CN219505571U

CN219505571U - Oxford fabric with radiation protection function

Info

Publication number: CN219505571U
Application number: CN202320752424.8U
Authority: CN
Inventors: 杨伟共; 翁玉霜
Original assignee: Quanzhou Weiming Industry And Trade Co ltd
Current assignee: Quanzhou Weiming Industry And Trade Co ltd
Priority date: 2023-04-07
Filing date: 2023-04-07
Publication date: 2023-08-11
Anticipated expiration: 2033-04-07

Abstract

The utility model discloses oxford fabric with a radiation protection function, and particularly relates to the technical field of oxford fabric. According to the utility model, the radiation-proof performance of the base cloth layer is greatly improved through the first radiation-proof layer and the second radiation-proof layer, the plurality of protrusions on the radiation-proof film respectively penetrate through the plurality of perforations to be in contact with the bottom of the second radiation-proof layer, the non-woven fabric is prevented from being influenced by extrusion, the vertical fiber bundles wound by the stainless steel wires and the spandex wires have radiation-proof performance and high strength, the transverse fiber bundles wound by the silver fiber wires and the silk have radiation-proof performance and softness, the radiation-proof effect of the second radiation-proof layer is improved, and the radiation-proof performance of the base cloth layer is further improved.

Description

Oxford fabric with radiation protection function

Technical Field

The utility model relates to the technical field of oxfords, in particular to an oxford with a radiation protection function.

Background

The oxford fabric adopts finer combed high count yarns as double warps, is interwoven with coarser weft yarns in warps and wefts, has soft color and luster, soft fabric body and good air permeability, is generally applied to clothing back bags for various outdoor exercises, and is particularly suitable for canopy materials, and the uses of the oxford fabric comprise awning, tent, cloth for buildings, advertising lamp box signboards, agricultural covering cloth, inflatable fabrics, machine and automobile covering cloth and the like.

The utility model discloses wear-resistant and radiation-resistant oxford fabric with a publication number of CN216507274U, which can improve the overall radiation-resistant performance of the oxford fabric by arranging a radiation-resistant layer, wherein the radiation-resistant layer comprises a radiation-resistant outer layer and a radiation-resistant inner layer, the radiation-resistant outer layer is formed by braiding a plurality of radiation-resistant strips, the radiation-resistant inner layer is formed by braiding stainless steel fibers, a double-layer protection effect can be formed, the radiation-resistant effect is further improved, and the oxford fabric can have the functions of shading light and resisting radiation by arranging a PU (polyurethane) coating on the wear-resistant layer.

When the prior art is used, the radiation protection layer is arranged on the base cloth layer to play a role in radiation protection, and part of radiation can penetrate through the radiation protection layer, so that the radiation protection effect of the whole oxford fabric is poor.

Disclosure of Invention

In order to overcome the defects in the prior art, the oxford fabric with the radiation protection function is provided, the radiation protection performance of a base fabric layer is greatly improved through a first radiation protection layer and a second radiation protection layer, a plurality of protrusions on a radiation protection film respectively penetrate through a plurality of perforations to be in contact with the bottom of the second radiation protection layer, the non-woven fabric is prevented from being extruded to influence the flow of gas, vertical fiber bundles wound by stainless steel wires and spandex wires have radiation protection performance and high strength, transverse fiber bundles wound by silver fiber wires and silk have radiation protection performance and softness, the radiation protection effect of the second radiation protection layer is improved, and the radiation protection performance of the base fabric layer is further improved, so that the problems in the background art are solved.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an oxford cloth with radiation protection function, includes the base cloth layer, the base cloth layer is interweaved by warp and woof and forms, the base cloth layer top is equipped with the insulating layer, the insulating layer top is equipped with radiation protection layer one, radiation protection layer one top is equipped with ventilative layer two, be equipped with radiation protection layer two for improve the radiation protection nature, radiation protection layer one includes the radiation protection membrane, radiation protection membrane top is equipped with a plurality of archs, and a plurality of archs all run through the air layer and contact with radiation protection layer two bottoms, be used for playing the cushioning effect, radiation protection layer two is woven together by a plurality of vertical fibre bundles and a plurality of transverse fibre bundles, and a plurality of vertical fibre bundles all adopt stainless steel wire and spandex silk winding to form for improve radiation protection nature and intensity of radiation protection layer two, a plurality of transverse fibre bundles all adopt silver fiber silk and silk winding to form for improve radiation protection nature and softness of radiation protection layer two.

In a preferred embodiment, the heat insulation layer is asbestos, and glass fiber yarns are woven on the outer wall of the asbestos for improving the heat insulation effect of the asbestos.

In a preferred embodiment, the breathable layer is a non-woven fabric, and the top surface of the non-woven fabric is provided with grid lines, and the grid lines are sewn together with the second radiation protection layer for improving the connection firmness between the second radiation protection layer and the breathable layer.

In a preferred embodiment, the grid lines comprise a plurality of transverse connecting lines and a plurality of vertical connecting lines, the plurality of vertical connecting lines and the plurality of transverse connecting lines are crisscrossed, each transverse connecting line and each vertical connecting line are steel wires, and the using strength of the grid lines is greatly improved.

In a preferred embodiment, the bottom of the non-woven fabric is provided with a plurality of perforations, and a plurality of protrusions respectively penetrate through the plurality of perforations and contact with the second bottom of the radiation protection layer, so that the support function is achieved inside the non-woven fabric.

In a preferred embodiment, the second top of the radiation protection layer is provided with a plurality of gravure printing, the inner wall surface of each gravure printing is coated with heat insulation paint for reflecting radiation, and the top surfaces of the plurality of vertical fiber bundles and the plurality of transverse fiber bundles are coated with wear-resistant paint for improving the wear resistance of the second surface of the radiation protection layer.

In a preferred embodiment, the inside of the radiation protection film, the second radiation protection layer, the asbestos and the non-woven fabric are all provided with micro-pores for ventilation.

The utility model has the technical effects and advantages that:

1. according to the utility model, the radiation-proof performance of the base cloth layer is greatly improved through the first radiation-proof layer and the second radiation-proof layer, the plurality of protrusions on the radiation-proof film respectively penetrate through the plurality of perforations to be in contact with the bottom of the second radiation-proof layer, the non-woven fabric is prevented from being influenced by extrusion, the vertical fiber bundles wound by the stainless steel wires and the spandex wires have radiation-proof performance and high strength, the transverse fiber bundles wound by the silver fiber wires and the silk have radiation-proof performance and softness, the radiation-proof effect of the second radiation-proof layer is improved, and the radiation-proof performance of the base cloth layer is further improved.

2. Through being provided with the insulating layer on the base cloth layer, adopt asbestos to use as the insulating layer to weave glass fiber on the asbestos, glass fiber and asbestos all have the thermal insulation, consequently can improve the insulating properties of base cloth layer, process a plurality of gravure at two top surfaces of radiation protection layer, the heat insulating coating in the gravure has the effect of reflection radiation, consequently can further improve the radiation protection effect of base cloth layer.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

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

FIG. 3 is a schematic view of a vertical fiber bundle of the present utility model;

FIG. 4 is a schematic view of a transverse fiber bundle according to the present utility model;

FIG. 5 is a top plan view of the insulation layer of the present utility model;

fig. 6 is a bottom plan view of the nonwoven fabric of the present utility model.

The reference numerals are: 1. a base cloth layer; 2. a thermal insulation layer; 3. a radiation protection layer I; 4. a ventilation layer; 5. a second radiation protection layer; 6. glass fiber filaments; 7. grid lines; 8. perforating; 9. gravure printing; 10. micro-pores; 11. a protrusion;

501. a vertical fiber bundle; 502. transverse fiber bundles.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to the attached drawings 1-6 of the specification, the utility model provides oxford fabric with a radiation protection function, which comprises a base cloth layer 1, wherein the base cloth layer 1 is formed by interweaving warp yarns and weft yarns, the top of the base cloth layer 1 is provided with a heat insulation layer 2, the top of the heat insulation layer 2 is provided with a radiation protection layer I3, the top of the radiation protection layer I3 is provided with a ventilation layer 4, the top of the ventilation layer 4 is provided with a radiation protection layer II 5 for improving the radiation protection performance, the radiation protection layer I3 comprises a radiation protection film, the top of the radiation protection film is provided with a plurality of bulges 11, and the bulges 11 penetrate through the ventilation layer 4 and are contacted with the bottom of the radiation protection layer II 5 for playing a buffering role;

specifically, the second radiation protection layer 5 is woven by a plurality of vertical fiber bundles 501 and a plurality of transverse fiber bundles 502, the plurality of vertical fiber bundles 501 are formed by winding stainless steel wires and spandex wires, so as to improve the radiation protection performance and strength of the second radiation protection layer 5, and the plurality of transverse fiber bundles 502 are formed by winding silver fiber wires and silk, so as to improve the radiation protection performance and flexibility of the second radiation protection layer 5;

specifically, the ventilation layer 4 is a non-woven fabric, the top surface of the non-woven fabric is provided with grid lines 7, the grid lines 7 are sewn together with the second radiation protection layer 5 and are used for improving the connection firmness between the second radiation protection layer 5 and the ventilation layer 4, the grid lines 7 comprise a plurality of transverse connecting lines and a plurality of vertical connecting lines, the plurality of vertical connecting lines and the plurality of transverse connecting lines are crisscrossed, each transverse connecting line and each vertical connecting line are steel wires, and the use strength of the grid lines 7 is improved;

and a plurality of perforation 8 have been seted up to the non-woven fabrics bottom, and a plurality of archs 11 run through a plurality of perforation 8 respectively and with radiation protection layer two 5 bottoms contact, play the supporting role in the non-woven fabrics inside with the help of a plurality of archs 11, the micropore 10 has all been seted up to radiation protection membrane inside, radiation protection layer two 5, asbestos and non-woven fabrics inside for ventilative.

Through setting up radiation protection layer one 3 and radiation protection layer two 5 in base cloth layer 1 top, utilize two-layer radiation protection to improve the radiation protection performance of base cloth layer 1 greatly, set up a plurality of archs 11 on the radiation protection membrane, a plurality of archs 11 pass a plurality of perforation 8 respectively and contact with radiation protection layer two 5 bottoms, can play the supporting role in the non-woven fabrics inside, avoid the non-woven fabrics to receive the flow of extrusion influence gas, the radiation protection layer two 5 of shaping is woven by a plurality of vertical fiber bundles 501 and a plurality of horizontal fiber bundles 502 plays the effect of primary radiation protection, vertical fiber bundle 501 that adopts stainless steel wire and spandex silk to wind has radiation protection and high strength nature, can improve the service strength of radiation protection layer two 5, horizontal fiber bundle 502 that adopts silver fiber silk and silk to wind has radiation protection and compliance, further improve the radiation protection effect of radiation protection layer two 5.

Referring to fig. 1-6 of the specification, the utility model provides oxford fabric with a radiation protection function, the heat insulation layer 2 is asbestos, glass fiber filaments 6 are woven on the outer wall of the asbestos for improving the heat insulation effect of the asbestos, a plurality of gravure marks 9 are arranged on the top of the second radiation protection layer 5, heat insulation paint is coated on the inner wall surface of each gravure mark 9 for reflecting radiation, and wear-resistant paint is coated on the top surfaces of the plurality of vertical fiber bundles 501 and the plurality of horizontal fiber bundles 502 for improving the wear resistance of the surface of the second radiation protection layer 5.

Through being provided with insulating layer 2 on base cloth layer 1, adopt asbestos as insulating layer 2 use to weave glass fiber on the asbestos, glass fiber and asbestos all have the thermal insulation, consequently can improve the insulating properties of base cloth layer 1, process a plurality of gravure 9 at the top surface of radiation protection layer two 5, the heat insulating coating in the gravure 9 has the effect of reflection radiation, consequently can further improve the radiation protection effect of base cloth layer 1.

Finally: the foregoing description of the preferred embodiments of the utility model is not intended to limit the utility model to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and principles of the utility model are intended to be included within the scope of the utility model.

Claims

1. Oxford with radiation protection function, including base cloth layer (1), base cloth layer (1) are interweaved by warp and woof and form, its characterized in that: the base cloth layer (1) is provided with a heat insulation layer (2) at the top, the heat insulation layer (2) is provided with a radiation protection layer I (3) at the top, the radiation protection layer I (3) is provided with a ventilation layer (4) at the top, and the ventilation layer (4) is provided with a radiation protection layer II (5) at the top for improving radiation protection;

the first radiation protection layer (3) comprises a radiation protection film, a plurality of bulges (11) are arranged at the top of the radiation protection film, and the bulges (11) penetrate through the air layer (4) and are contacted with the bottom of the second radiation protection layer (5) so as to play a role of buffering;

the radiation protection layer II (5) is formed by winding a plurality of vertical fiber bundles (501) and a plurality of transverse fiber bundles (502) together, wherein the plurality of vertical fiber bundles (501) are formed by winding stainless steel wires and spandex wires and are used for improving the radiation protection performance and strength of the radiation protection layer II (5), and the plurality of transverse fiber bundles (502) are formed by winding silver fiber wires and silk and are used for improving the radiation protection performance and softness of the radiation protection layer II (5).

2. An oxford fabric with radiation protection function according to claim 1, characterized in that: the heat insulation layer (2) is asbestos, and glass fiber filaments (6) are woven on the outer wall of the asbestos and are used for improving the heat insulation effect of the asbestos.

3. An oxford fabric with radiation protection function according to claim 2, characterized in that: the breathable layer (4) is non-woven fabric, grid lines (7) are arranged on the top surface of the non-woven fabric, and the grid lines (7) are sewn with the radiation protection layer II (5) and used for improving connection firmness between the radiation protection layer II (5) and the breathable layer (4).

4. An oxford fabric with radiation protection according to claim 3, wherein: the grid lines (7) comprise a plurality of transverse connecting lines and a plurality of vertical connecting lines, the plurality of vertical connecting lines and the plurality of transverse connecting lines are crisscrossed, and each transverse connecting line and each vertical connecting line are steel wires.

5. An oxford fabric with radiation protection according to claim 3, wherein: a plurality of perforations (8) are formed in the bottom of the non-woven fabric, and a plurality of protrusions (11) penetrate through the perforations (8) and are in contact with the bottom of the second radiation-proof layer (5) respectively.

6. An oxford fabric with radiation protection function according to claim 1, characterized in that: the top of the radiation protection layer II (5) is provided with a plurality of gravure printing layers (9), the inner wall surface of each gravure printing layer (9) is coated with heat insulation paint for reflecting radiation, and the top surfaces of the vertical fiber bundles (501) and the horizontal fiber bundles (502) are coated with wear-resistant paint for improving the wear resistance of the surface of the radiation protection layer II (5).

7. An oxford fabric with radiation protection according to claim 3, wherein: micro-pores (10) are formed in the anti-radiation film, the anti-radiation layer II (5), the asbestos and the non-woven fabric and are used for ventilation.