CN217553338U - Anti-shrinkage knitted all-cotton woven fabric - Google Patents

Abstract

The utility model discloses a surface fabric is woven to anti shrink knitting all cotton shuttle, including the all cotton precoat, still include antibacterial layer and elastic compensation layer, the surface recombination on the all cotton precoat is connected with antibacterial layer, and antibacterial layer keeps away from the another side complex connection on the all cotton precoat and has the elastic compensation layer, the antibacterial layer that has the elastic compensation layer at the all cotton precoat surface recombination that the shuttle formed, antibacterial layer has better antibacterial ability, it can make the all cotton precoat department obtain better antibacterial ability after the compounding of all cotton precoat department, the elastic compensation layer makes it obtain better elasticity at the compounding of antibacterial layer department simultaneously, and then can obtain better elastic compensation and antibacterial ability behind the antibacterial layer on the compound elastic compensation layer that has of all cotton precoat.

Description

Anti-shrinkage knitted all-cotton woven fabric

Technical Field

The utility model relates to an all cotton surface fabric technical field, in particular to anti shrink knitting all cotton tatting surface fabric.

Background

The pure cotton fabric is produced by using cotton as a raw material through a textile process, and has the characteristics of moisture absorption, heat preservation, heat resistance, alkali resistance, sanitation and the like. Generally, pure cotton fabric has better moisture absorption and heat resistance and is comfortable to wear. Some work clothes in industries with high requirements on the moisture absorption of clothes can be processed by selecting pure cotton fabrics. For example school uniforms in summer.

Patent number CN202121415472.5 discloses a mould proof all-cotton knitted fabric, including sweat-absorbing layer and fabric layer, the top on sweat-absorbing layer is provided with first ventilative layer, and the top on first ventilative layer is provided with the bamboo fiber layer, the top on bamboo fiber layer is provided with the ventilative layer of second, the top on the ventilative layer of second is provided with the fabric layer. The utility model discloses a through being provided with first ventilative layer, the ventilative layer of second, consolidate the warp, consolidate weft and bleeder vent, consolidate warp and consolidate the blending between the weft and form vertically and horizontally staggered form setting, the effectual intensity that has improved the ventilative layer of first ventilative layer and second, the deformation of bleeder vent has been prevented, and bleeder vent align to grid distributes, the effectual gas permeability that improves the surface fabric, the speed of evaporation of water has been accelerated, thereby make the all-cotton knitted fabric have better breathing freely, drying effect, it is better to use ventilative dampproofing effect, effectively avoid the emergence of mouldy phenomenon.

The anti-shrinkage knitted all-cotton woven fabric in the prior art is usually made of a single cotton material, and the woven fabric made of the cotton material is easily wetted by liquid to breed bacteria when being used for a long time, so that the use comfort of the all-cotton woven fabric is affected, and meanwhile, the all-cotton woven fabric made of the single cotton material is not strong in elasticity, so that the anti-shrinkage knitted all-cotton woven fabric is provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a surface fabric is woven to anti shrink knitting all cotton shuttle, the antibacterial layer that the compound elastic compensation layer that has in shuttle formed all cotton surface course surface, the antibacterial layer has better bacteriostatic ability, it can make full cotton surface course department obtain better bacteriostatic ability after the compound of full cotton surface course department, the compound elasticity that makes it obtain better elasticity in antibacterial layer department of elastic compensation layer department simultaneously, and then can obtain better elastic compensation and bacteriostatic ability behind the compound antibacterial layer that has the elastic compensation layer of full cotton surface course, can effectively solve the problem in the background art.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides an anti shrink knitting all cotton tatting surface fabric, includes the all cotton precoat, still includes antibacterial layer and elasticity compensation layer, the surface recombination on the all cotton precoat is connected with antibacterial layer, and antibacterial layer keeps away from the another side recombination on the all cotton precoat and is connected with the elasticity compensation layer.

Further, the antibacterial layer is formed by blending a hemp fiber layer, a bamboo fiber layer, a graphene fiber layer and a copper ion antibacterial fiber layer; the antibacterial layer formed by blending the hemp fiber layer, the bamboo fiber layer, the graphene fiber layer and the copper ion antibacterial fiber layer has good antibacterial ability.

Furthermore, the elastic compensation layer is formed by blending a polyester fiber layer, a spandex fiber layer, an acetate fiber layer and an antistatic fiber layer; the elastic compensation layer formed by blending the polyester fiber layer, the spandex fiber layer, the acetate fiber layer and the antistatic fiber layer has good elasticity, and meanwhile, the friction of static electricity can be reduced due to the mixing of the antistatic fiber layer.

Furthermore, an antibacterial component is immersed in the copper ion antibacterial fiber layer; the copper ion antibacterial fiber layer containing the antibacterial component has better antibacterial property.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model discloses a compound antibacterial layer that has the elasticity compensation layer in the full cotton surface course surface that forms of tatting, antibacterial layer has better bacteriostatic ability, and it can make full cotton surface course department obtain better bacteriostatic ability after full cotton surface course department is compound, and the elasticity compensation layer makes it obtain better elasticity at the compound of antibacterial layer department simultaneously, and then can obtain better elasticity compensation and bacteriostatic ability behind the compound antibacterial layer that has the elasticity compensation layer in full cotton surface course.

Drawings

Fig. 1 is a schematic view of the overall structure of the anti-shrinkage knitted all-cotton woven fabric of the present invention.

Figure 2 is the utility model discloses a bacteriostatic layer blending level show picture of anti shrink knitted cotton tatting surface fabric.

Fig. 3 is a view showing the blending level of the elastic compensation layer of the anti-shrinkage knitted all-cotton tatted fabric of the utility model.

In the figure: 1. an all-cotton fabric layer; 2. a bacteriostatic layer; 201. a hemp fiber layer; 202. a bamboo fiber layer; 203. a graphene fiber layer; 204. copper ion antibacterial fibers; 3. an elastic compensation layer; 301. a polyester fiber layer; 302. a spandex fiber layer; 303. a cellulose acetate fiber layer; 304. and an antistatic fiber layer.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

As shown in fig. 1-3, an anti-shrinkage knitted all-cotton woven fabric comprises an all-cotton fabric layer 1, and further comprises an antibacterial layer 2 and an elastic compensation layer 3, wherein the antibacterial layer 2 is compositely connected to the surface of the all-cotton fabric layer 1, and the elastic compensation layer 3 is compositely connected to the other surface, far away from the all-cotton fabric layer 1, of the antibacterial layer 2.

The antibacterial layer 2 is formed by blending a hemp fiber layer 201, a bamboo fiber layer 202, a graphene fiber layer 203 and a copper ion antibacterial fiber layer 204; the bacteriostatic layer 2 formed by blending the hemp fiber layer 201, the bamboo fiber layer 202, the graphene fiber layer 203 and the copper ion antibacterial fiber layer 204 has good bacteriostatic ability. The copper ion antibacterial fiber layer 204 is internally immersed with an antibacterial component; the copper ion antibacterial fiber layer 204 containing the antibacterial component has better antibacterial property.

The elastic compensation layer 3 is formed by blending a polyester fiber layer 301, a spandex fiber layer 302, an acetate fiber layer 303 and an antistatic fiber layer 304; the elastic compensation layer 3 formed by blending the polyester fiber layer 301, the spandex fiber layer 302, the acetate fiber layer 303 and the antistatic fiber layer 304 has good elasticity, and meanwhile, the friction generation of static electricity can be reduced due to the mixing of the antistatic fiber layer 304.

What need explain, the utility model relates to an anti shrink knitting all cotton tatting surface fabric, the bacteriostasis layer 2 that the 1 surface recombination of all cotton surface course that forms was knitted at the shuttle has elasticity compensation layer 3, china-hemp fiber layer 201, bamboo fiber layer 202, the bacteriostasis layer 2 that graphite alkene fiber layer 203 and the blending of copper ion antibacterial fiber layer 204 formed has better bacteriostasis ability, it can make 1 department of all cotton surface course obtain better bacteriostasis ability after 1 department of all cotton surface course is compound, promote the bacteriostasis of 1 department of all cotton surface course, elasticity compensation layer 3 makes it obtain better elasticity in the complex of bacteriostasis layer 2 department simultaneously, the friction that sneaks into of antistatic fiber layer 304 can reduce static produces simultaneously, and then can obtain better elasticity compensation and bacteriostasis ability behind the bacteriostasis layer 2 that 1 complex of all cotton surface course has elasticity compensation layer 3.

The utility model relates to an anti-shrinkage knitting all-cotton tatted fabric, which comprises an all-cotton fabric layer 1; 2. a bacteriostatic layer; 201. a hemp fiber layer; 202. a bamboo fiber layer; 203. a graphene fiber layer; 204. copper ion antibacterial fibers; 3. an elastic compensation layer; 301. a polyester fiber layer; 302. a spandex fiber layer; 303. a cellulose acetate fiber layer; 304. an antistatic fiber layer; the components are standard parts in general or known to those skilled in the art, and their structure and principle are known to those skilled in the art through technical manuals or through routine experimentation.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (4)

1. The utility model provides an anti shrink knitting all cotton tatting surface fabric, includes all cotton surface fabric layer (1), its characterized in that: still include antibacterial layer (2) and elasticity compensation layer (3), the surface complex of all-cotton precoat (1) is connected with antibacterial layer (2), and antibacterial layer (2) keep away from the another side complex of all-cotton precoat (1) and is connected with elasticity compensation layer (3).

2. The shrink-resistant knitted all-cotton woven fabric according to claim 1, wherein: the antibacterial layer (2) is formed by blending a hemp fiber layer (201), a bamboo fiber layer (202), a graphene fiber layer (203) and a copper ion antibacterial fiber layer (204).

3. The shrink-resistant knitted all-cotton woven fabric according to claim 1, wherein: the elastic compensation layer (3) is formed by blending a polyester fiber layer (301), a spandex fiber layer (302), an acetate fiber layer (303) and an antistatic fiber layer (304).

4. The shrink-resistant knitted all-cotton woven fabric according to claim 2, wherein: the copper ion antibacterial fiber layer (204) is immersed with an antibacterial component.

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