CN220576799U - Anti-pilling composite fabric with elastic cotton layer inside - Google Patents

Abstract

The utility model discloses an anti-pilling composite fabric with a built-in elastic cotton layer, which comprises a body, wherein the top of the body is provided with the anti-pilling layer, an anti-static layer is arranged below the anti-pilling layer, an elastic cotton layer is arranged below the anti-static layer, an antibacterial layer is arranged below the elastic cotton layer, a thermal insulation layer is arranged below the antibacterial layer, the bottom of the body is a skin-friendly layer arranged below the thermal insulation layer, the thermal insulation layer comprises porous bionic fibers and cotton fibers, the cotton fibers are adhered to the bottom of the porous bionic fibers through adhesive, and a plurality of hollow tubes are arranged in the porous bionic fibers, so that the anti-pilling composite fabric has the beneficial effects: the thermal insulation layer arranged on the composite fabric is close to the skin and comprises porous bionic fibers and cotton fibers, a plurality of hollow tubes are arranged in the imitated porous bionic fibers constructed according to the north pole Xiong Mao, and air is encapsulated in the hollow tubes, so that heat convection can be prevented, heat disappearance is greatly reduced, and a good thermal insulation effect is achieved.

Description

Anti-pilling composite fabric with elastic cotton layer inside

Technical Field

The utility model relates to the field of composite fabrics, in particular to an anti-pilling composite fabric with a built-in elastic cotton layer.

Background

The composite fabric uses the high technology of 'new synthetic fiber' and new materials, has a plurality of excellent performances (compared with common synthetic fiber), such as fine, clean, exquisite, elegant and warm fabric, plump fabric appearance, windproof and breathable, has certain waterproof function, and has the main characteristics of warmth retention and good breathability. The fabric is also characterized in that: the wear resistance is good, and the superfine fiber fabric has the obvious advantages in the aspects of touch feeling and physiological comfort because of soft hand feeling, ventilation and moisture permeability, and the superfine fiber fabric has poor wrinkle resistance (due to the softness of the fiber and poor elastic recovery after wrinkling); in order to overcome the defect, a composite process is adopted, so that the defect of poor wrinkle resistance of the superfine fiber fabric is greatly improved. The composite fabric is a popular coat fabric in Europe and America.

For example, the utility model publication number is: the utility model provides an anti-pilling elastic cotton composite fabric of CN216507089U, includes the surface fabric main part, the surface fabric main part includes anti-pilling layer, anti-pilling's upper surface is provided with wear-resisting lug, and wear-resisting lug's cross-sectional shape is convex, anti-pilling's lower surface is provided with antistatic backing, antistatic backing's lower surface is provided with elastic cotton layer, elastic cotton layer's lower surface is provided with the ventilative layer, ventilative layer's lower surface is provided with the degerming layer, degerming layer's lower surface is provided with comfortable layer. The utility model has the advantages that: the anti-pilling layer of the fabric can effectively enhance the anti-pilling performance of the composite fabric, and the wear-resistant protruding blocks are arranged on the upper surface of the anti-pilling layer, so that the anti-pilling performance of the fabric is better, the elastic cotton layer is arranged in the fabric, and the high-strength rubber band is arranged in the elastic cotton layer, so that the fabric has good elastic performance, and people wear the garment more conveniently and comfortably.

Although the anti-pilling elastic cotton composite fabric has good anti-pilling performance, the anti-pilling elastic cotton composite fabric has no good warm-keeping effect when being applied under the low temperature condition.

Disclosure of Invention

In order to overcome the defects in the prior art, the utility model provides an anti-pilling composite fabric with a built-in elastic cotton layer, which solves the problem that the fabric cannot keep warm under the low-temperature condition in the background art.

In order to solve the technical problems, the utility model provides the following technical scheme: the utility model provides an anti-pilling composite fabric with a built-in elastic cotton layer, includes the body, the body top is anti-pilling layer, anti-pilling layer below is equipped with antistatic backing, antistatic backing below is equipped with elastic cotton layer, elastic cotton layer below is equipped with antibiotic layer, antibiotic layer below is equipped with the cold-proof layer, the body bottom is for setting up the skin layer in cold-proof layer below, its characterized in that: the thermal insulation layer comprises porous bionic fibers and cotton fibers, the cotton fibers are adhered to the bottoms of the porous bionic fibers through adhesive, and a plurality of hollow tubes are arranged in the porous bionic fibers.

Preferably, the anti-pilling layer is anti-pilling polyester, the anti-pilling polyester is arranged at the top of the body, and an antistatic layer adhered by an adhesive is arranged at the bottom of the anti-pilling layer.

Preferably, the antistatic layer comprises conductive fibers and chitin fibers, the conductive fibers are adhered to the bottom of the anti-pilling polyester fibers through adhesive, the chitin fibers are adhered to the bottom of the conductive fibers through adhesive, and an elastic cotton layer adhered through adhesive is arranged at the bottom of the antistatic layer.

Preferably, the elastic cotton layer comprises elastic cotton, the elastic cotton is adhered to the bottom of the chitin fiber through an adhesive, and an antibacterial layer adhered through the adhesive is arranged at the bottom of the elastic cotton layer.

Preferably, the antibacterial layer comprises bamboo charcoal fiber and flax fiber, the bamboo charcoal fiber is adhered to the bottom of the elastic cotton through an adhesive, the flax fiber is adhered to the bottom of the bamboo charcoal fiber through the adhesive, a thermal insulation layer adhered through the adhesive is arranged at the bottom of the antibacterial layer, porous bionic fiber of the thermal insulation layer is adhered to the bottom of the flax fiber through the adhesive, and a skin-friendly layer adhered through the adhesive is further arranged at the bottom of the thermal insulation layer.

Preferably, the skin-friendly layer is arranged at the bottommost layer of the body and comprises silk-hemp and skin-friendly cotton, wherein the silk-hemp is adhered to the bottom of cotton fiber through an adhesive, and the skin-friendly cotton is adhered to the bottom of the silk-hemp through the adhesive.

Compared with the prior art, the utility model has the following beneficial effects: the thermal insulation layer arranged on the composite fabric is close to the skin and comprises porous bionic fibers and cotton fibers, a plurality of hollow tubes are arranged in the imitated porous bionic fibers constructed according to the north pole Xiong Mao, and air is encapsulated in the hollow tubes, so that heat convection can be prevented, heat disappearance is greatly reduced, and a good thermal insulation effect is achieved.

Drawings

FIG. 1 is a cross-sectional view of the present utility model;

FIG. 2 is a cross-sectional view of a portion of the structure of the present utility model;

FIG. 3 is a cross-sectional view of a portion of the structure of the present utility model;

FIG. 4 is a cross-sectional view of a portion of the structure of the present utility model;

FIG. 5 is a cross-sectional view of a portion of the structure of the present utility model;

wherein: 1. a body; 2. an anti-pilling layer; 3. anti-pilling polyester; 4. an antistatic layer; 5. a conductive fiber; 6. chitin fiber; 7. an elastic cotton layer; 8. elastic cotton; 9. an antimicrobial layer; 10. bamboo charcoal fiber; 11. flax fibers; 12. a thermal layer; 13. a porous biomimetic fiber; 14. a hollow tube; 15. cotton fibers; 16. a skin-friendly layer; 17. silk hemp; 18. skin-friendly cotton.

Detailed Description

In order that the manner in which the above recited features, objects and advantages of the present utility model are obtained will become readily apparent, a more particular description of the utility model will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings. Based on the examples in the embodiments, those skilled in the art can obtain other examples without making any inventive effort, which fall within the scope of the utility model. The experimental methods in the following examples are conventional methods unless otherwise specified, and materials, reagents, etc. used in the following examples are commercially available unless otherwise specified.

Examples:

as shown in fig. 1-5, the utility model provides an anti-pilling composite fabric with a built-in elastic cotton layer, which comprises a body 1, wherein an anti-pilling layer 2 is arranged at the top of the body 1, an antistatic layer 4 is arranged below the anti-pilling layer 2, an elastic cotton layer 7 is arranged below the antistatic layer 4, an antibacterial layer 9 is arranged below the elastic cotton layer 7, a thermal insulation layer 12 is arranged below the antibacterial layer 9, and a skin-friendly layer 16 arranged below the thermal insulation layer 12 is arranged at the bottom of the body 1, and is characterized in that: the thermal insulation layer 12 comprises porous bionic fibers 13 and cotton fibers 15, the cotton fibers 15 are adhered to the bottoms of the porous bionic fibers 13 through adhesive, and a plurality of hollow tubes 14 are arranged in the porous bionic fibers 13.

In this embodiment, specifically, the anti-pilling layer 2 is anti-pilling polyester 3, the anti-pilling polyester 3 is disposed at the top of the body 1, an antistatic layer 4 adhered by an adhesive is disposed at the bottom of the anti-pilling layer 2, and the anti-pilling layer 2 is disposed to avoid that the composite fabric is easy to rub and pill during daily use, and the anti-pilling polyester 3 is made of anti-pilling fibers, and is chemical fibers that are prevented from forming pellets due to mutual friction of the fibers after being treated by chemical modification or physical methods.

In this embodiment, specifically, antistatic layer 4 includes conductive fiber 5 and chitin fibre 6, conductive fiber 5 passes through the adhesion agent adhesion in anti-pilling dacron 3 bottoms, chitin fibre 6 passes through the adhesion agent adhesion in conductive fiber 5 bottoms, antistatic layer 4 bottom is equipped with the elastic cotton layer 7 through the adhesion agent adhesion, sets up antistatic layer 4 in order to prevent outside static inflow or self static outflow when using this surface fabric, and chitin fibre 6 has the wettability owing to its own natural positive charge, enables fibre surface voltage to drop to below 800 volts from 1500 volts, can effectively combat static.

In this embodiment, specifically, the elastic cotton layer 7 includes elastic cotton 8, elastic cotton 8 passes through the adhesion agent adhesion in chitin fibre 6 bottom, elastic cotton layer 7 bottom is equipped with antibiotic layer 9 through the adhesion agent adhesion, sets up elastic cotton layer 7 in order to make the surface fabric have good tensile and elasticity, promotes the feel, can adapt to the crooked needs of each position of health, be difficult for wrinkling, be difficult for producing the pleat.

In this embodiment, specifically, antibiotic layer 9 includes bamboo charcoal fiber 10 and flax fiber 11, bamboo charcoal fiber 10 passes through the adhesion agent adhesion in elastic cotton 8 bottoms, flax fiber 11 passes through the adhesion agent adhesion in bamboo charcoal fiber 10 bottoms, antibiotic layer 9 bottom is equipped with the cold-proof layer 12 through the adhesion agent adhesion, the porous bionic fiber 13 of cold-proof layer 12 passes through the adhesion agent adhesion in flax fiber 11 bottoms, cold-proof layer 12 bottom still is equipped with the skin-friendly layer 16 through the adhesion agent adhesion, sets up antibiotic layer 9 in order to reduce outside bacterium and gets into or the inside bacterium of surface fabric and spread, and bamboo charcoal fiber 10 has good antibiotic antibacterial effect, and this mainly comes from "bamboo in the bamboo fiber" composition, has natural antibiotic, antibacterial, deodorization efficiency.

In this embodiment, specifically, the skin-friendly layer 16 is disposed at the bottommost layer of the body 1, including the silk-hemp 17 and the skin-friendly cotton 18, the silk-hemp 17 is adhered to the bottom of the cotton fiber 15 by the adhesive, the skin-friendly cotton 18 is adhered to the bottom of the silk-hemp 17 by the adhesive, and the skin-friendly layer 16 is disposed so that the fabric can be worn next to the skin, ensuring comfort, wherein the skin-friendly cotton 18 also has a thermal insulation effect.

Working principle: the anti-pilling polyester fabric is sequentially adhered with an anti-pilling layer, an anti-static layer, an elastic cotton layer, an antibacterial layer, a thermal insulation layer and a skin-friendly layer through adhesive, wherein the anti-pilling layer is anti-pilling polyester, the internal fibers can be prevented from rubbing mutually to form small balls, the anti-static layer is conductive fibers and chitin fibers, the chitin fibers themselves have natural positive charges and have moisture retention, the surface voltage of the fibers can be effectively reduced to below 800 volts, static electricity can be effectively resisted, the elastic cotton layer is elastic cotton, good elasticity and stretching are realized, the anti-static layer is suitable for parts needing bending, the antibacterial layer is bamboo charcoal fibers and flax fibers, bamboo charcoal components in the bamboo charcoal fibers have natural antibacterial, antibacterial and deodorizing effects, the porous bionic fibers are imitated according to the structures of the North pole Xiong Mao, the internal hollow tubes can prevent heat convection, the loss of heat is reduced, the skin-friendly layer is silk and skin-friendly cotton, and the comfort degree of the skin can be guaranteed.

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 utility model provides an anti-pilling composite fabric with a built-in elastic cotton layer, includes body (1), body (1) top is anti-pilling layer (2), anti-pilling layer (2) below is equipped with antistatic backing (4), antistatic backing (4) below is equipped with elastic cotton layer (7), elastic cotton layer (7) below is equipped with antibacterial layer (9), antibacterial layer (9) below is equipped with cold-proof layer (12), body (1) bottom is for setting up skin-friendly layer (16) in cold-proof layer (12) below, its characterized in that: the thermal insulation layer (12) comprises porous bionic fibers (13) and cotton fibers (15), the cotton fibers (15) are adhered to the bottoms of the porous bionic fibers (13) through adhesive, and a plurality of hollow tubes (14) are arranged in the porous bionic fibers (13).

2. The anti-pilling composite fabric with the elastic cotton layer inside according to claim 1, wherein the anti-pilling composite fabric is characterized in that: anti-pilling layer (2) are anti-pilling dacron (3), anti-pilling dacron (3) set up at body (1) top, anti-pilling layer (2) bottom is equipped with antistatic backing (4) through the adhesion of adhesion agent.

3. The anti-pilling composite fabric with the elastic cotton layer inside according to claim 1, wherein the anti-pilling composite fabric is characterized in that: the antistatic coating (4) comprises conductive fibers (5) and chitin fibers (6), wherein the conductive fibers (5) are adhered to the bottom of the anti-pilling polyester (3) through adhesive, the chitin fibers (6) are adhered to the bottom of the conductive fibers (5) through adhesive, and an elastic cotton layer (7) adhered through adhesive is arranged at the bottom of the antistatic coating (4).

4. The anti-pilling composite fabric with the elastic cotton layer inside according to claim 1, wherein the anti-pilling composite fabric is characterized in that: the elastic cotton layer (7) comprises elastic cotton (8), the elastic cotton (8) is adhered to the bottom of the chitin fiber (6) through an adhesive, and an antibacterial layer (9) adhered through the adhesive is arranged at the bottom of the elastic cotton layer (7).

5. The anti-pilling composite fabric with the elastic cotton layer inside according to claim 1, wherein the anti-pilling composite fabric is characterized in that: the antibacterial layer (9) comprises bamboo charcoal fibers (10) and flax fibers (11), the bamboo charcoal fibers (10) are adhered to the bottom of the elastic cotton (8) through adhesive, the flax fibers (11) are adhered to the bottom of the bamboo charcoal fibers (10) through adhesive, the bottom of the antibacterial layer (9) is provided with a thermal insulation layer (12) adhered by adhesive, porous bionic fibers (13) of the thermal insulation layer (12) are adhered to the bottom of the flax fibers (11) through adhesive, and a skin-friendly layer (16) adhered by adhesive is further arranged at the bottom of the thermal insulation layer (12).

6. The anti-pilling composite fabric with the elastic cotton layer inside according to claim 1, wherein the anti-pilling composite fabric is characterized in that: the skin-friendly layer (16) is arranged at the bottommost layer of the body (1) and comprises silk and hemp (17) and skin-friendly cotton (18), wherein the silk and hemp (17) is adhered to the bottom of cotton fibers (15) through an adhesive, and the skin-friendly cotton (18) is adhered to the bottom of the silk and hemp (17) through the adhesive.