CN103425345B - Screen body of touch screen structure, touch display screen and touch button device - Google Patents

Abstract

The present invention provides a kind of screen body of touch screen structure, comprising: panel；Touching conductor, including touch sensible portion and flexible connecting portion, described touch sensible portion includes relative the first conductive layer, the second conductive layer；Described flexible connecting portion is stretched out by the side in described touch sensible portion and is formed, described flexible connecting portion and described touch sensible portion are in one, described flexible connecting portion is provided with the first conducting circuit electrically connected with the first conductive layer, and the second conducting circuit electrically connected with the second conductive layer；Adhesive layer, is located between described panel and touch sensitive layer, is used for bonding described panel and described touch sensitive layer.The flexible connecting members of above-mentioned screen body of touch screen structure directly from the base extension of inductive layer out, and completes to turn on accordingly the making of circuit thereon, it is achieved touch sensitive layer is integrated with flexible connecting members.The present invention also provides for touching display screen and touch button device.

Description

Screen body of touch screen structure, touch display screen and touch button device

Technical field

The present invention relates to Display Technique field, particularly relate to a kind of screen body of touch screen structure, touch display screen and Touch button device.

Background technology

Screen body of touch screen structure technology, as a branch of touch technology, solves traditional mechanical formula button defeated Easy to wear, the problem such as the life-span is short entering that mode exists, determines finger by the minor variations of detection electric charge Touch location.Compared to mechanical key and resistance-type button, capacitive touch screen screen body structure is the most durable, Cheap, simple in construction, and be easily installed, water proof anti-soil；But it there is also a lot of problem, because of Not having mechanical realization, all of detection is all the minor variations of electricity so that it is very sensitive to various interference, Therefore how to ensure that the accuracy of screen body of touch screen structure is particularly important.

Flexible PCB is that the one made for base material with polyimides or mylar has height reliability, Excellent flexible printed circuit, is called for short soft board or FPC(FlexiblePrintedCircuit), there is distribution The feature that density is high, lightweight, thickness is thin.Nesa coating is connected with external circuits by FPC, to incite somebody to action The position signalling of nesa coating perception is transferred in processor, is identified, and determines touch location.

But, when existing nesa coating is connected with external circuits by FPC, first FPC is led with transparent The lead areas laminating of electrolemma, is connected with printed circuit board (PrintedCircuitBoard, PCB) the most again Connect, cause production efficiency low.

Summary of the invention

Based on this, it is necessary to provide the one can be cost-effective, screen body of touch screen structure that production efficiency is high, Touch display screen and touch button device.

One screen body of touch screen structure of the present invention, including:

Panel；

Touching conductor, including touch sensible portion and flexible connecting portion, described touch sensible portion includes relative First conductive layer, the second conductive layer；Described flexible connecting portion is stretched out by the side in described touch sensible portion Being formed, described flexible connecting portion and described touch sensible portion are in one, and described flexible connecting portion is provided with and first First conducting circuit of conductive layer electrical connection, and the second conducting circuit electrically connected with the second conductive layer；

Adhesive layer, is located between described panel and touch sensitive layer, is used for bonding described panel and described touch Inductive layer.

Wherein in an embodiment, described touch conductor includes:

First substrate, including first surface and the second surface relative with first surface, described first substrate divides For induction zone and the flexible region formed that stretches out from side, described induction zone；

Set the first latticed groove in the induction zone of described first surface, described first conductive layer is formed at first Latticed groove；The induction zone of described second surface sets the second latticed groove, and described second conductive layer is formed In the second latticed groove；

Described first conducting circuit is arranged on the flexible region of first surface, and described second conducting circuit is arranged on the The flexible region on two surfaces.

Wherein in an embodiment, described touch conductor includes:

First substrate, including relative first surface and second surface, described first substrate be divided into induction zone with And the flexible region formed that stretches out from side, described induction zone；

First hypothallus, is located at the bottom of the first surface of the first substrate, and described first hypothallus is away from the first base Setting the first substrate groove on the induction zone that the surface at the end is corresponding, it is recessed that described first conductive layer is formed at the first substrate Groove；

Second hypothallus, is located on the second surface of the first substrate, away from first on described second hypothallus Setting the second substrate groove on the induction zone that the surface of substrate is corresponding, described second conductive layer becomes the second substrate recessed Groove；

Described first conducting circuit is located at the flexible region that described first hypothallus is corresponding, described second conducting circuit It is located at the flexible region that described second hypothallus is corresponding.

Wherein in an embodiment, described touch conductor includes: the first inductive layer and the second inductive layer, Described first inductive layer and the bonding of the second inductive layer connect,

First inductive layer includes that the first substrate, described first substrate are divided into induction zone and from described induction zone one Epitaxial lateral overgrowth stretches the flexible region of formation；

Induction zone corresponding in first substrate sets the first latticed groove, and the first conductive layer is formed at described first Latticed groove；

Second inductive layer includes the second substrate, and in the second substrate, the induction zone of corresponding first substrate sets the second groove, Second conductive layer is formed at the second groove；

Described first conducting circuit is located at the flexible region that the first substrate is corresponding；Described second conducting circuit is located at the The flexible region that two substrates are corresponding with the first substrate.

Wherein in an embodiment, described touch conductor includes the first inductive layer and the second inductive layer, institute State the first inductive layer and the bonding of the second inductive layer connect,

First inductive layer includes the first substrate and is bonding on the first hypothallus of the first substrate, described first substrate It is divided into induction zone and the flexible region formed that stretches out from side, described induction zone；

First hypothallus sets the first substrate groove, the first conductive layer shape corresponding to the induction zone of described first substrate Become the first substrate groove；

Second inductive layer includes the second substrate and is bonding on the second hypothallus of the second substrate, the second hypothallus pair The induction zone answering the first substrate sets the second substrate groove, and the second conductive layer is formed at the second substrate groove；

Described first conducting circuit is located on the first hypothallus corresponding with the flexible region of described first substrate, institute State the second conducting circuit to be located on the second hypothallus corresponding with the flexible region of described first substrate.

Wherein in an embodiment, described touch conductor includes:

First basal layer, described first substrate is divided into induction zone and the shape that stretches out from side, described induction zone The flexible region become；

Described induction zone is provided with the first latticed groove, and the first conductive layer is formed at the first latticed groove；

First hypothallus, is located at the first basal layer and is located at the surface of the first latticed groove, away from the first substrate The surface of layer sets the first substrate groove, and the second conductive layer is formed at the first substrate groove；

Described first conducting circuit is located at the flexible region that the first basal layer is corresponding, and described second conducting circuit is located at The surface of first hypothallus corresponding with the flexible region of the first basal layer.

Wherein in an embodiment, described touch conductor includes:

First basal layer, described first substrate is divided into induction zone and the shape that stretches out from side, described induction zone The flexible region become；

First hypothallus, is located at the first substrate surface, corresponding to the table away from the first basal layer of induction zone Face sets the first substrate groove, and described first conductive layer is formed at the first substrate groove；

Second hypothallus, is located at the first substrate layer surface, and described first hypothallus is positioned at the first basal layer and Between two hypothalluses, the second hypothallus corresponding to induction zone sets the second substrate away from the surface of the first hypothallus Groove, the second conductive layer is formed at the second substrate groove；

Described first conducting circuit is located at the surface of first hypothallus corresponding with flexible region, described second conducting Circuit is located at the surface of second hypothallus corresponding with flexible region.

Wherein in an embodiment, also include many lead-in wire electrodes, described first conductive layer and described lead-in wire Electrode electrically connects and is connected to control circuit, and described second conductive layer electrically connects with described lead-in wire electrode and be connected to control Circuit processed.

On the other hand a kind of touch display screen is also provided for, including screen body of touch screen structure as the aforementioned.

Also provide for a kind of touch button device, including screen body of touch screen structure as the aforementioned.

The flexible connecting members of above-mentioned screen body of touch screen structure directly from the base extension of inductive layer out, And complete to turn on accordingly the making of circuit thereon, it is achieved touch sensitive layer and the one of flexible connecting members Change.Directly save the operation of laminating, simplify Making programme, use manpower and material resources sparingly, reduce product cost.

Accompanying drawing explanation

Fig. 1 is the structural representation of the screen body of touch screen structure described in the embodiment of the present invention one；

Fig. 2 is the floor map of the screen body of touch screen structure described in the embodiment of the present invention one；

Fig. 3 is the structural representation of the touch sensitive layer of the screen body of touch screen structure described in the embodiment of the present invention one；

Fig. 4～7 is the mesh shape schematic diagram of the screen body of touch screen structure described in the embodiment of the present invention one；

Fig. 8 is the structural representation of the touch sensitive layer of the screen body of touch screen structure described in the embodiment of the present invention two；

Fig. 9 is the structural representation of the touch sensitive layer of the screen body of touch screen structure described in the embodiment of the present invention three；

Figure 10 is the structural representation of the touch sensitive layer of the screen body of touch screen structure described in the embodiment of the present invention four Figure；

Figure 11 is the structural representation of the touch sensitive layer of the screen body of touch screen structure described in the embodiment of the present invention five Figure；

Figure 12 is the structural representation of the touch sensitive layer of the screen body of touch screen structure described in the embodiment of the present invention six Figure.

Detailed description of the invention

Understandable for enabling the above-mentioned purpose of screen body of touch screen structure, feature and advantage to become apparent from, knot below Close accompanying drawing the detailed description of the invention of screen body of touch screen structure is described in detail.Illustrate in the following description A lot of details are so that fully understand screen body of touch screen structure.But screen body of touch screen structure can be with Much being different from alternate manner described here to implement, those skilled in the art can be without prejudice to the present invention Doing similar improvement in the case of intension, therefore screen body of touch screen structure is not by the following public limit being embodied as System.

Unless otherwise defined, all of technology used herein and scientific terminology are tied with belonging to screen body of touch screen The implication that the those skilled in the art of structure are generally understood that is identical.Saying in screen body of touch screen structure herein Term used in bright book is intended merely to describe the purpose of specific embodiment, it is not intended that touch in limiting Screen screen body structure.Term as used herein "and/or" includes one or more relevant Listed Items Arbitrary and all of combination.

Embodiment one

Refer to Fig. 1, Fig. 2, screen body of touch screen structure 10 includes panel 12, bonding coat 14, touches conduction Body 15, touch sensitive layer 16 is binded by bonding coat 14 with panel 12.

Panel is for attractive in appearance and protection button, and the material of panel can be the non-conducting materials such as plastic and glass, Being such as PMMA, thickness is 1.0～1.5mm.Bonding coat is transparent optical cement, is such as OCA optics Glue or transparent UV glue.

Touching conductor 15 and include touch sensible portion and flexible connecting portion, described touch sensible portion includes relative First conductive layer, the second conductive layer.Described flexible connecting portion is stretched out by the side in described touch sensible portion Formed.Described flexible connecting portion and described touch sensible portion are in one.Described flexible connecting portion is provided with and first First conducting circuit of conductive layer electrical connection, and the second conducting circuit electrically connected with the second conductive layer.

Referring to Fig. 3, in the illustrated embodiment, described touch conductor includes the first substrate 120, first Conductive layer the 140, second conductive layer 160.

Concrete, the first substrate 120 includes first surface 112 and the second surface 114 relative with first surface, First substrate 120 includes induction zone 116 and the flexibility formed that stretches out from side, described induction zone 116 District 118.The width of flexible region 118 is less than the width of induction zone 116.In the sensing that described first surface is corresponding District 116 sets the first latticed groove 122, and described first conductive layer 140 is formed at the first latticed groove 122. The flexible region 118 of first surface 112 correspondence sets the first conducting circuit 170.First conducting circuit 170 and first Conductive layer 140 electrically connects.The induction zone 116 of described second surface 114 correspondence sets the second latticed groove 113. Described second conductive layer 160 is formed at the second latticed groove 113.The flexible region 118 of second surface 114 correspondence If the second conducting circuit 180.Second conducting circuit 180 electrically connects with the second conductive layer 160.

Touch conductor and also include that the electrode 190 that goes between, the first conducting circuit 170 pass through with the first conductive layer 140 Lead-in wire electrode 190 electrically connects, and the second conducting circuit 180 and the second conductive layer 160 are by lead-in wire electrode 190 Electrical connection.

Wherein, lead-in wire electrode 190, first turns on circuit 170, second and turns on circuit 180 can be latticed Or strip, latticed lead-in wire electrode is contained in latticed groove, and recess width is 0.2 μm～5 μm, high Degree is 2 μm～6 μm.The lead-in wire electrode of strip is formed by silk screen printing or inkjet printing.Its minimum widith Can be 10 μm～200 μm, can be highly 5 μm～10 μm.First conducting circuit 122 is latticed Or striped, latticed conductive line route is filled with the latticed groove of conductive material and is formed or for protruding Latticed conductor wire or conduction line segment.

The groove width of the first latticed groove 122 is 0.2 μm～5 μm, and groove depth is 2 μm～6 μm, the first net The groove width of trellis groove and the ratio of groove depth are more than 1；The mesh shape of the first latticed groove 122 is rule mesh Lattice or random grid, can be regular hexagon, square, any one in rhombus or random grid, As shown in figs. 4-7.

The first conductive layer transparent shape of the 140, second conductive layer 160, lead-in wire electrode 190 is transparence.

In the present embodiment, a kind of touch display screen is also provided for, including aforesaid screen body of touch screen structure.Separately Also provide for outward a kind of touch button device, including aforesaid screen body of touch screen structure.

The flexible connecting members of above-mentioned screen body of touch screen structure directly from the base extension of inductive layer out, And complete to turn on accordingly the making of circuit thereon, it is achieved touch sensitive layer and the one of flexible connecting members Change.Directly save the operation of laminating, simplify Making programme, use manpower and material resources sparingly, reduce product cost.

Embodiment two

Referring to Fig. 8, in the illustrated embodiment, described touch conductor includes first substrate the 220, first base Matter layer the 210, second hypothallus the 230, first conductive layer the 240, second conductive layer 260.

Concrete, the first substrate 220 includes relative first surface and second surface (figure does not indicates).Described First substrate 220 includes induction zone 216 and the flexibility formed that stretches out from side, described induction zone 216 District 218.The width of flexible region 218 is less than the width of induction zone 216.

First hypothallus 210 is fitted at the bottom of the first surface of the first substrate 220.Described first hypothallus 210 The first substrate groove 222, described first conductive layer is set on induction zone away from the first surface of the first substrate 220 240 are formed at the first substrate groove 222.

Second hypothallus 230 is fitted on the second surface of the first substrate 210, described second hypothallus 230 On set the second substrate groove 213 on induction zone away from the first substrate 210, described second conductive layer 240 is formed In the second substrate groove 213.

Described first conducting circuit 270 is located at the flexible region of described first hypothallus 210 correspondence, and described second Conducting circuit 280 is located at the flexible region of described second hypothallus 230 correspondence.

Touch conductor and also include that the electrode 290 that goes between, the first conducting circuit 270 pass through with the first conductive layer 240 Lead-in wire electrode 290 electrically connects, and the second conductive line 280 tunnel and the second conductive layer 260 are by lead-in wire electrode 290 Electrical connection.

Screen body of touch screen structure in the present embodiment is roughly the same with the structure in embodiment one, the most superfluous at this State.

Embodiment three

Referring to Fig. 9, in the illustrated embodiment, described touch conductor includes the first inductive layer 310 and second Inductive layer 330, described first inductive layer 310 is connected by bonding coat 319 bonding with the second inductive layer 330.

First inductive layer 310 includes the first substrate 320, induction zone 316 and from side, described induction zone 316 Stretch out the flexible region 318 formed.Induction zone corresponding in first substrate 320 sets the first latticed groove 322, the first conductive layer 340 is formed at the first latticed groove 322.

Second inductive layer 330 includes the second substrate 350, the sense of corresponding first substrate 320 in the second substrate 350 Answering district to set the second groove 313, the second conductive layer 360 is formed at the second groove 313.

Described first conducting circuit 370 is located at the flexible region of the first substrate 320 correspondence.Described second conductive line The flexible region that the second substrate 330 is corresponding with the first substrate 320 is located on road 380.

Touch conductor and also include that the electrode 390 that goes between, the first conducting circuit 370 pass through with the first conductive layer 340 Lead-in wire electrode 390 electrically connects, and the second conductive line 380 tunnel and the second conductive layer 360 are by lead-in wire electrode 390 Electrical connection.Screen body of touch screen structure in the present embodiment is roughly the same with the structure in embodiment one, at this not Repeat again.

Embodiment four

Referring to Figure 10, in the illustrated embodiment, described touch conductor includes the first inductive layer 411 and Two inductive layers 412, described first inductive layer 411 is connected by bonding coat 419 bonding with the second inductive layer 412.

First inductive layer 411 includes the first substrate 420 and is bonding on the first hypothallus 430 of the first substrate 420, Described first substrate 420 is divided into induction zone 416 and the formation that stretches out from side, described induction zone 416 Flexible region 418.The induction zone of corresponding first substrate 420 of the first hypothallus 430 sets the first substrate groove 422, First conductive layer 440 is formed at the first substrate groove 422.

Second inductive layer 412 includes the second substrate 410 and is bonding on the second hypothallus 450 of the second substrate 410, The induction zone of corresponding first substrate 420 of the second hypothallus 450 sets the second substrate groove 413, the second conductive layer 460 are formed at the second substrate groove 413.

Described first conducting circuit 470 is located at first substrate corresponding with the flexible region of described first substrate 420 On layer 430, described second conducting circuit 480 is located at corresponding with the flexible region of described first substrate 420 the On the surface of two hypothalluses 450.

Touch conductor and also include that the electrode 490 that goes between, the first conducting circuit 470 pass through with the first conductive layer 440 Lead-in wire electrode 490 electrically connects, and the second conductive line 480 tunnel and the second conductive layer 460 are by lead-in wire electrode 490 Electrical connection.

Screen body of touch screen structure in the present embodiment is roughly the same with the structure in embodiment one, the most superfluous at this State.

Embodiment five

Refer to Figure 11, in the illustrated embodiment, described touch conductor include the first basal layer 510, One hypothallus 530, first turns on circuit 570, second and turns on circuit 580.

Concrete, the first basal layer 510 includes induction zone 516 and outside from side, described induction zone 516 Extend the flexible region 518 formed.Described induction zone 516 is provided with the first latticed groove 522, the first conductive layer 540 are formed at the first latticed groove 522.

First hypothallus 530 fits in the first basal layer 530 and is located at the surface of the first latticed groove 522. Surface away from the first basal layer 530 sets the first substrate groove 513, and the second conductive layer 560 is formed at the first base Matter groove 513.

Described first conducting circuit 570 is located at the flexible region of the first basal layer 510 correspondence.Described second conducting Circuit 580 is located at the surface of first hypothallus 530 corresponding with the flexible region of the first basal layer 510.

Touch conductor and also include that the electrode 590 that goes between, the first conducting circuit 570 pass through with the first conductive layer 540 Lead-in wire electrode 590 electrically connects, and the second conductive line 580 tunnel and the second conductive layer 560 are by lead-in wire electrode 590 Electrical connection.

Screen body of touch screen structure in the present embodiment is roughly the same with the structure in embodiment one, the most superfluous at this State.

Embodiment six

Refer to Figure 12, in the illustrated embodiment, described touch conductor include the first basal layer 610, One hypothallus the 620, second hypothallus 630.

Concrete, the first basal layer 610 includes induction zone 616 and outside from side, described induction zone 616 Extend the flexible region 618 formed.

First hypothallus 620 is attached to the first basal layer 610 surface, corresponding to induction zone away from the first substrate The surface of layer 610 sets the first substrate groove 622, and described first conductive layer 670 is formed at the first substrate groove 622。

Second hypothallus 630 is fitted in the first hypothallus 620 surface, and described first hypothallus 620 is positioned at Between one basal layer 610 and the second hypothallus 630, the second hypothallus 630 corresponding to induction zone 616 is remote Set the second substrate groove 613 from the surface of the first hypothallus 620, the second conductive layer 660 is formed at the second substrate Groove 613.

Described first conducting circuit 670 is located at the surface of first hypothallus 620 corresponding with flexible region, described Second conducting circuit 680 is located at the surface of second hypothallus 630 corresponding with flexible region.

Touch conductor and also include that the electrode 690 that goes between, the first conducting circuit 670 pass through with the first conductive layer 640 Lead-in wire electrode 690 electrically connects, and the second conductive line 680 tunnel and the second conductive layer 660 are by lead-in wire electrode 690 Electrical connection.

Screen body of touch screen structure in the present embodiment is roughly the same with the structure in embodiment one, the most superfluous at this State.

Embodiment described above only have expressed the several embodiments of the present invention, and it describes more concrete and detailed, But therefore can not be interpreted as the restriction to the scope of the claims of the present invention.It should be pointed out that, for this area Those of ordinary skill for, without departing from the inventive concept of the premise, it is also possible to make some deformation and Improving, these broadly fall into protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be with appended Claim is as the criterion.

Claims (14)

1. a touch button device, it is characterised in that including:

Panel；

Touching conductor, including touch sensible portion and flexible connecting portion, described touch sensible portion includes relative First conductive layer, the second conductive layer；Described flexible connecting portion is stretched out by the side in described touch sensible portion Being formed, described flexible connecting portion and described touch sensible portion are in one, and described flexible connecting portion is provided with and first First conducting circuit of conductive layer electrical connection, and the second conducting circuit electrically connected with the second conductive layer；

Adhesive layer, is located between described panel and touch sensible portion, is used for bonding described panel and described touch Induction part；

Also include that many lead-in wire electrodes, described first conducting circuit and described first conductive layer are by lead-in wire electrode Electrical connection, described second conducting circuit is electrically connected by other lead-in wire electrode with described second conductive layer, its In, described first conductive layer, described second conductive layer, described first conducting circuit and described second conductive line Road is latticed, and described many lead-in wire electrodes are linear, described first conductive layer, described second conductive layer Transparent shape, described many lead-in wire electrodes are transparence.

2. touch button device as claimed in claim 1, it is characterised in that described touch conductor includes:

First substrate, including first surface and the second surface relative with first surface, described first substrate divides For induction zone and the flexible region formed that stretches out from side, described induction zone；

Set the first latticed groove in the induction zone of described first surface, described first conductive layer is formed at first Latticed groove；The induction zone of described second surface sets the second latticed groove, and described second conductive layer is formed In the second latticed groove；

Described first conducting circuit is arranged on the flexible region of first surface, and described second conducting circuit is arranged on the The flexible region on two surfaces.

3. touch button device as claimed in claim 1, it is characterised in that described touch conductor includes:

First substrate, including relative first surface and second surface, described first substrate be divided into induction zone with And the flexible region formed that stretches out from side, described induction zone；

First hypothallus, is located on the first surface of the first substrate, and described first hypothallus is away from the first substrate Induction zone corresponding to surface on set the first substrate groove, described first conductive layer is formed at the first substrate groove；

Second hypothallus, is located on the second surface of the first substrate, away from first on described second hypothallus Setting the second substrate groove on the induction zone that the surface of substrate is corresponding, described second conductive layer becomes the second substrate recessed Groove；

Described first conducting circuit is located at the flexibility that the surface away from the first substrate of described first hypothallus is corresponding District, described second conducting circuit is located at the flexibility that the surface away from the first substrate of described second hypothallus is corresponding District.

4. touch button device as claimed in claim 1, it is characterised in that described touch conductor includes: First inductive layer and the second inductive layer, described first inductive layer and the bonding of the second inductive layer connect,

First inductive layer includes that the first substrate, described first substrate are divided into induction zone and from described induction zone one Epitaxial lateral overgrowth stretches the flexible region of formation；

Induction zone corresponding in first substrate sets the first latticed groove, and the first conductive layer is formed at described first Latticed groove；

Second inductive layer includes the second substrate, and in the second substrate, the induction zone of corresponding first substrate sets the second groove, Second conductive layer is formed at the second groove；

Described first conducting circuit is located at the flexible region that the first substrate is corresponding；Described second conducting circuit is located at the The flexible region corresponding with the first substrate of two substrates.

5. touch button device as claimed in claim 1, it is characterised in that described touch conductor includes First inductive layer and the second inductive layer, described first inductive layer and the bonding of the second inductive layer connect,

First inductive layer includes the first substrate and is bonding on the first hypothallus of the first substrate, described first substrate It is divided into induction zone and the flexible region formed that stretches out from side, described induction zone；

First hypothallus sets the first substrate groove, the first conductive layer shape corresponding to the induction zone of described first substrate Become the first substrate groove；

Second inductive layer includes the second substrate and is bonding on the second hypothallus of the second substrate, the second hypothallus pair The induction zone answering the first substrate sets the second substrate groove, and the second conductive layer is formed at the second substrate groove；

Described first conducting circuit is located on the first hypothallus corresponding with the flexible region of described first substrate, institute State the second conducting circuit to be located on the second hypothallus corresponding with the flexible region of described first substrate.

6. touch button device as claimed in claim 1, it is characterised in that described touch conductor includes:

First basal layer, described first basal layer is divided into induction zone and stretches out from side, described induction zone The flexible region formed；

Described induction zone is provided with the first latticed groove, and the first conductive layer is formed at the first latticed groove；

First hypothallus, is located at the first basal layer and is provided with the surface of the first latticed groove, away from the first substrate The surface of layer sets the first substrate groove, and the second conductive layer is formed at the first substrate groove；

Described first conducting circuit is located at corresponding the scratching in surface being provided with the first latticed groove of the first basal layer Property district, described second conducting circuit is located at first hypothallus corresponding with the flexible region of the first basal layer away from the The surface of one basal layer.

7. touch button device as claimed in claim 1, it is characterised in that described touch conductor includes:

First basal layer, described first basal layer is divided into induction zone and stretches out from side, described induction zone The flexible region formed；

First hypothallus, is located at the first substrate surface, corresponding to the table away from the first basal layer of induction zone Face sets the first substrate groove, and described first conductive layer is formed at the first substrate groove；

Second hypothallus, is located at the first substrate layer surface, and described first hypothallus is positioned at the first basal layer and Between two hypothalluses, the second hypothallus corresponding to induction zone sets the second substrate away from the surface of the first hypothallus Groove, the second conductive layer is formed at the second substrate groove；

Described first conducting circuit is located at first hypothallus corresponding with the flexible region table away from the first basal layer Face, described second conducting circuit is located at second hypothallus corresponding with the flexible region surface away from the first hypothallus.

8. one kind touches display screen, it is characterised in that including:

Panel；

Touching conductor, including touch sensible portion and flexible connecting portion, described touch sensible portion includes relative First conductive layer, the second conductive layer；Described flexible connecting portion is stretched out by the side in described touch sensible portion Being formed, described flexible connecting portion and described touch sensible portion are in one, and described flexible connecting portion is provided with and first First conducting circuit of conductive layer electrical connection, and the second conducting circuit electrically connected with the second conductive layer；

Adhesive layer, is located between described panel and touch sensible portion, is used for bonding described panel and described touch Induction part；

Also include that many lead-in wire electrodes, described first conducting circuit and described first conductive layer are by lead-in wire electrode Electrical connection, described second conducting circuit is electrically connected by other lead-in wire electrode with described second conductive layer, its In, described first conductive layer, described second conductive layer, described first conducting circuit and described second conductive line Road is latticed, and described many lead-in wire electrodes are linear, described first conductive layer, described second conductive layer Transparent shape, described many lead-in wire electrodes are transparence.

Touch display screen the most as claimed in claim 8, it is characterised in that described touch conductor includes:

First substrate, including first surface and the second surface relative with first surface, described first substrate divides For induction zone and the flexible region formed that stretches out from side, described induction zone；

Set the first latticed groove in the induction zone of described first surface, described first conductive layer is formed at first Latticed groove；The induction zone of described second surface sets the second latticed groove, and described second conductive layer is formed In the second latticed groove；

Described first conducting circuit is arranged on the flexible region of first surface, and described second conducting circuit is arranged on the The flexible region on two surfaces.

Touch display screen the most as claimed in claim 8, it is characterised in that described touch conductor includes:

First substrate, including relative first surface and second surface, described first substrate be divided into induction zone with And the flexible region formed that stretches out from side, described induction zone；

First hypothallus, is located on the first surface of the first substrate, and described first hypothallus is away from the first substrate Induction zone corresponding to surface on set the first substrate groove, described first conductive layer is formed at the first substrate groove；

Second hypothallus, is located on the second surface of the first substrate, away from first on described second hypothallus Setting the second substrate groove on the induction zone that the surface of substrate is corresponding, described second conductive layer becomes the second substrate recessed Groove；

Described first conducting circuit is located at the flexibility that the surface away from the first substrate of described first hypothallus is corresponding District, described second conducting circuit is located at the flexibility that the surface away from the first substrate of described second hypothallus is corresponding District.

11. touch display screen as claimed in claim 8, it is characterised in that described touch conductor includes: First inductive layer and the second inductive layer, described first inductive layer and the bonding of the second inductive layer connect,

First inductive layer includes that the first substrate, described first substrate are divided into induction zone and from described induction zone one Epitaxial lateral overgrowth stretches the flexible region of formation；

Induction zone corresponding in first substrate sets the first latticed groove, and the first conductive layer is formed at described first Latticed groove；

Second inductive layer includes the second substrate, and in the second substrate, the induction zone of corresponding first substrate sets the second groove, Second conductive layer is formed at the second groove；

Described first conducting circuit is located at the flexible region that the first substrate is corresponding；Described second conducting circuit is located at the The flexible region corresponding with the first substrate of two substrates.

12. touch display screen as claimed in claim 8, it is characterised in that described touch conductor includes First inductive layer and the second inductive layer, described first inductive layer and the bonding of the second inductive layer connect,

First inductive layer includes the first substrate and is bonding on the first hypothallus of the first substrate, described first substrate It is divided into induction zone and the flexible region formed that stretches out from side, described induction zone；

First hypothallus sets the first substrate groove, the first conductive layer shape corresponding to the induction zone of described first substrate Become the first substrate groove；

Second inductive layer includes the second substrate and is bonding on the second hypothallus of the second substrate, the second hypothallus pair The induction zone answering the first substrate sets the second substrate groove, and the second conductive layer is formed at the second substrate groove；

Described first conducting circuit is located on the first hypothallus corresponding with the flexible region of described first substrate, institute State the second conducting circuit to be located on the second hypothallus corresponding with the flexible region of described first substrate.

13. touch display screen as claimed in claim 8, it is characterised in that described touch conductor includes:

First basal layer, described first basal layer is divided into induction zone and stretches out from side, described induction zone The flexible region formed；

Described induction zone is provided with the first latticed groove, and the first conductive layer is formed at the first latticed groove；

First hypothallus, is located at the first basal layer and is provided with the surface of the first latticed groove, away from the first substrate The surface of layer sets the first substrate groove, and the second conductive layer is formed at the first substrate groove；

Described first conducting circuit is located at corresponding the scratching in surface being provided with the first latticed groove of the first basal layer Property district, described second conducting circuit is located at first hypothallus corresponding with the flexible region of the first basal layer away from the The surface of one basal layer.

14. touch display screen as claimed in claim 8, it is characterised in that described touch conductor includes:

First basal layer, described first basal layer is divided into induction zone and stretches out from side, described induction zone The flexible region formed；

First hypothallus, is located at the first substrate surface, corresponding to the table away from the first basal layer of induction zone Face sets the first substrate groove, and described first conductive layer is formed at the first substrate groove；

Second hypothallus, is located at the first substrate layer surface, and described first hypothallus is positioned at the first basal layer and Between two hypothalluses, the second hypothallus corresponding to induction zone sets the second substrate away from the surface of the first hypothallus Groove, the second conductive layer is formed at the second substrate groove；

Described first conducting circuit is located at first hypothallus corresponding with the flexible region table away from the first basal layer Face, described second conducting circuit is located at second hypothallus corresponding with the flexible region surface away from the first hypothallus.