CN217917134U - Antibacterial single-sided velvet fabric with antistatic cations - Google Patents

Abstract

The utility model discloses an antibiotic single face matte material with antistatic type cation involves the textile fabric field, including the surface fabric body, the surface fabric body comprises single matte layer, the fire-retardant composite bed of antistatic and antibiotic deodorization composite bed is compound. The utility model discloses in prevent that fire-retardant composite bed of static is by electrically conductive yarn, dacron elasticity yarn and flame retardant fiber yarn weave and constitute, make the surface fabric have good wear-resisting, high strength, easily dye, the moisture absorption, elasticity is good, the conformality is good, it is stiff and smooth and antistatic property, antibiotic deodorization composite bed is by antibiotic superfine fiber yarn, cotton yarn and carbon fiber yarn weave and constitute, antibiotic superfine fiber yarn is the heliciform setting, and double-phase adjacent antibiotic superfine fiber yarn is each other to detain and weaves, this weave the structure and can promote the inside space of surface fabric, make the inside gas permeability of surface fabric promote, and be convenient for ductility's reinforcing, make the surface fabric have superior antibiotic deodorant effect simultaneously.

Description

Antibacterial single-sided velvet fabric with antistatic cations

Technical Field

The utility model relates to a textile fabric field, in particular to antibiotic single face matte material with antistatic type cation.

Background

The flannelette is generally divided into single-sided flannelette and double-sided flannelette, the single-sided flannelette draws the fibers of the yarn body out of the yarn body through a napping machine, the fibers are uniformly covered on the surface of the fabric, the hand feeling is fine and soft, and the flannelette is an ideal fabric for casual clothes and sports clothes. When the single-sided velvet contacts the skin in a dry winter environment, static electricity is easily generated; and the traditional single-sided velvet has poor elasticity and unsatisfactory moisture permeability and air permeability, and when the single-sided velvet is made into clothes, sweat discharged by skin cannot be discharged out of the clothes, and bacteria are easily nourished.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an antibiotic single face matte material with antistatic type cation to solve the problem that provides among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an antibiotic single face matte material with anti-static type cation, which comprises a fabric body, the surface fabric body comprises single matte layer, prevent that static fire-retardant composite bed and antibiotic deodorization composite bed are compound, surface fabric body upper strata is single matte layer, hug closely single matte layer bottom and be equipped with the fire-retardant composite bed of static of preventing, bond through first viscose layer between single matte layer and the fire-retardant composite bed of static of preventing, the bottom surface of hugging closely the fire-retardant composite bed of static of preventing is equipped with antibiotic deodorization composite bed, prevent that static fire-retardant composite bed and antibiotic deodorization composite bed bond through second viscose layer, the fire-retardant composite bed of static of preventing is woven by electrically conductive yarn, dacron stretch yarn and fire-retardant cellosilk and is formed, antibiotic deodorization composite bed is woven by antibiotic superfine cellosilk, cotton yarn and carbon fiber silk and is formed.

Preferably, the antistatic flame-retardant composite layer is formed by circularly weaving conductive yarns serving as warp yarns and elastic polyester yarns serving as weft yarns in a floating and sinking manner in such a manner that each warp yarn passes through one weft yarn and then presses one weft yarn, the flame-retardant fiber yarns serving as bias yarns are respectively interwoven with the warp yarns and the weft yarns.

Preferably, the conductive yarn is formed by doubling polyester-nylon composite superfine fiber yarns and nylon conductive yarns, and the polyester-nylon composite superfine fiber yarns and the nylon conductive yarns are twisted into 400 twists/m doubled yarns by a twisting doubling machine to form the conductive yarn.

Preferably, the antibacterial superfine fiber yarns are spirally arranged, two adjacent antibacterial superfine fiber yarns are mutually buckled and woven, cotton yarns are used as weft yarns, the weft yarns are circularly float and sink woven along the structural gaps of the antibacterial superfine fiber yarns, the carbon fiber yarns are used as warp yarns, and the warp yarns are circularly float and sink woven along the structural gaps of the antibacterial superfine fiber yarns.

The utility model discloses a technological effect and advantage:

1. the utility model provides an antistatic flame-retardant composite bed is woven by conductive yarn, dacron elasticity yarn and fire-retardant fiber silk and is constituted, and conductive yarn comprises polyester-nylon compound superfine fiber silk and polyamide fibre conductive silk doubling, wherein polyester-nylon compound superfine fiber silk makes the surface fabric have the wear-resisting, high strength, easy dyeing, the advantage of moisture absorption of polyamide fibre, has again that the elasticity that falls is good, the conformality is good, stiff and smooth, non-ironing's advantage, polyamide fibre conductive silk makes the surface fabric have good antistatic properties;

2. the utility model provides an antibiotic deodorization composite bed is by antibiotic superfine fiber silk, cotton yarn and carbon fiber silk are woven and are constituted, antibiotic superfine fiber silk is the heliciform setting, and double-phase adjacent antibiotic superfine fiber silk is each other to detain and weave, should weave the structure and can promote the inside space of surface fabric, make the inside gas permeability of surface fabric promote, and be convenient for the reinforcing of ductility, antibiotic superfine fiber silk is added into chemical fiber with the mode of blending or master batch interpolation through the antiseptic and is made, the antibiotic effect of the metal cation of silver that contains through carrying, make the surface fabric have superior antibiotic deodorant effect, the travelling comfort of surface fabric and skin contact is guaranteed to cotton yarn, carbon fiber silk improves absorption rate and good deodorant effect to sweat.

Drawings

Fig. 1 is a schematic structural view of the fabric material of the present invention.

Fig. 2 is the weaving structure schematic diagram of the antistatic flame-retardant composite layer of the utility model.

Fig. 3 is a schematic view of the three-dimensional structure of the middle conductive yarn of the present invention.

Fig. 4 is a schematic view of the weaving structure of the middle antibacterial deodorizing composite layer of the present invention.

In the figure: 1. a single-velvet surface layer; 2. an antistatic flame-retardant composite layer; 201. a conductive yarn; 2011. polyester-nylon composite superfine fiber yarns; 2012. nylon conductive yarn; 202. polyester elastic yarn; 203. flame-retardant fiber yarns; 3. an antibacterial deodorizing composite layer; 301. antibacterial superfine fiber filaments; 302. cotton yarn; 303. carbon fiber filaments; 4. a first adhesive layer; 401. and a second adhesive layer.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

The utility model provides an antibiotic single face fine hair surface fabric with antistatic type cation as shown in fig. 1-4, which comprises a fabric body, the surface fabric body is by single fine hair surface course 1, prevent that the fire-retardant composite bed 2 of static and antibiotic deodorization composite bed 3 are compound to be constituted, surface fabric body upper strata is single fine hair surface course 1, it is equipped with the fire-retardant composite bed 2 of static to hug closely single fine hair surface course 1 bottom surface, it bonds through first viscose layer 4 between single fine hair surface course 1 and the fire-retardant composite bed 2 of static of preventing, the bottom surface of hugging closely preventing the fire-retardant composite bed 2 of static is equipped with antibiotic deodorization composite bed 3, it bonds through second viscose layer 401 between fire-retardant composite bed 2 of static and the antibiotic deodorization composite bed 3, first viscose layer 4, second viscose layer 401 is compound glue of PU resin, compound glue of PU resin has the membrane performance good, the bonding is firm, it is cold-resistant, water-fast efficiency.

As shown in fig. 2, the anti-static flame-retardant composite layer 2 is formed by weaving conductive yarn 201, elastic polyester yarn 202 and flame-retardant fiber yarn 203, the anti-static flame-retardant composite layer 2 is formed by weaving conductive yarn 201 as warp, elastic polyester yarn 202 as weft, and weaving the warp and the weft in a manner that each warp passes through one weft and then presses one weft, the elastic polyester yarn 202 enables the fabric to have good elasticity, the flame-retardant fiber yarn 203 serves as bias, the bias is respectively woven with the warp and the weft in a crossing manner, the flame-retardant fiber yarn 203 is one or any combination of flame-retardant polyester, flame-retardant modacrylic, flame-retardant vinylon, flame-retardant viscose, polysulfonamide and glass fiber, flame-retardant cellosilk 203 improves the fire resistance of surface fabric, make the surface fabric meet no shrink and melting phenomenon when the fire, from the fire self-extinguishing, effectively prevent flame spread, no smoldering phenomenon, as shown in fig. 3, electrically conductive yarn 201 comprises polyamide fibre composite superfine fiber silk 2011 and polyamide fibre electrically conductive silk 2012 doubling, polyester fibre composite superfine fiber silk 2011, polyamide fibre electrically conductive silk 2012 becomes 400 twists/m doubling through twisting doubling machine and constitutes electrically conductive yarn 201, polyester fibre composite superfine fiber silk 2011 has the wear-resisting of polyamide fibre, high strength, easy dyeing, the advantage of moisture absorption, it is good to have again to wash the fibre elasticity, the conformality is good, stiff and smooth, the advantage of non-ironing, polyamide fibre electrically conductive silk 2012 makes the surface fabric have good antistatic performance.

As shown in fig. 4, the antibacterial and deodorizing composite layer 3 is formed by weaving antibacterial ultrafine fiber filaments 301, cotton yarns 302 and carbon fiber filaments 303, the antibacterial ultrafine fiber filaments 301 are spirally arranged, two adjacent antibacterial ultrafine fiber filaments 301 are woven in a mutually buckled manner, the woven structure can improve the space inside the fabric, so that the air permeability inside the fabric is improved, and the ductility is enhanced conveniently, the cotton yarns 302 are used as weft yarns, and the weft yarns are circularly woven in a floating and sinking manner along the structural gaps of the antibacterial ultrafine fiber filaments 301, the cotton yarns 302 ensure the comfort of the fabric contacting with the skin, the carbon fiber filaments 303 are used as warp yarns, and the warp yarns are circularly woven in a floating and sinking manner along the structural gaps of the antibacterial ultrafine fiber filaments 301, so that the carbon fiber filaments 303 improve the absorption rate to sweat and the good deodorizing effect, the antibacterial ultrafine fiber filaments 301 are prepared by adding the antibacterial agent into the chemical fiber in a blending or master batch adding manner, the antibacterial agent is a mixture of silver-containing inorganic phosphate and the ultrafine metal oxide, and the antibacterial agent in the antibacterial ultrafine fiber filaments 301 mainly passes through the carried metal cation effect of silver, so that the fabric has the excellent deodorizing effect.

This practical theory of operation: the utility model discloses by single fine hair surface course 1, prevent that static fire-retardant composite bed 2 and antibiotic deodorization composite bed 3 are compound to be constituted, prevent that static fire-retardant composite bed 2 is woven by electrically conductive yarn 201, dacron elastic yarn 202 and flame retardant fiber silk 203 and constitute, electrically conductive yarn 201 is by polyester nylon composite superfine fiber silk 2011 and the nylon conductive silk 2012 doubling of silk constitute, wherein polyester nylon composite superfine fiber silk 2011 makes the surface fabric have the wear-resisting of nylon, high strength, easily dye, the hygroscopic advantage, it is good to have the elasticity that washes to sink again, the conformality is good, stiff and smooth, the advantage of non-ironing, nylon conductive silk 2012 makes the surface fabric have good antistatic performance; antibiotic deodorization composite bed 3 is by antibiotic superfine fiber silk 301, cotton yarn 302 and carbon fiber silk 303 weave and constitute, antibiotic superfine fiber silk 301 is the heliciform setting, and two adjacent antibiotic superfine fiber silks 301 are each other to detain and weave, this weave structure can promote the inside space of surface fabric, make the inside gas permeability of surface fabric promote, and be convenient for the reinforcing of ductility, antibiotic superfine fiber silk 301 is added into chemical fiber with the mode of blending or master batch interpolation through the antibacterial agent and is made, effect through the metallic cation of the antibiotic silver that carries, make the surface fabric have superior antibiotic deodorant effect, cotton yarn 302 guarantees the travelling comfort of surface fabric and skin contact, carbon fiber silk 303 improves the absorption rate to sweat and good deodorant effect.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions on some technical features, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principles of the present invention should be included in the scope of the present invention.

Claims (4)

1. The utility model provides an antibiotic single face matte material with anti-static type cation, includes the surface fabric body, its characterized in that: the fabric body is formed by compounding a single velvet surface layer (1), an anti-static flame-retardant composite layer (2) and an antibacterial deodorizing composite layer (3), the upper layer of the fabric body is the single velvet surface layer (1), the anti-static flame-retardant composite layer (2) is arranged close to the bottom surface of the single velvet surface layer (1), the single velvet surface layer (1) is bonded with the anti-static flame-retardant composite layer (2) through a first adhesive layer (4), the antibacterial deodorizing composite layer (3) is arranged close to the bottom surface of the anti-static flame-retardant composite layer (2), the anti-static flame-retardant composite layer (2) is bonded with the antibacterial deodorizing composite layer (3) through a second adhesive layer (401), the anti-static flame-retardant composite layer (2) is formed by weaving conductive yarns (201), polyester elastic yarns (202) and flame-retardant fiber yarns (203), and the antibacterial deodorizing composite layer (3) is formed by weaving antibacterial superfine fiber yarns (301), cotton yarns (302) and carbon fiber yarns (303).

2. The antibacterial single-sided velvet fabric with the antistatic cations, according to claim 1, is characterized in that: the antistatic flame-retardant composite layer (2) is formed by circularly weaving conductive yarns (201) serving as warp yarns and polyester elastic yarns (202) serving as weft yarns in a floating and sinking mode in a mode that each warp yarn passes through one weft yarn and then presses one weft yarn, the flame-retardant fiber yarns (203) serve as oblique yarns, and the oblique yarns are respectively interwoven with the warp yarns and the weft yarns.

3. The antibacterial single-face velvet fabric with the antistatic cations, as claimed in claim 2, is characterized in that: the conductive yarn (201) is formed by doubling polyester-nylon composite superfine fiber (2011) and nylon conductive yarn (2012) and is formed by twisting the polyester-nylon composite superfine fiber (2011) and the nylon conductive yarn (2012) into 400 twists/m by a twisting doubling machine to form the conductive yarn (201).

4. The antibacterial single-face velvet fabric with the antistatic cations, as claimed in claim 1, is characterized in that: the antibacterial superfine fiber yarns (301) are spirally arranged, two adjacent antibacterial superfine fiber yarns (301) are mutually buckled and woven, cotton yarns (302) are used as weft yarns, the weft yarns are circularly woven in a floating and sinking mode along the structural gaps of the antibacterial superfine fiber yarns (301), the carbon fiber yarns (303) are used as warp yarns, and the warp yarns are circularly woven in a floating and sinking mode along the structural gaps of the antibacterial superfine fiber yarns (301).

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