CN220163369U - Elastic moisture-conducting knitted fabric - Google Patents

Abstract

The utility model discloses elastic moisture-conducting knitted fabric, relates to the technical field of knitted fabrics, and aims to solve the problem that the existing part of knitted fabric is poor in moisture absorption effect, and the technical scheme is as follows: the novel corrugated base layer comprises a base layer, wherein two layers of base layers are arranged, the base layers are formed into wavy shapes, a plurality of cavities are formed between the two layers of base layers, and the two layers of base layers are connected with each other in an adhesive mode. According to the elastic moisture-conducting knitted fabric, through the structure formed by knitting the base layer, the base layer is provided with the cavities and the small holes, so that liquid absorbed into the moisture-conducting knitted fabric can conduct between the cavities and yarns, the moisture absorption effect of the knitted fabric is enhanced, and meanwhile, the small holes formed by knitting the yarns are arranged at the cavities, so that volatilization of liquid contained in the knitted fabric can be promoted, and continuous moisture absorption of the knitted fabric is facilitated.

Description

Elastic moisture-conducting knitted fabric

Technical Field

The utility model relates to the technical field of knitted fabrics, in particular to an elastic moisture-conducting knitted fabric.

Background

The knitted fabric is a fabric formed by bending yarns into loops by using knitting needles and mutually stringing the yarns, and the textile fabric has various different performance characteristics by various knitting methods, so that the product types of textile markets are enriched.

At present, an utility model such as the patent number CN202122074539.X appears, which comprises a base cloth layer and an absorbent layer arranged on the inner surface of the base cloth layer, wherein the absorbent layer is an absorbent and sweat-releasing fiber layer.

Said utility model utilizes the capillary phenomenon produced by fine grooves on the surface of fibre to make sweat quickly migrate to the surface of fabric and disperse so as to attain the goal of moisture-conducting and quick-drying, so that it can effectively raise the moisture-absorbing property of knitted fabric.

When the knitted fabric is used, after sweat is absorbed, the fabric is blocked by the water-guiding outer layer on the water-absorbing wire core, so that the continuous conduction and volatilization of the sweat in the water-absorbing wire core are not facilitated, the air permeability of the knitted fabric is further reduced, and the use experience of a user is affected, so that a new scheme is required to be provided for improving the existing knitted fabric.

Disclosure of Invention

Aiming at the defects existing in the prior art, the utility model aims to provide an elastic moisture-conducting knitted fabric.

The technical aim of the utility model is realized by the following technical scheme: the elastic moisture-conducting knitted fabric comprises a base layer, wherein the base layer is provided with two layers, the base layer is formed into a wavy shape, a plurality of cavities are formed between the two layers of the base layer, and the two layers of the base layer are connected with each other in an adhesive mode.

The utility model is further provided with: the base layer is woven by guide bars GB1, GB2, GB3 and GB 4.

The utility model is further provided with: the yarn-laying structure of the guide bar GB1 is as follows: 12/10/23/10//, one through four.

The utility model is further provided with: the yarn-laying structure of the guide bar GB2 is as follows: 12/10/-/10//, one through four voids.

The utility model is further provided with: the yarn-laying structure of the guide bar GB3 is as follows: 21/-/23/-/, one through four voids.

The utility model is further provided with: the yarn-laying structure of the guide bar GB4 is as follows: 21/56/32/56//, one through four.

The utility model is further provided with: the guide bars GB1, GB2, GB3 and GB4 are all set to be yarn bundles, and the yarn bundles are formed by twisting first yarns, second yarns and third yarns which cover core yarns.

The utility model is further provided with: the first yarn, the second yarn and the third yarn are all made of yakwool fibers, and the core yarn is made of PTT fibers.

In summary, the utility model has the following beneficial effects: the cross section that basic unit in the knitted cloth set up is wavy structure, can make the whole elastic effect that has the thickness direction of knitted cloth, and the structure that the basic unit formed makes knitted cloth surface be formed with a plurality of apertures, and inside is formed with a plurality of cavitys, and the setting of aperture makes the knitted cloth can be absorbed when meetting liquid to conduct liquid through the structure of cavity and aperture, make knitted cloth have stronger wet effect.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic cross-sectional view of the knitting of bars GB1, GB2, GB3 and GB 4;

FIG. 3 is a yarn-laying movement diagram of the guide bar GB 1;

FIG. 4 is a yarn-laying movement diagram of the guide bar GB 2;

FIG. 5 is a yarn-laying movement diagram of the guide bar GB 3;

FIG. 6 is a yarn-laying movement diagram of the guide bar GB 4;

FIG. 7 is a schematic plan view of the knitting of bars GB1, GB2, GB3 and GB 4;

fig. 8 is a schematic view of the structure of the yarn bundle.

In the figure: 1. a base layer; 2. a cavity; 3. a first yarn; 4. a second yarn; 5. a third yarn; 6. a core yarn.

Detailed Description

The present utility model will be described in detail below with reference to the accompanying drawings and examples.

The utility model provides an elasticity wet-guiding knitted cloth, as shown in fig. 1-2, including basic unit 1, basic unit 1 is provided with two-layer, basic unit 1 forms to the form of wave, be formed with a plurality of cavitys 2 between two-layer basic unit 1, mutual bonding connects between two-layer basic unit 1, protruding position interconnect between two-layer basic unit 1, the position of indent is not connected, so make can have cavity 2 between two-layer basic unit 1, so that the knitted cloth of weaving can promote the conduction flow of liquid, reach the effect of leading wet, and promote the appearance chamber space through cavity 2, and after the basic unit is woven and is formed, can form a plurality of apertures on the basic unit, when moisture gets into the appearance chamber, moisture can accelerate conduction speed under the circumstances that the human body gives off heat, and overflow to cavity 2 through the aperture, when having the air current to blow towards the basic unit, the setting of aperture can support the air current alternates and flows, increase the moisture evaporation effect of basic unit.

As shown in fig. 3 to 7, the base layer 1 is woven by the guide bars GB1, GB2, GB3 and GB4, and the base layer 1 is woven by yarn bundles through the guide bars GB1, GB2, GB3 and GB4, which can maintain the cross-sectional shape of the base layer 1 in a wavy structure so that the knitted fabric has elasticity in the thickness direction and the moisture guiding performance of the knitted fabric is ensured on the woven structure.

The guide bar GB1 is knitted by a warp knitting machine along a yarn-laying movement diagram shown in FIG. 3, and yarn-laying tissues are as follows: 12/10/23/10//, woven in a four-void fashion. The guide bar GB2 is knitted by a warp knitting machine along a yarn-laying movement diagram shown in FIG. 4, and yarn-laying tissues are as follows: 12/10/-/10//, woven in a four-void fashion. The guide bar GB3 is knitted by a warp knitting machine along a yarn-laying movement diagram shown in FIG. 5, and yarn-laying tissues are as follows: 21/-/23/-/, is woven in a four-void fashion. The guide bar GB4 is knitted by a warp knitting machine along a yarn-laying movement diagram shown in FIG. 6, and yarn-laying tissues are as follows: 21/56/32/56//, woven in a four-void fashion.

The guide bar GB1, the guide bar GB2, the guide bar GB3 and the guide bar GB4 weave the basic unit 1 of making and have 4 layers, and reduce the influence to the evaporation area of GB2 itself, and make the guide bar GB2 be close to guide bar GB3 one side and can be by the bed rest, and guide bar GB4 is through with guide bar GB1, thereby the whole evaporation area of basic unit is enlarged, thereby make the moisture that the guide is wet can form the triangle structure with another guide bar GB1, thereby the overall effect of base is made to become good, guide bar GB3 sets up on guide bar GB2, improve the protruding degree of basic unit surface, and the arch that forms with GB2 produces the dislocation, make its area of contact with the air further increase, and reduce the influence to the evaporation area of GB2 itself, and then make guide bar GB4 be close to guide bar GB3, and guide bar GB4 is through with guide bar GB1, guide bar GB2 and guide bar GB3 and another guide bar GB1 form the triangle structure, thereby the stability of making the whole effect of base layer GB4 can be better and can be formed with the more flexible carrier tape GB4, thereby the liquid can form the more than the cavity of guide bar GB2, can form more than the cavity of guide bar GB4, and can form the more flexible carrier tape 2, and more cavity can be more than the cavity is formed to the base layer 2, and can form the more flexible carrier structure, and can be more than the cavity is formed to the base layer 2, and can be more flexible, and more the base layer 2 is better can be more formed and more flexible, and can be more stable to the base layer 2 is more than the base layer 2, and can be more can be formed to the bottom to the air can and more flexible, and can be more than the air and can be brought to a film 2. When a user extends the knitted fabric, a plurality of small holes formed in the base layer 1 can be enlarged, so that the liquid volatilization speed is increased, the subsequent moisture absorption and conduction efficiency of the knitted fabric is prolonged, and the effects of continuous moisture conduction and easy drying are achieved.

The guide bars GB1, GB2, GB3 and GB4 are all set as yarn bundles, as shown in FIG. 8, the yarn bundles are formed by twisting a first yarn 3, a second yarn 4 and a third yarn 5 which are coated with a core yarn 6, the first yarn 3, the second yarn 4 and the third yarn 5 are all made of yakwool fibers, the core yarn 6 is made of PTT fibers, the yakwool fibers are pure and environment-friendly, soft in luster, strong in elasticity and smooth and glutinous in hand feeling, the yarn bundles have better elasticity, moisture absorption and release performance, wear resistance and pilling resistance and fiber strength than cashmere, the PTT fibers have the characteristics of terylene and chinlon, and besides the good antifouling performance, the yarn bundles are easy to dye, soft in hand feeling and rich in elasticity, and the yarn bundles are more suitable for elastic fabrics.

The above description is only a preferred embodiment of the present utility model, and the protection scope of the present utility model is not limited to the above examples, and all technical solutions belonging to the concept of the present utility model belong to the protection scope of the present utility model. It should be noted that modifications and adaptations to the present utility model may occur to one skilled in the art without departing from the principles of the present utility model and are intended to be within the scope of the present utility model.

Claims (8)

1. An elastic moisture-conducting knitted fabric, which is characterized in that: the novel corrugated base layer comprises a base layer, wherein two layers of base layers are arranged, the base layers are formed into wavy shapes, a plurality of cavities are formed between the two layers of base layers, and the two layers of base layers are connected with each other in an adhesive mode.

2. An elastic moisture-conductive knitted fabric according to claim 1, characterized in that: the base layer is woven by guide bars GB1, GB2, GB3 and GB 4.

3. An elastic moisture-conductive knitted fabric according to claim 2, characterized in that: the yarn-laying structure of the guide bar GB1 is as follows: 12/10/23/10//, one through four.

4. An elastic moisture-conductive knitted fabric according to claim 2, characterized in that: the yarn-laying structure of the guide bar GB2 is as follows: 12/10/-/10//, one through four voids.

5. An elastic moisture-conductive knitted fabric according to claim 2, characterized in that: the yarn-laying structure of the guide bar GB3 is as follows: 21/-/23/-/, one through four voids.

6. An elastic moisture-conductive knitted fabric according to claim 2, characterized in that: the yarn-laying structure of the guide bar GB4 is as follows: 21/56/32/56//, one through four.

7. An elastic moisture-conductive knitted fabric according to claim 2, characterized in that: the guide bars GB1, GB2, GB3 and GB4 are all set to be yarn bundles, and the yarn bundles are formed by twisting first yarns, second yarns and third yarns which cover core yarns.

8. The elastic moisture-conductive knitted fabric of claim 7, wherein: the first yarn, the second yarn and the third yarn are all made of yakwool fibers, and the core yarn is made of PTT fibers.