CN215662203U - Mosquito-proof worm surface fabric - Google Patents

Abstract

The utility model relates to an anti-mosquito fabric which is formed by compounding an outer fabric layer and an inner fabric layer, wherein the outer fabric layer is formed by interweaving anti-mosquito composite yarns serving as outer warp yarns and outer weft yarns, and the anti-mosquito composite yarns are composed of anti-mosquito yarns and protective yarns wound on the anti-mosquito yarns. Compared with the prior art, the anti-mosquito fabric has the advantages of good anti-mosquito effect, long effect duration, light weight, comfort and the like.

Description

Mosquito-proof worm surface fabric

Technical Field

The utility model belongs to the technical field of functional fabrics, and relates to an anti-mosquito fabric.

Background

People usually wear cool clothes such as shorts and short sleeves in summer, but mosquitoes are more in summer, single thin clothes, naked arms and legs cannot resist the biting of the mosquitoes, thick clothes can prevent the biting of the mosquitoes, but the thick clothes are not suitable for being worn in summer, and the common fabric on the market at present cannot achieve the effect of preventing the mosquitoes.

For example, Chinese patent ZL discloses a fabric with an anti-mosquito function, which comprises a fabric inner layer, a middle layer and a fabric outer layer which are sequentially arranged, wherein an antibacterial coating is coated on one side surface of the fabric inner layer, which is far away from the middle layer; the middle layer comprises a first middle layer close to one side of the inner layer of the fabric and a second middle layer close to the outer layer of the fabric, the second middle layer is a fabric, mosquito-repellent particles are arranged in fibers of the fabric, and a detergent is added into the mosquito-repellent particles; the outer layer of the fabric is made of bamboo fiber and the like. Although the patent has a good effect of preventing mosquito bites, the fabric is formed by simply compounding a plurality of functional layers by adopting modes such as adhesives and the like, the thickness of the whole fabric is thicker, and the wearing comfort level and the environment-friendly health are poorer.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an anti-mosquito fabric to realize good anti-mosquito treatment on summer clothing fabric and the like.

The purpose of the utility model can be realized by the following technical scheme:

the utility model provides a mosquito-proof worm surface fabric, is formed by the surface fabric skin and surface fabric inlayer complex, the surface fabric skin prevent that mosquito composite yarn interweaves as outer warp and outer woof and forms, mosquito-proof worm composite yarn constitute by mosquito-proof worm yarn and the protection yarn of winding on mosquito-proof worm yarn.

Further, the protection yarn include carbon fiber and cotton yarn two kinds, and carbon fiber and cotton yarn cross winding are in on the mosquito-proof worm yarn.

Furthermore, the arrangement ratio of the carbon fibers to the cotton yarns on the anti-mosquito yarns is 1: 1.

Furthermore, the anti-mosquito yarns are polyester fibers with anti-mosquito microcapsules attached to the surfaces.

Furthermore, in the outer layer of the fabric, the outer layer warp yarns are interwoven in a floating and sinking manner by passing through one outer layer weft yarn and pressing one outer layer weft yarn again.

Furthermore, the weaving direction of two adjacent outer layer warp yarns is opposite along the outer layer weft yarn direction.

Furthermore, the inner layer of the fabric is formed by interweaving inner-layer warp yarns and inner-layer weft yarns in a floating and sinking manner, wherein the inner-layer warp yarns are interwoven in a floating and sinking manner by pressing one inner-layer weft yarn and one outer-layer weft yarn every time one inner-layer weft yarn and three outer-layer weft yarns are passed through.

Furthermore, the inner layer weft adopts linen yarns.

Furthermore, the inner layer warp adopts bamboo fiber.

Furthermore, the size of the anti-mosquito composite yarn is smaller than that of the inner layer warp yarn and the inner layer weft yarn.

Compared with the prior art, the utility model has the following advantages:

(1) through adopting mosquito-proof worm yarn and protection yarn to constitute composite yarn, it is outer as the warp and weft yarn intertwine to obtain the surface fabric by it again, not only can utilize mosquito-proof worm yarn to realize that effective mosquito-proof of mosquito-proof, and simultaneously, the setting of protection yarn can also be protected mosquito-proof worm yarn, avoids the external mosquito-proof microcapsule of scraping damage on the mosquito-proof worm yarn, has also avoided the direct mosquito-proof worm composition of skin, has still improved the slow-release effect of mosquito-proof worm composition.

(2) The inner layer and the outer layer of the fabric are directly interwoven by the inner layer warp yarns and the outer layer weft yarns to realize compounding, so that the use of an adhesive between the conventional fabric layers is avoided, the ventilation effect and the like of the composite fabric are improved, and meanwhile, the health safety performance and the like of the fabric are also improved.

(3) The protection yarn adopts two kinds of alternately twines on anti-mosquito yarn of carbon fiber and cotton yarn, and it can also do further reinforcing to the intensity of anti-mosquito composite yarn when playing basic protection isolation ability, has also improved the outer moisture absorption sweat-discharging effect of surface fabric.

(4) The inner layer of the fabric is woven by linen yarns and bamboo fibers, the skin-sticking softness is high, the whole fabric also has strong antibacterial capacity, and the fabric is comfortable to wear, light and thin in whole and particularly suitable for being used as summer wear fabric.

Drawings

FIG. 1 is a schematic view of the weave structure of the fabric;

FIG. 2 is a schematic structural view of an anti-mosquito composite yarn;

the notation in the figure is:

1-fabric outer layer, 11-outer layer warp yarn, 12-outer layer weft yarn, 13-anti-mosquito yarn and 14-protective yarn;

2-inner layer of fabric, 21-inner layer warp yarn and 22-inner layer weft yarn.

Detailed Description

The utility model is described in detail below with reference to the figures and specific embodiments. The present embodiment is implemented on the premise of the technical solution of the present invention, and a detailed implementation manner and a specific operation process are given, but the scope of the present invention is not limited to the following embodiments.

The utility model provides an anti-mosquito fabric which is formed by compounding an outer fabric layer 1 and an inner fabric layer 2, the structure of the anti-mosquito fabric is shown in figure 1, the outer fabric layer 1 is formed by interweaving anti-mosquito composite yarns serving as outer warp yarns 11 and outer weft yarns 12, and the anti-mosquito composite yarns are composed of anti-mosquito yarns 13 and protective yarns 14 wound on the anti-mosquito yarns 13.

In some embodiments, referring to fig. 2 again, the protective yarn 14 includes two types of carbon fiber and cotton yarn, and the carbon fiber and the cotton yarn are wound on the anti-mosquito yarn 13 in a crossing manner.

In a more embodiment, the arrangement ratio of the carbon fibers to the cotton yarns on the anti-mosquito yarns 13 is 1: 1.

In some embodiments, the anti-mosquito yarn 13 is a polyester fiber with anti-mosquito microcapsules attached on the surface.

In some embodiments, referring to fig. 1 again, in the outer layer 1 of the fabric, the outer layer warp yarns 11 are woven in a floating and sinking manner by passing one outer layer weft yarn 12 and pressing one outer layer weft yarn 12.

In a more specific embodiment, the weaving direction of two adjacent outer layer warp yarns 11 is opposite along the direction of the outer layer weft yarns 12.

In some embodiments, referring again to fig. 1, the inner layer 2 of the fabric is formed by interweaving an inner warp 21 and an inner weft 22, wherein the inner warp 21 is interwoven by interweaving an inner weft 22 and three outer wefts 12, and then interweaving an inner weft 22 and an outer weft 12.

In a more specific embodiment, the inner weft yarns 22 are linen yarns.

In a more specific embodiment, the inner warp 21 is made of bamboo fiber.

In a more embodiment, the size of the anti-mosquito composite yarn is smaller than the inner layer warp yarn 21 and the inner layer weft yarn 22.

The above embodiments may be implemented individually, or in any combination of two or more.

The above embodiments will be described in more detail with reference to specific examples.

Example 1:

the embodiment provides an anti-mosquito fabric, which is formed by compounding an outer fabric layer 1 and an inner fabric layer 2, and the structure of the anti-mosquito fabric is shown in fig. 1, wherein the outer fabric layer 1 is formed by interweaving anti-mosquito composite yarns serving as outer warp yarns 11 and outer weft yarns 12, and the anti-mosquito composite yarns are formed by anti-mosquito yarns 13 and protective yarns 14 wound on the anti-mosquito yarns 13.

Referring to fig. 2 again, the protective yarn 14 includes two types of carbon fiber and cotton yarn, and the carbon fiber and the cotton yarn are cross-wound on the anti-mosquito yarn 13. The arrangement ratio of the carbon fiber to the cotton yarn on the anti-mosquito yarn 13 is 1: 1. The anti-mosquito yarn 13 is polyester fiber with anti-mosquito microcapsules attached to the surface. The attachment mode of the anti-mosquito microcapsules can be attachment and fixation by adopting a conventional mode in the field, for example, the polyester fibers are directly immersed into finishing liquid containing the anti-mosquito microcapsules, and the finishing liquid is dried and solidified.

Referring to fig. 1 again, in the outer layer 1 of the fabric, the outer layer warp yarns 11 are woven in a floating and sinking manner in such a manner that one outer layer weft yarn 12 passes through each outer layer warp yarn and then one outer layer weft yarn 12 is pressed. The weaving direction of two adjacent outer layer warp yarns 11 is opposite along the direction of the outer layer weft yarns 12.

Referring to fig. 1 again, the inner layer 2 of the fabric is formed by interweaving an inner layer warp 21 and an inner layer weft 22 in a floating and sinking manner, wherein the inner layer warp 21 is interwoven in a floating and sinking manner by passing one inner layer weft 22 and three outer layer weft 12 and then pressing one inner layer weft 22 and one outer layer weft 12. The inner weft yarns 22 are linen yarns. The inner layer warp 21 adopts bamboo fiber.

This embodiment is through adopting mosquito-proof worm yarn 13 and protection yarn 14 to constitute compound yarn, obtains the outer 1 of surface fabric by its warp and weft yarn interlacing, not only can utilize mosquito-proof worm yarn 13 to realize effective mosquito-proof of mosquito-proof, and simultaneously, the setting of protection yarn 14 can also be protected mosquito-proof worm yarn 13, avoids the external mosquito-proof worm microcapsule on scraping the damage mosquito-proof worm yarn 13, has also avoided the direct mosquito-proof worm composition of skin, has still improved the slow-release effect of mosquito-proof worm composition. Meanwhile, the inner layer 2 and the outer layer 1 of the fabric are directly interwoven by the inner layer warp yarns 21 and the outer layer weft yarns 12 to realize compounding, so that the use of an adhesive between conventional fabric layers is avoided, the ventilation effect and the like of the composite fabric are improved, and the health safety performance and the like of the fabric are also improved. The protective yarn 14 is formed by winding two types of carbon fiber and cotton yarn on the anti-mosquito yarn 13 in a crossed mode, so that the strength of the anti-mosquito composite yarn can be further enhanced while the basic protective isolation capacity is achieved, and the moisture absorption and sweat releasing effects of the outer layer 1 of the fabric are improved. The inner layer 2 of the fabric is formed by weaving linen yarns and bamboo fibers, has high skin-adhering softness, has strong antibacterial capability on the whole and is comfortable to wear.

The embodiments described above are intended to facilitate the understanding and use of the utility model by those skilled in the art. It will be readily apparent to those skilled in the art that various modifications to these embodiments may be made, and the generic principles described herein may be applied to other embodiments without the use of the inventive faculty. Therefore, the present invention is not limited to the above embodiments, and those skilled in the art should make improvements and modifications within the scope of the present invention based on the disclosure of the present invention.

Claims (10)

1. The utility model provides a mosquito-proof worm surface fabric, its characterized in that is formed by the surface fabric is outer with the surface fabric inlayer is compound, the surface fabric outer prevent that mosquito composite yarn interweaves as outer warp and outer woof and forms, mosquito-proof worm composite yarn constitute by mosquito-proof worm yarn and the protection yarn of winding on mosquito-proof worm yarn.

2. A mosquito-proof fabric according to claim 1, wherein the protective yarn comprises carbon fiber and cotton yarn, and the carbon fiber and the cotton yarn are wound on the mosquito-proof yarn in a crossing manner.

3. An anti-mosquito fabric according to claim 2, wherein the arrangement ratio of the carbon fibers to the cotton yarns on the anti-mosquito yarns is 1: 1.

4. The anti-mosquito fabric according to claim 1, wherein the anti-mosquito yarn is polyester fiber with anti-mosquito microcapsules attached to the surface.

5. An anti-mosquito fabric according to claim 1, wherein in the outer layer of the fabric, outer warp yarns are interwoven in a way of passing through one outer weft yarn and pressing one outer weft yarn again.

6. A mosquito-proof fabric as claimed in claim 5, wherein along the weft direction of the outer layer, the weaving direction of two adjacent outer layer warps is opposite.

7. An anti-mosquito fabric according to claim 1, wherein the inner layer of the fabric is formed by interweaving inner warp yarns and inner weft yarns in a floating and sinking manner, wherein the inner warp yarns are interwoven in a floating and sinking manner by pressing one inner weft yarn and one outer weft yarn every time one inner weft yarn and three outer weft yarns pass through.

8. A mosquito-proof fabric as claimed in claim 7, wherein the weft yarn of the inner layer is linen yarn.

9. A mosquito-proof fabric according to claim 7, wherein the inner layer warp adopts bamboo fiber.

10. A mosquito-proof fabric according to claim 7, wherein the size of the mosquito-proof composite yarn is smaller than the inner layer warp yarn and the inner layer weft yarn.

Images