CN105916365A - Flexible transparent conductive window - Google Patents

Abstract

The invention provides a flexible transparent conductive window, which comprises an upper flexible transparent film, a lower flexible transparent film and a flexible transparent conductive material, wherein the flexible transparent conductive material is clamped between the upper flexible transparent film and the lower flexible transparent film; the upper surface of the flexible transparent conductive material and the lower surface of the upper flexible transparent film are integrally adhered through resin under high temperature and high pressure; the lower surface of the flexible transparent conductive material and the upper surface of the lower flexible transparent film are integrally adhered through resin under high temperature and high pressure; and the periphery of the flexible transparent conductive window is coated with a conductive edge electrically connected with the flexible transparent conductive material. The flexible transparent conductive window has the advantages of being high in shielding effectiveness, high in transmittance of light, light in weight, foldable, convenient in processing and the like, can be widely applied to the fields such as transparent conductive windows, shielding machine cabinets and various kinds of shielding engineering.

Description

Flexible and transparent conductive form

Technical field

The present invention relates to electrically conducting transparent form, especially a kind of flexible and transparent conductive form.

Background technology

Electrically conducting transparent form is the printing opacity shielding device of a kind of anti-electromagnetic radiation, electromagnetism interference.Current electromagnetic shielding regards The structure of window many employings glass plate holder metal gauze, but glass weight is bigger and light transmittance is low, it is difficult to meet and use requirement. Meanwhile, shield glass needs High Temperature High Pressure to found molding, complex manufacturing technology, and equipment investment is big, and cost is high.

Summary of the invention

It is an object of the invention to provide a kind of flexible and transparent conductive form, lightweight, high transmission rate, preparation are simple, behaviour It is convenient, with low cost to make.

The purpose of the present invention can be achieved by the following technical measures:

This flexible and transparent conductive form, including upper flexible and transparent film, lower flexible and transparent film, flexible and transparent conductive material, Described flexible and transparent conductive material is sandwiched between flexible and transparent film and lower flexible and transparent film.

The purpose of the present invention realizes also by following technical measures:

Described flexible and transparent conductive material upper surface and upper flexible and transparent film lower surface are glued at high temperature under high pressure by resin It is integrated.

Described flexible and transparent conductive material lower surface and lower flexible and transparent film upper surface are glued at high temperature under high pressure by resin It is integrated.

Described form periphery is coated with the conduction limit electrically connected with flexible and transparent conductive material.

Upper flexible and transparent film, lower flexible and transparent film all use polyvinyl butyral film or mylar or polyamides sub- Amine film.

Described flexible and transparent conductive material uses PI film or PET film or PC film to be electricity after the slurry molding of base material self-assembled nanometer silver The conductive grid that copper facing or nickel or iron-nickel alloy are formed, wherein tin-nickel alloy Darkening process.

Resin uses polyvinyl butyral resin or polyester, and described conduction limit uses conductive foam edge covering or conductive silver paste spray It is coated with molding or copper-foil conducting electricity bound edge.

The method have the advantages that

It is high that the present invention has shield effectiveness, and the advantages such as transmittance is high, lightweight, collapsible, easy to process can extensively be answered For electrically conducting transparent form, the shielding field such as rack and all kinds of shield engineerings.

Accompanying drawing explanation

Fig. 1 is the structural representation of the embodiment of the present invention.

In figure: 1-flexible and transparent film；2-flexible and transparent conductive material；3-resin；4-conducts electricity limit.

Detailed description of the invention

Detailed description for the present invention and technology contents, coordinate accompanying drawing to be described as follows, but accompanying drawing only provides reference and says Bright it is used, is not used for the present invention is any limitation as.

According to Fig. 1, this flexible and transparent conductive form includes upper and lower two panels flexible and transparent film 1, and flexibility is saturating with being sandwiched in two panels Flexible and transparent conductive material 2 and resin 3 between gelatin foil are bonded as being integrally formed form, described at high temperature under high pressure Form periphery is coated with the conduction limit 4 electrically connected with flexible and transparent conductive material.

The flexible and transparent film 1 of the present invention can use polyvinyl butyral film, mylar, polyimides film etc. There is good caking property, light transmission, the material of weatherability；Flexible and transparent conductive material 2 can use self-assembled nanometer silver The conductive grid that after slurry molding, the metal or alloy Darkening process again such as electro-coppering, nickel, iron-nickel alloy is formed；Resin 3 can be adopted With the resin such as polyvinyl butyral resin, polyester, conduction limit 4 can use conductive foam edge covering, conductive silver paste to be sprayed into The modes such as type, copper-foil conducting electricity bound edge.

It is high that the present invention compared with prior art has shield effectiveness, and transmittance is high, lightweight, collapsible, easy to process Advantage, can be widely applied to electrically conducting transparent form, the shielding field such as rack and all kinds of shield engineerings.

The foregoing is only presently preferred embodiments of the present invention, be not used to limit the scope of the claims of the present invention, other use this The equivalence change of bright patent spirit, all should all belong to the scope of the claims of the present invention.

Claims (7)

1. flexible and transparent conductive form, it is characterised in that include flexible and transparent film, lower flexible and transparent film, flexible and transparent conductive material, described flexible and transparent conductive material is sandwiched between flexible and transparent film and lower flexible and transparent film.

Flexible and transparent conductive form the most according to claim 1, it is characterised in that described flexible and transparent conductive material upper surface and upper flexible and transparent film lower surface are bonded as one at high temperature under high pressure by resin.

Flexible and transparent conductive form the most according to claim 2, it is characterised in that described flexible and transparent conductive material lower surface and lower flexible and transparent film upper surface are bonded as one at high temperature under high pressure by resin.

Flexible and transparent conductive form the most according to claim 1, it is characterised in that described form periphery is coated with the conduction limit electrically connected with flexible and transparent conductive material.

Flexible and transparent conductive form the most according to claim 1, it is characterised in that upper flexible and transparent film, lower flexible and transparent film all use polyvinyl butyral film or mylar or polyimides film.

Flexible and transparent conductive form the most according to claim 1, it is characterized in that, described flexible and transparent conductive material uses PI film or PET film or PC film to be the conductive grid that after base material self-assembled nanometer silver starches molding, electro-coppering or nickel or iron-nickel alloy are formed, wherein tin-nickel alloy Darkening process.

Flexible and transparent conductive form the most according to claim 1, it is characterised in that resin uses polyvinyl butyral resin or polyester, described conduction limit uses conductive foam edge covering or conductive silver paste spray mo(u)lding or copper-foil conducting electricity bound edge.