CN215152603U - Fabric for manufacturing antiviral upper garment - Google Patents

Abstract

The application discloses surface fabric for making antiviral jacket belongs to textile fabric's technical field, and it includes the surface fabric basic unit, the surface fabric basic unit is woven by the soybean fibre and is formed, inoxidizing coating and surface fabric top layer have set gradually on a surface fabric basic unit side, the inoxidizing coating is woven by graphite alkene fibre and is formed, the surface fabric top layer is woven by nano silver fibre and covering core fibre and is formed. This application has when guaranteeing the antitoxic antibacterial effect of surface fabric, improves the gas permeability of surface fabric, increases the effect of wearer's comfort level.

Description

Fabric for manufacturing antiviral upper garment

Technical Field

The application relates to the technical field of textile fabrics, in particular to a fabric for manufacturing an antiviral coat.

Background

Along with the improvement of living standard, the requirement of people on the quality of life is higher and higher, and the clothes as the article that is closest to people's life, single function has not satisfied people's demand, and nowadays, the multiple antiviral surface fabric has appeared in the market.

In the related art, the chinese utility model patent with publication number CN212219501U discloses a multifunctional antiviral protective fabric, which consists of a skin-friendly layer, a base fabric, an infrared reflection layer, an infrared absorption layer, an ultraviolet-resistant layer, an antiviral layer, an anti-mosquito ant and mouse layer, and a printing layer, wherein the skin-friendly layer is one of pure cotton cloth, velvety cotton cloth, and silk cloth; the base cloth is one of nano-silver sterilization cloth, spray-melt non-woven fabric, textile non-woven fabric, chemical fiber cloth and cotton cloth; the infrared reflecting layer is formed by coating infrared reflecting paint on the base cloth; the infrared absorption layer is formed by coating infrared absorption paint on the base cloth; the ultraviolet resistant layer is formed by coating ultraviolet resistant paint on a base cloth; the antiviral layer is formed by coating antiviral paint on a base cloth; the anti-termite/mouse-proof layer is formed by coating anti-termite/mouse-proof paint on the base cloth; the printing layer is water-based ink printed on the base cloth.

In view of the above-mentioned related arts, the inventors believe that the versatility of the fabric is achieved by the functional coating, and the film formed by the multilayer coating on the fabric tends to reduce the air permeability of the entire fabric, thereby affecting the comfort of the wearer.

SUMMERY OF THE UTILITY MODEL

In order to improve the air permeability of the fabric and ensure the comfort level of a wearer, the application provides the fabric for manufacturing the anti-virus jacket.

The technical scheme is that the fabric for manufacturing the antiviral upper garment comprises the following steps:

the utility model provides a surface fabric for making antiviral jacket, includes the surface fabric basic unit, the surface fabric basic unit is woven by soybean fibre and is formed, set gradually inoxidizing coating and surface fabric top layer on a side of surface fabric basic unit, the inoxidizing coating is woven by graphite alkene fibre and is formed, the surface fabric top layer is woven by nanometer silver fibre and covering core fibre and is formed.

By adopting the technical scheme, the fabric base layer formed by weaving the soybean fibers has excellent skin-friendly property and air permeability, the soybean fibers have high tensile strength, strong acid and alkali resistance and good moisture absorption and conduction properties, and when the fabric base layer is attached to the surface of the skin, the fabric base layer can absorb sweat on the surface of the skin too fast, so that the comfort level of a wearer is ensured; the graphene fiber has good air permeability and antiviral and bacteriostatic properties, the protective layer woven by the graphene fiber can directly cut bacterial cell membranes to kill bacteria, and phospholipid molecules on the bacterial cell membranes can be directly extracted in a large scale to destroy the cell membranes so as to kill the bacteria; the outer layer of the fabric woven by utilizing the nano-silver fibers and the core-spun fibers not only has the effects of antibiosis, disinfection, radiation protection, static resistance, deodorization and the like, but also can keep good air permeability, thereby ensuring the comfort level of a wearer.

Preferably, the core-spun fiber is formed by winding a plurality of kapok fibers on polyester fibers.

By adopting the technical scheme, the polyester fiber is used as the inner core, and the kapok fiber is used as the outer wrapping fiber, so that the core-wrapped fiber has the advantages of the polyester fiber and the kapok fiber, and has the performances of antibiosis, good air permeability and good moisture absorption and permeability of the kapok fiber, high strength, high elasticity recovery capability and wrinkle resistance and non-ironing of the polyester fiber.

Preferably, a connecting layer is arranged between the protective layer and the fabric base layer, and the connecting layer is formed by weaving bamboo charcoal fibers.

By adopting the technical scheme, the connection layer is favorable for strengthening the connection between the protective layer and the fabric base layer, and the bamboo charcoal fiber is selected as the connection layer, so that the connection layer has the characteristics of moisture absorption, ventilation, virus resistance, bacteriostasis and the like.

Preferably, the connecting layer is provided with air holes, the connecting layer is internally provided with dehydrated gel particles, the dehydrated gel particles are abutted against the inner side wall of the air holes, and the dehydrated gel particles are abutted against the fabric base layer.

Through adopting above-mentioned technical scheme, the gas permeability of surface fabric is further improved in setting up of bleeder vent to conveniently hold the dehydration gel granule, being provided with of dehydration gel granule does benefit to the sweat on the absorption surface fabric basic unit, thereby guarantees the dry and comfortable of surface fabric basic unit.

Preferably, fiber bundles extend out of two sides of the connecting layer, the fiber bundles close to one side of the protective layer are fixedly connected with the protective layer, and the fiber bundles close to one side of the fabric base layer are fixedly connected with the fabric base layer.

Through adopting above-mentioned technical scheme, being provided with of tow does benefit to further to strengthen the joint strength between articulamentum and inoxidizing coating, the surface fabric basic unit, and the absorptive sweat of surface fabric basic unit also can be carried fast through the tow.

Preferably, the fiber bundles and the air holes are arranged in a plurality, and the fiber bundles and the air holes are arranged at intervals.

By adopting the technical scheme, the moisture-conducting effect of the fabric is improved under the condition of ensuring the air permeability of the fabric.

Preferably, a connecting line penetrates through the connecting layer at the position of each row of the air holes, the connecting line sequentially penetrates through the fabric base layer, the connecting layer, the protective layer and the fabric surface layer along an S-shaped route, and the connecting line penetrates through the air holes.

Through adopting above-mentioned technical scheme, the setting up of connecting wire strengthens being connected between surface fabric basic unit, articulamentum, inoxidizing coating and the surface fabric top layer on the one hand, and connecting wire on the other hand provides the transport passage of moisture, makes things convenient for sweat or moisture on skin surface to transport to the surface fabric top layer fast, evaporates the surface fabric at last.

Preferably, the connecting thread is made of combed cotton.

By adopting the technical scheme, the connecting line made of combed cotton is not only smooth and compact, but also has the advantages of good moisture absorption and discharge performance, and easy washing and drying.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the fabric base layer woven by the soybean fibers has excellent air permeability, strong acid and alkali resistance and moisture absorption and moisture conductivity, and can absorb sweat on the surface of skin too quickly, so that the comfort of a wearer is ensured; the graphene fiber has good air permeability and antiviral and antibacterial properties; the outer layer of the woven fabric made of the nano-silver fibers and the core-spun fibers not only has the effects of antibiosis, disinfection, radiation protection, static resistance, deodorization and the like, but also can keep good air permeability, so that the comfort level of a wearer is ensured;

2. the arrangement of the air holes further improves the air permeability of the fabric, and the arrangement of the dehydrated gel particles is beneficial to absorbing sweat on the fabric base layer, so that the dryness of the fabric base layer is ensured;

3. the setting up of connecting wire strengthens being connected between surface fabric basic unit, articulamentum, inoxidizing coating and the surface fabric top layer on the one hand, and connecting wire on the other hand provides the transport passage of moisture, makes things convenient for sweat or the moisture on skin surface to transport to the surface fabric top layer fast, evaporates the surface fabric at last.

Drawings

Fig. 1 is a schematic view of the internal structure of the fabric for manufacturing the antiviral upper garment according to the embodiment of the present application.

Fig. 2 is a schematic structural diagram of a surface layer of the fabric in the embodiment of the present application.

Fig. 3 is a schematic structural view of a core-spun fiber of an embodiment of the present application.

Description of reference numerals:

1. a fabric base layer; 2. a connecting layer; 21. air holes are formed; 22. dehydrating the gel particles; 23. a fiber bundle; 24. a connecting wire; 3. a protective layer; 4. a surface layer of the fabric; 41. nano silver fibers; 42. a core-spun fiber; 421. kapok fiber; 422. polyester fiber.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses a fabric for manufacturing an antiviral coat. Referring to fig. 1, the fabric for manufacturing the antiviral upper garment comprises a fabric base layer 1, wherein a connecting layer 2, a protective layer 3 and a fabric surface layer 4 are fixedly connected to one side surface of the fabric base layer 1 in sequence.

Referring to fig. 1, the fabric base layer 1 is formed by weaving soybean fibers, the soybean fibers belong to regenerated vegetable protein fibers, and the soybean fibers have cashmere-like soft hand feeling and good air permeability and skin-friendly property. Soybean fiber tensile strength is high, acidproof alkali resistance is strong, the moisture absorption is led wet nature good, when sweat appears in the skin surface of wearer, by the sweat on skin surface of the surface fabric basic unit 1 that soybean fiber weaved can absorb fast to make the skin surface keep dry and comfortable, guarantee wearer's comfort level.

Referring to fig. 1, the protective layer 3 is made of graphene fibers, the graphene is a honeycomb-lattice two-dimensional carbon nanomaterial composed of carbon atoms, the graphene fibers are made of graphene and fiber materials by mixing through a nanotechnology, and the graphene fibers have super-strong antiviral and antibacterial properties, air permeability and far infrared properties. The bacteria can move away on the graphene fibers, the graphene fibers can easily cut the cell walls of the bacteria to kill the bacteria, and the graphene fibers can also damage the cell membranes by extracting phospholipid molecules on the cell membranes of the bacteria in a large scale so as to kill the bacteria. The physical antiviral and antibacterial performance of the graphene fiber cannot be reduced along with long-term use, and the graphene fiber is permanent.

Referring to fig. 2 and 3, the fabric surface layer 4 is formed by interweaving nano silver fibers 41 and core-spun fibers 42, the core-spun fibers 42 include kapok fibers 421 and polyester fibers 422, and a single core-spun fiber 42 is formed by winding a plurality of kapok fibers 421 on the polyester fibers 422. When the components of the nano-silver fibers 41 account for the proper proportion of the total components of the fabric, the fabric not only has the functions of bacteriostasis, disinfection, radiation protection, static resistance and deodorization of the nano-silver fibers 41, but also has the advantage of the core-spun fibers 42. The core-spun fiber 42 utilizes the polyester fiber 422 as an inner core and the kapok fiber 421 as an outer wrapping fiber, so that the core-spun fiber 42 has the advantages of the polyester fiber 422 and the kapok fiber, and the core-spun fiber 42 has the performances of antibiosis, good air permeability and good moisture absorption and permeability of the kapok fiber 421, and also has the high strength and high elastic recovery capability of the polyester fiber 422.

Referring to fig. 1, the connection layer 2 is made of bamboo charcoal fiber, the bamboo charcoal fiber is of a honeycomb-shaped microporous structure penetrating through the inside and the outside, the bamboo charcoal fiber is soft in hand feeling, high in toughness and wear resistance and unique in rebound resilience, the connection layer 2 woven by the bamboo charcoal fiber is better in moisture absorption and air permeability, and can resist and inhibit bacteria, resist ultraviolet rays and eliminate peculiar smell, and the comfort level of a wearer can be met to the greatest extent. The connecting layer 2 is provided with a plurality of air holes 21, the openings of the air holes 21 are circular, and the air holes 21 are uniformly distributed. Be provided with a plurality of dehydration gel particles 22 in the articulamentum 2, dehydration gel particle 22 sets up in the bleeder vent 21 of articulamentum 2, and dehydration gel particle 22 and bleeder vent 21's inside wall butt, and dehydration gel particle 22 and 1 butt of surface fabric basic unit. The arrangement of the dehydrated gel particles 22 is beneficial to absorbing sweat on the fabric base layer 1 and locking moisture, thereby ensuring the dryness of the fabric base layer 1.

Referring to fig. 1, fiber bundles 23 extend from two sides of the connecting layer 2, the fiber bundles 23 near one side of the protective layer 3 extend into the protective layer 3 and are fixedly connected with the protective layer 3, and the fiber bundles 23 near one side of the fabric base layer 1 extend into the fabric base layer 1 and are fixedly connected with the fabric base layer 1. The fiber bundles 23 are arranged in a plurality of numbers, the fiber bundles 23 are uniformly arranged, and the fiber bundles 23 and the air holes 21 are arranged at intervals. The arrangement of the fiber bundles 23 is beneficial to enhancing the connection strength between the connecting layer 2 and the protective layer 3 and between the fabric base layer 1.

Referring to fig. 1, a connecting line 24 penetrates through each row of air holes 21 on the connecting layer 2, the connecting line 24 is made of combed cotton, the length direction of the connecting line 24 is consistent with that of each row of air holes 21, the connecting line 24 sequentially penetrates through the fabric base layer 1, the connecting layer 2, the protective layer 3 and the fabric surface layer 4 along an S-shaped route, the connecting line 24 penetrates through the air holes 21, and the connecting line 24 is abutted to the dehydrated gel particles 22. Connecting wire 24 made by combed cotton not only has levelly and smoothly, tight real advantage, and it is wet good to absorb moisture to discharge, easily wash easily dry, consequently, surface fabric basic unit 1 can be strengthened on the one hand to the setting of connecting wire 24, articulamentum 2, the joint strength between inoxidizing coating 3 and the surface fabric top layer 4, connecting wire 24 set up the delivery path that on the other hand can provide sweat or moisture, make things convenient for sweat or the moisture on skin surface to carry to surface fabric top layer 4 fast, evaporate the surface fabric at last, guarantee the comfortable degree of wearer.

The implementation principle of the fabric for manufacturing the antiviral upper garment in the embodiment of the application is as follows: the protective layer 3 made of the graphene fibers has permanent antiviral and antibacterial capabilities, and the surface layer 4 of the fabric woven by the nano-silver fibers 41 and the core-spun fibers 42 has antibacterial and disinfectant performances and can keep good air permeability. The fabric base layer 1 woven by the soybean fibers has excellent skin-friendly property, air permeability, moisture absorption and moisture conductivity, and sweat on the surface of skin can be absorbed by the fabric base layer 1 too quickly, so that the comfort level of a wearer is guaranteed.

The connecting layer 2 made of bamboo charcoal fiber can ensure good air permeability while resisting and inhibiting viruses. Connecting wire 24 set up on the one hand and can strengthen the joint strength between surface fabric basic unit 1, articulamentum 2, inoxidizing coating 3 and the surface fabric top layer 4, and on the other hand can provide the transfer passage of sweat, makes things convenient for sweat or the moisture on skin surface to carry to surface fabric top layer 4 fast, evaporates the surface fabric at last, guarantees the comfortable degree of wearer.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a surface fabric for making antiviral jacket, includes surface fabric basic unit (1), its characterized in that: the fabric base layer (1) is formed by weaving soybean fibers, a protective layer (3) and a fabric surface layer (4) are sequentially arranged on one side face of the fabric base layer (1), the protective layer (3) is formed by weaving graphene fibers, and the fabric surface layer (4) is formed by weaving nano-silver fibers (41) and core-spun fibers (42).

2. The fabric for manufacturing antiviral coats as claimed in claim 1, wherein: the core-spun fiber (42) is formed by winding a plurality of kapok fibers (421) on polyester fibers (422).

3. The fabric for manufacturing antiviral coats as claimed in claim 1, wherein: a connecting layer (2) is arranged between the protective layer (3) and the fabric base layer (1), and the connecting layer (2) is formed by weaving bamboo charcoal fibers.

4. The fabric for manufacturing antiviral coats as claimed in claim 3, wherein: the fabric base layer is characterized in that air holes (21) are formed in the connecting layer (2), dehydrated gel particles (22) are arranged in the connecting layer (2), the dehydrated gel particles (22) are abutted to the inner side walls of the air holes (21), and the dehydrated gel particles (22) are abutted to the fabric base layer (1).

5. The fabric for manufacturing antiviral coats as claimed in claim 4, wherein: and fiber bundles (23) extend out of two sides of the connecting layer (2), the fiber bundles (23) close to one side of the protective layer (3) are fixedly connected with the protective layer (3), and the fiber bundles (23) close to one side of the fabric base layer (1) are fixedly connected with the fabric base layer (1).

6. The fabric for manufacturing antiviral coats as claimed in claim 5, wherein: the fiber bundles (23) and the air holes (21) are all provided with a plurality of air holes, and the fiber bundles (23) and the air holes (21) are arranged at intervals.

7. The fabric for manufacturing antiviral coats as claimed in claim 4, wherein: every row on the connecting layer (2) the position department of bleeder vent (21) wears to be equipped with connecting wire (24), connecting wire (24) pass along S-shaped route in proper order surface fabric basic unit (1), connecting layer (2), inoxidizing coating (3) and surface fabric top layer (4), just connecting wire (24) run through bleeder vent (21).

8. The fabric for manufacturing antiviral coats as claimed in claim 7, wherein: the connecting thread (24) is made of combed cotton.

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