CN205320460U - Electromagnetic shield formula alloy net - Google Patents

Abstract

The utility model discloses an electromagnetic shield formula alloy net, including alloy silk base member, high conducting material, high -magnetic -permeability material, alloy net body, cavity and unsmooth cambered surface, alloy silk base member is by copper conductive paint layer, high conducting material, electrically conductive elastic material and high -magnetic -permeability NULL, be provided with copper conductive paint layer between high conducting material and the insulating layer, high conducting material's inside is provided with high -magnetic -permeability material and electrically conductive elastic material, electrically conductive elastic material's inside is provided with the high -magnetic -permeability material, the alloy net body is connected with vertical alloy silk by horizontal alloy silk to constitute, be provided with the through -hole between horizontal alloy silk and the vertical alloy silk. The utility model discloses the unsmooth cambered surface on alloy net body surface and the setting of through -hole, increase electromagnetic shielding material surface density, increase diffuse reflection probability to put forward high shield efficiency, the phenomenon that the electromagnetism leaked has been avoided, the effectual effect that promotes electromagnetic shield to electrically conductive elastic material's setting.

Description

A kind of electromagnetic shielding type alloy network

Technical field

The utility model relates to alloy network apparatus field, specifically a kind of electromagnetic shielding type alloy network.

Background technology

Along with developing rapidly of modern science and technology, high-tech electronic product is with more and more universal, mobile phone, computer, TV etc. bring to us to be enjoyed and simultaneously easily, the problem that electromagnetic radiation produces also increases the weight of day by day, traditional shielding material, is difficult to mobile position, and alloy silk conventional in living does not have the effect of electromagnetic shielding after fixing, these people are wished a kind of electromagnetic shielding type alloy network occurs, solves the harm that electromagnetic radiation brings.

Summary of the invention

For the deficiency that above-mentioned prior art exists, the purpose of this utility model is to provide a kind of electromagnetic shielding type alloy network, and the useful effect having is; The concave-convex cambered surfaces of alloy network body surface and the setting of through hole, increase electromagnetic shielding material area density, increases diffuse-reflectance probability, thus improve effectiveness of shielding, the setting of conductive elastomer, avoids the phenomenon of electromagnetic leakage, effectively improves the effect of electromagnetic shielding.

In order to realize above-mentioned purpose, the technical scheme that the utility model adopts is:

A kind of electromagnetic shielding type alloy network, comprise alloy silk matrix, high conductive material, high permeability materials, alloy network body, cavity and concave-convex cambered surfaces, described alloy silk matrix is by copper electric conduction paint layer, high conductive material, conductive elastomer and high permeability materials are formed, copper electric conduction paint layer it is provided with between described high conductive material and insulation layer, and insulation layer is arranged on the outside of copper electric conduction paint layer, the inside of described high conductive material is provided with high permeability materials and conductive elastomer, the inside of described conductive elastomer is provided with high permeability materials, described alloy network body connects and composes to alloy silk with erecting by horizontal alloy silk, described horizontal alloy silk and erect and be provided with through hole between alloy silk.

Further, described horizontal alloy silk is be made up of alloy silk matrix with erecting to alloy silk.

Further, the surface of described alloy silk matrix is concave-convex cambered surfaces, and the connection of described two alloy silk matrixes is connected with the convex surface of alloy silk matrix by the concave surface of alloy silk matrix, and is provided with cavity between concave-convex cambered surfaces and concave-convex cambered surfaces.

Further, described alloy network body is made up of in the alloy silk face to alloy silk is formed with erecting the horizontal alloy silk of multilayer, and upper alloy silk face is connected by cavity with the through hole on lower alloy silk face.

Adopt after technique scheme, the utility model compared to the prior art advantageously:

The concave-convex cambered surfaces of the utility model alloy network body surface and the setting of through hole, increase electromagnetic shielding material area density, increase diffuse-reflectance probability, thus improve effectiveness of shielding, the setting of high conductive material increases the effect of reflection and diffusion, and the high permeability materials that its internal layer is arranged, increase eddying effect, magnetic line of force is made to be limited in the inside of shielding, it is prevented to be diffused in the space of shielding, the setting of conductive elastomer, play the effect connecting high conductive material and high permeability materials, avoid the phenomenon of electromagnetic leakage, effectively improve the effect of electromagnetic shielding.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is illustrated further:

Fig. 1 is the structural representation of the utility model alloy silk matrix;

Fig. 2 is the front view of a kind of electromagnetic shielding type alloy network of the utility model;

Fig. 3 is the side-view of a kind of electromagnetic shielding type alloy network of the utility model.

In Reference numeral: 1-alloy silk matrix; 2-insulation layer; 3-copper electric conduction paint layer; 4-high conductive material; 5-conductive elastomer; 6-high permeability materials; 7-alloy network body; The horizontal alloy silk of 8-; 9-erects to alloy silk; 10-through hole; 11-cavity; 12-concave-convex cambered surfaces.

Embodiment

The following stated is only better embodiment of the present utility model, does not therefore limit protection domain of the present utility model.

Embodiment, see Fig. 1, shown in Fig. 2 and Fig. 3, a kind of electromagnetic shielding type alloy network, comprise alloy silk matrix 1, high conductive material 4, high permeability materials 6, alloy network body 7, cavity 11 and concave-convex cambered surfaces 12, alloy silk matrix 1 is by copper electric conduction paint layer 3, high conductive material 4, conductive elastomer 5 and high permeability materials 6 are formed, copper electric conduction paint layer 3 it is provided with between high conductive material 4 and insulation layer 2, and insulation layer 2 is arranged on the outside of copper electric conduction paint layer 3, the inside of high conductive material 4 is provided with high permeability materials 6 and conductive elastomer 5, the inside of conductive elastomer 5 is provided with high permeability materials 6, alloy network body 7 connects and composes to alloy silk 9 with erecting by horizontal alloy silk 8, horizontal alloy silk 8 and erect and be provided with through hole 10 between alloy silk 9, horizontal alloy silk 8 is be made up of alloy silk matrix 1 with erecting to alloy silk 9, the surface of alloy silk matrix 1 is concave-convex cambered surfaces 12, the connection of two alloy silk matrixes 1 is connected with the convex surface of alloy silk matrix 1 by the concave surface of alloy silk matrix 1, and between concave-convex cambered surfaces 12 and concave-convex cambered surfaces 12, it is provided with cavity 11, alloy network body 7 is made up of in the alloy silk face to alloy silk 9 is formed with erecting the horizontal alloy silk 8 of multilayer, and upper alloy silk face is connected by cavity 11 with the through hole 10 in lower alloy silk face.

Principle of work: during use, alloy network body 7 is arranged on suitable position, the concave-convex cambered surfaces 12 on alloy network body 7 surface and the setting of through hole 10, increase electromagnetic shielding material area density and diffuse-reflectance probability, the setting of high conductive material 4, increase the effect of reflection and diffusion, the setting of high permeability materials 6, increase eddying effect, magnetic line of force is made to be limited in the inside of shielding, it is prevented to be diffused in the space of shielding, the setting of conductive elastomer 5, play the effect connecting high conductive material 5 and high permeability materials 6, avoid the phenomenon of electromagnetic leakage, and then effectively improve the effect of electromagnetic shielding.

To those skilled in the art, it is clear that the utility model is not limited to the details of above-mentioned one exemplary embodiment, and when not deviating from spirit of the present utility model or essential characteristic, it is possible to realize the utility model in other specific forms. Therefore, no matter from which point, embodiment all should be regarded as exemplary, and right and wrong are restrictive, scope of the present utility model is limited by claims instead of above-mentioned explanation, it is intended that all changes in the implication of the equivalent important document dropping on claim and scope included in the utility model. Any Reference numeral in claim should be considered as the claim involved by limiting.

The above; it is only better embodiment of the present utility model; not in order to limit the utility model, every any trickle amendment, equivalent replacement and improvement above embodiment done according to technical spirit of the present utility model, all should be included within the protection domain of technical solutions of the utility model.

Claims (3)

1. an electromagnetic shielding type alloy network, comprise alloy silk matrix (1), high conductive material (4), high permeability materials (6), alloy network body (7), cavity (11) and concave-convex cambered surfaces (12), it is characterized in that: described alloy silk matrix (1) is by copper electric conduction paint layer (3), high conductive material (4), conductive elastomer (5) and high permeability materials (6) are formed, copper electric conduction paint layer (3) it is provided with between described high conductive material (4) and insulation layer (2), and insulation layer (2) is arranged on the outside of copper electric conduction paint layer (3), the inside of described high conductive material (4) is provided with high permeability materials (6) and conductive elastomer (5), the inside of described conductive elastomer (5) is provided with high permeability materials (6), described alloy network body (7) connects and composes to alloy silk (9) with erecting by horizontal alloy silk (8), described horizontal alloy silk (8) and erect and be provided with through hole (10) between alloy silk (9), the surface of described alloy silk matrix (1) is concave-convex cambered surfaces (12), the connection of described two alloys silk matrix (1) is connected with the convex surface of alloy silk matrix (1) by the concave surface of alloy silk matrix (1), and is provided with cavity (11) between concave-convex cambered surfaces (12) and concave-convex cambered surfaces (12).

2. a kind of electromagnetic shielding type alloy network according to claim 1, it is characterised in that: described horizontal alloy silk (8) is be made up of alloy silk matrix (1) with erecting to alloy silk (9).

3. a kind of electromagnetic shielding type alloy network according to claim 1, it is characterized in that: described alloy network body (7) is made up of in the alloy silk face to alloy silk (9) is formed with erecting the horizontal alloy silk (8) of multilayer, and upper alloy silk face is connected by cavity (11) with the through hole (10) in lower alloy silk face.