CN105988615A - Touch control module and manufacturing method thereof - Google Patents

Abstract

The invention discloses a touch control module and a manufacturing method thereof. The touch control module comprises a substrate, at least one first touch control electrode, an activating layer and at least one second touch control electrode, wherein the first touch control electrode is arranged on the substrate; the first touch control electrode and the substrate are covered by the activating layer; conductive residues are embedded into the activating layer; the second touch control electrode is arranged on the activating layer.

Description

Touch-control module and manufacture method thereof

Technical field

The invention relates to a kind of electronic installation and manufacture method thereof.In particular to a kind of touch-control module And manufacture method.

Background technology

Along with the rapid progress of electronics technology, touch-control module has been widely used in various electronic installation, Such as mobile phone, panel computer etc..

Typical touch-control module such as may be disposed on display screen, including multiple touch control electrode.At object (hands Refer to or touching pen etc.) close to or during touching display screen, corresponding touch control electrode produces the signal of telecommunication, and transmits The signal of telecommunication is to control circuit, so as to reaching touch-control sensing.

In the fabrication process, etching mode is usually utilized to be removed by the conductive materials between touch control electrode, with Patterning touch control electrode, and make between touch control electrode insulated from each other.But, by doing that partially electronically conductive material removes Method, by uneven for the optical index causing touch-control module, and affects the optical homogeneity of touch-control module outward appearance.

Summary of the invention

Therefore the optical index for avoiding touch-control module is uneven, an aspect of of the present present invention provides a kind of touch-control Module.According to one embodiment of the invention, this touch-control module include a substrate, at least one first touch control electrode, One active layer and at least one second touch control electrode.This first touch control electrode is arranged on this substrate.This is lived Change layer to be covered on this first touch control electrode and this substrate.One conduction defective material is embedded in this active layer.This is years old Two touch control electrode are arranged on this active layer.

According to one embodiment of the invention, this touch-control module also includes an insulating barrier.This insulating barrier be arranged at this In two touch control electrode.

According to one embodiment of the invention, the orthographic projection on this substrate of this insulating barrier is less than this second touch control electrode Orthographic projection on this substrate.

According to one embodiment of the invention, this insulating barrier is with this conduction defective material orthographic projection on this substrate the most not Overlapping.

According to one embodiment of the invention, this touch-control module also includes at least one first wire.This first wire sets It is placed on this substrate, and this first touch control electrode in electrical contact.

According to one embodiment of the invention, this touch-control module also includes at least one second wire.This second wire sets It is placed in this second touch control electrode, and this second touch control electrode in electrical contact.

According to one embodiment of the invention, this second wire orthographic projection on this substrate is less than this second touch-control electricity Pole orthographic projection on this substrate.

According to one embodiment of the invention, this second wire is with this conduction defective material orthographic projection on this substrate each other The most overlapping.

According to one embodiment of the invention, this second touch control electrode is different from this conduction relative to the height of this substrate Defective material is relative to the height of this substrate.

According to one embodiment of the invention, this second touch control electrode is residual relative to the height of this substrate and this conduction Expect that the difference in height of the height relative to this substrate is more than 50 nanometers.

According to one embodiment of the invention, this second touch control electrode and this conduction defective material orthographic projection on the substrate Do not overlap each other.

According to one embodiment of the invention, this first touch control electrode and this second touch control electrode are strip.

According to one embodiment of the invention, this first touch control electrode is with this second touch control electrode the most just Project perpendicular to one another.

According to one embodiment of the invention, this first touch control electrode is realized by metal grill.

Additionally, another aspect of the present invention provides the manufacture method of a kind of touch-control module.Real according to the present invention one Executing example, this manufacture method includes: form at least one first touch control electrode on a substrate；Form an active layer It is covered on this first touch control electrode and this substrate；And embedding one conduction defective material is in this active layer, with shape Become at least one second touch control electrode on this active layer.

According to one embodiment of the invention, this manufacture method also includes: form at least one first wire in this substrate On, wherein this first wire this first touch control electrode in electrical contact.

According to one embodiment of the invention, embed this conduction defective material in this active layer, to form this second touch-control Electrode step on this active layer includes: form a conductive material layer on this active layer, wherein this conduction Material layer includes an embedded part and a member-retaining portion；And embed this embedded part of this conductive material layer In this active layer, to form this conduction defective material and this second touch control electrode respectively.

According to one embodiment of the invention, embed this embedded part of this conductive material layer in this active layer, with The step forming this conduction defective material and this second touch control electrode respectively includes: provide an embedding liquid in this conduction material On this embedded part of the bed of material, to embed this embedded part of this conductive material layer in this active layer.

According to one embodiment of the invention, embed this conduction defective material in this active layer, to form this second touch-control Electrode step on this active layer also includes: embedding this embedded part of this conductive material layer in this activation Before Ceng, form an insulating barrier in this member-retaining portion of this conductive material layer.

According to one embodiment of the invention, embed this conduction defective material in this active layer, to form this second touch-control Electrode step on this active layer also includes: embedding this embedded part of this conductive material layer in this activation Before Ceng, form at least one second wire in this member-retaining portion of this conductive material layer.

In sum, through applying an above-mentioned embodiment, a kind of touch-control module can be realized.By embedding touch-control Electrode, in substrate, can make between touch control electrode insulated from each other, to pattern touch control electrode.Consequently, it is possible to Can avoid patterning touch control electrode through etching mode, and avoid the optical index causing touch-control module uneven Even, and affect the optical homogeneity of touch-control module outward appearance.

Accompanying drawing explanation

Figure 1A-4A is the signal of the manufacture method of a kind of touch-control module illustrated according to one embodiment of the invention Figure；

Figure 1B-4B is that the touch-control module in Figure 1A-4A is along the profile depicted in line segment A-A direction；

Fig. 1 C-4C is that the touch-control module in Figure 1A-4A is along the profile depicted in line segment B-B direction；

Fig. 4 D is that the touch-control module in Fig. 4 A is along the profile depicted in line segment C-C direction；And

Fig. 5 is the flow chart of the manufacture method of a kind of touch-control module illustrated according to one embodiment of the invention.

Detailed description of the invention

Below by the spirit of the present invention being clearly described with accompanying drawing and narration in detail, any art has Usually intellectual is after understanding presently preferred embodiments of the present invention, when can being added by the technology of teachings of the present invention To change and to modify, it is without departing from spirit and scope of the invention.

About " first " used herein, " second " ... etc., censure order or cis-position the most especially The meaning, be also not used to limit the present invention, it is only for the element that describes with constructed term of difference or behaviour Make.

About direction used herein term, such as: upper and lower, left and right, front or rear etc., it is only Direction with reference to attached drawings.Therefore, the direction term of use is used to illustrate not for limiting the present invention.

About " comprising " used herein, " including ", " having ", " containing " etc., it is opening The term of property, i.e. mean including but not limited to.

About used herein " and/or ", be to include the arbitrary of described things or all combine.

About word used herein (terms), in addition to having and indicating especially, it is generally of each word Use in this area, in the content that discloses at this with the usual meaning in special content.Some is in order to describe The word of this exposure by lower or the other places of this description discuss, to provide those skilled in the art relevant The description the most extra upper guiding of this exposure.

Figure 1A-4A is the manufacture method of a kind of touch-control module 100 illustrated according to one embodiment of the invention Schematic diagram.Figure 1B-4B is that the touch-control module 100 in Figure 1A-4A is along cuing open depicted in line segment A-A direction Face figure.Fig. 1 C-4C is that the touch-control module 100 in Figure 1A-4A is along the section depicted in line segment B-B direction Figure.Fig. 4 D is that the touch-control module 100 in Fig. 4 A is along the profile depicted in line segment C-C direction.

Referring specifically to Figure 1A, Figure 1B and Fig. 1 C.First, in the first step, at least one first is formed Touch control electrode ETD1 and at least one first wire TRC1 on substrate SBT, wherein the first wire TRC1 First touch control electrode ETD1 in electrical contact.In the present embodiment, the first touch control electrode ETD1 can use metal, Metal grill (metal mesh), metal-oxide, conducting polymer, CNT, nano metal line, The suitably electrically conductive material such as conducting resinl, conducting polymer, graphite are dilute, nano metal realizes, the right present invention not with This is limited.First wire TRC1 can use the suitably electrically conductive materials such as metal, metal-oxide, conducting polymer Realizing, the right present invention is not limited.The suitable materials such as substrate SBT useable glass, plastic cement realize, so The present invention is not limited.

Then, in the second step, formed active layer ACT, be covered in the first touch control electrode ETD1 with On substrate SBT.In one embodiment, the thickness of active layer ACT be generally between 50 microns micro-to 550 Rice, but the present invention is not limited.In one embodiment, active layer ACT can use polyacids methyl ester (polymethyl methacrylate, PMMA), Merlon (polycarbonate, PC), poly-to benzene two Formic acid glycol ester (polyethylene terephthalate, PET), cyclic olefin monomers co-polymer (cyclo Olefin polymer, COP) etc. suitably macromolecular material realize, but the present invention is not limited.Should note Meaning arrives, and in the case of the first touch control electrode ETD1 realizes with metal grill, can make active layer ACT more Firmly it is attached in substrate SBT and the first touch control electrode ETD1.

Then, in third step, conductive material layer CDT is formed on active layer ACT.In this enforcement In example, conductive material layer CDT includes embedded part EBP and member-retaining portion RTP.Conductive material layer Member-retaining portion RTP of CDT is to form the second touch control electrode ETD2 in subsequent steps.Conduction The embedded part EBP of material layer CDT is to form conduction defective material RMN in subsequent steps (such as figure 4C).Conductive material layer CDT can use CNT, nano metal line, conducting resinl, conducting polymer, stone The suitably electrically conductive materials such as dilute, the nano metal of ink realize, but the present invention is not limited.

So-called conduction defective material RMN refers in conductive material layer CDT, not in order to make the second touch-control The part of electrode ETD2 (such as Fig. 4 C).In the present embodiment, conduction defective material RMN and the second touch control electrode ETD2 orthographic projection on substrate SBT does not overlaps each other.In the present embodiment, conduction defective material RMN with The orthographic projection on substrate SBT of second touch control electrode ETD2 can form a complete plane, to keep touching The optical homogeneity of control module 100 outward appearance.

Then, referring specifically to Fig. 2 A, Fig. 2 B and Fig. 2 C.In the 4th step, form at least one second Wire TRC2 is in member-retaining portion RTP of conductive material layer CDT, and conductive material layer in electrical contact Member-retaining portion RTP of CDT.In the present embodiment, the second wire TRC2 can use metal, burning The suitably electrically conductive material such as thing, conducting polymer realizes, and the right present invention is not limited.

Then, referring specifically to Fig. 3 A, Fig. 3 B and Fig. 3 C.In the 5th step, form insulating barrier INS In member-retaining portion RTP of conductive material layer CDT.In the present embodiment, a part of insulating barrier INS It is to be covered on the second wire TRC2.In the present embodiment, insulating barrier INS and the second wire TRC2 The most completely cover member-retaining portion RTP of conductive material layer CDT.

Then, referring specifically to Fig. 4 A, Fig. 4 B and Fig. 4 C.In the 6th step, embed conductive material layer The embedded part EBP of CDT is in active layer ACT, and makes member-retaining portion RTP be maintained at active layer ACT Surface on, to make embedded part EBP and member-retaining portion RTP separate and to insulate.Now, embed Embedded part EBP in active layer ACT becomes conduction defective material RMN, is maintained at active layer ACT's Member-retaining portion RTP on surface becomes the second touch control electrode ETD2.In the present embodiment, conduction defective material RMN the first touch control electrode ETD1 the most in electrical contact or the first wire TRC1.

In the present embodiment, conduction defective material RMN has height H1 relative to substrate SBT (that is and base The spacing of plate SBT is H1), the second touch control electrode ETD2 (also has the height H2 relative to substrate SBT The i.e. spacing with substrate SBT is H2).Highly H1 is different from height H2, and the difference of height H1 Yu H2 Value is more than the thickness of conduction defective material RMN or is more than the thickness of the second touch control electrode ETD2, so that conducting electricity residual Material RMN electrically isolates from the second touch control electrode ETD2.In one embodiment, conduction defective material RMN relative to Between the height H1 of substrate SBT and the second touch control electrode ETD2 height H2 relative to substrate SBT Difference in height is approximately greater than 50 nanometers.

In one embodiment, in the 6th above-mentioned step, it is by providing a kind of specific solvent (to call in the following text embedding Enter liquid (embedded ink)) on embedded part EBP in conductive material layer CDT, to make conductive material Embedded part EBP in layer CDT is embedded in active layer ACT from the surface of active layer ACT.Change speech It, by providing embedding liquid on the embedded part EBP of conductive material layer CDT, can make active layer ACT In corresponding part expand (swell) so that the conductive material in conductive material layer CDT penetrates into active layer Among ACT, to embed embedded part EBP in active layer ACT.It should be noted that embed the aspect of liquid Corresponding to the material of active layer ACT, all being enough to makes active layer ACT expand, so that conductive material infiltration Solution among active layer ACT all can be as embedding liquid.In one embodiment, the dissolving ginseng of liquid is embedded Number (solubility parameter) is close to the solubility parameter of the material of active layer ACT.

It should be noted that in embodiments of the present invention, the mode that can pass through coating (spray) or printing (print) carries For embedding liquid, but the present invention is not limited.

Furthermore, it is noted that in the 6th above-mentioned step, due to insulating barrier INS and the second wire TRC2 The most completely it is covered in member-retaining portion RTP of conductive material layer CDT, therefore when providing embedding liquid, Insulating barrier INS, the second wire TRC2 and conductive material layer CDT can be comprehensively provided in by embedding liquid Embedded part EBP on, without making member-retaining portion RTP of conductive material layer CDT be embedded in activation In layer ACT, to simplify the processing procedure providing embedding liquid.

Through above-mentioned manufacture method, touch-control module 100 can be realized.Pattern tactile by the way of embedding Second touch control electrode ETD2 in control module 100, rather than through etching mode, can avoid causing touch-control mould The optical index of block 100 is uneven, and affects the optical homogeneity of touch-control module 100 outward appearance.

In other words, by the way of embedding, pattern touch-control module 100 second touch control electrode ETD2 and can make the Gap is not the most had between two touch control electrode ETD2 and conduction defective material RMN orthographic projection on substrate SBT Or it is the most overlapping.Consequently, it is possible to can avoid because refractive index is uneven, and affect touch-control module 100 outward appearance Optical homogeneity.

When noticing, term " substantially " in the present invention, be modify can slight variations quantity with And the nearmis caused because of manufacture process, but this slight variations and nearmis can't change it Matter.For example, by the way of embedding, pattern in touch-control module 100 that second touch control electrode ETD2 can Error can be caused so that the second touch control electrode ETD2 and conduction defective material RMN are at substrate SBT because of extruding On orthographic projection between there is gap or the most overlapping slightly.But, this is caused because of manufacture process a bit Nearmis, also among the scope of the invention.

In the present embodiment, the first touch control electrode ETD1 and the second touch control electrode ETD2 substantially strip, So the present invention is not limited.In the present embodiment, the first touch control electrode ETD1 is the y in Fig. 4 A Direction of principal axis extends, and the second touch control electrode ETD2 is that the x-axis direction in Fig. 4 A extends.First touch-control Electrode ETD1 and the orthographic projection on substrate SBT of second touch control electrode ETD2 are perpendicular to one another.

In one embodiment, conduction defective material RMN orthographic projection on substrate SBT is not overlapped in the second wire TRC2 or insulating barrier INS orthographic projection on substrate SBT.Additionally, the second wire TRC2 and insulation Layer INS orthographic projection on substrate SBT is less than the just throwing on substrate SBT of second touch control electrode ETD2 Shadow.

Fig. 5 is the flow process of the manufacture method 200 of a kind of touch-control module illustrated according to one embodiment of the invention Figure.Manufacture method 200 may be used to make above-mentioned touch-control module 100, is so not limited.With hypomere Fall, will carry out the explanation of manufacture method 200 as a example by the touch-control module 100 in first embodiment, so this Bright it is not limited.Manufacture method 200 comprises the following steps.

In step sl, at least one first touch control electrode ETD1 is formed on substrate SBT.

In step s 2, form active layer ACT and be covered in the first touch control electrode ETD1 and substrate SBT On.

In step s3, embedding conduction defective material RMN is in active layer ACT, to form at least one second Touch control electrode ETD2 is on active layer ACT.

Through above-mentioned manufacture method 200, touch-control module 100 can be realized.Pattern by the way of embedding Change touch-control module the 100, second touch control electrode ETD2, rather than through etching mode, can avoid causing tactile The optical index of control module 100 is uneven, and affects the optical homogeneity of touch-control module 100 outward appearance.

In sum, one embodiment of the invention discloses a kind of touch-control module.Touch-control module includes substrate, extremely Few one first touch control electrode, active layer and at least one second touch control electrode.First touch control electrode is arranged at base On plate.Active layer is covered on the first touch control electrode and substrate.Conduction defective material is embedded in active layer.Second Touch control electrode is arranged on active layer.

Another embodiment of the present invention discloses the manufacture method of a kind of touch-control module.Manufacture method includes: formed At least one first touch control electrode is on substrate；Form active layer to be covered on the first touch control electrode and substrate；With And embedding conduction defective material is in active layer, to form at least one second touch control electrode on active layer.

Although the present invention is disclosed above with embodiment, so it is not limited to the present invention, any is familiar with this Those skilled in the art, without departing from the spirit and scope of the present invention, when being used for a variety of modifications and variations, therefore originally The protection domain of invention is when being defined in the range of standard depending on appending claims.

Claims (20)

1. a touch-control module, it is characterised in that including:

One substrate；

At least one first touch control electrode, is arranged on this substrate；

One active layer, is covered on this first touch control electrode and this substrate, and wherein a conduction defective material is embedded in this In active layer；And

At least one second touch control electrode, is arranged on this active layer.

Touch-control module the most according to claim 1, it is characterised in that also include:

One insulating barrier, is arranged in this second touch control electrode.

Touch-control module the most according to claim 2, it is characterised in that this insulating barrier is on this substrate Orthographic projection less than this second touch control electrode orthographic projection on this substrate.

Touch-control module the most according to claim 2, it is characterised in that this insulating barrier is residual with this conduction Expect that the orthographic projection on this substrate does not overlaps each other.

Touch-control module the most according to claim 1, it is characterised in that also include:

At least one first wire, is arranged on this substrate, and this first touch control electrode in electrical contact.

Touch-control module the most according to claim 1, it is characterised in that also include:

At least one second wire, is arranged in this second touch control electrode, and this second touch control electrode in electrical contact.

Touch-control module the most according to claim 6, it is characterised in that this second wire is in this substrate On orthographic projection less than this second touch control electrode orthographic projection on this substrate.

Touch-control module the most according to claim 6, it is characterised in that this second wire and this conduction Defective material orthographic projection on this substrate does not overlaps each other.

Touch-control module the most according to claim 1, it is characterised in that this second touch control electrode is relative Height in this substrate is different from this conduction defective material height relative to this substrate.

Touch-control module the most according to claim 9, it is characterised in that this second touch control electrode is relative Height and this conduction defective material in this substrate are more than 50 nanometers relative to the difference in height of the height of this substrate.

11. touch-control modules according to claim 1, it is characterised in that this second touch control electrode with should Conduction defective material orthographic projection on the substrate does not overlaps each other.

12. touch-control modules according to claim 1, it is characterised in that this first touch control electrode with should Second touch control electrode is strip.

13. touch-control modules according to claim 1, it is characterised in that this first touch control electrode with should The orthographic projection on the substrate of second touch control electrode is perpendicular to one another.

14. touch-control modules according to claim 1, it is characterised in that this first touch control electrode is by gold Belong to grid to be realized.

The manufacture method of 15. 1 kinds of touch-control modules, it is characterised in that including:

Form at least one first touch control electrode on a substrate；

Form an active layer to be covered on this first touch control electrode and this substrate；And

Embedding one conduction defective material is in this active layer, to form at least one second touch control electrode in this active layer On.

The manufacture method of 16. touch-control modules according to claim 15, it is characterised in that also include:

Formation at least one first wire is on this substrate, and wherein this first wire this first touch-control in electrical contact is electric Pole.

The manufacture method of 17. touch-control modules according to claim 15, it is characterised in that embedding should Conduction defective material, in this active layer, includes forming this second touch control electrode step on this active layer:

Form a conductive material layer on this active layer, wherein this conductive material layer include an embedded part and One member-retaining portion；And

Embed this embedded part of this conductive material layer in this active layer, with formed respectively this conduction defective material with This second touch control electrode.

The manufacture method of 18. touch-control modules according to claim 17, it is characterised in that embedding should This embedded part of conductive material layer is in this active layer, to form this conduction defective material and this second touch-control respectively The step of electrode includes:

Offer one embedding liquid is on this embedded part of this conductive material layer, to embed being somebody's turn to do of this conductive material layer Embedded part is in this active layer.

The manufacture method of 19. touch-control modules according to claim 17, it is characterised in that embedding should Conduction defective material, in this active layer, also includes forming this second touch control electrode step on this active layer:

Embed this conductive material layer this embedded part before this active layer, form an insulating barrier and lead in this In this member-retaining portion of material layer.

The manufacture method of 20. touch-control modules according to claim 17, it is characterised in that embedding should Conduction defective material, in this active layer, also includes forming this second touch control electrode step on this active layer:

Embed this conductive material layer this embedded part before this active layer, formed at least one second wire In this member-retaining portion of this conductive material layer.