CN114193853A

CN114193853A - Antibacterial jacquard shoe upper mesh fabric with mint fiber cool feeling

Info

Publication number: CN114193853A
Application number: CN202111560473.3A
Authority: CN
Inventors: 蔡波来; 余志鹏; 林萍萍; 蔡少华; 李再添
Original assignee: Quanzhou Wansheng New Material Technology Co ltd
Current assignee: Quanzhou Wansheng New Material Technology Co ltd
Priority date: 2021-12-20
Filing date: 2021-12-20
Publication date: 2022-03-18

Abstract

The invention discloses a jacquard shoe upper mesh cloth with mint fiber cooling feeling and antibacterial, comprising a mesh cloth body, the top of the mesh cloth body is provided with a jacquard pattern, and the mesh cloth body is composed of a top surface layer, a reinforcing The tensile layer, the antibacterial and antibacterial layer and the flexible cooling inner layer, the top surface layer is located on the top of the reinforced tensile layer, the reinforced tensile layer is located on the top of the antibacterial antibacterial layer, and the antibacterial antibacterial layer The bacterial layer is located at the top of the flexible cool feeling inner layer, the top surface layer, the reinforced tensile layer, the antibacterial and antibacterial layer and the flexible cool feeling inner layer are an integrated woven structure, and the antibacterial antibacterial layer is an integral woven structure. The bacterial layer is composed of several warp antibacterial fibers and several weft antibacterial fibers, and the flexible cooling-sensing inner layer is composed of several flexible cooling-sensing fibers. Beneficial effects: The jacquard upper mesh fabric has a cool feeling of mint fiber, thereby having better antibacterial, bacteriostatic and tensile properties, and effectively improving the use experience of the jacquard upper mesh fabric.

Description

Antibacterial jacquard shoe upper mesh fabric with mint fiber cool feeling

Technical Field

The invention relates to the technical field of vamp mesh cloth, in particular to a jacquard vamp mesh cloth with mint fiber cool feeling and antibacterial function.

Background

With the improvement of living standard of people, the requirements on cloth are higher and higher, and the traditional net cloth with a single-layer structure cannot meet the requirements of consumers. The traditional shoe upper is usually obtained by cutting and then sewing, the process is complex, and the production cost is relatively high. And current vamp screen cloth does not generally have the cool sense of peppermint fibre and antibiotic antibacterial effect, uses and experiences not good.

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

Disclosure of Invention

Aiming at the problems in the related art, the invention provides an antibacterial jacquard vamp mesh with mint fiber cool feeling, which aims to overcome the technical problems in the prior related art.

Therefore, the invention adopts the following specific technical scheme:

the utility model provides a take antibiotic merchant card vamp screen cloth of mint fibre cool feeling area, includes the screen cloth body, the top of screen cloth body is provided with jacquard flower type, the screen cloth body is by top surface layer, enhancement tensile layer, antibiotic antibacterial layer and flexible cool feeling inlayer, the top surface layer is located the top of strengthening the tensile layer, it is located to strengthen the tensile layer the top on antibiotic antibacterial layer, antibiotic antibacterial layer is located the top on flexible cool feeling inlayer, the top surface layer strengthen the tensile layer antibiotic antibacterial layer with flexible cool feeling inlayer formula as an organic whole is woven the structure, antibiotic antibacterial layer comprises a plurality of warp direction antibacterial fibers and a plurality of latitudinal direction antibacterial fibers, flexible cool feeling inlayer comprises a plurality of flexible cool feeling fibers.

Furthermore, the warp-wise antibacterial fibers and the weft-wise antibacterial fibers are all composed of a plurality of bamboo charcoal fibers, alginate fibers and activated carbon fibers, and the bamboo charcoal fibers, the alginate fibers and the activated carbon fibers are in a twisted structure.

Furthermore, the flexible cool fiber group is composed of a mint fiber net layer, cotton fibers, wool fibers, fluff fibers and polyester fibers, wherein the cotton fibers, the wool fibers, the fluff fibers and the polyester fibers are in a twisted structure, and the cotton fibers, the wool fibers, the fluff fibers and the polyester fibers are coated inside the mint fiber net layer.

Further, the mint fiber net layer is composed of a plurality of mint fibers, the mint fibers are of a woven structure, a plurality of meshes are formed in the mint fiber net layer, and the meshes are of a diamond structure.

Further, a mint composite coating layer is arranged on the outer surface of the mint fiber net layer, and the mint composite coating layer is of a gap type coating structure.

Further, the preparation of the jacquard vamp mesh cloth with mint fiber cool feeling and antibacterial function comprises the following steps:

preparing the warp-wise antibacterial fiber and the weft-wise antibacterial fiber, twisting the bamboo charcoal fiber, the seaweed fiber and the activated carbon fiber into a strand of composite fiber by a twisting machine, and then shaping and winding;

the manufacturing method of the flexible cool fiber group comprises the steps of firstly twisting cotton fibers, the wool fibers, the fluff fibers and the polyester fibers into a strand of composite fibers through a twisting machine, then shaping and winding, then penetrating the formed composite fibers into a braiding machine, and braiding a mint fiber net layer on the surface of the composite fibers through the braiding machine;

coating the mint composite coating layer on the outer surface gap of the mint fiber net layer, and performing heat setting;

weaving the manufactured warp-wise antibacterial fibers, the manufactured weft-wise antibacterial fibers, the manufactured flexible cool fiber group and the monomer fibers used by the top surface layer and the reinforced tensile layer by a warp knitting machine;

after weaving and forming, embroidering jacquard patterns on the top surface of the formed mesh cloth through an embroidering machine, and then cutting and sealing the vamp mesh cloth through a cutting machine according to a set size.

Further, warp direction antibacterial fiber weft direction antibacterial fiber flexible cool feeling fibre group and the top surface layer with the used monomer fibrous formula as an organic whole of weaving of strengthening the tensile layer weaving the shaping to, form the integral type layering, promptly: the top surface layer, strengthen the tensile layer, antibiotic antibacterial layer with the soft cool sense inlayer.

The invention has the beneficial effects that: through the antibiotic merchant's card vamp screen cloth of the cool tape of mint fibre who feels that sets up to constitute by jacquard flower type, top surface layer, enhancement tensile layer, antibiotic antibacterial layer, flexible cool feeling inlayer, warp direction antibacterial fiber, latitudinal direction antibacterial fiber and flexible cool feeling fibre group to make this merchant card vamp screen cloth have the cool feeling of mint fibre, thereby have better antibiotic antibacterial and tensile strength ability, effectively improve the use of merchant card vamp screen cloth and experience.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed 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 it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic structural view of an antibacterial Jacquard upper mesh with mint fiber cool feeling bands according to an embodiment of the invention;

FIG. 2 is a schematic layer diagram of an antibacterial Jacquard upper mesh with mint fiber cool feeling bands according to an embodiment of the invention;

FIG. 3 is a schematic structural view of an antibacterial layer of a jacquard upper mesh with mint fiber cool feeling belt antibacterial according to an embodiment of the invention;

FIG. 4 is a schematic illustration of an antimicrobial fiber construction of a Jacquard upper mesh with mint fiber cool feeling band antimicrobial according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of a flexible cool feeling fiber group structure of a Jacquard upper mesh with mint fiber cool feeling bands and with antibacterial properties according to an embodiment of the invention;

FIG. 6 is a schematic view of a structure of a mint fiber web layer of a Jacquard upper mesh with mint fiber cool feeling band antibacterial according to an embodiment of the present invention;

FIG. 7 is a flow chart of a manufacturing process of an antibacterial jacquard upper mesh with mint fiber cool feeling bands according to an embodiment of the invention.

In the figure:

1. a mesh body; 2. jacquard pattern; 3. a top surface layer; 4. a reinforced tensile layer; 5. an antibacterial and bacteriostatic layer; 6. a flexible cool inner layer; 7. warp-wise antimicrobial fibers; 8. weft-wise antibacterial fibers; 9. a flexible cool fiber group; 10. bamboo charcoal fiber; 11. alginate fibers; 12. activated carbon fibers; 13. a mint fiber web layer; 14. cotton fibers; 15. wool fibers; 16. pile fibers; 17. polyester fibers; 18. mint fibers; 19. mesh openings; 20. and a mint composite coating layer.

Detailed Description

For further explanation of the various embodiments, the drawings which form a part of the disclosure and which are incorporated in and constitute a part of this specification, illustrate embodiments and, together with the description, serve to explain the principles of operation of the embodiments, and to enable others of ordinary skill in the art to understand the various embodiments and advantages of the invention, and, by reference to these figures, reference is made to the accompanying drawings, which are not to scale and wherein like reference numerals generally refer to like elements.

According to an embodiment of the invention, an antibacterial jacquard upper mesh with mint fiber cool feeling is provided.

The first embodiment is as follows:

as shown in fig. 1-7, the jacquard upper mesh with mint fiber cool feeling band antibacterial according to the embodiment of the invention comprises a mesh body 1, the top end of the mesh cloth body 1 is provided with jacquard patterns 2, the mesh cloth body 1 consists of a top surface layer 3, a reinforced tensile layer 4, an antibacterial and antibacterial layer 5 and a flexible cool inner layer 6, the top surface layer 3 is positioned at the top end of the reinforced tensile layer 4, the reinforced tensile layer 4 is positioned at the top end of the antibacterial and antibacterial layer 5, the antibacterial layer 5 is positioned at the top end of the flexible cool feeling inner layer 6, the top surface layer 3, the reinforced tensile layer 4, the antibacterial layer 5 and the flexible cool feeling inner layer 6 are of an integrated woven structure, the antibacterial and bacteriostatic layer 5 is composed of a plurality of warp-direction antibacterial fibers 7 and a plurality of weft-direction antibacterial fibers 8, and the flexible cool inner layer 6 is composed of a plurality of flexible cool fiber groups 9.

By means of the above technical scheme, through the setting by jacquard flower type 2, top surface layer 3, strengthen tensile layer 4, antibiotic antibacterial layer 5, flexible cool sense inlayer 6, warp direction antibacterial fiber 7, latitudinal direction antibacterial fiber 8 and flexible cool sense fibre group 9 constitute take antibiotic merchant card vamp screen cloth of mint fibre cool sense area, thereby make this merchant card vamp screen cloth have mint fibre cool sense, thereby have better antibiotic antibacterial and tensile strength, effectively improve merchant card vamp screen cloth's use and experience.

Example two:

as shown in fig. 1-7, a jacquard pattern 2 is disposed on the top end of the mesh body 1, the mesh body 1 is composed of a top surface layer 3, a reinforced tensile layer 4, an antibacterial layer 5 and a flexible cool feeling inner layer 6, the top surface layer 3 is located on the top end of the reinforced tensile layer 4, the reinforced tensile layer 4 is located on the top end of the antibacterial layer 5, the antibacterial layer 5 is located on the top end of the flexible cool feeling inner layer 6, the top surface layer 3, the reinforced tensile layer 4, the antibacterial layer 5 and the flexible cool feeling inner layer 6 are of an integrated woven structure, the antibacterial layer 5 is composed of a plurality of warp-direction antibacterial fibers 7 and a plurality of weft-direction antibacterial fibers 8, the flexible cool feeling inner layer 6 is composed of a plurality of flexible cool feeling fiber groups 9, the warp-direction antibacterial fibers 7 and the antibacterial fibers 8 are composed of a plurality of bamboo carbon fibers 10, alginate fibers 11 and weft-direction activated carbon fibers 12, the bamboo charcoal fiber 10, the seaweed fiber 11 and the activated carbon fiber 12 are in a twisted structure, the flexible cool fiber group 9 is composed of a mint fiber net layer 13, cotton fibers 14, wool fibers 15, fluff fibers 16 and polyester fibers 17, the cotton fibers 14, the wool fibers 15, the wool fibers 16 and the polyester fibers 17 are of a twisted structure, the cotton fibers 14, the wool fibers 15, the fluff fibers 16, and the polyester fibers 17 are coated inside the mint fiber web layer 13, the mint fiber net layer 13 is composed of a plurality of mint fibers 18, the mint fibers 18 are of a woven structure, a plurality of meshes 19 are arranged on the mint fiber net layer 13, the meshes 19 are of a diamond structure, the outer surface of the mint fiber net layer 13 is provided with a mint composite coating layer 20, and the mint composite coating layer 20 is of a gap type coating structure.

Example three:

as shown in fig. 1-7, the preparation of the jacquard upper mesh with mint fiber cool feeling and antibacterial function comprises the following steps:

step S101, manufacturing the warp-wise antibacterial fiber 7 and the weft-wise antibacterial fiber 8, twisting the bamboo charcoal fiber 10, the alginate fiber 11 and the activated carbon fiber 12 into a strand of composite fiber through a twisting machine, and then shaping and winding;

step S103, manufacturing the flexible cool fiber group 9, namely twisting the cotton fiber 14, the wool fiber 15, the wool fiber 16 and the polyester fiber 17 into a strand of composite fiber by a twisting machine, then shaping and winding, penetrating the formed composite fiber into a knitting machine, and knitting the mint fiber net layer 13 on the surface of the composite fiber by the knitting machine;

step S105, coating the mint composite coating layer 20 on the outer surface of the mint fiber mesh layer 13 in a clearance mode, and performing heat setting;

step S107, weaving the manufactured warp-wise antibacterial fibers 7, the manufactured weft-wise antibacterial fibers 8, the manufactured flexible cool fiber group 9 and the monomer fibers used by the top surface layer 3 and the reinforced tensile layer 4 by a warp knitting machine;

step S109, after weaving and forming, embroidering jacquard patterns 2 on the top surface of the formed mesh cloth through an embroidering machine, and then cutting and sealing the vamp mesh cloth through a cutting machine according to a set size.

In summary, according to the technical scheme of the invention, the jacquard vamp mesh fabric with mint fiber cool feeling and antibacterial function, which is composed of the jacquard pattern 2, the top surface layer 3, the reinforced tensile layer 4, the antibacterial and antibacterial layer 5, the flexible cool feeling inner layer 6, the warp-direction antibacterial fibers 7, the weft-direction antibacterial fibers 8 and the flexible cool feeling fiber group 9, is arranged, so that the jacquard vamp mesh fabric has mint fiber cool feeling, has good antibacterial and tensile properties, and effectively improves the use experience of the jacquard vamp mesh fabric.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The jacquard vamp mesh fabric with the mint fiber cool feeling belt for resisting bacteria is characterized by comprising a mesh fabric body (1), wherein jacquard patterns (2) are arranged on the top end of the mesh fabric body (1), the mesh fabric body (1) comprises a top surface layer (3), a reinforcing tensile layer (4), an antibacterial layer (5) and a flexible cool feeling inner layer (6), the top surface layer (3) is positioned on the top end of the reinforcing tensile layer (4), the reinforcing tensile layer (4) is positioned on the top end of the antibacterial layer (5), the antibacterial layer (5) is positioned on the top end of the flexible cool feeling inner layer (6), the top surface layer (3), the reinforcing tensile layer (4), the antibacterial layer (5) and the flexible cool feeling inner layer (6) are of an integrated woven structure, and the antibacterial layer (5) is composed of a plurality of warp antibacterial fibers (7) and a plurality of weft antibacterial fibers (8), the flexible cool feeling inner layer (6) is composed of a plurality of flexible cool feeling fiber groups (9).

2. The jacquard shoe upper mesh cloth with mint fiber cool feeling and antibacterial function according to claim 1, wherein the warp-direction antibacterial fibers (7) and the weft-direction antibacterial fibers (8) are respectively composed of a plurality of bamboo charcoal fibers (10), alginate fibers (11) and activated carbon fibers (12), and the bamboo charcoal fibers (10), the alginate fibers (11) and the activated carbon fibers (12) are in a twisted structure.

3. The antibacterial jacquard upper mesh fabric with mint fiber cool feeling bands is characterized in that the flexible cool feeling fiber group (9) is composed of a mint fiber mesh layer (13), cotton fibers (14), wool fibers (15), fluff fibers (16) and polyester fibers (17), the cotton fibers (14), the wool fibers (15), the fluff fibers (16) and the polyester fibers (17) are in a twisted structure, and the cotton fibers (14), the wool fibers (15), the fluff fibers (16) and the polyester fibers (17) are coated inside the mint fiber mesh layer (13).

4. The jacquard shoe upper mesh with mint fiber cool feeling band antibacterial function according to claim 3, wherein the mint fiber mesh layer (13) is composed of a plurality of mint fibers (18), the mint fibers (18) are in a woven structure, a plurality of meshes (19) are formed in the mint fiber mesh layer (13), and the meshes (19) are in a diamond structure.

5. The antibacterial jacquard upper mesh fabric with mint fiber cool feeling according to claim 3, wherein a mint composite coating (20) is arranged on the outer surface of the mint fiber mesh layer (13), and the mint composite coating (20) is of a gap coating structure.

6. The preparation method of the antibacterial jacquard upper mesh fabric with mint fiber cool feeling belt according to claim 5, comprising the following steps of:

the warp-wise antibacterial fibers (7) and the weft-wise antibacterial fibers (8) are manufactured, the bamboo charcoal fibers (10), the alginate fibers (11) and the activated carbon fibers (12) are twisted into a strand of composite fibers through a twisting machine, and then the composite fibers are shaped and wound;

the flexible cool feeling fiber group (9) is manufactured by twisting cotton fibers (14), wool fibers (15), fluff fibers (16) and polyester fibers (17) into a strand of composite fibers by a twisting machine, then shaping and winding the strand of composite fibers, penetrating the formed composite fibers into a knitting machine, and knitting a mint fiber mesh layer (13) on the surface of the composite fibers by the knitting machine;

coating the mint composite coating layer (20) on the outer surface of the mint fiber net layer (13) in a gap mode, and performing heat setting;

weaving the manufactured warp-wise antibacterial fibers (7), the weft-wise antibacterial fibers (8), the flexible cool fiber group (9) and the monomer fibers used by the top surface layer (3) and the reinforced tensile layer (4) by a warp knitting machine;

after weaving and forming, embroidering jacquard patterns (2) on the top surface of the formed mesh cloth through an embroidering machine, and then cutting and sealing the vamp mesh cloth through a cutting machine according to a set size.

7. The antibacterial jacquard upper mesh fabric with mint fiber cool feeling strips according to claim 6, wherein the warp antibacterial fibers (7), the weft antibacterial fibers (8), the flexible cool feeling fiber groups (9) and the single fibers used for the top surface layer (3) and the reinforced tensile layer (4) are integrally woven and formed in an integral mode, namely: the top surface layer (3), strengthen tensile layer (4), antibiotic antibacterial layer (5) and flexible cool feeling inlayer (6).