CN216473717U - Wear-resistant silver ion antibacterial fabric - Google Patents

Abstract

The utility model discloses a wear-resistant silver ion antibacterial fabric which comprises a nylon fabric, a pure cotton fabric, silver-plated fibers and photocatalyst fibers, wherein a warp gap is reserved between every two adjacent groups of nylon fiber warps on the nylon fabric; a warp yarn gap is reserved between two adjacent groups of cotton fiber warp yarns on the pure cotton fabric, and the pure cotton fabric is attached to the rear side of the nylon fabric; the silver-plated fibers are arranged in the gaps of the warps and are woven by adopting a nylon fiber weft and a cotton fiber weft which are aligned before and after pressing, and a nylon fiber weft and a cotton fiber weft which are aligned before and after picking; the photocatalyst fibers are arranged in the warp gaps, and are woven by adopting a nylon fiber weft and a cotton fiber weft which are aligned before and after pressing, and a nylon fiber weft and a cotton fiber weft which are aligned before and after picking. The utility model has the functions of antibiosis, bacteriostasis and air purification, and is wear-resistant.

Description

Wear-resistant silver ion antibacterial fabric

Technical Field

The utility model relates to the field of antibacterial fabrics, in particular to a wear-resistant silver ion antibacterial fabric.

Background

The antibacterial fabric has good safety, can efficiently and completely remove bacteria, fungi and mould on the fabric, keeps the fabric clean, and can prevent bacteria from regenerating and propagating. The mainstream treatment methods in the market at present have two types: one is a built-in silver ion antibacterial fabric, and an antibacterial agent is directly made into chemical fibers by adopting a spinning-grade antibacterial technology; the other is a post-processing technology, namely adding the fabric through a subsequent shaping process of the fabric.

In the prior art, silver-plated fibers are usually added into a fabric, so that the fabric has a certain antibacterial and bacteriostatic effect, but the silver-plated fibers have a single effect and cannot meet various requirements of users; and the wear resistance of the antibacterial fabric in the prior art is poor. Therefore, the person skilled in the art provides a wear-resistant silver ion antibacterial fabric to solve the problems mentioned in the background art.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a wear-resistant silver ion antibacterial fabric which comprises a nylon fabric, a pure cotton fabric, silver-plated fibers and photocatalyst fibers, wherein the nylon fabric is woven by pressing one group of nylon fiber wefts through one group of nylon fibers and picking one group of nylon fiber wefts, and a warp gap is reserved between every two adjacent groups of nylon fiber warps; the pure cotton fabric is woven by pressing one group of cotton fiber warps on one group of cotton fiber wefts and picking one group of cotton fiber wefts, a warp gap is reserved between every two adjacent groups of cotton fiber warps, and the pure cotton fabric is attached to the rear side of the nylon fabric; the silver-plated fibers are arranged in the gaps of the warps and are woven by adopting a nylon fiber weft and a cotton fiber weft which are aligned before and after pressing, and a nylon fiber weft and a cotton fiber weft which are aligned before and after picking; the photocatalyst fibers are arranged in the warp gaps and woven by adopting a nylon fiber weft and a cotton fiber weft which are aligned before and after pressing, and a nylon fiber weft and a cotton fiber weft which are aligned before and after picking.

Preferably: every polyamide fibre warp on the polyamide fibre surface fabric aligns with every cotton fiber warp on the pure cotton surface fabric from beginning to end, every polyamide fibre weft on the polyamide fibre surface fabric aligns with every cotton fiber weft on the pure cotton surface fabric from beginning to end.

Preferably: the number of the nylon fiber warps of the group of the nylon fiber warps is within the range of 1-2, and the number of the nylon fiber wefts of the group of the nylon fiber wefts is within the range of 1-2.

Preferably: the number of the cotton fiber warps of the group of cotton fiber warps is the same as that of the nylon fiber warps of the group of nylon fiber warps, and the number of the cotton fiber wefts of the group of cotton fiber wefts is the same as that of the nylon fiber wefts of the group of nylon fiber wefts.

Preferably: photocatalyst fibers are woven into the gaps between the warp threads adjacent to the upper part and the lower part of each silver-plated fiber, and the silver-plated fibers are woven into the gaps between the warp threads adjacent to the upper part and the lower part of each photocatalyst fiber.

Preferably: the front surface of the nylon fabric is coated with a colloidal particle coating.

The utility model has the technical effects and advantages that:

1. the utility model adopts a plain weaving method of pressing one for one, and adopts double-layer cloth of the nylon fabric and the pure cotton fabric, so that the fabric has firm texture, the outer surface of the nylon fabric is wear-resistant, and the outer surface of the pure cotton fabric is skin-friendly.

2. The silver-plated fiber and the photocatalyst fiber are adopted and are woven into the polyester fabric and the pure cotton fabric together, so that the double-layer fabric is tightly attached, the silver-plated fiber has the functions of bacteriostasis and antibiosis, and the photocatalyst fiber has the functions of decomposing bacteria, releasing toxin and degrading formaldehyde in air.

3. The colloidal particle coating is arranged, so that the fabric has the effects of water resistance, wind resistance and air permeability.

Drawings

Fig. 1 is a front view of a wear-resistant silver ion antibacterial fabric provided in an embodiment of the present application;

fig. 2 is a right side view of the wear-resistant silver ion antibacterial fabric provided in the embodiment of the present application.

In the figure: the nylon fabric comprises a nylon fabric 10, a nylon fiber weft 11, a nylon fiber warp 12, a warp gap 13, a pure cotton fabric 20, a cotton fiber weft 21, a cotton fiber warp 22, silver-plated fibers 30, photocatalyst fibers 31 and a colloidal particle coating 32.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments. The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Example 1

Referring to fig. 1-2, the present embodiment provides a wear-resistant silver ion antibacterial fabric, including a nylon fabric 10 and a pure cotton fabric 20, where the nylon fabric 10 is woven by a group of nylon fiber warps 12 pressing a group of nylon fiber wefts 11 and a group of nylon fiber wefts 11, and a warp gap 13 is left between two adjacent groups of nylon fiber warps 12; the pure cotton fabric 20 is woven by pressing a group of cotton fiber warps 22 against a group of cotton fiber wefts 21 and picking a group of cotton fiber wefts 21, a warp gap 13 is reserved between every two adjacent groups of cotton fiber warps 22, and the pure cotton fabric 20 is attached to the rear side of the nylon fabric 10; each nylon fiber warp 12 on the nylon fabric 10 is aligned with each cotton fiber warp 22 on the pure cotton fabric 20 in a front-back manner, and each nylon fiber weft 11 on the nylon fabric 10 is aligned with each cotton fiber weft 21 on the pure cotton fabric 20 in a front-back manner; the number of the nylon fiber warps of the group of the nylon fiber warps 12 is in the range of 1-2, and the number of the nylon fiber wefts of the group of the nylon fiber wefts 11 is in the range of 1-2; the number of the cotton fiber warps 22 of the group of cotton fiber warps 22 is the same as the number of the nylon fiber warps 12 of the group of nylon fiber warps 12, and the number of the cotton fiber wefts 21 of the group of cotton fiber wefts 21 is the same as the number of the nylon fiber wefts 11 of the group of nylon fiber wefts 11; a colloidal particle coating 32 is smeared on the front surface of the nylon fabric 10;

when in use, the chinlon fabric 10 and the pure cotton fabric 20 adopt a plain weave method, and the fabrics are firm and breathable; the nylon fabric 10 faces outwards and is wear-resistant; the pure cotton fabric 20 is inward, soft and skin-friendly; the colloidal particle coating 32 is coated on the outer side of the nylon fabric 10 and is windproof and waterproof.

Example 2

Referring to fig. 1-2, in the present embodiment, a wear-resistant silver ion antibacterial fabric includes silver-plated fibers 30 and photocatalyst fibers 31, where the silver-plated fibers 30 are disposed in the warp gaps 13 and woven by using a nylon fiber weft 11 and a cotton fiber weft 21 aligned before and after pressing, and a nylon fiber weft 11 and a cotton fiber weft 21 aligned after picking; the photocatalyst fibers 31 are arranged in the warp gaps 13 and are woven by a nylon fiber weft 11 and a cotton fiber weft 21 which are aligned before and after pressing, and a nylon fiber weft 11 and a cotton fiber weft 21 which are aligned before and after picking; the photocatalyst fibers 31 are woven into the warp gaps 13 adjacent to the upper part and the lower part of each silver-plated fiber 30, and the silver-plated fibers 30 are woven into the warp gaps 13 adjacent to the upper part and the lower part of each photocatalyst fiber 31;

when the double-layer fabric is used, the silver-plated fibers 30 and the photocatalyst fibers 31 are woven into the nylon fabric 10 and the pure cotton fabric 20 together, so that the double-layer fabric is fastened together; the silver-plated fibers 30 inhibit and kill bacteria; the photocatalyst fiber 31 decomposes bacterial toxins under the photocatalysis to degrade formaldehyde in the air.

It is to be understood that the described embodiments are merely a few embodiments of the utility model, and not all embodiments. All other embodiments, which can be derived by one of ordinary skill in the art and related arts based on the embodiments of the present invention without any creative effort, shall fall within the protection scope of the present invention. Structures, devices, and methods of operation not specifically described or illustrated herein are generally practiced in the art without specific recitation or limitation.

Claims (6)

1. The wear-resistant silver ion antibacterial fabric is characterized by comprising a nylon fabric (10), a pure cotton fabric (20), silver-plated fibers (30) and photocatalyst fibers (31), wherein the nylon fabric (10) is woven by pressing a group of nylon fiber warps (12) against a group of nylon fiber wefts (11) and selecting a group of nylon fiber wefts (11), and a warp gap (13) is reserved between every two adjacent groups of nylon fiber warps (12); the pure cotton fabric (20) is woven by pressing one group of cotton fiber weft (21) by one group of cotton fiber warp (22) and picking one group of cotton fiber weft (21), a warp gap (13) is reserved between two adjacent groups of cotton fiber warp (22), and the pure cotton fabric (20) is attached to the rear side of the nylon fabric (10); the silver-plated fibers (30) are arranged in the warp gaps (13) and are woven by a nylon fiber weft (11) and a cotton fiber weft (21) which are aligned before and after pressing, and a nylon fiber weft (11) and a cotton fiber weft (21) which are aligned before and after picking; the photocatalyst fibers (31) are arranged in the warp gaps (13) and are woven by adopting a nylon fiber weft (11) and a cotton fiber weft (21) which are aligned before and after pressing, and a nylon fiber weft (11) and a cotton fiber weft (21) which are aligned before and after picking.

2. The wear-resistant silver ion antibacterial fabric according to claim 1, wherein each nylon fiber warp (12) on the nylon fabric (10) is aligned with each cotton fiber warp (22) on the pure cotton fabric (20) in a front-back manner, and each nylon fiber weft (11) on the nylon fabric (10) is aligned with each cotton fiber weft (21) on the pure cotton fabric (20) in a front-back manner.

3. The wear-resistant silver ion antibacterial fabric according to claim 1, wherein the number of the nylon fiber warps of the group of nylon fiber warps (12) is in the range of 1-2, and the number of the nylon fiber wefts of the group of nylon fiber wefts (11) is in the range of 1-2.

4. The wear-resistant silver ion antibacterial fabric according to claim 1, wherein the number of the cotton fiber warps (22) of the group of cotton fiber warps (22) is the same as that of the nylon fiber warps (12) of the group of nylon fiber warps (12), and the number of the cotton fiber wefts (21) of the group of cotton fiber wefts (21) is the same as that of the nylon fiber wefts (11) of the group of nylon fiber wefts (11).

5. The wear-resistant silver ion antibacterial fabric according to claim 1, wherein photocatalyst fibers (31) are woven into warp gaps (13) which are adjacent to each other above and below each silver-plated fiber (30), and the silver-plated fibers (30) are woven into warp gaps (13) which are adjacent to each other above and below each photocatalyst fiber (31).

6. A wear-resistant silver ion antibacterial fabric as claimed in claim 1, wherein the front surface of the nylon fabric (10) is coated with a colloidal particle coating (32).

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