CN215856586U - Concave-convex double-layer elastic gauze with mosquito-proof function - Google Patents

Abstract

The utility model discloses a concave-convex double-layer elastic gauze with an anti-mosquito function, which comprises a surface layer and a skin-attached bottom layer; the surface layer comprises surface layer warp yarns and surface layer weft yarns; the skin-close bottom layer comprises bottom warp yarns and bottom weft yarns; the surface layer shows a mountain-line-shaped appearance, the surface layer weft yarns are woven by non-elastic yarns, the bottom layer weft yarns are woven by elastic yarns, the shrinkage rates of the two layers are different, the shrinkage rate of the skin-attached bottom layer is large, the surface layer shrinks inwards after shrinking, the mountain-line-shaped weft yarns protrude to form a concave-convex structure, and the height range of the concave-convex structure is 1-3 mm; the surface layer warp yarns and the surface layer weft yarns are interwoven in a mountain-line-shaped organization structure at intervals, and the surface layer warp yarns and the bottom layer weft yarns are interwoven in a surface-to-inner layer changing manner to form a surface-to-inner layer changing structure; the bottom warp yarns and the bottom weft yarns are interwoven in a plain weave structure at intervals, and the bottom warp yarns and the surface weft yarns are interwoven in a layer-changing manner to form a layer-changing structure; the concave-convex double-layer elastic gauze with the mosquito-proof function has the advantages of physical mosquito prevention, skin-adhering softness and the like which are not possessed by the existing products.

Description

Concave-convex double-layer elastic gauze with mosquito-proof function

Technical Field

The utility model relates to an anti-mosquito fabric, in particular to a concave-convex double-layer elastic gauze with an anti-mosquito function.

Background

The traditional mosquito-proof fabric is generally added with a mosquito-proof auxiliary agent through after-finishing, and a chemical auxiliary agent for preventing mosquito bite, such as pyrethrins, is formed on the surface of the fabric, however, the mosquito-proof auxiliary agent has certain toxicity, is not good enough for human body safety, has weak general durability, and loses the mosquito-proof effect along with the increase of washing times. Although the physical mosquito-proof fabric formed by the fabric structure is relatively high in safety and good in durability, the fabric is generally in a concave-convex fold-shaped appearance structure formed by a strong twisted yarn or a special structure, and the fabric achieves a certain mosquito-proof function, but the front and the back of the fabric are not comfortable to wear due to the fact that the concave-convex folds are formed on the front and the back of the fabric.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides the concave-convex double-layer elastic gauze with the mosquito prevention function, so that the fabric has the characteristics of physical mosquito prevention, elasticity and skin attachment.

The technical scheme adopted by the utility model for solving the technical problems is as follows:

the concave-convex double-layer elastic gauze with the mosquito-proof function comprises a surface layer and a skin-attached bottom layer; the surface layer comprises surface layer warp yarns and surface layer weft yarns; the skin-attaching bottom layer comprises bottom warp yarns and bottom weft yarns; the surface layer shows a mountain-line-shaped appearance, the surface layer weft yarns are woven by non-elastic yarns, the bottom layer weft yarns are woven by elastic yarns, the shrinkage rates of the two layers are different, the shrinkage rate of the skin-attached bottom layer is large, the surface layer shrinks inwards after shrinking, the mountain-line-shaped weft yarns protrude to form a concave-convex structure, and the height range of the concave-convex structure is 1-3 mm;

the surface layer warp yarns and the surface layer weft yarns are interwoven in a mountain-line-shaped organization structure, and after a certain distance is kept, the surface layer warp yarns and the bottom layer weft yarns are interwoven in a surface-to-inner layer changing manner, so that the surface layer and the skin-attached bottom layer are connected together to form a surface-to-inner layer changing structure; the bottom warp and the bottom weft are interwoven in a plain weave structure, and after a certain distance is kept, the bottom warp and the surface weft are interwoven in a surface-to-inner layer changing manner, so that the surface layer and the skin-attached bottom layer are connected together to form a surface-to-inner layer changing structure.

In the above structure, the surface layer warp yarns and the surface layer weft yarns are all 60S cotton yarns.

In the above structure, the bottom warp yarn is 60S cotton yarn, and the bottom weft yarn is 60S cotton yarn +30D spandex.

In the structure, the components of the concave-convex double-layer elastic gauze with the mosquito-proof function comprise 98% of cotton and 2% of spandex.

In the structure, the gram weight of the concave-convex double-layer elastic gauze with the mosquito-proof function is 110-120g/cm²。

In the structure, the breadth of the concave-convex double-layer elastic gauze with the mosquito-proof function is 57-58 inches.

The utility model has the beneficial effects that: the utility model provides double-layer elastic bubble gauze with an anti-mosquito function, which comprises a surface layer and a skin-attached bottom layer; the surface layer comprises surface layer warp yarns and surface layer weft yarns; the skin-attaching bottom layer comprises bottom warp yarns and bottom weft yarns; the surface layer warp yarns and the surface layer weft yarns are interwoven in a mountain-line-shaped weave structure; the problems that an existing mosquito-proof fabric is not strong in mosquito-proof durability, poor in safety, not comfortable enough and the like are solved, and the use feeling of a user can be improved in the using process.

Drawings

The utility model is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view in longitudinal cross section of the present invention;

FIG. 2 is a schematic top view of a face fabric of the present invention;

FIG. 3 is a top layer structure view of the present invention.

Detailed Description

The conception, the specific structure, and the technical effects produced by the present invention will be clearly and completely described below in conjunction with the embodiments and the accompanying drawings to fully understand the objects, the features, and the effects of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and those skilled in the art can obtain other embodiments without inventive effort based on the embodiments of the present invention, and all embodiments are within the protection scope of the present invention. In addition, all the connection/connection relations referred to in the patent do not mean that the components are directly connected, but mean that a better connection structure can be formed by adding or reducing connection auxiliary components according to specific implementation conditions. All technical characteristics in the utility model can be interactively combined on the premise of not conflicting with each other.

Referring to fig. 1-3, the concave-convex double-layer elastic gauze with the mosquito-proof function comprises a surface layer 1 and a skin-attached bottom layer 2; the surface layer 1 comprises surface layer warp yarns 3 and surface layer weft yarns; the skin-attached bottom layer 2 comprises bottom warp yarns 4 and bottom weft yarns; the surface layer 1 shows a mountain-shaped appearance, the surface layer weft yarns are woven by non-elastic yarns, the bottom layer weft yarns are woven by elastic yarns, the shrinkage of the two layers is different, the shrinkage of the skin-attached bottom layer 2 is large, the surface layer 1 shrinks inwards after shrinkage, the mountain-shaped appearance is protruded, the concave-convex structure 6 is formed, and the height range of the concave-convex structure 6 is 1-3 mm.

The surface layer warp 3 and the surface layer weft are interwoven in a mountain-line-shaped organization structure, after a certain distance is separated, the surface layer warp 3 and the bottom layer weft are subjected to surface-interior layer changing interweaving, and the surface layer 1 and the skin-attached bottom layer 2 are connected together to form a surface-interior layer changing structure 5; the bottom warp 4 and the bottom weft are interwoven in a plain weave structure, and after a certain distance is left, the bottom warp 4 and the surface weft are interwoven in a surface-to-inner layer changing mode, so that the surface layer 1 and the skin-attached bottom layer 2 are connected together to form a surface-to-inner layer changing structure 5.

The surface layer warp 3 and the surface layer weft are both 60S cotton yarns.

The bottom warp 4 is 60S cotton yarn, and the bottom weft is 60S cotton yarn and 30D spandex.

The utility model adopts the yarn with higher count than the conventional gauze, and the components of the concave-convex double-layer elastic gauze with the mosquito-proof function comprise 98 percent of cotton and 2 percent of spandex.

Wherein the gram weight of the concave-convex double-layer elastic gauze with the mosquito-proof function is 110-120g/cm²。

Wherein the breadth of the concave-convex double-layer elastic gauze with the mosquito-proof function is 57-58 inches.

While the preferred embodiments of the present invention have been illustrated and described, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (6)

1. Unsmooth double-deck elasticity gauze with mosquito-proof function, its characterized in that: comprises a surface layer and a skin-adhering bottom layer; the surface layer comprises surface layer warp yarns and surface layer weft yarns; the skin-attaching bottom layer comprises bottom warp yarns and bottom weft yarns; the surface layer shows a mountain-line-shaped appearance, the surface layer weft yarns are woven by non-elastic yarns, the bottom layer weft yarns are woven by elastic yarns, the shrinkage rates of the two layers are different, the shrinkage rate of the skin-attached bottom layer is large, the surface layer shrinks inwards after shrinking, the mountain-line-shaped weft yarns protrude to form a concave-convex structure, and the height range of the concave-convex structure is 1-3 mm;

the surface layer warp yarns and the surface layer weft yarns are interwoven in a mountain-line-shaped organization structure, and after a certain distance is kept, the surface layer warp yarns and the bottom layer weft yarns are interwoven in a surface-to-inner layer changing manner, so that the surface layer and the skin-attached bottom layer are connected together to form a surface-to-inner layer changing structure; the bottom warp and the bottom weft are interwoven in a plain weave structure, and after a certain distance is kept, the bottom warp and the surface weft are interwoven in a surface-to-inner layer changing manner, so that the surface layer and the skin-attached bottom layer are connected together to form a surface-to-inner layer changing structure.

2. The concavo-convex double-layer elastic gauze with the mosquito preventing function according to claim 1, is characterized in that: the surface layer warp yarns and the surface layer weft yarns are 60S cotton yarns.

3. The concavo-convex double-layer elastic gauze with the mosquito preventing function according to claim 1, is characterized in that: the bottom warp yarn is 60S cotton yarn, and the bottom weft yarn is 60S cotton yarn and 30D spandex.

4. The concavo-convex double-layer elastic gauze with the mosquito preventing function according to claim 1, is characterized in that: the components of the concave-convex double-layer elastic gauze with the mosquito-proof function comprise 98% of cotton and 2% of spandex.

5. The concavo-convex double-layer elastic gauze with the mosquito preventing function according to claim 1, is characterized in that: the gram weight of the concave-convex double-layer elastic gauze with the mosquito prevention function is 110-120g/cm²。

6. The concavo-convex double-layer elastic gauze with the mosquito preventing function according to claim 1, is characterized in that: the breadth of the concave-convex double-layer elastic gauze with the mosquito-proof function is 57-58 inches.

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