CN219564406U - Alginate fiber health-care antibacterial fabric - Google Patents

Abstract

The utility model belongs to the technical field of antibacterial fabrics, and in particular relates to a seaweed fiber health-care antibacterial fabric, which comprises the following components: a bacteriostatic layer; the antibacterial layer comprises a plurality of alginate fiber covered wires and a plurality of moisture absorption and sweat release fiber covered wires which are arranged on the alginate fiber covered wires in a staggered manner; the seaweed fiber covered wires and the moisture-absorbing sweat-releasing fiber covered wires are interwoven into a net-shaped cloth structure through warps and wefts, and a plurality of antistatic fiber wires are arranged between the seaweed fiber covered wires and the moisture-absorbing sweat-releasing fiber covered wires at intervals in a staggered manner; according to the utility model, the mesh-shaped cloth can be interweaved by the alginate fiber wrapping wires and the moisture-absorbing sweat-releasing fiber wrapping wires, so that the inner surface and the outer surface of the cloth have antibacterial property, thermal wet comfort and skin affinity, and the problem that the antibacterial effect, the thermal wet comfort and the skin affinity effect of the two sides of the cloth are low due to the fact that the conventional antibacterial layer and the thermal wet comfort layer are respectively arranged on the two sides is solved.

Description

Alginate fiber health-care antibacterial fabric

Technical Field

The utility model belongs to the technical field of antibacterial fabrics, and particularly relates to a seaweed fiber health-care antibacterial fabric.

Background

The antibacterial fabric is a special functional fabric, is subjected to antibacterial finishing or contains antibacterial fibers, has good safety, can effectively and completely remove bacteria, fungi and mold on fabrics, keeps the fabrics clean, can prevent bacteria from regenerating and reproduction, and has two main treatment modes on the market for bacterial treatment: one is built-in silver ion antibacterial cloth, and adopts a spinning level antibacterial technology to directly make a bacteriostatic agent into chemical fibers.

In a novel Chinese adaptation patent with the patent number of CN201921491602.6 as a alginate fiber health-care antibacterial fabric, an antibacterial layer woven by chitosan grafted alginate fiber and bamboo carbon fiber blended yarns has high antibacterial property, no toxicity, no harm, high safety and biodegradability; the heat-moisture comfortable layer is formed by weaving the moisture-absorbing sweat-discharging fiber yarns and the cotton fiber yarns, integrates the advantages of the moisture-absorbing sweat-discharging fibers and the cotton fibers, and has heat-moisture comfort and skin-friendly property, however, the heat-moisture comfortable layer and the heat-moisture comfortable layer are arranged on two sides respectively, so that the heat-moisture comfort and skin-friendly effect on one side of the cloth antibacterial layer is low, the effect of the heat-moisture comfortable layer on one side of the cloth antibacterial layer is low, and in addition, the textiles of the natural fibers and the regenerated fibers have better antistatic property, but static electricity can still be obviously generated in a dry environment; in the textile processing or using process, the fiber materials contact and rub each other or other objects, and the electrification phenomenon can be generated; the fibrous material is compressed or stretched, or charged around it, or dried in air, and also becomes charged. If the charges are accumulated continuously and cannot be eliminated, static electricity is caused, and therefore the practicability of the cloth is greatly reduced.

Disclosure of Invention

The utility model aims to provide a alginate fiber health-care antibacterial fabric, which solves the problems that the conventional antibacterial layer and a thermal wet comfortable layer are arranged on two sides respectively, so that the thermal wet comfort and skin-friendly effect of one side of the antibacterial layer of the cloth are low, the antibacterial layer of one side of the thermal wet comfortable layer of the cloth is low, and in addition, the conventional antibacterial fabric does not have an antistatic function.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a alginate fiber health care antibacterial fabric, comprising: a bacteriostatic layer;

the antibacterial layer comprises a plurality of alginate fiber covered wires and a plurality of moisture absorption and sweat release fiber covered wires which are arranged on the alginate fiber covered wires in a staggered manner;

the alginate fiber covered wires and the moisture absorption and sweat releasing fiber covered wires are mutually interwoven into a net-shaped cloth structure through warps and wefts.

Preferably, a plurality of antistatic fiber wires are arranged between the alginate fiber covered wires and the moisture absorption and sweat release fiber covered wires at intervals in a staggered manner;

the antistatic fiber threads are respectively staggered and interwoven in the reticular cloth structure between the alginate fiber covered threads and the moisture absorption and sweat release fiber covered threads.

Preferably, the alginate fiber covered wire comprises a bamboo carbon fiber blended yarn and an alginate fiber yarn wound on the bamboo carbon fiber blended yarn, and the bamboo carbon fiber blended yarn is interwoven with the antistatic fiber yarn.

Preferably, the moisture-absorbing and sweat-releasing fiber covered wire comprises cotton fiber yarns and moisture-absorbing and sweat-releasing fiber yarns wound on the cotton fiber yarns, the cotton fiber yarns are interwoven with the bamboo carbon fiber blended yarns, and the cotton fiber yarns are interwoven with the antistatic fiber yarns.

Preferably, the outer parts of the two symmetrical sides of the antibacterial layer are provided with the thermal insulation layers, and the outer parts of the thermal insulation layers are sequentially provided with the breathable layer and the spandex tensile surface layer.

Preferably, polyurethane fibers are contained in the spandex tensile surface layer, cellulose, hemicellulose and lignin are contained in the breathable layer, and cotton fibers are contained in the thermal insulation layer.

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

(1) According to the utility model, the mesh-shaped cloth can be interweaved by the alginate fiber wrapping wires and the moisture-absorbing sweat-releasing fiber wrapping wires, so that the inner surface and the outer surface of the cloth have antibacterial property, thermal wet comfort and skin affinity, and the problem that the antibacterial effect, the thermal wet comfort and the skin affinity effect of the two sides of the cloth are low due to the fact that the conventional antibacterial layer and the thermal wet comfort layer are respectively arranged on the two sides is solved.

(2) According to the utility model, the antistatic fiber yarn can be interwoven into an antistatic layer on the cloth, and the antistatic fiber yarn is interwoven with cotton fiber yarn and bamboo carbon fiber blended yarn, so that the toughness of the antistatic fiber yarn is improved, the antistatic fiber yarn is not broken when the cloth is pulled, and the problem that the conventional antibacterial cloth does not have an antistatic function is solved.

Drawings

FIG. 1 is a top view of the bacteriostatic layer of the present utility model;

FIG. 2 is a schematic diagram of the structure of the present utility model;

FIG. 3 is a schematic illustration of the combination of the alginate fiber covered wire and the moisture absorbing and sweat releasing fiber covered wire of the present utility model;

FIG. 4 is a front view of the alginate fiber covered wire of the present utility model;

in the figure: 1-spandex tensile surface layer, 2-ventilation layer, 3-warm-keeping layer, 4-antibacterial layer, 5-alginate fiber covered wire, 6-moisture absorption and perspiration fiber covered wire, 7-moisture absorption and perspiration fiber yarn, 8-cotton fiber yarn, 9-bamboo carbon fiber blended yarn, 10-antistatic fiber yarn and 11-alginate fiber yarn.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the present utility model provides a technical solution: a alginate fiber health care antibacterial fabric, comprising: a bacteriostatic layer 4;

the antibacterial layer 4 comprises a plurality of alginate fiber covered wires 5 and a plurality of moisture absorption and sweat release fiber covered wires 6 which are arranged on the alginate fiber covered wires 5 in a staggered manner;

the alginate fiber covered wires 5 and the moisture absorption and sweat releasing fiber covered wires 6 are interwoven into a net-shaped cloth structure through warps and wefts.

Through the technical scheme:

the seaweed fiber covered wires 5 and the moisture-absorbing sweat-releasing fiber covered wires 6 can be interwoven into a net-shaped cloth, so that the inner surface and the outer surface of the cloth have equal antibacterial property, thermal humidity comfort and skin affinity, the cloth can be protected bidirectionally, the cloth does not need to distinguish the front side and the back side, the cloth has a health care function through the seaweed fiber covered wires 5, the seaweed fiber is seaweed carbon fiber, the seaweed carbon fiber is a fiber which is obtained by spinning and spinning seaweed carbon carbide after being crushed into ultrafine particles and then being mixed with polyester solution or nylon solution and the like, and the fiber can be blended with natural cotton or other fibers, so that the spun yarn has far infrared radiation function.

Further, for the above-mentioned alginate fiber covered wire 5 that sets up, the alginate fiber covered wire 5 includes bamboo carbon fiber blended yarn 9 to and around establishing the alginate fiber yarn 11 on bamboo carbon fiber blended yarn 9, bamboo carbon fiber blended yarn 9 interweaves with antistatic fiber line 10, and the advantage of the alginate fiber covered wire 5 with bamboo carbon fiber blended yarn 9 and alginate fiber yarn 11 is integrated, after interweaving into the cloth through the alginate fiber covered wire 5, lets the cloth have good hygroscopicity and antibiotic.

Further, for the moisture-absorbing and sweat-releasing fiber covered wire 6, the moisture-absorbing and sweat-releasing fiber covered wire 6 comprises a cotton fiber yarn 8 and a moisture-absorbing and sweat-releasing fiber yarn 7 wound on the cotton fiber yarn 8, the cotton fiber yarn 8 is interwoven with a bamboo carbon fiber blended yarn 9, the cotton fiber yarn 8 is interwoven with an antistatic fiber yarn 10, the moisture-absorbing and sweat-releasing fiber covered wire 6 integrates the advantages of the moisture-absorbing and sweat-releasing fiber yarn 7 and the cotton fiber yarn 8, and after the moisture-absorbing and sweat-releasing fiber covered wire 6 is interwoven into a cloth, the cloth has both thermal moisture comfort and skin affinity.

Further, to the antibacterial layer 4 that above-mentioned set up, the cold-proof layer 3 is all installed to the outside of antibacterial layer 4 symmetry both sides, and the outside of cold-proof layer 3 is equipped with ventilative layer 2 and spandex tensile surface layer 1 in proper order, lets the tensile external force that cloth adaptable intensity is great through spandex tensile surface layer 1, ventilative layer 2 makes it have good gas permeability, and cold-proof layer 3 lets the cloth have cold-proof function.

Further, aiming at the polyurethane tensile surface layer 1, the breathable layer and the thermal insulation layer which are arranged, polyurethane fibers are contained in the polyurethane tensile surface layer 1, cellulose, hemicellulose and lignin are contained in the breathable layer 2, cotton fibers are contained in the thermal insulation layer 3, the polyurethane tensile surface layer 1 has stretching-resistant properties through the polyurethane fibers, and can adapt to stretching external force with high strength, the breathable layer 2 has the characteristics of good breathability, instant water absorption, high wear resistance, good dyeing property and the like, and the thermal insulation layer 3 enables cloth to have a thermal insulation function.

Referring to fig. 1 and 3, a plurality of antistatic fiber threads 10 are installed between a plurality of alginate fiber covered wires 5 and a plurality of moisture absorption and sweat release fiber covered wires 6 at intervals in a staggered manner;

the plurality of antistatic fiber threads 10 are respectively staggered and interwoven in the reticular cloth structure between the plurality of alginate fiber covered threads 5 and the plurality of moisture absorption and sweat release fiber covered threads 6.

Through the technical scheme:

the antistatic fiber lines 10 are interwoven with the alginate fiber covered wires 5 and the moisture absorption and perspiration fiber covered wires 6 together, so that a net structure is formed, the tensile strength of the antistatic fiber lines 10 is improved, and an antistatic layer is formed among the antistatic fiber lines 10, so that the cloth has an antistatic function.

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

Claims (6)

1. The alginate fiber health-care antibacterial fabric is characterized by comprising the following components: a bacteriostatic layer (4);

the antibacterial layer (4) comprises a plurality of alginate fiber covered wires (5) and a plurality of moisture absorption and sweat release fiber covered wires (6) which are arranged on the alginate fiber covered wires (5) in a staggered manner;

the alginate fiber covered wires (5) and the moisture absorption and sweat releasing fiber covered wires (6) are interwoven into a net-shaped cloth structure through warps and wefts.

2. The alginate fiber health-care antibacterial fabric as claimed in claim 1, wherein: a plurality of antistatic fiber lines (10) are arranged between the alginate fiber covered wires (5) and the moisture absorption and sweat release fiber covered wires (6) at intervals in a staggered manner;

the antistatic fiber wires (10) are respectively staggered and interwoven in the reticular cloth structure between the alginate fiber covered wires (5) and the moisture absorption and sweat release fiber covered wires (6).

3. The alginate fiber health-care antibacterial fabric as claimed in claim 2, wherein: the seaweed fiber covered wire (5) comprises a bamboo carbon fiber blended yarn (9) and a seaweed fiber yarn (11) wound on the bamboo carbon fiber blended yarn (9), and the bamboo carbon fiber blended yarn (9) is interwoven with the antistatic fiber yarn (10).

4. The alginate fiber health-care antibacterial fabric as claimed in claim 3, wherein: the moisture absorption and sweat releasing fiber covered wire (6) comprises cotton fiber yarns (8) and moisture absorption and sweat releasing fiber yarns (7) wound on the cotton fiber yarns (8), the cotton fiber yarns (8) are interwoven with bamboo carbon fiber blended yarns (9), and the cotton fiber yarns (8) are interwoven with antistatic fiber yarns (10).

5. The alginate fiber health-care antibacterial fabric as claimed in claim 1, wherein: the outer parts of the two symmetrical sides of the antibacterial layer (4) are respectively provided with a thermal insulation layer (3), and the outer parts of the thermal insulation layers (3) are sequentially provided with a breathable layer (2) and a spandex tensile surface layer (1).

6. The alginate fiber health-care antibacterial fabric as claimed in claim 5, wherein: polyurethane fibers are contained in the polyurethane tensile surface layer (1).