CN218343014U - Antistatic flame-retardant sun-proof oxford fabric - Google Patents

Abstract

The utility model provides an antistatic flame-retardant sun-proof type oxford, relates to the oxford field, including the main substrate layer, the terminal surface has set firmly the articulamentum respectively about the main substrate layer, is located the downside the terminal surface has set firmly flexible ventilative layer under the articulamentum, the equidistant distribution is provided with the bleeder vent in the flexible ventilative layer, the embedding is provided with antibacterial fiber and activated carbon fiber in the flexible ventilative layer, the utility model discloses a it is provided with to consolidate the embedding in the main substrate layer elasticity toughness area to the tensile elasticity of oxford has been improved greatly, the effectual tensile strength who guarantees the oxford be provided with in the outer sun-proof layer the metal fiber strip, thereby pass through the static that metal fiber strip can effectual hindrance oxford top layer gathers, with the charge conduction extremely simultaneously distribute in the conducting layer, thereby improved the antistatic effect of oxford simultaneously and guaranteed the sun-blocking nature of oxford.

Description

Antistatic flame-retardant sun-proof oxford fabric

Technical Field

The utility model belongs to the technical field of oxford and specifically relates to an antistatic flame-retardant sun-proof type oxford.

Background

Oxford is a fabric with various functions and wide application, and mainly comprises the following components in the market: the oxford fabric is firm and wear-resistant, so that most of the oxford fabric is used for manufacturing various bags and suitcases and is deeply loved by the majority of users;

however, the current oxford fabric is easy to accumulate static on the surface, so that people can easily feel an electric shock, dust and impurities are easily adsorbed, the appearance is influenced, and the fireproof and flame-retardant effects of the oxford fabric are poor.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an antistatic fire-retardant sun-proof type oxford to solve the problem that proposes in the above-mentioned background art.

The utility model provides a its technical problem take following technical scheme to realize:

the utility model provides an antistatic flame-retardant sun-proof type oxford, includes the main base member layer, the terminal surface has set firmly the articulamentum respectively about the main base member layer, is located the downside the terminal surface has set firmly flexible ventilative layer under the articulamentum, the equidistance distributes in the flexible ventilative layer and is provided with the bleeder vent, the embedding is provided with antibacterial fiber and activated carbon fiber in the flexible ventilative layer, is located the upside the articulamentum up end has set firmly the sun-proof fire-retardant layer of nitrile cotton fiber, the sun-proof fire-retardant layer up end of nitrile cotton fiber has set firmly outer sun-proof layer, the embedding is provided with the conducting layer in the outer sun-proof layer, outer sun-proof layer up end equidistance distributes and is provided with the metal fiber strip.

Preferably, the elastic flexible belt is arranged at the center of the inner part of the main matrix layer and is in a continuous corrugated shape, so that the tensile resistance of the oxford fabric is effectively improved.

Preferably, the antibacterial fiber and the activated carbon fiber are arranged in a cross mode to form a net shape, each air hole is provided with a corresponding mesh hole, and each activated carbon fiber is arranged between the left air hole and the right air hole respectively.

Preferably, two heat dissipation layers are embedded in the nitrile cotton fiber sun-proof flame-retardant layer, and the two heat dissipation layers are vertically and symmetrically distributed around the center line of the nitrile cotton fiber sun-proof flame-retardant layer.

Preferably, each metal fiber strip is fixedly embedded into the outer-layer sun-proof layer, and the lower end face of each metal fiber strip is abutted to the conductive layer, so that the metal fiber strips can effectively prevent the static electricity on the surface layer of the oxford fabric from gathering, and simultaneously conduct charges into the conductive layer for emission.

Preferably, the upper end surface of the outer layer sun-proof layer is coated with a transparent photocatalyst coating, so that the sun-proof property of the surface layer of the oxford fabric is greatly improved.

The utility model discloses an advantage is with positive effect:

the utility model discloses a consolidate the embedding in the main substrate layer and be provided with elastic toughness area to improved the tensile elasticity of oxford greatly, the effectual tensile strength who guarantees the oxford, be provided with at the inlayer simultaneously flexible ventilative layer, thereby pass through in the flexible ventilative layer the bleeder vent takes a breath to improved the gas flow nature of oxford greatly, can also carry out certain sterilization to the air current of exchange simultaneously be provided with in the outer sun-proof layer the metal fiber strip, thereby pass through the static that metal fiber strip can effectual hindrance oxford top layer gathers, conduct the electric charge simultaneously extremely give off in the conducting layer, thereby improved the anti-static ability of oxford simultaneously.

Drawings

The present invention will be further explained with reference to the drawings and examples.

FIG. 1 is a schematic view of the whole structure of the antistatic flame-retardant sun-proof oxford fabric of the present invention;

FIG. 2 is a schematic view of a partial enlarged structure at A in FIG. 1 according to the present invention;

fig. 3 is a schematic view of the enlarged structure of the part B in fig. 1 according to the present invention.

The scores in the figures are as follows: 10. a base substrate layer; 11. an elastic flexible band; 12. a connecting layer; 13. a flexible breathable layer; 14. a nitrile cotton fiber sun-proof flame-retardant layer; 15. an outer sunscreen layer; 16. a metal fiber strip; 17. an antimicrobial fiber; 18. air holes are formed; 19. activated carbon fibers; 20. a heat dissipation layer; 21. and a conductive layer.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. The drawings are simplified schematic drawings, which illustrate the basic structure of the present invention in a schematic manner, and thus show only the components related to the present invention.

The invention will be described in detail with reference to fig. 1-3, wherein for ease of description, the following orientations are now specified: the up-down, left-right, front-back direction described below is consistent with the front-back, left-right, top-down direction of the view direction of fig. 1, fig. 1 is the front view of the device of the present invention, and the direction shown in fig. 1 is consistent with the front-back, left-right, top-down direction of the front view direction of the device of the present invention.

The embodiments of the present invention will be described in detail with reference to the accompanying drawings:

referring to fig. 1-3, the present invention provides an embodiment: the utility model provides an antistatic flame-retardant sun-proof type oxford, includes main base member layer 10, the terminal surface has set firmly the articulamentum 12 respectively about the main base member layer 10, is located the downside the terminal surface has set firmly flexible ventilative layer 13 under the articulamentum 12, it is provided with bleeder vent 18 to distribute to be equidistant in the flexible ventilative layer 13, the embedding is provided with antibacterial fiber 17 and activated carbon fiber 19 in the flexible ventilative layer 13, is located the upside the articulamentum 12 up end has set firmly the sun-proof flame retardant layer 14 of nitrile cotton fiber, the sun-proof flame retardant layer 14 up end of nitrile cotton fiber has set firmly outer sun-proof layer 15, the embedding is provided with conducting layer 21 in the outer sun-proof layer 15, the equal spatial distribution of outer sun-proof layer 15 up end is provided with metal fiber strip 16.

In addition, in one embodiment, the elastic flexible belt 11 is arranged in the center of the inside of the main substrate layer 10, and the elastic flexible belt 11 is in a continuous corrugated shape, so that the tensile strength of the oxford fabric is effectively improved.

In addition, in one embodiment, the antibacterial fiber 17 and the activated carbon fiber 19 are crossed to form a mesh, each of the air holes 18 has a corresponding mesh, and each of the activated carbon fibers 19 is respectively disposed between the left and right air holes 18.

In addition, in one embodiment, two heat dissipation layers 20 are embedded inside the acrylic cotton fiber sun-proof flame-retardant layer 14, and the two heat dissipation layers 20 are distributed up and down symmetrically with respect to the center line of the acrylic cotton fiber sun-proof flame-retardant layer 14.

In addition, in an embodiment, each of the metal fiber strips 16 is fixedly embedded in the outer layer sunscreen layer 15, and the lower end surface of each of the metal fiber strips is abutted against the conductive layer 21, so that the metal fiber strips 16 can effectively block the static electricity accumulation on the oxford fabric surface layer, and simultaneously conduct the charges to the conductive layer 21 for emission.

In addition, in one embodiment, the upper end surface of the outer layer sunscreen layer 15 is coated with a transparent photocatalyst coating, so that the sunscreen property of the oxford fabric surface layer is greatly improved.

When the oxford fabric is implemented specifically, the elastic and flexible band 11 is embedded into the main substrate layer 10, so that the tensile elasticity of the oxford fabric is greatly improved, the tensile strength of the oxford fabric is effectively ensured, the flexible breathable layer 13 is arranged on the inner layer, air exchange is performed through the air holes 18 in the flexible breathable layer 13, so that the gas flowability of the oxford fabric is greatly improved, meanwhile, certain sterilization can be performed on exchanged air flow, the metal fiber strips 16 are arranged in the outer sun-proof layer 15, so that the static aggregation on the surface layer of the oxford fabric can be effectively prevented through the metal fiber strips 16, charges are conducted into the conductive layer 21 to be emitted, the antistatic capacity of the oxford fabric is greatly improved, the sun-proof performance of the oxford fabric is ensured, two heat dissipation layers 20 are arranged in the nitrile cotton fiber sun-proof flame-retardant layer 14 to perform double temperature insulation and flame retardance, and the sun-proof flame retardance of the oxford fabric is greatly improved.

It should be emphasized that the embodiments described herein are illustrative and not restrictive, and thus the present invention is not limited to the embodiments described in the detailed description, but also falls within the scope of the present invention, in any other embodiments derived by those skilled in the art according to the technical solutions of the present invention.

Claims (6)

1. The antistatic flame-retardant sun-proof oxford fabric comprises a main substrate layer (10), and is characterized in that: the solar battery is characterized in that the upper end face and the lower end face of the main substrate layer (10) are respectively fixedly provided with a connecting layer (12), the lower end face of the connecting layer (12) is fixedly provided with a flexible air-permeable layer (13), air holes (18) are formed in the flexible air-permeable layer (13) at equal intervals, antibacterial fibers (17) and activated carbon fibers (19) are embedded into the flexible air-permeable layer (13), the upper end face of the connecting layer (12) at the upper side is fixedly provided with a nitrile cotton fiber sun-proof flame-retardant layer (14), the upper end face of the nitrile cotton fiber sun-proof flame-retardant layer (14) is fixedly provided with an outer sun-proof layer (15), a conductive layer (21) is embedded into the outer sun-proof layer (15), and metal fiber strips (16) are arranged on the upper end face of the outer sun-proof layer (15) at equal intervals.

2. The antistatic flame-retardant sun-proof oxford fabric according to claim 1, wherein: an elastic flexible belt (11) is arranged at the center of the interior of the main matrix layer (10), and the elastic flexible belt (11) is in a continuous corrugated shape.

3. The antistatic flame-retardant sun-proof oxford fabric according to claim 1, wherein: the antibacterial fiber (17) and the activated carbon fiber (19) are arranged in a net shape in a crossing manner, the air holes (18) are provided with corresponding meshes, and the activated carbon fiber (19) is arranged between the left air hole and the right air hole (18).

4. The antistatic flame-retardant sun-proof oxford fabric according to claim 1, wherein: the nitrile cotton fiber sun-proof flame-retardant layer (14) is internally embedded with two heat dissipation layers (20), and the two heat dissipation layers (20) are symmetrically distributed up and down about the center line of the nitrile cotton fiber sun-proof flame-retardant layer (14).

5. The antistatic flame-retardant sun-proof oxford fabric according to claim 1, wherein: each metal fiber strip (16) is embedded and fixedly arranged in the outer layer sun-proof layer (15) respectively, and the lower end face of each metal fiber strip is abutted against the conductive layer (21).

6. The antistatic flame-retardant sun-proof oxford fabric according to claim 1, wherein: the upper end surface of the outer layer sun-proof layer (15) is coated with a transparent photocatalyst coating.

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