CN211112447U - All-cotton one-way moisture-conducting double-layer gauze - Google Patents

Abstract

The utility model discloses an one-way wet double-deck gauze of leading of all cotton, including top layer gauze and nexine gauze, the top layer gauze is including table warp, table woof and tying warp, table warp and tying warp interweave with the table woof, the nexine gauze is including the interior warp and the interior woof that interweave, tying warp is used for connecting top layer gauze and nexine gauze, tying warp extends to be formed with the tying point with the weaving of nexine gauze from top layer gauze to nexine gauze, tying warp, table warp and table woof are hydrophilicity pure cotton yarn, the hydroscopicity of nexine gauze is less than the hydroscopicity of top layer gauze. So, because table warp, table woof and tying warp all adopt hydrophilicity pure cotton yarn, the hydroscopicity of nexine gauze is less than the hydroscopicity of top layer gauze, and the one-way moisture permeability has been realized to the hydroscopicity difference of double-deck gauze, and sweat is derived fast to the nexine gauze, and the skin layer gauze absorbs the outer of double-deck gauze with sweat, and the moisture permeability direction of surface fabric is unrestricted, and sweat can be at the rapid diffusion evaporation of longitude and latitude of top layer gauze.

Description

All-cotton one-way moisture-conducting double-layer gauze

Technical Field

The utility model relates to a textile sector, concretely relates to one-way wet double-deck gauze of leading of all cotton.

Background

The pure cotton fabric is good in wearing comfort and popular, but the cotton fabric has the characteristics of good hygroscopicity and poor moisture release, and when a human body sweats in a large amount, the pure cotton fabric is not easy to dry after absorbing sweat, and is easy to stick on skin to cause discomfort in wearing.

At present, three modes are mostly adopted to realize the moisture absorption and quick drying functions of the fabric. Firstly, combine through the chemical fibre that leads wet good and the natural fibre that the hygroscopicity is good to realize the quick-drying function of moisture absorption, the quick-drying function of moisture absorption of surface fabric such as cotton lid polyester composite knitting, cotton lid third of the ten heavenly stems knitting is better than ordinary pure cotton knitted fabric, but because the chemical fibre is as leading wet nexine, presses close to skin and can arouse the uncomfortable sense of skin, the travelling comfort of surface fabric is not as pure cotton surface fabric. Secondly, a one-way moisture-conducting pure cotton fabric with a double-side structure is developed through a one-side finishing technology, and a water repellent finishing agent is printed on one surface of the fabric according to a certain pattern to form the one-way moisture-conducting fabric with the hydrophilic and hydrophobic double-side structures. Thirdly, the knitted fabric with the water-repellent yarns and the hydrophilic yarns arranged at intervals is adopted, the water-repellent high count yarns are used for the garment-facing surface, the hydrophilic low count yarns are used for the front surface, and the unidirectional moisture conduction is realized.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, the utility model needs to provide an all-cotton one-way moisture-conducting double-layer gauze.

The utility model provides an one-way wet double-deck gauze of leading of all-cotton, including top layer gauze and nexine gauze, top layer gauze includes table warp, table woof and tying warp, the table warp reaches tying warp with the table woof is interweaved, the nexine gauze is including the interior warp and the nexine yarn that interweave, tying warp is used for connecting top layer gauze with the nexine gauze, tying warp certainly top layer gauze to the nexine gauze extend with the nexine yarn is interweaved and is formed with the knot point, tying warp table warp reaches the table woof is the hydrophilic yarn, the hydroscopicity of nexine gauze is less than the hydroscopicity of top layer gauze.

According to a specific embodiment of the present invention, the ratio of the surface warp yarn to the inner warp yarn is 1: 1, the ratio of the surface weft yarns to the inner weft yarns is 1: 1.

according to a specific embodiment of the utility model, the warp direction density of top layer gauze is 30-105/inch, the latitudinal direction density of top layer gauze is 30-105/inch, the warp direction density of nexine gauze is 30-105/inch, the latitudinal direction density of nexine gauze is 30-105/inch.

According to a specific embodiment of the present invention, the distance between the connection points is 1-3 cm.

According to a specific embodiment of the present invention, the back warp yarns are formed by blending water-repellent cotton fibers and hydrophilic cotton fibers, and the hydrophilic cotton fibers in the back warp yarns account for 50% -80%; the inner weft yarns are formed by blending water-repellent cotton fibers and hydrophilic cotton fibers, and the hydrophilic cotton fibers in the inner weft yarns account for 50% -80%.

According to a specific embodiment of the present invention, the ratio of the surface warp yarns to the inner warp yarns is 2:1, and the ratio of the surface weft yarns to the inner weft yarns is 2: 1.

According to a specific embodiment of the utility model, the density of nexine gauze is less than the density of top layer gauze.

According to a specific embodiment of the present invention, the surface warp yarns and the back warp yarns together constitute warp yarns, and the ratio of the warp yarns to the binding warp yarns is 4-20: 1.

According to a specific embodiment of the utility model, the lining warp reaches the lining woof is water repellent pure cotton yarn.

According to a specific embodiment of the utility model, the table warp is the pure cotton colored yarn that combs, the table woof is the pure cotton colored yarn that combs.

The utility model discloses an one-way wet double-deck gauze of leading of all cotton, because table warp, table woof and tying warp all adopt hydrophilicity pure cotton yarn, the hydroscopicity of nexine gauze is less than the hydroscopicity of top layer gauze, the one-way wet guide has been realized to the hydroscopicity difference nature of double-deck gauze, the sweat is derived fast to the nexine gauze, the skin of top layer gauze absorption double-deck gauze with the sweat, the moisture conduction direction of surface fabric is unrestricted, the sweat can be at the longitude and latitude of top layer gauze to rapid diffusion evaporation, the dry and comfortable degree when keeping nexine gauze and human skin contact.

Drawings

Fig. 1 is a schematic structural view of an all-cotton one-way moisture-conducting double-layer gauze provided in an embodiment of the present invention;

fig. 2 is a schematic view of an inner layer gauze of an all-cotton one-way moisture-guiding double-layer gauze provided in an embodiment of the present invention;

fig. 3 is a radial cross-sectional view of an all-cotton one-way moisture-guiding double-layer gauze provided in an embodiment of the present invention;

fig. 4 is a cross-sectional view of an all-cotton one-way moisture-guiding double-layer gauze provided by the second embodiment of the present invention;

fig. 5 is a radial cross-sectional view of a cotton one-way moisture-guiding double-layer gauze provided by the third embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings. Wherein like elements in different embodiments are numbered with like associated elements. In the following description, numerous details are set forth in order to provide a better understanding of the present application. However, those skilled in the art will readily recognize that some of the features may be omitted or replaced with other elements, materials, methods in different instances. In some instances, certain operations related to the present application have not been shown or described in detail in order to avoid obscuring the core of the present application from excessive description, and it is not necessary for those skilled in the art to describe these operations in detail, so that they may be fully understood from the description in the specification and the general knowledge in the art.

Furthermore, the features, operations, or characteristics described in the specification may be combined in any suitable manner to form various embodiments. Also, the various steps or actions in the method descriptions may be transposed or transposed in order, as will be apparent to one of ordinary skill in the art. Thus, the various sequences in the specification and drawings are for the purpose of describing certain embodiments only and are not intended to imply a required sequence unless otherwise indicated where such sequence must be followed.

The numbering of the components as such, e.g., "first", "second", etc., is used herein only to distinguish the objects as described, and does not have any sequential or technical meaning. The term "connected" and "coupled" when used in this application, unless otherwise indicated, includes both direct and indirect connections (couplings).

The first embodiment is as follows:

referring to fig. 1 to 3, the present invention relates to an all-cotton one-way moisture-guiding double-layered gauze, including a surface layer gauze 11 and an inner layer gauze 12, the surface layer gauze 11 includes a surface warp 111, a surface weft 112 and a binding warp 13, the surface warp 111 and the binding warp 13 are interwoven with the surface weft 112, the inner layer gauze 12 includes an inner warp 121 and an inner weft 122 which are interwoven with each other, the binding warp 13 is used for connecting the surface layer gauze 11 and the inner layer gauze 12, the binding warp 13 extends from the surface layer gauze 11 to the inner layer gauze 12 to be interwoven with the inner weft 122 to form a binding point 10a, the binding warp 13, the surface warp 111 and the surface weft 112 are hydrophilic pure cotton yarns, and the water absorption of the inner layer gauze 12 is less than the water absorption of the surface layer gauze 11.

The utility model discloses an one-way wet double-deck gauze of leading of all cotton, because table warp 111, table weft 112 and tying warp 13 all adopt hydrophilicity pure cotton yarn, the hydroscopicity of nexine gauze 12 is less than the hydroscopicity of top layer gauze 11, the one-way moisture guide has been realized to the hydroscopicity difference of double-deck gauze, sweat 20 is derived fast to nexine gauze 12, top layer gauze 11 absorbs sweat 20 in the skin of double-deck gauze, the moisture guide direction of surface fabric is unrestricted, sweat 20 can be in the longitude and latitude of top layer gauze 11 to rapid diffusion evaporation, the dry and comfortable degree when keeping nexine gauze 12 and human skin contact.

In the present embodiment, the binding warp yarns 13 are interwoven with the surface weft yarns 112 and the inner weft yarns 122 to form the binding points 10a, as shown in fig. 3, the binding warp yarns 13 on the surface layer are downward interwoven with the inner weft yarns 122 on the inner layer to form the binding points 10a, and the binding points 10a are warp and weft interweaving points connecting the surface layer gauze 11 and the inner layer gauze 12. The water conductivity of the binding warp 13 is unidirectional, sweat 20 is transferred to the surface layer gauze 11 through the wicking action of the binding warp 13, and the surface warp yarn 111 and the surface weft yarn 112 of the surface layer gauze 11 both have water absorbability, so the sweat 20 can be rapidly diffused in the warp and weft directions of the surface layer gauze 11, the unidirectional moisture conduction effect is realized, the dryness of the skin-friendly inner layer gauze 12 is ensured, and the wearing comfort is improved.

In this embodiment, the ratio of the front warp yarn 111 to the back warp yarn 121 is 1: 1, the ratio of the front weft yarn 112 to the back weft yarn 122 is 1: 1. the top warp yarn 111 and the bottom warp yarn 121 together form a warp yarn, and the ratio of the warp yarn to the binding warp yarn 13 is 4-20: 1. Specifically, the ratio of the warp yarns to the binding warp yarns 13 is adjusted to adjust the ratio of the water conducting points between the inner layer gauze 12 and the surface layer gauze 11, wherein when the ratio of the binding warp yarns 13 is increased, the water absorption area of the inner layer gauze 12 is correspondingly increased, and the moisture conducting effect is improved along with the increase of the binding warp yarns 13.

In this embodiment, the cover warp yarn 111 is a pure cotton combed yarn and the cover weft yarn 112 is a pure cotton combed yarn. Further, the density of the surface layer gauze 11 in the warp direction is 30-105 pieces/inch, and the density of the surface layer gauze 11 in the weft direction is 30-105 pieces/inch. Preferably, the yarn count of the top warp yarn 111 is 40S, the yarn count of the top weft yarn 112 is 40S, the warp density of the surface layer scrim 11 is 56 pieces/inch, and the weft density of the surface layer scrim 11 is 56 pieces/inch.

In this embodiment, the back warp yarn 121 is a water-repellent pure cotton yarn, and the back weft yarn 122 is a water-repellent pure cotton yarn. Thus, the inner gauze 12 in direct contact with the skin can maintain dryness. Further, the density of the inner layer gauze 12 is 30-105 yarns/inch in the warp direction and 30-105 yarns/inch in the weft direction. Preferably, the yarn count of the inner warp yarns 121 is 40S, the yarn count of the inner weft yarns 122 is 40S, the warp density of the inner scrim 12 is 56 yarns per inch, and the weft density of the inner scrim 12 is 56 yarns per inch. The inner warp yarns 121 and the inner weft yarns 122 are white water-repellent pure cotton yarns, so that the inner gauze 12 directly contacting with the skin is undyed yarns, and is more environment-friendly and healthy.

Of course, the surface layer gauze 11 and the inner layer gauze 12 are not limited to the above-mentioned parameters, and may be other parameters.

Example two:

referring to fig. 4, in the present embodiment, the ratio of the top warp yarn 111 to the bottom warp yarn 121 is 1: 1, the ratio of the front weft yarn 112 to the back weft yarn 122 is 1: 1. the inner layer gauze 12 adopts a colored spinning process, and the distance between the connecting points 10a adopts a sparse hanging point mode. Further, the distance between the junction points 10a is 1-3 cm. Preferably, the distance between the junction points 10a is 1.5 cm. The distance refers to a distance of the joint points 10a on a diagonal line, specifically, four adjacent joint points 10a enclose a square, and a distance between two joint points 10a located at two ends of the diagonal line of the square is the distance.

In this embodiment, the surface warp yarn 111 is a pure cotton combed yarn, the surface weft yarn 112 is a pure cotton combed yarn, the warp density of the surface layer gauze is 30-105/inch, the weft density of the surface layer gauze is 30-105/inch, the warp density of the inner layer gauze is 30-105/inch, and the weft density of the inner layer gauze is 30-105/inch. Preferably, the yarn count of the top warp yarn 111 is 40S, the yarn count of the top weft yarn 112 is 40S, the warp density of the surface layer scrim 11 is 56 pieces/inch, and the weft density of the surface layer scrim 11 is 56 pieces/inch. The yarn count of the inner warp yarns 121 is 40S, the yarn count of the inner weft yarns 122 is 40S, the warp density of the inner scrim 12 is 56 yarns per inch, and the weft density of the inner scrim 12 is 56 yarns per inch.

In this embodiment, the inner warp yarn 121 is formed by blending water-repellent cotton fibers and hydrophilic cotton fibers, and the hydrophilic cotton fibers in the inner warp yarn 121 account for 50% -80%; the inner weft yarns 122 are formed by blending water-repellent cotton fibers and hydrophilic cotton fibers, and the proportion of the hydrophilic cotton fibers in the inner weft yarns 122 is 50% -80%. Preferably, the proportion of the hydrophilic cotton fiber in both the warp back yarn 121 and the weft back yarn 122 is 70%. Therefore, the inner warp yarn 121 and the inner weft yarn 122 of the inner gauze 12 both contain hydrophilic cotton fibers in a certain proportion, so that the skin-adhering surface of the inner gauze 12 has certain dryness, and meanwhile, the inner gauze has hydrophilicity, and sweat 20 can be guided to one side of full hydrophilicity.

Of course, the surface layer gauze 11 and the inner layer gauze 12 are not limited to the above-mentioned parameters, and may be other parameters.

The embodiment of the utility model provides a two-layer gauze of wet is led to all cotton one-way, because the tie point 10a interval adopts sparser string point mode, has avoided because too much string point causes the cloth cover unevenness, has guaranteed that it is aesthetic in appearance. Meanwhile, the inner layer gauze 12 contains hydrophilic cotton fibers in a certain proportion, sweat can be guided to the surface layer gauze 11, and the sweat is transmitted to the surface layer gauze 11 by matching with the binding warp yarns 13, so that the appearance of the fabric is guaranteed, and the moisture absorption and quick drying functions of the fabric are also guaranteed. In addition, the inner layer gauze 12 also contains a certain proportion of water-repellent cotton fiber, so that the dryness of the inner layer gauze 12 is ensured.

Example three:

the difference between the single-way moisture-guiding double-layer cotton gauze and the first embodiment is the yarn ratio and density of the surface layer gauze 11 and the inner layer gauze 12.

Referring to fig. 5, in the present embodiment, the ratio of the front warp yarn 111 to the back warp yarn 121 is 2:1, and the ratio of the front weft yarn 112 to the back weft yarn 122 is 2: 1. The top warp yarn 111 and the bottom warp yarn 121 together form a warp yarn, and the ratio of the warp yarn to the binding warp yarn 13 is 4-20: 1. The density of the inner layer gauze 12 is less than that of the surface layer gauze 11.

Further, the surface warp yarn 111 is a pure cotton combed colored yarn, the surface weft yarn 112 is a pure cotton combed colored yarn, the yarn count of the surface warp yarn 111 is 40S, the yarn count of the surface weft yarn 112 is 40S, the warp density of the surface layer gauze 11 is 60 pieces/inch, and the weft density of the surface layer gauze 11 is 60 pieces/inch. The inner warp 121 is water-repellent pure cotton white yarn, the inner weft 122 is water-repellent pure cotton combed white yarn, the yarn count of the inner warp 121 is 40S, the yarn count of the inner weft 122 is 40S, the warp density of the inner gauze 12 is 30 pieces/inch, and the weft density of the inner gauze 12 is 30 pieces/inch.

Of course, the surface layer gauze 11 and the inner layer gauze 12 are not limited to the above-mentioned parameters, and may be other parameters.

The utility model discloses three one-way wet double-deck gauze of leading of all cotton, because the density of nexine gauze 12 is less than top layer gauze 11, the space that the nexine warp yarn 121 and the nexine weft yarn 122 interweaved of nexine gauze 12 is greater than the space of top layer gauze 11, and the 20 accessible spaces of partial sweat directly transmit to top layer gauze 11, and tying warp 13 also can transmit the sweat to top layer gauze 11 simultaneously.

It is right to have used specific individual example above the utility model discloses expound, only be used for helping to understand the utility model discloses, not be used for the restriction the utility model discloses. To the technical field of the utility model technical personnel, the foundation the utility model discloses an idea can also be made a plurality of simple deductions, warp or replacement.

Claims (10)

1. The all-cotton one-way moisture-guiding double-layer gauze is characterized by comprising a surface layer gauze and an inner layer gauze, wherein the surface layer gauze comprises surface warp yarns, surface weft yarns and binding warp yarns, the surface warp yarns and the binding warp yarns are interwoven with the surface weft yarns, the inner layer gauze comprises inner warp yarns and inner weft yarns which are interwoven with each other, the binding warp yarns are used for connecting the surface layer gauze with the inner layer gauze, the binding warp yarns extend from the surface layer gauze to the inner layer gauze to be interwoven with the inner weft yarns to form binding points, the binding warp yarns, the surface warp yarns and the surface weft yarns are hydrophilic pure cotton yarns, and the water absorption of the inner layer gauze is smaller than the water absorption of the surface layer gauze.

2. The all-cotton one-way moisture-wicking double layer gauze of claim 1, wherein the ratio of the surface warp yarns to the inner warp yarns is 1: 1, the ratio of the surface weft yarns to the inner weft yarns is 1: 1.

3. the all-cotton one-way moisture-wicking double-layer gauze of claim 2, wherein the warp density of the surface layer gauze is 30-105 pieces/inch, the weft density of the surface layer gauze is 30-105 pieces/inch, the warp density of the inner layer gauze is 30-105 pieces/inch, and the weft density of the inner layer gauze is 30-105 pieces/inch.

4. The all-cotton one-way moisture-wicking double layer gauze of claim 2, wherein the spacing between the binding points is 1-3 cm.

5. The all-cotton one-way moisture-wicking double layer gauze of claim 4, wherein the inner warp yarns are blended from water-repellent cotton fibers and hydrophilic cotton fibers; the inner weft yarns are formed by blending water-repellent cotton fibers and hydrophilic cotton fibers.

6. The all-cotton one-way moisture-wicking double layer gauze of claim 1, wherein the ratio of the surface warp yarns to the inner warp yarns is 2:1, and the ratio of the surface weft yarns to the inner weft yarns is 2: 1.

7. The all-cotton one-way moisture-wicking double layer gauze of claim 6, wherein the inner layer gauze has a density less than the density of the surface layer gauze.

8. The all-cotton one-way moisture-wicking double layer gauze of claim 2 or 6, wherein the surface warp yarns and the inner warp yarns together comprise warp yarns, and the ratio of the warp yarns to the binder warp yarns is 4-20: 1.

9. The all-cotton one-way moisture-wicking double layer gauze of claim 2 or 6, wherein the inner warp yarns and the inner weft yarns are water-repellent pure cotton yarns.

10. The all-cotton one-way moisture-guiding double-layered gauze according to any one of claims 1 to 7, wherein the surface warp yarns are pure cotton combed yarns and the surface weft yarns are pure cotton combed yarns.

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