CN213951506U - Antibacterial textile - Google Patents

Abstract

The utility model discloses an antibiotic fabrics mainly weaves the fabrics that forms by first yarn, second yarn and copper yarn mixture, and this first yarn shows the nexine at this fabrics, and the material possesses hydrophobicity and moisture permeability, forms an anti surface of water. The second yarns and the copper yarns are exposed on the surface layer of the textile, the second yarns are made of moisture-removing materials, and the copper yarns are made of antibacterial materials to form an antibacterial moisture-removing surface. Therefore, the manufactured clothes are worn on the body, the water-resistant surface in contact with the skin can not get damp after absorbing sweat under slight pressure, and the sweat is absorbed by the antibacterial moisture-removing surface on the surface layer through the water-resistant surface and removes moisture, so that the inner layer of the clothes is still dry and comfortable.

Description

Antibacterial textile

Technical Field

The present invention relates to an antibacterial textile, and more particularly to an antibacterial textile with an inner layer that is water-resistant and a surface layer that is moisture-removing.

Background

Most dress that sells on the market, in order to wear comfortable, can focus on the effect of ventilating and removing moisture very much, especially sports dress, how to discharge outside the clothing with steam and sweat moisture that the motion back produced, let the wearer more comfortable, be promptly judge whether this sports dress possesses the index of good functional nature, each factory board sports dress has no worry about developing how to ventilate, more moisture removing sweat dress.

In addition to ventilation and moisture removal, in mountaineering, tracking and going to sea, the wearer may be affected by damp, dribbling and other conditions, and if the wearer wears a raincoat or other completely waterproof clothes, the wearer is prone to discomfort caused by stuffiness and sweating due to the phenomena of air impermeability and moisture regain. Therefore, there is a need for a garment that is somewhat waterproof and rain-proof, prevents moisture from penetrating into the garment, yet remains breathable and moisture-wicking.

The general water repellent clothes are made into water repellent treatment on the surface of the clothes, so that the water repellent clothes can not immediately permeate into the inner side of the clothes when contacting with liquid, and water drops can be shaken off as soon as possible, so that the clothes can be prevented from being wet and contacting with skin. However, the moisture-removing effect is necessarily poor, sweat is not easily discharged, and the moisture-removing effect from inside to outside is relatively weak.

In addition, the utility model discloses a do all can improve above-mentioned disappearance, research and development hydrofuge effect is better, and also can reach the cloth fabric of water-repellent effect to the dress of dress when making into more suitable motion.

SUMMERY OF THE UTILITY MODEL

The main object of the present invention is to provide a fabric with a waterproof inner layer and a breathable and moisture-removing surface layer, which can remove sweat from the inside to the outside and increase moisture-removing property.

The utility model discloses an antibacterial textile, which is formed by weaving a first yarn, a second yarn and a copper yarn together, wherein the first yarn is exposed on the inner layer of the textile, and the material has hydrophobicity and moisture permeability to form an anti-water surface; the second yarns and the copper yarns are exposed on the surface layer of the textile, the second yarns are made of moisture-removing materials, and the copper yarns are made of antibacterial materials to form an antibacterial moisture-removing surface.

In embodiments of the present application, the first yarn covers 85% to 95% of the inner layer of the textile; the second yarn accounts for 65 to 70 percent of the coverage rate of the surface layer of the textile; the copper yarn accounts for 20 to 25 percent of the coverage rate of the surface layer of the textile.

In an embodiment of the present application, the first yarn is made of one of polyamide fiber, polyester fiber, and polypropylene polymer. The second yarn is made of one of artificial fiber and natural fiber.

In the examples of the present application, the yarns of the textile contain zinc oxide.

In an embodiment of the present application, the textile further includes a bamboo charcoal fiber, and the bamboo charcoal fiber is mixed and woven with the second yarn and the copper yarn.

Therefore, the utility model has the advantages of, be the water-resistant characteristic of this water-resistant face through the fabric nexine, though can not absorbed at once when the fabric of sweat touching, nevertheless pressurize slightly or time for a long time in the sweat can the infiltration fabric to borrow by the antibiotic hydrofuge face on fabric top layer and get rid of the moisture, and because the nexine is the anti-water face, no matter be by the aqueous vapor that the outside got into or the aqueous vapor that the nexine permeates away, can not cause the nexine to take place to get damp again, it is comfortable to keep dry in the messenger's clothes.

Drawings

Fig. 1 is a schematic view of the water-resistant surface of the antibacterial textile of the present invention;

fig. 2 is a schematic view of the antibacterial moisture-removing surface of the antibacterial textile of the present invention;

fig. 3 is a schematic view of a first yarn of the antibacterial textile of the present invention;

fig. 4 is a schematic view of a second yarn and a copper yarn of the antibacterial textile of the present invention;

FIG. 5 is a schematic view of the antibacterial textile of the present invention in water;

fig. 6 is a schematic view of the bamboo charcoal fiber of the antibacterial textile of the present invention.

Symbolic illustration in the drawings:

100: textile;

110: first yarn;

resisting water surface 111: resisting water surface;

121: antibacterial and dampness removing noodles;

120: second yarn;

130: copper yarn;

140: bamboo charcoal fiber;

210: water drop;

soaking in water at 220: above.

Detailed Description

The present invention will now be described in further detail with reference to examples, but it should be understood that these examples are illustrative only and should not be construed as limiting the practice of the present invention.

It should be noted that the terms "first", "second", "inner layer", "surface layer", and the like in the description and the claims of the present invention and the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the materials so used are interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or otherwise described herein.

Please refer to fig. 1 to 5. The utility model relates to an antibiotic textile mainly mixes by a first yarn 110, a second yarn 120 and a copper yarn 130 and weaves and form a textile 100, and this first yarn 110 shows at the nexine of this textile 100, and this first yarn 110's material utensil hydrophobicity and moisture permeability for form an anti surface of water 111. The second yarn 120 and the copper yarn 130 are exposed on the surface layer of the textile 100, and the second yarn 120 is made of a moisture-removing material, and forms an antibacterial moisture-removing surface 121 together with the copper yarn 130.

In practice, the first yarn 110 covers 85% to 95% of the inner layer of the textile 100; the coverage of the second yarn 120 in the surface layer of the textile 100 is 65% to 70%; the copper yarn 130 covers 20% to 25% of the surface layer of the textile 100.

In practice, the material of the first yarn 110 is mainly one of polyamide fiber, polyester fiber and polypropylene polymer, and is a fiber with hydrophobicity and moisture permeability, so that the inner layer of the textile 100 with a large coverage rate of the first yarn 110 can form a water-resistant surface 111, thereby achieving the effect of preventing water splashing. When the liquid just touches the water-resistant surface 111, the liquid will not easily penetrate into the textile 100, and water drops 210 will be formed on the water-resistant surface 111. When the water drop 210 is pressed by external force, the water drop 210 (liquid) will penetrate into the textile 100, and the moisture will be removed through the antibacterial moisture-removing surface 121.

The second yarn 120 is made of one of artificial fiber and natural fiber, such as rayon, tencel, cotton, hemp, silk, etc., and has good air permeability and moisture-removing property. And the copper ion content in the copper yarn 13 is 5% to 10%. The copper yarn 13 is produced by immersing the raw material in a copper ion solution before spinning the fiber so that the raw material contains copper ions, and then spinning the fiber, so that the drawn fiber naturally contains copper ions.

The copper ions have the characteristics of analgesia, antipyresis, antibiosis and anti-inflammation, wherein trace copper ions can attack cell membranes, nucleic acids and enzymes of bacteria and destroy cell proteins to cause bacterial death or lose division and proliferation capacity, so that the good antibacterial property of the copper ions can inhibit the proliferation of the bacteria and fungi to prevent putrefactive odor and eliminate peculiar smell, the copper ions have excellent antifungal effect, and the excellent antibacterial effect has an inhibiting effect on fungal skin diseases, so the copper ion-containing fibers have a certain conditioning effect on skin, gynecological diseases and other diseases.

Therefore, the surface layer of the textile 100 with the larger coverage rate of the second yarns 120 and the copper yarns 130 can form the antibacterial moisture-discharging surface 121, when the water drops 210 (liquid) penetrate into the antibacterial moisture-discharging surface 121 from the water-resistant surface 111, the antibacterial moisture-discharging surface 121 can present water stains 220, but due to the improvement of air permeability and moisture-discharging performance, the water stains 220 can be quickly eliminated to maintain dryness.

Furthermore, the textile 100 can be soaked in a zinc oxide solution with a concentration of 5% to 10%, so that the first yarn 110 and the second yarn 120 contain zinc oxide. The zinc oxide is nontoxic, nonirritating to skin, good in thermal stability, high in fiber elasticity, capable of strongly absorbing ultraviolet rays and used for ultraviolet light shielding, and has a good antibacterial mechanism, under a neutral environment, the zinc oxide can generate peroxidation on the surface of a zinc oxide crystal, and the peroxidation can inhibit the growth of bacteria, so that the antibacterial and deodorant effects are achieved.

Still further, please refer to fig. 6. The textile 100 further comprises a bamboo charcoal fiber 140, and the bamboo charcoal fiber 140 is mixed and woven with the second yarn 120 and the copper yarn 130. The porous structure of the bamboo charcoal fiber 140 has good moisture absorption and release functions, and the special ultrafine pore structure inside the porous structure ensures that the porous structure has strong adsorption capacity, can adsorb harmful substances such as formaldehyde, benzene, toluene, ammonia and the like in the air, eliminates bad odor and has antibacterial effect. Therefore, the bamboo charcoal fiber 140, the second yarn 120 and the copper yarn 130 are mixed and woven through the deodorizing and antibacterial effects of the bamboo charcoal fiber 140, so that the antibacterial, moisture-discharging and ventilating effects can be further enhanced.

In practice, textile 100 is suitable for various textiles, such as clothes, trousers, dummies, socks, gloves, etc., and in particular, sportswear, socks, etc., are most suitable for clothes having higher requirements for moisture absorption, exhaustion and resistance due to sweat in sports. When sweat generated by sweating of a human body adheres to the clothes woven by the textile 100, the inner layer of the textile 100 is directly contacted with the skin of the human body, the water-resistant surface 111 is contacted with the skin by virtue of pressure or the sweat adheres for a period of time, the sweat permeates to the antibacterial moisture-removing surface 121 from the water-resistant surface 111, and then the second yarns 120 of the antibacterial moisture-removing surface 121 remove the moisture and keep ventilation. And the moisture from outside or the moisture remained between the textiles 100 can be blocked by the water-resistant surface 111, and will not get damp back to the skin of the human body again, so that the skin of the human body can still maintain dry and comfortable even after sweating.

Furthermore, the antibacterial effect of the copper yarn 130 prevents the skin of a wearer from being allergic to moisture or causing red swelling and itching due to bacterial or fungal infection. Furthermore, the clothes made of the textile 100 soaked with the zinc peroxide solution or the clothes added with the bamboo charcoal fibers 140 can enhance the antibacterial and deodorizing effects, and bring drier and comfortable wearing experience.

Although the present application has been described with reference to specific embodiments, it will be understood by those skilled in the art that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the application, and it is intended that all matter contained in the above description or shown in the accompanying drawings shall be interpreted as illustrative and not in a limiting sense.

Claims (4)

1. An antibacterial textile is formed by weaving a first yarn, a second yarn and a copper yarn together, and is characterized in that:

the first yarn is exposed on the inner layer of the textile, and the material has hydrophobicity and moisture permeability to form a water-resistant surface; the second yarns and the copper yarns are exposed on the surface layer of the textile, the second yarns are made of moisture-removing materials, and the copper yarns are made of antibacterial materials to form an antibacterial moisture-removing surface.

2. The antibacterial textile of claim 1, wherein the first yarn is made of one of polyamide fiber, polyester fiber and polypropylene polymer.

3. The antibacterial textile of claim 1, wherein the second yarn is made of one of artificial fiber and natural fiber.

4. The antibacterial textile of claim 1, further comprising a bamboo charcoal fiber, wherein the bamboo charcoal fiber is mixed and woven with the second yarn and the copper yarn.

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