common lace fabric usually has no radiation protection performance or poor radiation protection performance, and can still cause damage to human bodies.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the radiation-proof fabric is provided, and the radiation-proof property of the fabric is improved.

In order to solve the technical problem, the utility model discloses a technical scheme be:

an anti-radiation fabric comprises a lace layer, an anti-radiation layer and a skin-friendly layer, wherein the anti-radiation layer is clamped between the lace layer and the skin-friendly layer;

the radiation-proof layer comprises an upper radiation-proof layer and a lower radiation-proof layer, and the upper radiation-proof layer and the lower radiation-proof layer are interwoven into a whole;

the lower radiation-proof layer comprises first wefts and first warps;

the upper radiation-proof layer comprises a plurality of second warps which are parallel to each other;

the second warp threads are wound into a plurality of interwoven rings;

the first weft threads sequentially penetrate through the interweaving loops formed by the second warp threads which are parallel to each other;

the first warp threads are interwoven with the first weft threads.

Further, the first weft, the first warp and the second warp are all silver fiber yarns.

Furthermore, the linear density of the first weft and the first warp is 132 to 136 dtex.

Furthermore, the linear density of the second warp threads is 121-124 dtex.

Further, the first warp threads and the first weft threads are perpendicular to each other;

the first warp threads and the second warp threads are parallel to each other.

Furthermore, the lace layer, the radiation-proof layer and the skin-friendly layer are bonded with each other through a polyurethane adhesive.

Further, the skin-friendly layer is skin-friendly cotton.

The beneficial effects of the utility model reside in that: the anti-radiation lace fabric is provided with an upper anti-radiation layer and a lower anti-radiation layer, the first weft threads penetrate through the plurality of interweaving rings and are interwoven with the first warp threads into a whole, so that the upper anti-radiation layer and the lower anti-radiation layer form a compact structure, the anti-radiation performance of the fabric can be increased, the skin-friendly layer is arranged, the comfort degree of a human body is improved for ensuring the skin-friendly performance of the lace fabric, the lace layer is arranged, the decorative effect is achieved on the fabric, and the fabric is enabled to be attractive while having the anti-radiation performance. The utility model discloses an improve the structure of surface fabric, strengthen the radiation protection performance of current surface fabric.

Drawings

Fig. 1 is a schematic structural view of a radiation-proof fabric according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a radiation-proof fabric according to an embodiment of the present invention;

fig. 3 is a schematic structural view of the radiation protection layer according to the embodiment of the present invention.

Description of reference numerals:

1. a bud thread layer;

2. a radiation protective layer; 21. an upper radiation protection layer; 22. a lower radiation protective layer; 211. a second warp thread; 221. a first weft; 222. a first warp thread; 2111. interweaving loops;

3. and a skin-friendly layer.

Detailed Description

In order to explain the technical content, the objects and the effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 1-3, an anti-radiation fabric comprises a lace layer 1, an anti-radiation layer 2 and a skin-friendly layer 3, wherein the anti-radiation layer 2 is sandwiched between the lace layer 1 and the skin-friendly layer 3;

the radiation protection layer 2 comprises an upper radiation protection layer 21 and a lower radiation protection layer 22, and the upper radiation protection layer 21 and the lower radiation protection layer 22 are mutually interwoven into a whole;

the lower radiation-proof layer 22 includes first wefts 221 and first warps 222;

the upper radiation protection layer 21 comprises a plurality of second warp threads 211 which are parallel to each other;

the second warp yarn 211 is wound into a plurality of interwoven loops 2111;

the first weft yarns 221 sequentially pass through the interweaving rings 2111 formed by the plurality of second warp yarns 211 which are parallel to each other;

the first warp threads 222 are interwoven with the first weft threads 221.

The utility model discloses a theory of operation lies in:

the plurality of second warps are arranged in parallel, and the first wefts sequentially penetrate through the interweaving rings formed by the plurality of parallel second warps;

the first warp threads and the first weft threads are mutually and vertically interwoven.

From the above description, the beneficial effects of the present invention are: the anti-radiation lace fabric is provided with an upper anti-radiation layer and a lower anti-radiation layer, the first weft threads penetrate through the plurality of interweaving rings and are interwoven with the first warp threads into a whole, so that the upper anti-radiation layer and the lower anti-radiation layer form a compact structure, the anti-radiation performance of the fabric can be increased, the skin-friendly layer is arranged, the comfort degree of a human body is improved for ensuring the skin-friendly performance of the lace fabric, the lace layer is arranged, the decorative effect is achieved on the fabric, and the fabric is enabled to be attractive while having the anti-radiation performance. The utility model discloses an improve the structure of surface fabric, strengthen the radiation protection performance of current surface fabric.

Further, the first weft 221, the first warp 222 and the second warp 211 are all silver fiber filaments.

According to the description, the silver fiber yarns have good radiation-proof performance, and the radiation-proof layer woven by the silver fiber yarns has a good shielding effect.

Further, the linear density of the first weft 221 and the first warp 222 is 132 to 136 dtex.

Furthermore, the linear density of the second warp yarns 211 is 121-124 dtex.

As can be seen from the above description, the second warp threads are interwoven in the lower radiation protection layer, so the linear density of the second warp threads is smaller than that of the first weft threads and the first warp threads, and the upper radiation protection layer and the lower radiation protection layer can be tightly connected.

Further, the first warp threads 222 and the first weft threads 221 are perpendicular to each other;

the first warp yarn 222 and the second warp yarn 211 are parallel to each other.

According to the anti-radiation layer, the first warp and the second warp are perpendicular to the first weft, so that the structure is compact and stable, the anti-radiation layer is not easy to break or deform, and the service life of the anti-radiation layer can be prolonged.

Further, the lace layer 1, the radiation protection layer 2 and the skin-friendly layer 3 are mutually bonded through polyurethane adhesive.

As can be seen from the above description, the polyurethane adhesive is an aqueous adhesive and has the characteristic of bending resistance, and because the lace fabric needs to be bent frequently, the polyurethane adhesive can be selected to improve the stability among the lace layer, the PTFE layer and the antibacterial layer.

Further, the skin-friendly layer 3 is skin-friendly cotton.

As can be seen from the above description, the skin-friendly cotton has good water absorption and can keep water balance, and because the skin-friendly layer is generally in direct contact with the skin, the comfort level of the human body can be improved by adopting the skin-friendly cotton as the material of the skin-friendly layer.

Example one

Referring to fig. 1-3, the radiation protection fabric comprises a lace layer 1, a radiation protection layer 2 and a skin-friendly layer 3, wherein the radiation protection layer 2 is sandwiched between the lace layer 1 and the skin-friendly layer 3;

the radiation protection layer 2 comprises an upper radiation protection layer 21 and a lower radiation protection layer 22, and the upper radiation protection layer 21 and the lower radiation protection layer 22 are mutually interwoven into a whole;

the lower radiation-proof layer 22 includes first wefts 221 and first warps 222;

the upper radiation protection layer 21 comprises a plurality of second warp threads 211 which are parallel to each other;

the second warp yarn 211 is wound into a plurality of interwoven loops 2111;

the first weft yarns 221 sequentially pass through the interweaving rings 2111 formed by the plurality of second warp yarns 211 which are parallel to each other;

the first warp threads 222 are interwoven with the first weft threads 221.

Preferably, the first weft 221, the first warp 222 and the second warp 211 are all silver fiber filaments.

Preferably, the linear density of the first weft 221 and the first warp 222 is 132 dtex.

Preferably, the linear density of the second warp yarns 211 is 121 dtex.

Referring to fig. 3, the first warp threads 222 are perpendicular to the first weft threads 221;

the first warp yarn 222 and the second warp yarn 211 are parallel to each other.

Preferably, the lace layer 1, the radiation protection layer 2 and the skin-friendly layer 3 are bonded with each other through polyurethane adhesive.

Preferably, the skin-friendly layer 3 is skin-friendly cotton.

Example two

Referring to fig. 1-3, the radiation protection fabric comprises a lace layer 1, a radiation protection layer 2 and a skin-friendly layer 3, wherein the radiation protection layer 2 is sandwiched between the lace layer 1 and the skin-friendly layer 3;

the radiation protection layer 2 comprises an upper radiation protection layer 21 and a lower radiation protection layer 22, and the upper radiation protection layer 21 and the lower radiation protection layer 22 are mutually interwoven into a whole;

the lower radiation-proof layer 22 includes first wefts 221 and first warps 222;

the upper radiation protection layer 21 comprises a plurality of second warp threads 211 which are parallel to each other;

the second warp yarn 211 is wound into a plurality of interwoven loops 2111;

the first weft yarns 221 sequentially pass through the interweaving rings 2111 formed by the plurality of second warp yarns 211 which are parallel to each other;

the first warp threads 222 are interwoven with the first weft threads 221.

Preferably, the first weft 221, the first warp 222 and the second warp 211 are all silver fiber filaments.

Preferably, the linear density of the first weft 221 and the first warp 222 is 134 dtex.

Preferably, the linear density of the second warp yarns 211 is 122 dtex.

Referring to fig. 3, the first warp threads 222 are perpendicular to the first weft threads 221;

the first warp yarn 222 and the second warp yarn 211 are parallel to each other.

Preferably, the lace layer 1, the radiation protection layer 2 and the skin-friendly layer 3 are bonded with each other through polyurethane adhesive.

Preferably, the skin-friendly layer 3 is skin-friendly cotton.

EXAMPLE III

Referring to fig. 1-3, the radiation protection fabric comprises a lace layer 1, a radiation protection layer 2 and a skin-friendly layer 3, wherein the radiation protection layer 2 is sandwiched between the lace layer 1 and the skin-friendly layer 3;

the radiation protection layer 2 comprises an upper radiation protection layer 21 and a lower radiation protection layer 22, and the upper radiation protection layer 21 and the lower radiation protection layer 22 are mutually interwoven into a whole;

the lower radiation-proof layer 22 includes first wefts 221 and first warps 222;

the upper radiation protection layer 21 comprises a plurality of second warp threads 211 which are parallel to each other;

the second warp yarn 211 is wound into a plurality of interwoven loops 2111;

the first weft yarns 221 sequentially pass through the interweaving rings 2111 formed by the plurality of second warp yarns 211 which are parallel to each other;

the first warp threads 222 are interwoven with the first weft threads 221.

Preferably, the first weft 221, the first warp 222 and the second warp 211 are all silver fiber filaments.

Preferably, the linear density of the first weft 221 and the first warp 222 is 136 dtex.

Preferably, the linear density of the second warp yarns 211 is 124 dtex.

Referring to fig. 3, the first warp threads 222 are perpendicular to the first weft threads 221;

the first warp yarn 222 and the second warp yarn 211 are parallel to each other.

Preferably, the lace layer 1, the radiation protection layer 2 and the skin-friendly layer 3 are bonded with each other through polyurethane adhesive.

Preferably, the skin-friendly layer 3 is skin-friendly cotton.

To sum up, the utility model provides a pair of radiation protection surface fabric because silver fibre has good shielding effect, consequently the effect that the layer of protecting against radiation can play the radiation protection, and then makes the flower bud silk surface fabric possess the radiation protection characteristic, is applicable to and makes into all kinds of dresses.

The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.

Claims (7)

1. An anti-radiation fabric is characterized by comprising a lace layer, an anti-radiation layer and a skin-friendly layer, wherein the anti-radiation layer is clamped between the lace layer and the skin-friendly layer;

the radiation-proof layer comprises an upper radiation-proof layer and a lower radiation-proof layer, and the upper radiation-proof layer and the lower radiation-proof layer are interwoven into a whole;

the lower radiation-proof layer comprises first wefts and first warps;

the upper radiation-proof layer comprises a plurality of second warps which are parallel to each other;

the second warp threads are wound into a plurality of interwoven rings;

the first weft threads sequentially penetrate through the interweaving loops formed by the second warp threads which are parallel to each other;

the first warp threads are interwoven with the first weft threads.

2. The radiation protective fabric of claim 1, wherein the first weft, the first warp and the second warp are silver fiber yarns.

3. The radiation-proof fabric of claim 1, wherein the linear density of the first weft and the first warp is 132-136 dtex.

4. The radiation-proof fabric according to claim 1, wherein the linear density of the second warp threads is 121-124 dtex.

5. The radiation protective fabric of claim 1, wherein said first warp threads are perpendicular to said first weft threads;

the first warp threads and the second warp threads are parallel to each other.

6. The radiation protective fabric of claim 1, wherein said lace layer, radiation protective layer and skin friendly layer are bonded to each other by a polyurethane adhesive.

7. The radiation protective fabric of claim 1, wherein the skin-friendly layer is skin-friendly cotton.

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