CN204066083U

CN204066083U - A kind of macromolecule film electronic conduction video picture touch-screen

Info

Publication number: CN204066083U
Application number: CN201420579226.7U
Authority: CN
Inventors: 承丽华; 李荣达; 任鹤禄; 赵振刚; 姚维煊
Original assignee: MINXIANG SCIENCE AND TECHNOLOGY Co Ltd SHENYANG
Current assignee: MINXIANG SCIENCE AND TECHNOLOGY Co Ltd SHENYANG
Priority date: 2014-10-08
Filing date: 2014-10-08
Publication date: 2014-12-31
Anticipated expiration: 2024-10-08

Abstract

The utility model discloses a kind of macromolecule film electronic conduction video picture touch-screen, comprising: upper glass plate; The first transparent optical adhesive phase is adhered to below described upper glass plate; The first conductive layer is adhered to below described transparent optical adhesive phase; The second transparent optical adhesive phase is adhered to below described electric conductivity ergosphere; The second conductive layer is adhered to below described second transparent optical adhesive phase; The 3rd transparent optical adhesive phase is adhered to below described second conductive layer.The utility model can bend, and is convenient to transport; Wear-resistant, extend life cycle; And on making technology, decrease crystallization link, make technological process faster.The utility model novel structure, remarkably productive, production cost is low.The utility model Technique Popularizing is strong, can be the greatly cost-saving spending of enterprise.

Description

A kind of macromolecule film electronic conduction video picture touch-screen

Technical field

The present invention relates to touch-screen sensitive techniques field, be specially a kind of macromolecule film electronic conduction video picture touch-screen.

Background technology

At present along with the tremendous development of multimedia technology and display technique, the technology of mobile device is also improving constantly, and therefore increasing mobile device trends towards touch screen design.Existing screen is generally resistive touch screen, and be carry out controlling equipment according to click screen pressure, sensor installation parts are wanted in this design, but the touch mobile device that great majority use recently is all capacitive touch screen, this touch manner, when touching, electric charge identifies touching position information while going out.

The conducting film that capacitive touch screen adopts in the world is ITO (nano indium tin metal oxide, rigid conducting objects) material, but due to ITO genus hardmetal thing, hardness is strong, can not bend, and is unfavorable for transport and packaging; Easy to wear, serviceable life is short; Require higher to processing environment simultaneously, cause material and cost of manufacture to remain high.

But there is not been reported for a kind of macromolecule film electronic conduction video picture touch-screen.

Utility model content

The purpose of this utility model is to overcome prior art deficiency, and provides a kind of macromolecule film electronic conduction video picture touch-screen.

For achieving the above object, the technical scheme that the utility model adopts is:

A kind of macromolecule film electronic conduction video picture touch-screen, comprising: upper glass plate;

The first transparent optical adhesive phase is adhered to below described upper glass plate;

The first conductive layer is adhered to below described transparent optical adhesive phase;

The second transparent optical adhesive phase is adhered to below described electric conductivity ergosphere;

The second conductive layer is adhered to below described second transparent optical adhesive phase;

The 3rd transparent optical adhesive phase is adhered to below described second conductive layer.

The beneficial effects of the utility model are:

1, the utility model can bend, and is convenient to transport; Wear-resistant, extend life cycle; And on making technology, decrease crystallization link, make technological process faster.

2, the utility model novel structure, remarkably productive, and production cost is low.

3, the utility model Technique Popularizing is strong, can be the greatly cost-saving spending of enterprise.

Accompanying drawing explanation

Fig. 1 is the lamination structural map of the utility model touch screen.

Fig. 2 is one of the utility model macromolecule silver nano-metal net conductive glue lamella schematic diagram.

Fig. 3 is the utility model macromolecule silver nano-metal net conductive glue lamella schematic diagram two.

Embodiment

Below in conjunction with Figure of description and Reference numeral to further description of the present utility model.

As shown in Figure 1, 2, 3, a kind of macromolecule film electronic conduction video picture touch-screen, comprising: upper glass plate;

Described upper glass plate 1 is attachment the first transparent optical adhesive phase 2 below;

Described first transparent optical adhesive phase 2 is attachment the first conductive layer 3 below;

Described first electric conductivity ergosphere 3 is attachment the second transparent optical adhesive phase 4 below;

Described second transparent optical adhesive phase 4 is attachment the second conductive layer 5 below;

Described second conductive layer 5 is attachment the 3rd transparent optical adhesive phase 6 below.

First conductive layer 3 is that surface attachment has diaphragm, adheres to silver nano-metal net below diaphragm;

Second conductive layer 5 comprises macromolecule silver nano-metal net conductive glue lamella and diaphragm;

Described macromolecule silver nano-metal net conductive glue lamella is attached to below diaphragm.

Described macromolecule silver nano-metal net conductive glue lamella is the structure formed near the cabling dense end extension painting high score material of touch screen at silver nano-metal net, and macromolecular material is hung painting area and accounted for 1/10th of silver nano-metal net.

Described macromolecule silver nano-metal net conductive glue lamella is hung painting macromolecular material part and is formed multiple macromolecule square.

In transverse and longitudinal coordinate (X-axis, Y-axis) arrangement on described each macromolecule square;

When multiple macromolecule square distribution, each macromolecule square is carried out piecemeal again, X-axis is constant, Y-axis is diminished, finally the multiple macromolecule squares in Y-axis is divided into multiple fritter again.

Finally, the sensitivity realizing whole touch screen is even, improves the visibility of screen simultaneously, and appearance can be better.

Claims

1. a macromolecule film electronic conduction video picture touch-screen, is characterized in that:

Comprise: upper glass plate;

2. a kind of macromolecule film electronic conduction video picture touch-screen according to claim 1, is characterized in that:

First conductive layer is that surface attachment has diaphragm, adheres to silver nano-metal net below diaphragm.

3. a kind of macromolecule film electronic conduction video picture touch-screen according to claim 1, is characterized in that:

Second conductive layer comprises macromolecule silver nano-metal net conductive glue lamella and diaphragm;

4. a kind of macromolecule film electronic conduction video picture touch-screen according to claim 3, is characterized in that:

Described macromolecule silver nano-metal net conductive glue lamella is the block structure formed near the cabling dense end extension painting high score material of touch screen at silver nano-metal net.

5. a kind of macromolecule film electronic conduction video picture touch-screen according to claim 4, is characterized in that:

6. a kind of macromolecule film electronic conduction video picture touch-screen according to claim 4, is characterized in that:

Macromolecular material is hung painting area and is accounted for 1/10th of silver nano-metal net.