阅读说明：本技术 一种透湿抗紫外线多功能抗菌面料 (Moisture-permeable ultraviolet-resistant multifunctional antibacterial fabric ) 是由 孙秀英 于 2019-07-29 设计创作，主要内容包括：本发明公开了透湿抗紫外线多功能抗菌面料,包括透湿层,所述透湿层包括粘胶纤维层和维纶层,所述透湿层的底部通过乳液型丙烯酸酯胶粘剂连接有抗紫外线层,所述抗紫外线层包括抗紫外线纤维层和防紫外线纤维。本发明设置了粘胶纤维层和维纶层,可有效提高本面料的透湿性,设置了抗紫外线纤维层和防紫外线纤维,可有效提高本面料的抗紫外线效果,设置了抗菌纤维层和抗菌防臭纤维层,可有效提高本面料的抗菌效果,通过以上结构的配合,达到了面料透湿性佳、抗紫外线效果好和抗菌效果优的需求,解决了现有的面料透湿性差、抗紫外线效果差和抗菌效果不好,从而限制了面料使用范围的问题。(The invention discloses a moisture-permeable anti-ultraviolet multifunctional antibacterial fabric which comprises a moisture-permeable layer, wherein the moisture-permeable layer comprises a viscose fiber layer and a vinylon layer, the bottom of the moisture-permeable layer is connected with an anti-ultraviolet layer through an emulsion type acrylate adhesive, and the anti-ultraviolet layer comprises an anti-ultraviolet fiber layer and anti-ultraviolet fibers. The anti-ultraviolet fabric is provided with the viscose fiber layer and the vinylon layer, so that the moisture permeability of the fabric can be effectively improved, the anti-ultraviolet fiber layer and the anti-ultraviolet fibers are arranged, the anti-ultraviolet effect of the fabric can be effectively improved, the anti-bacterial fiber layer and the anti-bacterial odor-resistant fiber layer are arranged, the anti-bacterial effect of the fabric can be effectively improved, the requirements of good moisture permeability, good anti-ultraviolet effect and excellent anti-bacterial effect of the fabric are met through the matching of the structures, and the problems that the existing fabric is poor in moisture permeability, poor in anti-ultraviolet effect and poor in anti-bacterial effect, and the application range of the fabric is limited are solved.)

1. Moisture-permeable anti-ultraviolet multifunctional antibacterial fabric comprises a moisture-permeable layer (1) and is characterized in that: the anti-static fabric is characterized in that the moisture permeable layer (1) comprises a viscose fiber layer (101) and a vinylon layer (102), the bottom of the moisture permeable layer (1) is connected with an anti-ultraviolet layer (2) through an emulsion type acrylate adhesive, the anti-ultraviolet layer (2) comprises an anti-ultraviolet fiber layer (201) and an anti-ultraviolet fiber (202), the bottom of the anti-ultraviolet layer (2) is connected with an anti-static layer (3) through an emulsion type acrylate adhesive, the anti-static layer (3) comprises a metal conductive fiber layer (301), a composite conductive fiber layer (302) and an anti-static fiber layer (303), the bottom of the anti-static layer (3) is connected with an anti-bacterial layer (4) through an emulsion type acrylate adhesive, and the anti-bacterial layer (4) comprises an anti-bacterial fiber layer (401) and an anti-bacterial anti-.

2. The moisture-permeable ultraviolet-resistant multifunctional antibacterial fabric according to claim 1, characterized in that: the viscose fiber layer (101) is located on the top of the moisture permeable layer (1), the bottom of the viscose fiber layer (101) is connected with a vinylon layer (102) through an emulsion type acrylate adhesive, the thickness of the viscose fiber layer (101) is 0.035-0.045 mm, and the thickness of the vinylon layer (102) is 0.055-0.065 mm.

3. The moisture-permeable ultraviolet-resistant multifunctional antibacterial fabric according to claim 1, characterized in that: the bottom of the vinylon layer (102) is connected with an ultraviolet resistant fiber layer (201) through an emulsion type acrylate adhesive, the bottom of the ultraviolet resistant fiber layer (201) is connected with an ultraviolet resistant fiber (202) through an emulsion type acrylate adhesive, the thickness of the ultraviolet resistant fiber layer (201) is 0.042-0.057 mm, and the thickness of the ultraviolet resistant fiber (202) is 0.043-0.058 mm.

4. The moisture-permeable ultraviolet-resistant multifunctional antibacterial fabric according to claim 1, characterized in that: the bottom of the anti-ultraviolet fiber (202) is connected with a metal conductive fiber layer (301) through an emulsion type acrylate adhesive, the bottom of the metal conductive fiber layer (301) is connected with a composite conductive fiber layer (302) through an emulsion type acrylate adhesive, the bottom of the composite conductive fiber layer (302) is connected with an antistatic fiber layer (303) through an emulsion type acrylate adhesive, the thickness of the metal conductive fiber layer (301) is 0.024-0.035 mm, the thickness of the composite conductive fiber layer (302) is 0.028-0.039 mm, and the thickness of the antistatic fiber layer (303) is 0.026-0.048 mm.

5. The moisture-permeable ultraviolet-resistant multifunctional antibacterial fabric according to claim 1, characterized in that: the bottom of the antistatic fiber layer (303) is connected with an antibacterial fiber layer (401) through an emulsion type acrylate adhesive, the bottom of the antibacterial fiber layer (401) is connected with an antibacterial deodorant fiber layer (402) through an emulsion type acrylate adhesive, the thickness of the antibacterial fiber layer (401) is 0.046-0.055 mm, and the thickness of the antibacterial deodorant fiber layer (402) is 0.045-0.054 mm.

Technical Field

The invention relates to the technical field of fabrics, in particular to a moisture-permeable anti-ultraviolet multifunctional antibacterial fabric.

Background

The fabric is a material for making clothes, as one of three elements of the clothes, the fabric can not only explain the style and the characteristics of the clothes, but also directly control the expression effects of the color and the shape of the clothes, in the world of the clothes, the fabric of the clothes is various and is different day by day, but in general, the high-quality and high-grade fabric has the characteristics of comfort in wearing, sweat absorption, air permeability, draping, smoothness, high and noble vision, soft touch and the like, and the existing fabric has poor moisture permeability, poor ultraviolet resistance and poor antibacterial effect, so that the application range of the fabric is limited, and therefore, the moisture permeable ultraviolet resistant multifunctional antibacterial fabric is provided.

Disclosure of Invention

The invention aims to provide a moisture-permeable and ultraviolet-resistant multifunctional antibacterial fabric which has the advantages of good moisture permeability, good ultraviolet-resistant effect and good antibacterial effect, and solves the problem that the application range of the fabric is limited due to poor moisture permeability, poor ultraviolet-resistant effect and poor antibacterial effect of the existing fabric.

In order to achieve the purpose, the invention provides the following technical scheme: the moisture permeable anti-ultraviolet multifunctional antibacterial fabric comprises a moisture permeable layer, wherein the moisture permeable layer comprises a viscose fiber layer and a vinylon layer, the bottom of the moisture permeable layer is connected with an anti-ultraviolet layer through an emulsion type acrylate adhesive, the anti-ultraviolet layer comprises an anti-ultraviolet fiber layer and anti-ultraviolet fibers, the bottom of the anti-ultraviolet layer is connected with an anti-static layer through an emulsion type acrylate adhesive, the anti-static layer comprises a metal conductive fiber layer, a composite conductive fiber layer and an anti-static fiber layer, the bottom of the anti-static layer is connected with an antibacterial layer through an emulsion type acrylate adhesive, and the antibacterial layer comprises an antibacterial fiber layer and an antibacterial odor-resistant fiber layer.

Preferably, the viscose fiber layer is located on the top of the moisture permeable layer, the bottom of the viscose fiber layer is connected with the vinylon layer through the emulsion type acrylate adhesive, the thickness of the viscose fiber layer is 0.035-0.045 mm, and the thickness of the vinylon layer is 0.055-0.065 mm.

Preferably, the bottom of the vinylon layer is connected with an ultraviolet resistant fiber layer through an emulsion type acrylate adhesive, the bottom of the ultraviolet resistant fiber layer is connected with an ultraviolet resistant fiber through an emulsion type acrylate adhesive, the thickness of the ultraviolet resistant fiber layer is 0.042-0.057 mm, and the thickness of the ultraviolet resistant fiber is 0.043-0.058 mm.

Preferably, the bottom of the ultraviolet-proof fiber is connected with a metal conductive fiber layer through an emulsion type acrylate adhesive, the bottom of the metal conductive fiber layer is connected with a composite conductive fiber layer through an emulsion type acrylate adhesive, the bottom of the composite conductive fiber layer is connected with an antistatic fiber layer through an emulsion type acrylate adhesive, the thickness of the metal conductive fiber layer is 0.024-0.035 mm, the thickness of the composite conductive fiber layer is 0.028-0.039 mm, and the thickness of the antistatic fiber layer is 0.026-0.048 mm.

Preferably, the bottom of the antistatic fiber layer is connected with an antibacterial fiber layer through an emulsion type acrylate adhesive, the bottom of the antibacterial fiber layer is connected with an antibacterial and deodorant fiber layer through an emulsion type acrylate adhesive, the thickness of the antibacterial fiber layer is 0.046-0.055 mm, and the thickness of the antibacterial and deodorant fiber layer is 0.045-0.054 mm.

Compared with the prior art, the invention has the following beneficial effects:

1. the viscose fiber layer and the vinylon layer are arranged, so that the moisture permeability of the fabric can be effectively improved, the ultraviolet-resistant layer is connected to the bottom of the moisture-permeable layer through the emulsion type acrylate adhesive, the ultraviolet-resistant layer comprises the ultraviolet-resistant fiber layer and the ultraviolet-resistant fibers, the ultraviolet-resistant effect of the fabric can be effectively improved, the antibacterial layer is connected to the bottom of the antistatic layer through the emulsion type acrylate adhesive, the antibacterial layer comprises the antibacterial fiber layer and the antibacterial deodorant fiber layer, the antibacterial effect of the fabric can be effectively improved, the requirements of good moisture permeability, good ultraviolet-resistant effect and good antibacterial effect of the fabric are met through the matching of the structures, and the problem that the application range of the fabric is limited due to the fact that the existing fabric is poor in moisture permeability, poor in ultraviolet-resistant effect and poor in antibacterial effect is solved.

2. The antistatic fabric is characterized in that the bottom of the ultraviolet resistant layer is connected with the antistatic layer through the emulsion type acrylate adhesive, and the antistatic layer comprises the metal conductive fiber layer, the composite conductive fiber layer and the antistatic fiber layer, so that the antistatic effect of the fabric can be effectively improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure of the moisture permeable layer according to the present invention;

FIG. 3 is a schematic view of the structure of the UV resistant layer of the present invention;

FIG. 4 is a schematic view of the structure of the antistatic layer according to the present invention;

FIG. 5 is a schematic view showing the structure of an antibacterial layer according to the present invention.

In the figure: 1. a moisture permeable layer; 101. a viscose fiber layer; 102. a vinylon layer; 2. an anti-ultraviolet layer; 201. an anti-ultraviolet fiber layer; 202. anti-ultraviolet fiber; 3. an antistatic layer; 301. a metal conductive fiber layer; 302. a composite conductive fiber layer; 303. an antistatic fiber layer; 4. an antimicrobial layer; 401. an antimicrobial fibrous layer; 402. an antibacterial deodorant fiber layer.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, such as "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The parts of the moisture permeable layer 1, the viscose fiber layer 101, the vinylon layer 102, the anti-ultraviolet layer 2, the anti-ultraviolet fiber layer 201, the anti-ultraviolet fiber 202, the anti-static layer 3, the metal conductive fiber layer 301, the composite conductive fiber layer 302, the anti-static fiber layer 303, the antibacterial layer 4, the antibacterial fiber layer 401 and the antibacterial and deodorant fiber layer 402 are all universal standard parts or parts known by those skilled in the art, and the structure and principle of the parts are known by technical manuals or conventional experimental methods.

Referring to fig. 1-5, the moisture-permeable, ultraviolet-resistant and multifunctional antibacterial fabric comprises a moisture-permeable layer 1, wherein the moisture-permeable layer 1 comprises a viscose fiber layer 101 and a vinylon layer 102, the viscose fiber layer 101 has the characteristics of air permeability, good moisture permeability and the like, the vinylon layer 102 has the advantage of high moisture absorption, the moisture permeability of the fabric can be effectively improved, the viscose fiber layer 101 is positioned on the top of the moisture-permeable layer 1, the bottom of the viscose fiber layer 101 is connected with the vinylon layer 102 through emulsion type acrylate adhesive, the thickness of the viscose fiber layer 101 is 0.035-0.045 mm, the thickness of the vinylon layer 102 is 0.055-0.065 mm, the bottom of the vinylon layer 102 is connected with an ultraviolet-resistant fiber layer 201 through emulsion type acrylate adhesive, the bottom of the ultraviolet-resistant fiber layer 201 is connected with an ultraviolet-resistant fiber 202 through emulsion type acrylate adhesive, the thickness of the ultraviolet-resistant fiber layer 201 is 0.042-0.057 mm, the thickness of the ultraviolet-resistant fiber 202 is 0, the bottom of the moisture permeable layer 1 is connected with an ultraviolet resistant layer 2 through an emulsion type acrylate adhesive, the ultraviolet resistant layer 2 comprises an ultraviolet resistant fiber layer 201 and ultraviolet resistant fibers 202, the ultraviolet resistant fiber layer 201 has the capability of resisting ultraviolet damage, the ultraviolet resistant fibers 202 have strong absorption and reflection performance on ultraviolet, the ultraviolet resistant effect of the fabric can be effectively improved, the bottom of the ultraviolet resistant fibers 202 is connected with a metal conductive fiber layer 301 through the emulsion type acrylate adhesive, the bottom of the metal conductive fiber layer 301 is connected with a composite conductive fiber layer 302 through the emulsion type acrylate adhesive, the bottom of the composite conductive fiber layer 302 is connected with an antistatic fiber layer 303 through the emulsion type acrylate adhesive, the thickness of the metal conductive fiber layer 301 is 0.024-0.035 mm, the thickness of the composite conductive fiber layer 302 is 0.028-0.039 mm, the thickness of the antistatic fiber layer 303 is 0.026-0.048 mm, the bottom of the ultraviolet resistant layer 2 is connected with an antistatic layer 3 through emulsion type acrylate adhesive, the antistatic layer 3 comprises a metal conductive fiber layer 301, a composite conductive fiber layer 302 and an antistatic fiber layer 303, the metal conductive fiber layer 301 eliminates static electricity through electron conduction and corona discharge, the composite conductive fiber layer 302 can effectively eliminate static electricity, most of static electricity generated by moisture absorption of the antistatic fiber layer 303 leaks, the antistatic effect of the fabric can be effectively improved, the bottom of the antistatic fiber layer 303 is connected with an antibacterial fiber layer 401 through the emulsion type acrylate adhesive, the bottom of the antibacterial fiber layer 401 is connected with an antibacterial deodorant fiber layer 402 through the emulsion type acrylate adhesive, the thickness of the antibacterial fiber layer 401 is 0.046-0.055 mm, the thickness of the antibacterial deodorant fiber layer 402 is 0.045-0.054 mm, the bottom of the antistatic layer 3 is connected with an antibacterial layer 4 through the emulsion type acrylate adhesive, the antibacterial layer 4 comprises an antibacterial fiber layer 401 and an antibacterial deodorant fiber layer 402, the antibacterial fiber layer 401 has an antibacterial and bactericidal function and can prevent infection and infection, and the antibacterial deodorant fiber layer 402 has the antibacterial and bacteriostatic effects and can effectively improve the antibacterial effect of the fabric.

When the fabric is used, the viscose fiber layer 101 and the vinylon layer 102 are arranged, the viscose fiber layer 101 has the characteristics of air permeability, good moisture permeability and the like, the vinylon layer 102 has the advantage of high moisture absorption and can effectively improve the moisture permeability of the fabric, the ultraviolet resistant layer 2 is connected to the bottom of the moisture permeable layer 1 through emulsion type acrylate adhesive, the ultraviolet resistant layer 2 comprises an ultraviolet resistant fiber layer 201 and ultraviolet resistant fibers 202, the ultraviolet resistant fiber layer 201 has the capacity of resisting ultraviolet damage, the ultraviolet resistant fibers 202 have high ultraviolet absorption and reflection performance and can effectively improve the ultraviolet resistance effect of the fabric, the antibacterial layer 4 is connected to the bottom of the antistatic layer 3 through emulsion type acrylate adhesive, the antibacterial layer 4 comprises an antibacterial fiber layer 401 and an antibacterial deodorant fiber layer 402, the antibacterial fiber layer 401 has an antibacterial and bactericidal function and can prevent infection and infection, and the antibacterial fiber layer 402 has a bactericidal function, Bacteriostatic action, can effectively improve the antibiotic effect of this surface fabric, cooperation through above structure, it is good to have reached the surface fabric moisture permeability, the effectual and excellent demand of antibiotic effect of ultraviolet resistance, it is poor to have solved current surface fabric moisture permeability, the ultraviolet resistance is poor and antibiotic effect is not good, thereby the problem of surface fabric application range has been restricted, anti-static layer 3 has been connected through emulsion type acrylate adhesive in the bottom on ultraviolet resistance layer 2, and anti-static layer 3 includes metal conductive fiber layer 301, composite conductive fiber layer 302 and antistatic fiber layer 303, metal conductive fiber layer 301 passes through electron conduction and corona discharge and eliminates static, composite conductive fiber layer 302 can effectively eliminate static, antistatic fiber layer 303 makes most electrostatic leakage who produces through the moisture absorption, can effectively improve the effect of the antistatic of this surface fabric.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.