CN211334898U - Antibacterial anion non-woven fabric - Google Patents

Abstract

The utility model relates to an antibiotic anion non-woven fabrics, including upper and lower two-layer anion fibrous layer and the graphite alkene fibrous layer of clamp between upper and lower two-layer anion fibrous layer, through the viscose layer bonding between upper and lower two-layer anion fibrous layer and the graphite alkene fibrous layer, combine two kinds of fibre with an ingenious form together, complement each other, promoted greatly the utility model discloses an antibiotic deodorant ability reaches antibacterial and deodorant mesh through the anion in effective release and the transmission anion glue film, and graphite alkene fibre has strengthened the durability and the pliability of product simultaneously, and anion fibre together releases the anion with anion spar, lets anion release volume more, plays better health care effect to the human body.

Description

Antibacterial anion non-woven fabric

Technical Field

The utility model relates to a non-woven fabrics field, concretely relates to antibiotic anion non-woven fabrics.

Background

In recent years, with scientific progress and economic development, functional textiles have been developed rapidly, wherein the non-woven fabric is a porous non-woven fabric with nano-micropores, has a large specific surface area, and is a non-woven fabric formed by directly using high polymer slices, short fibers or filaments to form a web through air flow or machinery, performing spunlacing, needling or hot rolling reinforcement, and finally performing finishing. The variety of the fiber is more and more, the fiber has multiple purposes, and the fiber can be widely used as daily textiles such as napkins, clothes and the like, and can also be used as filter materials, packaging materials, medical and health materials and the like. Due to the wide application range, research and development of functional non-woven fabrics are receiving increasing attention.

In the medical field, negative ions have been identified as an effective means for killing germs and purifying air. The anion fiber is a newly developed fiber, the characteristic that anion mineral spar can continuously release anions is utilized, functional fibers beneficial to a human body are added into the fiber, sterilization and human health are facilitated, the existing functional non-woven fabric is mainly concentrated in the field of antibiosis, nano silver is added in the aspect of antibiosis, the nano silver has a good sterilization effect, but is toxic and harmful to human organs after being contacted for a long time, and the research on the non-woven fabric which can generate sufficient anions is still insufficient while antibiosis is carried out, so that the research and improvement on the antibiosis and the anion release of the non-woven fabric are needed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome above-mentioned prior art not enough, provide one kind and have good antibiotic ability to the human body harmless and can release the antibiotic non-woven fabrics of anion for a long time.

In order to achieve the above object, the present invention provides the following technical solutions.

The utility model relates to an antibiotic anion non-woven fabrics, including upper and lower two-layer anion fibrous layer and the graphite alkene fibrous layer of clamp between upper and lower two-layer anion fibrous layer, bond through the viscose layer between upper and lower two-layer anion fibrous layer and the graphite alkene fibrous layer, still evenly distributed a lot of apertures on the upper and lower two-layer anion fibrous layer for the through-hole of the release of guide anion.

In one embodiment, the graphene fiber layer is prepared by extruding a gel-like graphene oxide aqueous solution from micropores into filaments by using a mechanical device, soaking and molding the filaments in the solution, and performing thermal annealing reduction on the filaments.

In one embodiment, the anion fiber layer uses spandex coated yarn as a base yarn, and nylon is used as plating yarn to be woven into a looped pile structure.

In one embodiment, the adhesive layer is a polyurethane adhesive layer.

In one embodiment, the air holes in the graphene fiber are staggered with the air holes which are bonded by the adhesive layer and are uniformly distributed in the negative ion fiber layers of the upper layer and the lower layer.

Technical scheme more than adopting, the beneficial effects of the utility model are that: the utility model adopts the structure that the anion fiber and the graphene fiber are added, two fibers are combined together in an ingenious form and supplement each other, the diaphragm generated in the middle when the fibers are combined with the fibers is utilized to stagger the air-permeable pores of the two fibers, so that the anions added on the two fibers can more uniformly emit anions to the outside, and the addition of the element of the graphene fiber greatly improves the antibacterial and deodorizing capability of the utility model, the purposes of bacteriostasis and deodorization can be achieved by effectively releasing and transmitting the anions in the anion glue layer, meanwhile, the graphene fiber has the characteristics of flexibility and flexibility, the durability of the product is enhanced, the anion fiber and the anion spar also have the anion health-care effect, and meanwhile, the anion particles arranged in the air separation cavity can further release more anions to enhance the anion deodorizing effect, the product has health care effect on human body, and has good market prospect and social and economic benefits in development.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a cross-sectional view of the antibacterial anion non-woven fabric of the present invention.

In the figure: 10 graphene fibers, 11 small air-permeable holes and 20 negative ion fibers.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The following examples illustrate the invention in detail: the present embodiment is implemented on the premise of the technical solution of the present invention, and a detailed implementation manner and a specific operation process are given, but the protection scope of the present invention is not limited to the following embodiments.

The utility model relates to an antibiotic anion non-woven fabrics, including upper and lower two-layer anion fibrous layer and the graphite alkene fibrous layer of clamp between upper and lower two-layer anion fibrous layer, bond through the viscose layer between upper and lower two-layer anion fibrous layer and the graphite alkene fibrous layer, evenly distributed has gone up on the graphite alkene fibrous layer has a lot of ventilative apertures, has filled anion powder granule in these ventilative apertures, just still evenly distributed a lot of apertures on the upper and lower two-layer anion fibrous layer for the through-hole of the release of guide anion.

The graphene fiber layer is prepared by extruding a gel-like graphene oxide aqueous solution into filaments from micropores by using a mechanical device, soaking and molding the filaments in the solution, and performing thermal annealing reduction on the filaments.

The anion fiber layer adopts spandex coated yarn as bottom yarn, and nylon is plated and woven into a looped pile structure.

The adhesive layer is a polyurethane adhesive layer.

The anion nano powder is silicate substances with an aluminum, sodium, iron and lithium ring structure and characterized by containing boron, mainly comprises tourmaline, ferric oxide, boron oxide, magnesium oxide and the like, and the calcined anion mineral material is crushed by a pulverizer and added into fibers according to a certain proportion.

The air holes in the graphene fiber are staggered with the air holes which are adhered to the upper and lower negative ion fiber layers through the adhesive layers and are uniformly distributed.

The volume size of the negative ion particles is the same as the size of the air compartment.

The aperture of the air compartment is 0.5 mm.

The graphene fiber has the characteristics of flexibility, stretchability and bendability, a through space can be formed inside the fiber, and the graphene fiber has a large specific surface area and a large porosity.

Claims (4)

1. The utility model provides an antibiotic anion non-woven fabrics, its characterized in that includes upper and lower two-layer anion fibrous layer and presss from both sides the graphene fiber layer between upper and lower two-layer anion fibrous layer, bond through the viscose layer between upper and lower two-layer anion fibrous layer and the graphene fiber layer, evenly distributed has gone up on the graphene fiber layer has a lot of ventilative apertures, has filled anion powder granule in these ventilative apertures, just still evenly distributed a lot of apertures on the upper and lower two-layer anion fibrous layer for the through-hole of the release of guide anion.

2. The antibacterial anion non-woven fabric according to claim 1, wherein the anion fiber layer is formed by using spandex coated yarns as a base yarn and nylon as plating yarns to be woven into a looped pile structure.

3. The antibacterial anion nonwoven fabric as claimed in claim 1, wherein the adhesive layer is a polyurethane adhesive layer.

4. The antibacterial negative ion non-woven fabric according to claim 1, wherein the air holes in the graphene fiber are staggered with the air holes which are uniformly distributed and bonded by the adhesive layer on the negative ion fiber layers of the upper and lower layers.

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