CN212372893U - Anti-pilling wool blended energy heat-preservation fabric - Google Patents

Abstract

The utility model discloses an anti balling-up wool blending energy heat preservation surface fabric, including anti balling-up fibrous layer, PE waterproof layer, antibiotic layer one, heat preservation, wool blending layer, anti crease layer, antibiotic layer two and toughness layer, anti balling-up fibrous layer is located the upper end, the lower extreme of anti balling-up fibrous layer is provided with the PE waterproof layer, the lower extreme of PE waterproof layer is provided with antibiotic layer one, the lower extreme of antibiotic layer one is provided with the heat preservation, the lower extreme of heat preservation is provided with wool blending layer, the lower extreme of wool blending layer is provided with anti crease layer, the lower extreme of anti crease layer is provided with antibiotic layer two, the lower extreme of antibiotic layer two is provided with toughness layer, wool blending layer is formed by wool fibre one and the mixed textile of pure cotton fiber. Has the advantages that: has strong practicability and improves the usability of the wool blended fabric.

Description

Anti-pilling wool blended energy heat-preservation fabric

Technical Field

The utility model relates to a surface fabric technical field particularly, relates to an anti wool blending energy heat preservation surface fabric that plays.

Background

Fabric is the material used to make clothing. As one of the three elements of the garment, the fabric not only can explain the style and the characteristics of the garment, but also directly controls the expression effects of the color and the shape of the garment. With the continuous improvement of the material and living standard of people, the requirements on the textile are turned from the basic requirements to mainly pursue fashion and express individuality, the requirements on the quantity, variety, grade and quality of the textile are higher and higher, and the textile is gradually finished, matched, fashionable and individualized. Along with the continuous enhancement of the health concept of consumers, the consumers pay more attention to the antibacterial performance of the fabric, a large amount of germs and the like are very easy to accumulate, the antibacterial effect is poor, the antibacterial performance is poor, the wearing is stiff, the activity heat preservation effect is not good, a large number of fabrics are easy to get up, and the wearing is not comfortable, so that the improvement is made.

An effective solution to the problems in the related art has not been proposed yet.

SUMMERY OF THE UTILITY MODEL

To the problem in the correlation technique, the utility model provides an anti wool blending energy heat preservation surface fabric that plays to overcome the above-mentioned technical problem that current correlation technique exists.

Therefore, the utility model discloses a specific technical scheme as follows:

the anti-pilling wool blending energy heat-insulation fabric comprises an anti-pilling fiber layer, a PE waterproof layer, an anti-bacterial layer I, a heat-insulation layer, a wool blending layer, an anti-wrinkling layer, an anti-bacterial layer II and a toughness layer, wherein the anti-pilling fiber layer I is located at the upper end, the lower end of the anti-pilling fiber layer is provided with the PE waterproof layer, the lower end of the PE waterproof layer is provided with the anti-bacterial layer I, the lower end of the anti-bacterial layer I is provided with the heat-insulation layer, the lower end of the heat-insulation layer is provided with the wool blending layer, the lower end of the wool blending layer is provided with the anti-wrinkling layer, the lower end of the anti-wrinkling layer II is provided with the anti-bacterial layer II, the lower end of the anti-bacterial layer II.

Furthermore, the anti-pilling fiber layer is formed by weaving anti-pilling acrylic fibers and spandex fibers in a mixed warp knitting mode.

Furthermore, the heat insulation layer is composed of a second wool fiber, a pure cotton fiber and a polyvinyl chloride fiber, the second wool fiber is located at the upper end of the polyvinyl chloride fiber, the pure cotton fiber is arranged at the lower end of the polyvinyl chloride fiber, and the polyvinyl chloride fiber is located between the second wool fiber and the pure cotton fiber.

Furthermore, the flexible layer is composed of polyester fibers, acetate fibers, chenille yarns and polyester fibers, the polyester fibers and the polyester fibers are connected in parallel, the acetate fibers are connected with the polyester fibers and the polyester fibers in a staggered mode, and the chenille yarns are located at the bottom ends of the polyester fibers, the acetate fibers and the polyester fibers and connected with each other.

Further, the first antibacterial layer is composed of modal fibers, bamboo charcoal fibers and graphene fibers, the graphene fibers are arranged at the lower ends of the modal fibers, and the bamboo charcoal fibers are arranged at the lower ends of the graphene fibers.

Furthermore, the second antibacterial layer is formed by connecting and mixing a chitin fiber knitted material layer and a nano-silver composite antibacterial fabric material layer, and activated carbon particles are arranged on both the chitin fiber knitted material layer and the nano-silver composite antibacterial fabric material layer.

Furthermore, the anti-wrinkle layer is formed by blending and connecting polyether ester elastic fibers and nylon fibers.

The utility model provides an anti wool blending energy heat preservation surface fabric that plays, beneficial effect as follows: the utility model discloses an anti-pilling fiber layer, PE waterproof layer, antibiotic layer one, heat preservation, wool blending layer, anti-wrinkle layer, antibiotic layer two and toughness layer effectively increase toughness, travelling comfort and the heat insulating ability of this surface fabric, have good antibacterial and bacterinertness between the while, increase the deodorization effect of this surface fabric, cleaner safety has very strong practicality, has improved the usability of wool blending surface fabric.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an anti-pilling wool blending energy heat-preservation fabric according to an embodiment of the present invention;

fig. 2 is a schematic view of an anti-pilling fiber layer of an anti-pilling wool blended energy insulation fabric according to an embodiment of the present invention;

fig. 3 is a schematic diagram of a tough layer of an anti-pilling wool blending energy insulation fabric according to an embodiment of the present invention;

fig. 4 is a schematic view of an antibacterial layer of an anti-pilling wool blending energy insulation fabric according to an embodiment of the present invention;

fig. 5 is a schematic view of an antibacterial layer two of the anti-pilling wool blending energy heat preservation fabric according to the embodiment of the invention.

In the figure:

1. an anti-pilling fibrous layer; 2. a PE waterproof layer; 3. an antibacterial layer I; 4. a heat-insulating layer; 5. a wool blend layer; 6. an anti-wrinkle layer; 7. a second antibacterial layer; 8. a ductile layer; 9. acrylic fibers; 10. spandex fibers; 11. polyester fiber; 12. acetate fibers; 13. a yarn of chenille; 14. polyester fibers; 15. modal fibers; 16. bamboo charcoal fiber; 17. graphene fibers; 18. a chitin fiber knitting material layer; 19. a nano-silver composite antibacterial fabric material layer; 20. activated carbon particles.

Detailed Description

For further explanation of the embodiments, the drawings are provided as part of the disclosure and serve primarily to illustrate the embodiments and, together with the description, to explain the principles of operation of the embodiments, and to provide further explanation of the invention and advantages thereof, it will be understood by those skilled in the art that various other embodiments and advantages of the invention are possible, and that elements in the drawings are not to scale and that like reference numerals are generally used to designate like elements.

According to the utility model discloses an embodiment provides an anti wool blending energy heat preservation surface fabric that plays.

The first embodiment is as follows:

as shown in fig. 1-5, the anti-pilling wool blended energy thermal insulation fabric according to the embodiment of the invention comprises an anti-pilling fiber layer 1, a PE waterproof layer 2, an antibacterial layer one 3, a thermal insulation layer 4, a wool blended layer 5, an anti-wrinkle layer 6, an antibacterial layer two 7 and a toughness layer 8, the anti-pilling fiber layer 1 is positioned at the upper end, the lower end of the anti-pilling fiber layer 1 is provided with the PE waterproof layer 2, the lower end of the PE waterproof layer 2 is provided with the first antibacterial layer 3, the lower end of the first antibacterial layer 3 is provided with the heat-insulating layer 4, the lower end of the heat-insulating layer 4 is provided with the wool blending layer 5, the lower end of the wool blending layer 5 is provided with the anti-wrinkle layer 6, the lower end of the anti-wrinkle layer 6 is provided with the second antibacterial layer 7, the lower end of the second antibacterial layer 7 is provided with the flexible layer 8, and the wool blending layer 5 is formed by mixing and spinning the first wool fiber and the pure cotton fiber.

Example two:

as shown in fig. 1-5, the anti-pilling fiber layer 1 is formed by warp knitting and weaving anti-pilling acrylic fibers 9 and spandex fibers 10 in a mixed manner. The heat insulation layer 4 is composed of a second wool fiber, a pure cotton fiber and a polyvinyl chloride fiber, the second wool fiber is located at the upper end of the polyvinyl chloride fiber, the pure cotton fiber is arranged at the lower end of the polyvinyl chloride fiber, and the polyvinyl chloride fiber is located between the second wool fiber and the pure cotton fiber. The flexible layer 8 is composed of polyester fibers 11, acetate fibers 12, chenille yarns 13 and polyester fibers 14, the polyester fibers 11 and the polyester fibers 14 are connected in parallel, the acetate fibers 12 are connected with the polyester fibers 11 and the polyester fibers 14 in a staggered mode, and the chenille yarns 13 are located at the bottom ends of the polyester fibers 11, the acetate fibers 12 and the polyester fibers 14 and connected with each other.

As shown in fig. 1 to 5, the first antibacterial layer 3 is composed of modal fibers 15, bamboo charcoal fibers 16 and graphene fibers 17, the graphene fibers 17 are disposed at the lower end of the modal fibers 15, and the bamboo charcoal fibers 16 are disposed at the lower end of the graphene fibers 17. The second antibacterial layer 7 is formed by connecting and mixing a chitin fiber knitted material layer 18 and a nano-silver composite antibacterial fabric material layer 19, and activated carbon particles 20 are arranged on both the chitin fiber knitted material layer 18 and the nano-silver composite antibacterial fabric material layer 19. The anti-wrinkle layer 6 is formed by blending and connecting polyether ester elastic fibers and nylon fibers.

For the convenience of understanding the technical solution of the present invention, the following detailed description is made on the working principle or the operation mode of the present invention in the practical process.

In practical application, bacteria in the fabric can be killed due to the sterilization capability of the graphene fiber 17, so that the fabric is cleaner, the bamboo charcoal fiber 16 and the activated carbon particles 20 can absorb peculiar smell in time and have an antibacterial effect, the nano-silver has no stimulation to skin, the bacteria can be prevented from breeding, good antibacterial and antibacterial properties are achieved between the bamboo charcoal fiber 16 and the activated carbon particles, the deodorization effect of the fabric is improved, the fabric is cleaner and safer, the fabric is strong in practicability, the heat insulation layer 4 is made of the second wool fiber, the pure cotton fiber and the polyvinyl chloride fiber, the temperature can be effectively insulated, the anti-pilling fiber layer 1 is made of the anti-pilling acrylic fiber 9 and the polyurethane fiber 10, the pilling of the fabric is avoided, the comfort degree is influenced, the anti-wrinkling layer 6 can enable the whole fabric to have the anti-wrinkling characteristic, and the toughness layer 8 is made of the polyester fiber 11, the polyester fiber 12, the chenille yarn 13 and the polyester fiber 14, the toughness strength of the real fabric is increased, so that the fabric is firmer and more durable.

To sum up, with the help of the utility model discloses an above-mentioned technical scheme, through anti-pilling fibre layer 1, PE waterproof layer 2, antibiotic layer 3, heat preservation 4, wool blending layer 5, crease-resistant layer 6, antibiotic layer two 7 and toughness layer 8, effectively increase toughness, travelling comfort and the heat insulating ability of this surface fabric, have good antibacterial and bacterinertness between the while, increase the deodorization effect of this surface fabric, it is clean safety more, have very strong practicality, improved the usability of wool blending surface fabric.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The anti-pilling wool blended energy heat-insulation fabric is characterized by comprising an anti-pilling fiber layer (1), a PE waterproof layer (2), an anti-microbial layer I (3), a heat-insulation layer (4), a wool blended layer (5), an anti-wrinkle layer (6), an anti-microbial layer II (7) and a toughness layer (8), wherein the anti-pilling fiber layer (1) is positioned at the upper end, the PE waterproof layer (2) is arranged at the lower end of the anti-pilling fiber layer (1), the anti-microbial layer I (3) is arranged at the lower end of the PE waterproof layer (2), the heat-insulation layer (4) is arranged at the lower end of the anti-microbial layer I (3), the wool blended layer (5) is arranged at the lower end of the heat-insulation layer (4), the anti-wrinkle layer (6) is arranged at the lower end of the wool blended layer (5), the anti-wrinkle layer II (7) is arranged at the lower end of the anti-wrinkle layer II (7), the wool blending layer (5) is formed by mixing and spinning the wool fiber I and the pure cotton fiber.

2. The anti-pilling wool blended energy heat-preservation fabric as claimed in claim 1, wherein the anti-pilling fiber layer (1) is formed by warp knitting and weaving anti-pilling acrylic fibers (9) and spandex fibers (10) in a mixed mode.

3. The anti-pilling wool blending energy heat-preservation fabric as claimed in claim 1, wherein the heat-preservation layer (4) is composed of wool fiber II, pure cotton fiber and polyvinyl chloride fiber, the wool fiber II is located at the upper end of the polyvinyl chloride fiber, the pure cotton fiber is arranged at the lower end of the polyvinyl chloride fiber, and the polyvinyl chloride fiber is located between the wool fiber II and the pure cotton fiber.

4. The anti-pilling wool blending energy insulation fabric as claimed in claim 1, wherein the flexible layer (8) is composed of polyester fibers (11), acetate fibers (12), chenille yarns (13) and polyester fibers (14), the polyester fibers (11) and the polyester fibers (14) are connected in parallel, the acetate fibers (12) are connected with the polyester fibers (11) and the polyester fibers (14) in an interlaced mode, and the chenille yarns (13) are connected with the bottom ends of the polyester fibers (11), the acetate fibers (12) and the polyester fibers (14).

5. The anti-pilling wool blending energy heat-preservation fabric as claimed in claim 1, wherein the first antibacterial layer (3) is composed of modal fibers (15), bamboo charcoal fibers (16) and graphene fibers (17), the graphene fibers (17) are arranged at the lower ends of the modal fibers (15), and the bamboo charcoal fibers (16) are arranged at the lower ends of the graphene fibers (17).

6. The anti-pilling wool blended energy heat-preservation fabric as claimed in claim 1, wherein the second antibacterial layer (7) is formed by connecting and mixing a chitin fiber knitted material layer (18) and a nano-silver composite antibacterial fabric material layer (19), and activated carbon particles (20) are arranged on both the chitin fiber knitted material layer (18) and the nano-silver composite antibacterial fabric material layer (19).

7. The anti-pilling wool blended energy heat-preservation fabric as claimed in claim 1, wherein the anti-wrinkle layer (6) is formed by blending and connecting polyether ester elastic fibers and nylon fibers.

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