CN104063075A - Touch panel - Google Patents

Abstract

A touch panel comprises a substrate, a shielding layer, a first electrode layer, a first insulating layer, a second electrode layer, a first conductor layer and a second insulating layer, wherein the substrate is provided with a touch area and a non-touch area; the shielding layer and the conductor layer are arranged in the non-touch area; the first electrode layer and the second electrode layer are arranged in the touch area; the first insulating layer is arranged between the first electrode layer and the second electrode layer and corresponds to the second electrode layer; and the second electrode layer and the conductor layer are covered with the second insulating layer. With the adoption of the touch panel, the number of conductors can be reduced, and mechanism intervention and signal shielding can be prevented.

Description

Contact panel

Technical field

A contact panel, espespecially a kind ofly reduces the quantity of wire and avoids interference in mechanism and contact panel that signal is shielded.

Background technology

Along with the development of contact panel technology in recent years, there is now the portable electronic devices of Presentation Function, as all changing, Smartphone, panel computer etc. adopt contact panel to replace the mechanical key that tradition takes up space.

Take a broad view of in existing contact panel, more often be used in the capacitance type touch-control panel that mostly is of portable electronic devices, and general capacitive contact panel, this contact panel arranges a tin indium oxide (ITO) layer on a transparency carrier bottom surface, and bottom surface periphery is as a wiring region, on this indium tin oxide layer, be formed with a plurality of electrodes, and a plurality of wires are set on this wiring region are electrically connected to the plurality of electrode respectively, and because above-mentioned wire is nontransparent thing, therefore when the manufacturer of making electronic installation takes above-mentioned contact panel, must be coated with an ink layer in a fender bottom peripheral edge again, and in the end face of above-mentioned contact panel, one adhered layer and bonding with this fender is set, make the wiring region of the corresponding contact panel of this fender bottom surface ink layer, so that the wire in contact panel wiring region is covered, and the use of ink layer and adhered layer causes the problem of processing procedure and material cost except meeting to the manufacturing plant of electronic installation, also can make the integral thickness of electronic installation increase, cannot meet the compact demand of portable electronic devices, therefore the shortcoming such as integral thickness certainly will need to improve to some extent.

Moreover, conventional condenser contact panel is because solve known problem, the electrode of transverse axis and the longitudinal axis is arranged on same plane, by fine and closely woven wire laying mode, the electrode of diaxon is set again, so as to reducing integral thickness, but the electrode of diaxon easily produces and disturbs at a distance of too near, moreover, easily because distance is crossed and then generation is interfered or causes the shortcomings such as electric pole short circuit or signal interference, therefore known technology has following shortcoming:

1 manufacturing cost is higher;

2 easily cause interference;

3 easily produce signal disturbs.

Summary of the invention

For this reason, for solving the shortcoming of above-mentioned known technology, fundamental purpose of the present invention, is to provide a kind of electrode of avoiding and mutually interferes or the contact panel of signal phase mutual interference.

For achieving the above object, the invention provides a kind of contact panel, comprise: a substrate, a shielding layer, one first electrode layer, one first insulation course, a second electrode lay, a conductor layer, one second insulation course; This substrate has a Touch Zone and a non-Touch Zone, and this non-Touch Zone is positioned at the outside of this Touch Zone; Described shielding layer is located at this non-Touch Zone; This first electrode layer is located at this Touch Zone, and part extends to this non-Touch Zone; This first insulation course covers aforementioned the first electrode layer one side; Described the second electrode lay is located at the opposite side of contrary this first electrode layer of this insulation course, and this Touch Zone relatively, and part extends to this non-Touch Zone; Described conductor layer is located at this non-Touch Zone, corresponding with this shielding layer, and is electrically connected with aforementioned first and second electrode layer; This second insulation course is covered in aforementioned the second electrode lay and this conductor layer, and the setting by structure of the present invention not only can prevent interelectrode mutual interference, more can avoid producing signal and disturb.

Accompanying drawing explanation

Fig. 1 is the first embodiment three-dimensional exploded view of contact panel of the present invention;

Fig. 2 is the first embodiment three-dimensional cutaway view of contact panel of the present invention;

Fig. 3 is the second embodiment view sub-anatomy of contact panel of the present invention;

Fig. 4 is the second embodiment assembled sectional view of contact panel of the present invention;

Fig. 5 is the 3rd embodiment cut-open view of contact panel of the present invention.

Symbol description

Contact panel 1

Substrate 11

Touch Zone 111

Non-Touch Zone 112

Shielding layer 12

The first electrode layer 13

The first insulation course 14

Perforation 141

The second electrode lay 15

Conductor layer 16

The first wire 161

The second wire 162

The second insulation course 17

Flexible base plate 2

Conducting resinl 3

Embodiment

Characteristic in above-mentioned purpose of the present invention and structure thereof and function, will be explained according to appended graphic preferred embodiment.

Refer to Fig. 1, Fig. 2; the first embodiment three-dimensional exploded view and cut-open view for contact panel of the present invention; as shown in the figure; described contact panel 1, comprises: a substrate 11, a shielding layer 12, one first electrode layer 13, one first insulation course 14, a second electrode lay 15, a conductor layer the 16 one the second insulation courses 17;

Described substrate 11 has a Touch Zone 111 and a non-Touch Zone 112, and this non-Touch Zone 112 is positioned at the outside (all sides) of this Touch Zone 111, and around this Touch Zone 111.

Described shielding layer 12 is located at this non-Touch Zone 112, this shielding layer 12 can be a kind of opaque ink, by the mode of printing or attach, be arranged at aforementioned non-Touch Zone 112, or this shielding layer 12 can be a kind of opaque paster and be arranged at aforementioned non-Touch Zone 112, this main system of shielding layer 12 is as hiding this conductor layer 16.

Described the first electrode layer 13 is located at this Touch Zone 111, part extends to this non-Touch Zone 112, and local this shielding layer 12 that covers, this first insulation course 14 is covered in the opposite side of aforementioned first electrode layer 13 contrary these substrates 11, described the first set position of insulation course 14 is for aforementioned the first electrode layer 13 of complete covering, to be arranged at the part of relatively aforementioned Touch Zone 111, and the first insulation course 14 covers the part that this first electrode layer 13 is arranged at this non-Touch Zone 112 simultaneously.

Described the second electrode lay 15 is located at the opposite side of these the first insulation course 14 contrary these the first electrode layers 13, and this Touch Zone 111 relatively, these the second electrode lay 15 parts extend to this non-Touch Zone 112, it is corresponding with this shielding layer 12 that this conductor layer 16 is located at this non-Touch Zone 112, and be electrically connected with aforementioned first and second electrode layer 13,15, described the second insulation course 17 is the opposite sides that are covered in aforementioned the second electrode lay 15 contrary these the first insulation courses 14, and covers this conductor layer 16 simultaneously.

Described conductor layer 16 also has the first wire 161 and one second wire 162, and described the first wire 161 is to be electrically connected with aforementioned the first electrode layer 13, and described the second wire 162 is to be electrically connected with aforementioned the second electrode lay 17.

Described first and second insulation course the 14, the 17th, may be selected to be transparent (printing opacity) insulating material and monox wherein arbitrary.

Described substrate 11 is to may be selected to be glass and macromolecular material is wherein arbitrary.

Refer to Fig. 3, Fig. 4, to analyse and observe and assembled sectional view for the second embodiment decomposition of contact panel of the present invention, as shown in the figure, the present embodiment part technical characterictic is identical with aforementioned the first embodiment, therefore will repeat no more at this, only the present embodiment and aforementioned the first embodiment different to be in described the first insulation course 14 be to cover this first electrode layer 13 and this shielding layer 12 simultaneously, the position that described the first insulation course 14 is positioned at this non-Touch Zone 112 has a plurality of perforation 141, the first wire 161 of described conductor layer 16 is electrically connected by described perforation 141 and described the first electrode layer 13.

Refer to Fig. 5, it is the 3rd embodiment cut-open view for contact panel of the present invention, as shown in the figure, the present embodiment part technical characterictic is identical with aforementioned the first embodiment, therefore will repeat no more at this, only the present embodiment also has a flexible base plate 2 from different being in described contact panel 1 of aforementioned the first embodiment, and 16 of this flexible base plate 2 and this conductor layers also have a conducting resinl 3, by this conducting resinl 3, can make flexible base plate 2 and this conductor layer 16 be electrically connected.

Claims (10)

1. a contact panel, is characterized in that, comprises:

One substrate, has a Touch Zone and a non-Touch Zone, and this non-Touch Zone is positioned at side outside this Touch Zone;

One shielding layer, is located at this non-Touch Zone;

One first electrode layer, is located at this Touch Zone, and part extends to this non-Touch Zone;

One first insulation course, covers aforementioned the first electrode layer side of this substrate on the contrary;

One the second electrode lay, is located at the opposite side of contrary this first electrode layer of this insulation course, and this Touch Zone relatively, and part extends to this non-Touch Zone;

One conductor layer, is located at this non-Touch Zone, corresponding with this shielding layer, and is electrically connected with aforementioned first and second electrode layer;

One second insulation course, is covered in aforementioned the second electrode lay and this conductor layer.

2. contact panel as claimed in claim 1, is characterized in that, described first and second insulation course is a kind of transparent insulation material.

3. contact panel as claimed in claim 1, is characterized in that, described first and second insulation course is monox.

4. contact panel as claimed in claim 1, is characterized in that, described substrate is chosen as glass and macromolecular material is wherein arbitrary.

5. contact panel as claimed in claim 1, is characterized in that, described the second insulation course is covered in the opposite side of contrary this first insulation course of aforementioned the second electrode lay.

6. contact panel as claimed in claim 1, is characterized in that, also has a flexible base plate, and this flexible base plate and aforementioned wire interlayer also have a conducting resinl, makes this flexible base plate and this conductor layer be electrically connected.

7. contact panel as claimed in claim 1, is characterized in that, the position that described the first insulation course is positioned at this non-Touch Zone has a plurality of perforation.

8. contact panel as claimed in claim 1, is characterized in that, aforementioned the first electrode layer of the complete covering of described the first insulation course is arranged at the part of relatively aforementioned Touch Zone, and covers the part that this first electrode layer is arranged at this non-Touch Zone.

9. contact panel as claimed in claim 1, is characterized in that, described conductor layer also has the first wire and one second wire, and described the first wire and aforementioned the first electrode layer are electrically connected, and described the second wire and aforementioned the second conductor layer are electrically connected.

10. contact panel as claimed in claim 7, it is characterized in that, described conductor layer also has the first wire and one second wire, and described the first wire is electrically connected by described perforation and aforementioned the first electrode layer, and described the second wire and aforementioned the second conductor layer are electrically connected.