CN205656604U - Information input terminal - Google Patents

Abstract

The utility model discloses an information input terminal belongs to panel display technical field. The utility model discloses an information input terminal is at least including a base plate, it has a first surface at least, the touch -control electrode layer, it is on the first surface, the touch -control electrode is at least including a first electrode tandem, the first electrode tandem comprises a first metal mesh compartment, first metal mesh compartment includes first metal wire and second metal wire, first metal wire is arranged along the first direction, the second metal wire is arranged along the second direction, first metal wire and second metal wire be electric connection alternately, the contained angle that forms between first metal wire and the second metal wire is 20 to 60. The utility model discloses a set for between the metal wire and the angle between metal wire and the display panel shading line reaches the effect of subducing mole line.

Description

A kind of information input terminal

Technical field

This utility model relates to technical field of flat panel display, particularly relates to a kind of information input terminal.

Background technology

Traditional OGS contact panel application indium tin oxide (ITO) makes touch control electrode layer, the resistivity of indium tin oxide (ITO) square resistance is usually tens to hundreds of, because the bigger electric conductivity of its resistance is the best, current noise is bigger, after OGS contact panel combines LCM display screen, its finished product also can add the noise that LCM display screen is brought, thus affects touch-control sensitivity.Indium tin oxide (ITO) makes material as touch control electrode layer, expensive, adds the production cost of contact panel；And indium tin oxide (ITO) high temperature plated film temperature required be about 400 DEG C, energy consumption is higher, and operation is complicated.

And metal grill (Metal-Mesh) technology utilizes silver, metal material or the oxides etc. such as copper can be easily obtained and cheap raw material, conducting metal lattice can be formed, it is easy that processing technology relatively indium tin oxide (ITO) makes touch control electrode layer, temperature required is less than 150 DEG C.The lowest resistance value of its theory can reach 0.1 ohm-sq inch, and has good electromagnetic interference shield effect.

But there is moire fringes in the contact panel that existing applied metal lattice is made, especially under high pixel (typically larger than 200ppi) moire fringes is clearly.Pixel in moire fringes exponential code product display screen, blooming piece and the metal pattern of touch-control conduction, in the horizontal and vertical directions, the pixel of rule alignment and the fine regular pattern eclipsed form slightly deviation of object, the interference wave pattern occurred.Therefore, utilize metal grill to replace indium tin oxide (ITO) to make contact panel to need to cut down the impact that touch control operation is caused by moire fringes.

Utility model content

In view of this, this utility model provides a kind of and utilizes metal grill as touch-control conductive material and the information input terminal that can cut down moire fringes.

For achieving the above object, the technical solution of the utility model is as follows:

According to an aspect of the present utility model, it is provided that a kind of information input terminal, it at least includes: a substrate, it at least has a first surface；Touch control electrode layer, it is formed on first surface, and touch control electrode at least includes one first electrode tandem；First electrode tandem is made up of one first wire netting compartment, first wire netting compartment includes the first metal wire and the second metal wire, first metal wire arranges in the first direction, second metal wire arranges in a second direction, first metal wire and the second metal wire intersection are electrically connected with, and the angle formed between the first metal wire and the second metal wire is 20 ° to 60 °.

Preferably, touch control electrode layer in this information input terminal that this utility model provides the most also includes one second electrode tandem, and second electrode tandem be made up of one second wire netting compartment, second wire netting compartment includes the 3rd metal wire and the 4th metal wire, 3rd metal wire arranges along third direction, 4th metal wire arranges along fourth direction, and the 3rd metal wire and the 4th metal wire intersection are electrically connected with；The angle formed between 3rd metal wire and the 4th metal wire is 20 ° to 60 °；First electrode tandem arranges along the 5th direction, and the second electrode tandem arranges along the 6th direction, and the first electrode tandem and the second electrode tandem transposition insulator are arranged..

Further, the first electrode tandem in this information input terminal that this utility model provides includes that multiple the first electrode unit formed by the first metal wire and the second metal wire and first connects unit, adjacent two first electrode units are connected by the first connection unit, second electrode tandem includes that multiple the second electrode unit formed by the 3rd metal wire and the 4th metal wire and second connects unit, and adjacent two second electrode units are connected by the second connection unit；First metal wire and the second metal wire, make in same processing procedure in the lump；First metal wire and the second metal wire have identical live width, have identical live width, have identical live width between two second adjacent metal wires between adjacent two first metal wires；3rd metal wire and the 4th metal wire, make in same processing procedure in the lump；3rd metal wire and the 4th metal wire have identical live width, have identical live width, have identical live width between two the 4th adjacent metal wires between adjacent two the 3rd metal wires.

Further, this information input terminal that this utility model provides also includes multiple first collets, first electrode tandem and the second electrode array are listed in infall and are insulated by the first collets, first collets connect unit and second first and connect between unit, and the first connecting line is between first surface and the first collets；The live width scope of the first metal wire and the second metal wire is between 2 microns to 6 microns, the first metal wire and the second metal wire intersect be electrically connected with formed first area areal extent be 0.1 square millimeter to 0.5 square millimeter；The live width scope of the 3rd metal wire and the 4th metal wire is between 2 microns to 6 microns, the 3rd metal wire and the 4th metal wire intersect be electrically connected with formed second area areal extent be 0.1 square millimeter to 0.5 square millimeter.

Further, this information input terminal that this utility model provides also includes one first insulating barrier, first electrode tandem and the second electrode unit are formed on first surface, first insulating barrier is formed on the first electrode tandem and the second electrode unit, on first insulating barrier, there is contact hole, second connects unit is formed on the first insulating barrier, and second connects unit connects two second adjacent electrode units by contact hole；The live width scope of the first metal wire and the second metal wire is between 2 microns to 6 microns, the first metal wire and the second metal wire intersect be electrically connected with formed first area areal extent be 0.1 square millimeter to 0.5 square millimeter；The live width scope of the 3rd metal wire and the 4th metal wire is between 2 microns to 6 microns, the 3rd metal wire and the 4th metal wire intersect be electrically connected with formed second area areal extent be 0.1 square millimeter to 0.5 square millimeter.

According to another aspect of the present utility model, it is provided that a kind of information input terminal, it is characterised in that a substrate, it at least has and opposing arranges first surface and second surface；Touch control electrode layer, it is formed on first surface, and touch control electrode at least includes one first electrode tandem；First electrode tandem is made up of one first wire netting compartment, first wire netting compartment includes the first metal wire and the second metal wire, first metal wire arranges in the first direction, and the second metal wire arranges in a second direction, and the first metal wire and the second metal wire intersection are electrically connected with；The second surface laminating of one display floater, display floater and substrate, display floater at least includes the first shading line；The angle formed between first metal wire and the second metal wire is 20 ° to 60 °, and it is 60 ° to 80 ° that the first metal wire hides, relative to the projection and first of first surface, the angle formed between the projection of ray relative first surface.

Preferably, touch control electrode layer in this information input terminal that this utility model provides the most also includes one second electrode tandem, and second electrode tandem be made up of one second wire netting compartment, second wire netting compartment includes the 3rd metal wire and the 4th metal wire, 3rd metal wire arranges along third direction, 4th metal wire arranges along fourth direction, and the 3rd metal wire and the 4th metal wire intersection are electrically connected with；The angle formed between 3rd metal wire and the 4th metal wire is 20 ° to 60 °, and it is 60 ° to 80 ° that the 3rd metal wire hides, relative to the projection and first of first surface, the angle formed between the projection of ray relative first surface；First electrode tandem arranges along the 5th direction, and the second electrode tandem arranges along the 6th direction, and the first electrode tandem and the second electrode tandem transposition insulator are arranged.

Further, in this information input terminal that this utility model provides, the first electrode tandem includes that multiple the first electrode unit formed by the first metal wire and the second metal wire and first connects unit, adjacent two first electrode units are connected by the first connection unit, second electrode tandem includes that multiple the second electrode unit formed by the 3rd metal wire and the 4th metal wire and second connects unit, and adjacent two second electrode units are connected by the second connection unit；First metal wire and the second metal wire, make in same processing procedure in the lump；First metal wire and the second metal wire have identical live width, have identical live width, have identical live width between two second adjacent metal wires between adjacent two first metal wires；3rd metal wire and the 4th metal wire, make in same processing procedure in the lump；3rd metal wire and the 4th metal wire have identical live width, have identical live width, have identical live width between two the 4th adjacent metal wires between adjacent two the 3rd metal wires；Display floater at least includes that one second shading line, the first shading line and the second shading line are vertically arranged；It is 30 ° to 10 ° that second metal wire hides, relative to the projection and second of first surface, the angle formed between the projection of ray relative first surface, and it is 30 ° to 10 ° that the 4th metal wire hides, relative to the projection and second of first surface, the angle formed between the projection of ray relative first surface.

Further, this information input terminal that this utility model provides also includes multiple first collets, first electrode tandem and the second electrode array are listed in infall and are insulated by the first collets, first collets connect unit and second first and connect between unit, and the first connecting line is between first surface and the first collets；The live width scope of the first metal wire and the second metal wire is between 2 microns to 6 microns, the first metal wire and the second metal wire intersect be electrically connected with formed first area areal extent be 0.1 square millimeter to 0.5 square millimeter；The live width scope of the 3rd metal wire and the 4th metal wire is between 2 microns to 6 microns, the 3rd metal wire and the 4th metal wire intersect be electrically connected with formed second area areal extent be 0.1 square millimeter to 0.5 square millimeter.

Further, this information input terminal that this utility model provides also includes one first insulating barrier, first electrode tandem and the second electrode unit are formed on first surface, first insulating barrier is formed on the first electrode tandem and the second electrode unit, on first insulating barrier, there is contact hole, second connects unit is formed on the first insulating barrier, and second connects unit connects two second adjacent electrode units by contact hole；The live width scope of the first metal wire and the second metal wire is between 2 microns to 6 microns, the first metal wire and the second metal wire intersect be electrically connected with formed first area areal extent be 0.1 square millimeter to 0.5 square millimeter；The live width scope of the 3rd metal wire and the 4th metal wire is between 2 microns to 6 microns, the 3rd metal wire and the 4th metal wire intersect be electrically connected with formed second area areal extent be 0.1 square millimeter to 0.5 square millimeter.

In a kind of information input terminal that this utility model provides, utilize metal grill can reduce aisle resistance as touch-control conductive material, improve the signal to noise ratio of touch screen, thus improve sensitivity, reduce cost.Metal grill is when forming electrode tandem, and between its metal wire arranged in a crossed manner, shape has a certain degree and can cut down moire fringes.And, using metal grill as make touch control electrode materials application in information input terminal, between metal wire and the display floater shading line in the metal grill of information input terminal, certain angle is set and can cut down the impact that touch control operation and display effect are caused by moire fringes.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is described in further detail, in accompanying drawing:

The schematic diagram of the information input terminal of the preferred embodiment that Fig. 1 provides for this utility model；

Fig. 2 is the enlarged diagram of a-quadrant in Fig. 1；

The schematic diagram of the information input terminal of another preferred embodiment that Fig. 3 provides for this utility model；

Fig. 4 is the enlarged diagram in B region in Fig. 3.

Detailed description of the invention

For explanation this utility model provide information input terminal technical problem to be solved, technical scheme and beneficial effect is clearer, understand, below in conjunction with drawings and Examples, this utility model is further elaborated.Should be appreciated that specific embodiment described herein, only in order to explain this utility model, is not used to limit this utility model.

The information input terminal that this utility model provides at least includes a substrate 10, and this substrate 10 may select transparent material such as glass, resin and makes, and it at least has a first surface 100, and this first surface 100 is continuous and smooth plane or a curved surface.Touch control electrode layer 110, it is formed on first surface 100, and in the present embodiment, the material generating touch control electrode layer 110 is single metal, composition metal or alloy, but is not limited.Touch control electrode at least includes one first electrode tandem 111, first electrode tandem 111 is made up of one first wire netting compartment 200, first wire netting compartment 200 includes the first metal wire 210 and the second metal wire 220, first metal wire 210 arranges in the first direction, second metal wire 220 arranges in a second direction, first metal wire 210 and the second metal wire 220 intersection are electrically connected with, and the angle a formed between the first metal wire 210 and the second metal wire 220 is 20 ° to 60 °.

The schematic diagram of the information input terminal of the preferred embodiment that reference Fig. 1 and Fig. 2, Fig. 1 provide for this utility model；Fig. 2 is the enlarged diagram of a-quadrant in Fig. 1.In the present embodiment, this information input terminal at least includes a substrate 10, and it at least has a first surface 100；Touch control electrode layer 110, it is formed on first surface 100, this touch control electrode layer 110 at least includes one first electrode tandem 111 and one second electrode tandem 112, first electrode tandem 111 is made up of one first wire netting compartment 200, first wire netting compartment 200 includes the first metal wire 210 and the second metal wire 220, first metal wire 210 arranges in the first direction, second metal wire 220 arranges in a second direction, first metal wire 210 and the second metal wire 220 intersection are electrically connected with, and the angle a formed between the first metal wire 210 and the second metal wire 220 is 20 ° to 60 °.Second electrode tandem 112, and second electrode tandem 112 be made up of one second wire netting compartment (not shown), second wire netting compartment includes the 3rd metal wire (not shown) and the 4th metal wire (not shown), 3rd metal wire arranges along third direction, 4th metal wire arranges along fourth direction, and the 3rd metal wire and the 4th metal wire intersection are electrically connected with；The angle a formed between 3rd metal wire and the 4th metal wire is 20 ° to 60 °；First electrode tandem 111 arranges along the 5th direction, and the second electrode tandem 112 arranges along the 6th direction, and the first electrode tandem 111 and the second electrode tandem 112 transposition insulator are arranged.

The Morie fringe of the Morie fringe of horizontal direction, the Morie fringe of vertical direction and incline direction is calculated, drawing and occuring simultaneously for the lightest region of theoretical molar stricture of vagina between above-mentioned three, determine in metal grill the corner dimension between metal wire by this region.

In the present embodiment, first electrode tandem 111 includes that multiple the first electrode unit (not shown) formed by the first metal wire and the second metal wire and first connects unit (not shown), adjacent two first electrode units are connected by the first connection unit, second electrode tandem 112 includes that multiple the second electrode unit (not shown) formed by the 3rd metal wire and the 4th metal wire and second connects unit (not shown), and adjacent two second electrode units are connected by the second connection unit；First metal wire 210 and the second metal wire 220, makes in same processing procedure in the lump；First metal wire 210 and the second metal wire 220 have identical live width, have identical live width, have identical live width between two second adjacent metal wires 220 between adjacent two first metal wires 210；3rd metal wire and the 4th metal wire, make in same processing procedure in the lump；3rd metal wire and the 4th metal wire have identical live width, have identical live width, have identical live width between two the 4th adjacent metal wires between adjacent two the 3rd metal wires.

More preferably, in the present embodiment, information input terminal can arrange multiple first collets (not shown), first electrode tandem 111 and the second electrode tandem 112 are insulated by the first collets at infall, first collets connect unit and second first and connect between unit, and the first connecting line is between first surface 100 and the first collets；The live width scope of the first metal wire 210 and the second metal wire 220 is between 2 microns to 6 microns, the first metal wire 210 and the second metal wire 220 intersect be electrically connected with formed first area 230 areal extent be 0.1 square millimeter to 0.5 square millimeter；The live width scope of the 3rd metal wire and the 4th metal wire is between 2 microns to 6 microns, the 3rd metal wire and the 4th metal wire intersect be electrically connected with formed second area areal extent be 0.1 square millimeter to 0.5 square millimeter.

More preferably, in the present embodiment, information input terminal can arrange one first insulating barrier (not shown), first electrode tandem 111 and the second electrode unit are formed on first surface 100, first insulating barrier is formed on the first electrode tandem 111, having contact hole on first insulating barrier, second connects unit is formed on the first insulating barrier, and second connects unit connects two second adjacent electrode units by contact hole；The live width scope of the first metal wire 210 and the second metal wire 220 is between 2 microns to 6 microns, the first metal wire 210 and the second metal wire 220 intersect be electrically connected with formed first area 230 areal extent be 0.1 square millimeter to 0.5 square millimeter；The live width scope of the 3rd metal wire and the 4th metal wire is between 2 microns to 6 microns, the 3rd metal wire and the 4th metal wire intersect be electrically connected with formed second area area (not shown) scope be 0.1 square millimeter to 0.5 square millimeter.

The information input terminal of another preferred embodiment that this utility model provides at least includes a substrate 10, this substrate 10 may select transparent material such as glass, resin and makes, it at least has a first surface 100, and this first surface 100 is continuous and smooth plane or a curved surface.Touch control electrode layer 110, it is formed on first surface 100, and in the present embodiment, the material generating touch control electrode layer 110 is single metal, composition metal or alloy, but is not limited.Touch control electrode at least includes one first electrode tandem 111, first electrode tandem 111 is made up of one first wire netting compartment 200, first wire netting compartment 200 includes the first metal wire 210 and the second metal wire 220, first metal wire 210 arranges in the first direction, second metal wire 220 arranges in a second direction, and the first metal wire 210 and the second metal wire 220 intersection are electrically connected with.One display floater 120, display floater 120 is fitted with substrate 10, display floater 120 at least includes the first shading line 121, and the angle b formed between projection and the projection of the first relative first surface of shading line 121 100 of the first relative first surface 100 of metal wire 210 is 60 ° to 80 °.The schematic diagram of the information input terminal of the preferred embodiment that reference Fig. 3 and Fig. 4, Fig. 3 provide for this utility model, Fig. 4 is the enlarged diagram in B region in Fig. 3.The preferred embodiment provided as this utility model, this information input terminal at least includes a substrate 10, and it at least has and opposing arranges first surface 100 and second surface (not shown)；Touch control electrode layer 110, it is formed on first surface 100, and touch control electrode layer 110 at least includes one first electrode tandem 111 and the second electrode tandem 112.First electrode tandem 111 is made up of one first wire netting compartment 200, first wire netting compartment 200 includes the first metal wire 210 and the second metal wire 220, first metal wire 210 arranges in the first direction, second metal wire 220 arranges in a second direction, and the first metal wire 210 and the second metal wire 220 intersection are electrically connected with；Second electrode tandem 112 is made up of one second wire netting compartment, second wire netting compartment includes the 3rd metal wire and the 4th metal wire, 3rd metal wire arranges along third direction, and the 4th metal wire arranges along fourth direction, and the 3rd metal wire and the 4th metal wire intersection are electrically connected with；One display floater 120, the second surface laminating of display floater 120 and substrate 10, display floater 120 at least includes the first shading line 121 and the second shading line 122, and the first shading line 121 is vertically arranged with the second shading line 122；The angle formed between first metal wire 210 and the second metal wire 220 is 20 ° to 60 °, the angle b formed between projection and the projection of the first relative first surface of shading line 121 100 of the first relative first surface 100 of metal wire 210 is 60 ° to 80 °, and the angle c formed between projection and the projection of the second relative first surface of shading line 122 100 of the second relative first surface 100 of metal wire 220 is 30 ° to 10 °；3rd metal wire is 60 ° to 80 ° relative to the angle d formed between projection and the projection of the first relative first surface of shading line 121 100 of first surface 100, and the 4th metal wire is 30 ° to 10 ° relative to the angle e formed between projection and the projection of the second relative first surface of shading line 122 100 of first surface 100；First electrode tandem 111 arranges along the 5th direction, and the second electrode tandem 112 arranges along the 6th direction, and the first electrode tandem 111 and the second electrode tandem 112 transposition insulator are arranged.

In the present embodiment, in this information input terminal, the first electrode tandem 111 includes that multiple the first electrode unit formed by the first metal wire and the second metal wire and first connects unit, adjacent two first electrode units are connected by the first connection unit, second electrode tandem 112 includes that multiple the second electrode unit formed by the 3rd metal wire and the 4th metal wire and second connects unit, and adjacent two second electrode units are connected by the second connection unit；First metal wire 210 and the second metal wire 220, makes in same processing procedure in the lump；First metal wire 210 and the second metal wire 220 have identical live width, have identical live width, have identical live width between two second adjacent metal wires 220 between adjacent two first metal wires 210；3rd metal wire and the 4th metal wire, make in same processing procedure in the lump；3rd metal wire and the 4th metal wire have identical live width, have identical live width, have identical live width between two the 4th adjacent metal wires between adjacent two the 3rd metal wires.

More preferably, this information input terminal also includes multiple first collets, first electrode tandem 111 and the second electrode tandem 112 are insulated by the first collets at infall, first collets connect unit and second first and connect between unit, and the first connecting line is between first surface 100 and the first collets；The live width scope of the first metal wire 210 and the second metal wire 220 is between 2 microns to 6 microns, the first metal wire 210 and the second metal wire 220 intersect be electrically connected with formed first area 230 areal extent be 0.1 square millimeter to 0.5 square millimeter；The live width scope of the 3rd metal wire and the 4th metal wire is between 2 microns to 6 microns, the 3rd metal wire and the 4th metal wire intersect be electrically connected with formed second area areal extent be 0.1 square millimeter to 0.5 square millimeter.

More preferably, this information input terminal also includes one first insulating barrier, first electrode tandem 111 and the second electrode unit are formed on first surface 100, first insulating barrier is formed on the first electrode tandem 111, on first insulating barrier, there is contact hole, second connects unit is formed on the first insulating barrier, and second connects unit connects two second adjacent electrode units by contact hole；The live width scope of the first metal wire 210 and the second metal wire 220 is between 2 microns to 6 microns, the first metal wire 210 and the second metal wire 220 intersect be electrically connected with formed first area 230 areal extent be 0.1 square millimeter to 0.5 square millimeter；The live width scope of the 3rd metal wire and the 4th metal wire is between 2 microns to 6 microns, the 3rd metal wire and the 4th metal wire intersect be electrically connected with formed second area areal extent be 0.1 square millimeter to 0.5 square millimeter.

The Morie fringe of the Morie fringe of horizontal direction, the Morie fringe of vertical direction and incline direction is calculated, drawing and occuring simultaneously for the lightest region of theoretical molar stricture of vagina between above-mentioned three, determine in metal grill the corner dimension between metal wire by this region.

In a kind of information input terminal that this utility model provides, metal grill is when forming electrode tandem, and between the metal wire that its intersection is electrically connected with, shape has a certain degree and can cut down moire fringes.And, using metal grill as make touch control electrode materials application in information input terminal, between metal wire and the display floater shading line in the metal grill of information input terminal, certain angle is set and can cut down the impact that touch control operation and display effect are caused by moire fringes.

The better embodiment of a kind of information input terminal provided for this utility model above; the restriction to this utility model rights protection scope can not be interpreted as; those skilled in the art should know; without departing from the concept of the premise utility; also can do multiple improvement or replacement; all of such improvement or replacement all should be in the range of rights protections of the present utility model, and rights protection scope the most of the present utility model should be as the criterion with claim.

Claims (10)

1. an information input terminal, it is characterised in that it at least includes:

One substrate, it at least has a first surface；

Touch control electrode layer, it is formed on described first surface, and described touch control electrode at least includes one first electrode tandem；

Described first electrode tandem is made up of one first wire netting compartment, described first wire netting compartment includes the first metal wire and the second metal wire, described first metal wire arranges in the first direction, described second metal wire arranges in a second direction, described first metal wire and described second metal wire intersection are electrically connected with, and the angle formed between described first metal wire and described second metal wire is 20 ° to 60 °.

2. information input terminal as claimed in claim 1, it is characterized in that, described touch control electrode layer the most also includes one second electrode tandem, and described second electrode tandem is made up of one second wire netting compartment, described second wire netting compartment includes the 3rd metal wire and the 4th metal wire, described 3rd metal wire arranges along third direction, and described 4th metal wire arranges along fourth direction, and described 3rd metal wire and described 4th metal wire intersection are electrically connected with；

The angle formed between described 3rd metal wire and described 4th metal wire is 20 ° to 60 °；

Described first electrode tandem arranges along the 5th direction, and described second electrode tandem arranges along the 6th direction, and described first electrode tandem and described second electrode tandem transposition insulator are arranged.

3. information input terminal as claimed in claim 2, it is characterized in that, described first electrode tandem includes that multiple the first electrode unit formed by described first metal wire and described second metal wire and first connects unit, first electrode unit described in adjacent two connects unit by described first and connects, described second electrode tandem includes that multiple the second electrode unit formed by described 3rd metal wire and described 4th metal wire and second connects unit, and the second electrode unit described in adjacent two connects unit by described second and connects；

Described first metal wire and described second metal wire, make in same processing procedure in the lump；Described first metal wire and described second metal wire have identical live width, have identical live width, have identical live width described in adjacent two between the second metal wire described in adjacent two between the first metal wire；

Described 3rd metal wire and described 4th metal wire, make in same processing procedure in the lump；Described 3rd metal wire and described 4th metal wire have identical live width, have identical live width, have identical live width described in adjacent two between the 4th metal wire described in adjacent two between the 3rd metal wire.

4. information input terminal as claimed in claim 3, it is characterized in that, described information input terminal also includes multiple first collets, described first electrode tandem and described second electrode array are listed in infall and are insulated by described first collets, and described first collets connect unit described first and are connected between unit with described second；

The live width scope of described first metal wire and described second metal wire is between 2 microns to 6 microns, described first metal wire and described second metal wire intersect be electrically connected with formed first area areal extent be 0.1 square millimeter to 0.5 square millimeter；

The live width scope of described 3rd metal wire and described 4th metal wire is between 2 microns to 6 microns, described 3rd metal wire and described 4th metal wire intersect be electrically connected with formed second area areal extent be 0.1 square millimeter to 0.5 square millimeter.

5. information input terminal as claimed in claim 3, it is characterized in that, described information input terminal also includes one first insulating barrier, described first electrode tandem and described second electrode unit are formed on described first surface, described first insulating barrier is formed on described first electrode tandem and described second electrode unit, on described first insulating barrier, there is contact hole, described second connects unit is formed on described first insulating barrier, and described second connects unit connects the second electrode unit described in adjacent two by described contact hole；

The live width scope of described first metal wire and described second metal wire is between 2 microns to 6 microns, described first metal wire and described second metal wire intersect be electrically connected with formed first area areal extent be 0.1 square millimeter to 0.5 square millimeter；

The live width scope of described 3rd metal wire and described 4th metal wire is between 2 microns to 6 microns, described 3rd metal wire and described 4th metal wire intersect be electrically connected with formed second area areal extent be 0.1 square millimeter to 0.5 square millimeter.

6. an information input terminal, it is characterised in that

One substrate, it at least has and opposing arranges first surface and second surface；

Touch control electrode layer, it is formed on described first surface, and described touch control electrode at least includes one first electrode tandem；

Described first electrode tandem is made up of one first wire netting compartment, described first wire netting compartment includes the first metal wire and the second metal wire, described first metal wire arranges in the first direction, described second metal wire arranges in a second direction, and described first metal wire and described second metal wire intersection are electrically connected with；

The described second surface laminating of one display floater, described display floater and described substrate, described display floater at least includes the first shading line；

The angle formed between described first metal wire and described second metal wire is 20 ° to 60 °, and it is 60 ° to 80 ° that the projection of the described first the most described first surface of metal wire and described first hides the angle formed between the projection of first surface described in ray relative.

7. information input terminal as claimed in claim 6, it is characterized in that, described touch control electrode layer the most also includes one second electrode tandem, and described second electrode tandem is made up of one second wire netting compartment, described second wire netting compartment includes the 3rd metal wire and the 4th metal wire, described 3rd metal wire arranges along third direction, and described 4th metal wire arranges along fourth direction, and described 3rd metal wire and described 4th metal wire intersection are electrically connected with；

The angle formed between described 3rd metal wire and described 4th metal wire is 20 ° to 60 °, and it is 60 ° to 80 ° that the projection of the described 3rd the most described first surface of metal wire and described first hides the angle formed between the projection of first surface described in ray relative；

Described first electrode tandem arranges along the 5th direction, and described second electrode tandem arranges along the 6th direction, and described first electrode tandem and described second electrode tandem transposition insulator are arranged.

8. information input terminal as claimed in claim 7, it is characterized in that, described first electrode tandem includes that multiple the first electrode unit formed by described first metal wire and described second metal wire and first connects unit, adjacent two first electrode units connect unit by described first and connect, described second electrode tandem includes that multiple the second electrode unit formed by described 3rd metal wire and described 4th metal wire and second connects unit, and adjacent two second electrode units connect unit by described second and connect；

Described first metal wire and described second metal wire, make in same processing procedure in the lump；Described first metal wire and described second metal wire have identical live width, have identical live width, have identical live width described in adjacent two between the second metal wire described in adjacent two between the first metal wire；

Described 3rd metal wire and described 4th metal wire, make in same processing procedure in the lump；Described 3rd metal wire and described 4th metal wire have identical live width, have identical live width, have identical live width described in adjacent two between the 4th metal wire described in adjacent two between the 3rd metal wire；

Described display floater at least includes that one second shading line, described first shading line are vertically arranged with described second shading line；

It is 30 ° to 10 ° that the projection of the described second the most described first surface of metal wire and described second hides the angle formed between the projection of first surface described in ray relative, and it is 30 ° to 10 ° that described 4th metal wire hides, relative to the projection and described second of first surface, the angle formed between the projection of ray relative first surface.

9. information input terminal as claimed in claim 8, it is characterized in that, described information input terminal also includes multiple first collets, described first electrode tandem and described second electrode array are listed in infall and are insulated by described first collets, and described first collets connect unit described first and are connected between unit with described second；

The live width scope of described first metal wire and described second metal wire is between 2 microns to 6 microns, described first metal wire and described second metal wire intersect be electrically connected with formed first area areal extent be 0.1 square millimeter to 0.5 square millimeter；

The live width scope of described 3rd metal wire and described 4th metal wire is between 2 microns to 6 microns, described 3rd metal wire and described 4th metal wire intersect be electrically connected with formed second area areal extent be 0.1 square millimeter to 0.5 square millimeter.

10. information input terminal as claimed in claim 8, it is characterized in that, described information input terminal also includes one first insulating barrier, described first electrode tandem and described second electrode unit are formed on described first surface, described first insulating barrier is formed on described first electrode tandem and described second electrode unit, on described first insulating barrier, there is contact hole, described second connects unit is formed on described first insulating barrier, and described second connects unit connects the second electrode unit described in adjacent two by described contact hole；

The live width scope of described first metal wire and described second metal wire is between 2 microns to 6 microns, described first metal wire and described second metal wire intersect be electrically connected with formed first area areal extent be 0.1 square millimeter to 0.5 square millimeter；

The live width scope of described 3rd metal wire and described 4th metal wire is between 2 microns to 6 microns, described 3rd metal wire and described 4th metal wire intersect be electrically connected with formed second area areal extent be 0.1 square millimeter to 0.5 square millimeter.