CN104049820B

CN104049820B - Single-layer touch screen, touch panel device and electronic installation

Info

Publication number: CN104049820B
Application number: CN201410169702.2A
Authority: CN
Inventors: 张靖恺; 郭明
Original assignee: FocalTech Systems Ltd
Current assignee: FocalTech Systems Ltd
Priority date: 2014-04-24
Filing date: 2014-04-24
Publication date: 2017-09-22
Anticipated expiration: 2034-04-24
Also published as: CN104049820A

Abstract

A kind of single-layer touch screen, touch panel device and electronic installation, the single-layer touch screen includes induction arrays and lays area and marginal zone, area is laid in the marginal zone around the induction arrays, and the induction arrays, which lay area, includes the first induction arrays, the second induction arrays, the 3rd induction arrays, the first lead wire for connecting the electrode in the first induction arrays and being drawn with first direction, the electrode in the second induction arrays of connection and the electrode in the 3rd induction arrays of the second lead wire drawn with second direction and connection and the lead wire of the second lead wire the 3rd drawn with third direction.The lead wire of the electrode of each induction arrays in different directions is drawn and is connected to outside single-layer touch screen, relatively conventional causes the equidirectional lead wire cabling that the big blind area in cabling space is concentrated, direction of routing is misaligned to may be such that blind area uniformly exists in different direction of routing, and the harmful effect of blind area is more uniformly spread in single-layer touch screen.

Description

Single-layer touch screen, touch panel device and electronic installation

Technical field

The invention belongs to electronic technology field, more particularly to a kind of single-layer touch screen, touch panel device and electronic installation.

Background technology

Traditional individual layer mutual capacitance touchscreens, it is possible to achieve true multi-point touch, as long as one layer of ITO (Indium Tin Oxides, tin indium oxide), cost is relatively low；Common structure include glass-glass (GG) structure, glass-film (GF) structure and Single-glass structure (OGS).

The electrode of mutual capacitance is done using individual layer ITO (Single Indium Tin Oxides, SITO), with the electricity of a line Pole is connected to the external face of screen by transparent ITO leads, is then touching the outside of effective district electrode of the correspondence with a line again Connect together.The technique and cost of individual layer mutual capacitance will be simplified than traditional two layers of mutual capacitance, but its graphics Web publishing is complicated, The line connected outside touch-screen effective district is very more (generally wanting more than 150), thus cause binding PAD (bonding pad, are tied up Determine pad) quantity is too many, cabling blind area space unreasonable distribution, while adding production difficulty, production yield can also give a discount greatly Button.

In addition, although the outlet method of modified lead-out wire is greatly reduced binding PAD, TP (Touch can be effectively improved Panel, touch-screen) with FPC (Flexible Printed Circuit, flexible printed circuit board) binding yield, but design In for holding capacitor uniformity, balance ground wire is added between drives line and the line of induction, node coupled capacitor is reduced Formed, signal to noise ratio is not good.

The content of the invention

Based on this, it is necessary to bind that yield is low, coupled capacitor is uneven for usual manner, cause signal to noise ratio is low to ask Blind area space has been inscribed there is provided a kind of reasonable distribution, has reduced banding pad quantity, the single-layer touch screen of signal to noise ratio is not lost.

A kind of single-layer touch screen, the single-layer touch screen includes：

Induction arrays lay area；And

Area is laid around the induction arrays in marginal zone, the marginal zone；

The induction arrays are laid area and are laid with：First induction arrays, including multiple first electrode units being set up in parallel, Each first electrode unit includes first electrode and second electrode, and the first electrode and the second electrode are coupled shape Into electric capacity, the multiple first electrode unit is axially arranged along first；

Second induction arrays, including multiple second electrode units being set up in parallel, each second electrode unit include 3rd electrode and the 4th electrode, the 3rd electrode are coupled to form electric capacity with the 4th electrode, the multiple second electrode Unit is axially arranged along described first, and second induction arrays are axially arranged with first induction arrays along second, described First is axially axially mutually perpendicular to described second；

3rd induction arrays, between first induction arrays and second induction arrays, including it is multiple arranged side by side Set the 3rd electrode unit, each 3rd electrode unit include the 5th electrode and the 6th electrode, the 5th electrode and 6th electrode is coupled to form electric capacity, and the multiple 3rd electrode unit is axially arranged along described second；

First lead wire, each first electrode and each second electrode of first induction arrays pass through list respectively Only first wiring connection, and extend the induction arrays laying area to the edge of touch-screen along a first direction Area；

Second lead wire, each 3rd electrode of second induction arrays and each 4th electrode pass through list respectively Only second lead wire connection, and extend along second direction opposite to the first direction the sense of touch-screen Array is answered to lay area to the marginal zone；

3rd lead wire, each 5th electrode of the 3rd induction arrays and each 6th electrode pass through list respectively Only the 3rd lead wire connection, and the induction arrays for extending touch-screen along third direction lay area to the side Edge area, the third direction is different from the first direction, the second direction.

In addition, additionally providing another single-layer touch screen, the single-layer touch screen includes：

Induction arrays lay area；And

Area, including first area, second area, the 3rd area are laid around the induction arrays in marginal zone, the marginal zone Domain and the 4th region, the first area, the second area, the 3rd region are located at described respectively with the 4th region Induction arrays lay four sides in area, wherein, the first area is relative with the second area, the 3rd region and described the Four regions are relative；

The induction arrays are laid area and are laid with：

First induction arrays, including multiple first electrode units being set up in parallel, each first electrode unit include First electrode and second electrode, the first electrode are coupled to form electric capacity with the second electrode, the multiple first electrode Unit is axially arranged along first；

3rd induction arrays, between first induction arrays and the second induction arrays, including multiple are set up in parallel The 3rd electrode unit, each 3rd electrode unit include the 5th electrode and the 6th electrode, the 5th electrode with it is described 6th electrode is coupled to form electric capacity, and the multiple 3rd electrode unit is axially arranged along described second；

First lead wire, each first electrode and each second electrode of first induction arrays pass through list respectively Only first lead wire connection, first lead wire extends out to described from the induction arrays laying area of the touch-screen The first area of marginal zone；

Second lead wire, each 3rd electrode of second induction arrays and each 4th electrode pass through list respectively Only second lead wire connection, second lead wire extends out to described from the induction arrays laying area of the touch-screen The second area of marginal zone；

3rd lead wire, each 5th electrode of the 3rd induction arrays and each 6th electrode pass through list respectively Only the 3rd lead wire connection, the 3rd lead wire extends out to described from the induction arrays laying area of the touch-screen 3rd region of marginal zone.

Further, a kind of single-layer touch screen is additionally provided, the single-layer touch screen includes：

Induction arrays lay area；And

Area is laid around the induction arrays in marginal zone, the marginal zone；

The induction arrays are laid area and are laid with：First induction arrays, including multiple first electrode units being set up in parallel, Each first electrode unit includes first electrode and second electrode, and the first electrode and the second electrode are coupled shape Into electric capacity；

Second induction arrays, including multiple second electrode units being set up in parallel, each second electrode unit include 3rd electrode and the 4th electrode, the 3rd electrode are coupled to form electric capacity with the 4th electrode, second induction arrays It is located at the two ends that the induction arrays lay area with the 3rd induction arrays；

3rd induction arrays, between first induction arrays and second induction arrays, including it is multiple arranged side by side Set the 3rd electrode unit, each 3rd electrode unit include the 5th electrode and the 6th electrode, the 5th electrode and 6th electrode is coupled to form electric capacity；

Preferably, the third direction is vertical with first, second direction.Set in addition, additionally providing a kind of touch-screen Standby, it includes above-mentioned any single-layer touch screen.

And, a kind of electronic installation is additionally provided, it includes above-mentioned touch panel device.

Above-mentioned single-layer touch screen by the way that single-layer touch screen is divided into the different multiple induction arrays of lead wire direction of routing, Lead wire is drawn out to outside single-layer touch screen in different directions, and relatively conventional causes equidirectional the drawing of the big blind area concentration in cabling space Wiring cabling, may be such that blind area uniformly exists in different direction of routing, and the harmful effect of blind area more uniformly spreads to individual layer and touched Touch in screen, the frame spatial dispersion of lead wire cabling needs will share the pressure that tradition only has a side outlet to four sides Four sides, by adjusting the quantity of four side outlets, rationally to adapt to the space limitation of frame wiring, can make node capacitance profile more Rationally, single-layer touch screen body can also be made to go for larger sized application.

Above-mentioned touch panel device and electronic installation are by setting above-mentioned single-layer touch screen, its relative traditional blind area collection In single-layer touch screen screen body for, blind area can be distributed uniformly in single-layer touch screen by above-mentioned single-layer touch screen screen body, Sensitive, the accuracy positioned there is provided single-layer touch screen, improves the Consumer's Experience of touch panel device.

Brief description of the drawings

Fig. 1 is the mutual capacitance topology diagram for the single-layer touch screen that one embodiment is provided；

Fig. 2 is the mutual capacitance topology diagram for the single-layer touch screen that second embodiment is provided；

A kind of topology diagrams of induction arrays of Fig. 3；

Fig. 4 is the mutual capacitance topology diagram for the single-layer touch screen that the 3rd embodiment is provided；

Fig. 5 is the induction arrays subregion schematic diagram in one embodiment；

Fig. 6 is the induction arrays subregion schematic diagram in another embodiment.

Embodiment

In order that technical problems, technical solutions and advantageous effects to be solved by the present invention are more clearly understood, below in conjunction with Drawings and Examples, the present invention will be described in further detail.It should be appreciated that specific embodiment described herein is only used To explain the present invention, it is not intended to limit the present invention.

With reference to Fig. 1, the first single-layer touch screen includes：Induction arrays lay area 10 and marginal zone 20, and marginal zone 20 is enclosed Area 10 is laid around induction arrays.

Induction arrays are laid area 10 and are laid with：First induction arrays 110, the second induction arrays 120, the 3rd induction arrays 130th, the first lead wire 101, the second lead wire 102 and the 3rd lead wire 103.

First induction arrays 110 include multiple first electrode units 112 being set up in parallel, each first electrode unit 112 Including first electrode X1 and second electrode Y1, first electrode X1 and second electrode Y1 is coupled to form electric capacity, multiple first electrodes Unit 112 is axially arranged along first.Typically conventional is that first electrode X1 and second electrode Y1 is pectination, is cross-couplings. Each first electrode X1 and each second electrode Y1 of first induction arrays 110 are connected by single first lead wire 101 respectively, and F1 extends the induction arrays laying area 10 to marginal zone 20 of touch-screen along a first direction.

Second induction arrays 120 include multiple second electrode units 122 being set up in parallel, each second electrode unit 122 Including the 3rd electrode X2 and the 4th electrode Y2, the 3rd electrode X2 and the 4th electrode Y2 are coupled and to form electric capacity, multiple second electrodes Unit 122 is axially arranged along first, and the second induction arrays 120 and the first induction arrays 110 are axially arranged along second, and first axially Axially it is mutually perpendicular to second.Each electrode Y2 of 3rd electrode X2 and Ge tetra- of second induction arrays 120 is respectively by single Second lead wire 102 is connected, and extends along the second direction F2 opposite with first direction F1 the induction arrays cloth of touch-screen If area 10 arrives marginal zone 20.

3rd induction arrays 130 are located between the first induction arrays 110 and the second induction arrays 120, including multiple arranged side by side The 3rd electrode unit 132 set, every one the 3rd electrode unit 132 includes the 5th electrode X3 and multiple 6th electrode Y3, the 5th Electrode X3 and multiple 6th electrode Y3 are coupled to form electric capacity, and multiple 3rd electrode units 132 are axially arranged along second.3rd sense Each electrode Y3 of 5th electrode X3 and Ge six of array 130 is answered to be connected respectively by single 3rd lead wire 103, and along The induction arrays that three direction F3 extend touch-screen lay area 10 to marginal zone 20, third direction F3 and first direction F1, second Direction F2 is different.

In the present embodiment, first direction F1 is identical with the second axial direction, and third direction F3 is identical with the first axial direction.

In a further embodiment, the 3rd lead wire 103 of the 3rd induction arrays 130 is further along fourth direction F4 The induction arrays for extending touch-screen lay area 10 to marginal zone 20, and with reference to Fig. 1, fourth direction F4 is opposite with third direction F3.

With reference to Fig. 1, in one embodiment, each first electrode unit 112 includes a first electrode X1 and one Second electrode Y1, first electrode X1 are relative with second electrode Y1 and coupling forms electric capacity.Further, each second electricity Pole unit 122 include a 3rd electrode X2 and a 4th electrode Y2, the 3rd electrode X2 it is relative with the 4th electrode Y2 and Coupling forms electric capacity.It is understood that the electrode in the 3rd electrode unit 132 can also be arranged such.

With reference to Fig. 2, in another embodiment, each first electrode unit 112 includes a first electrode X1 and two Individual above second electrode Y1, first electrode X1 are relative with two or more second electrode Y1 and coupling forms two or more electricity Hold.Further, each second electrode unit 122 includes a 3rd electrode X2 and electrode Y2 of two or more the 4th, and this Three electrode X2 are relative with the two or more the 4th electrode Y2 and coupling forms two or more electric capacity.Similarly, the 3rd electrode unit 132nd, the electrode in the 4th electrode unit 142 can also be arranged such.

Further, induction arrays are laid the cloth of area 10 and are further provided with：4th induction arrays 140 and the 4th lead wire 104.

4th induction arrays 140 are located between the first induction arrays 110 and the second induction arrays 120, including multiple arranged side by side The 4th electrode unit 142 set, every one the 4th electrode unit 142 includes the 7th electrode X4 and the 8th electrode Y4, the 7th electrode X4 and the 8th electrode Y4 are coupled to form electric capacity, and multiple 4th electrode units 142 are axially arranged along second；3rd induction arrays 130 and the 4th induction arrays 140 along first axially arrange.

Each electrode Y4 of 7th electrode X4 and Ge eight of 4th induction arrays 140 passes through single 4th lead wire respectively 104 connection, and along fourth direction F4 extend touch-screen induction arrays lay area 10 to marginal zone 20, fourth direction F4 and Third direction F3 is opposite.In the present embodiment, first direction F1 is identical with the second axial direction, and third direction F3 is identical with the first axial direction. In other embodiments, first direction F1 can axially be differed with second, and in certain acute angle；Third direction F3 and One can also axially differ, and in certain acute angle.

With reference to Fig. 2, in one embodiment, each the 3rd electrode unit 132 includes a 5th electrode X3 and multiple 6th electrode Y3, the 5th electrode X3 and the plurality of 6th electrode Y3 are relative and coupling forms multiple electric capacity.Further, it is each Individual 4th electrode unit 142 includes a 7th electrode X4 and multiple 8th electrode Y4, the 7th electrode X4 and the plurality of 8th Electrode Y4 is relative and coupling forms multiple electric capacity.Similarly, the electrode in the 3rd electrode unit 132, the 4th electrode unit 142 also may be used To be arranged such.

With reference to Fig. 3, in another embodiment, each first electrode unit 112 includes multiple first electrode X1 and many Individual second electrode Y1, multiple first electrode X1 include the electrode of first kind 301 and second kind electrode 302, each electrode of first kind 301 It is coupled to form at least two electric capacity with least two second electrode Y1, each second kind electrode 302 and at least one the second electricity Pole Y1 is coupled to form at least one electric capacity.

Further, for each first electrode unit 112, multiple second electrode Y1 include the electrode of third kind 303 and the Four class electrodes 304, each electrode of third kind 303 is coupled to form at least one electric capacity with least one first electrode X1, each 4th class electrode 304 and at least two first electrode X1 are coupled to form at least two electric capacity.

Yet further, multiple first electrode X1 include multiple electrodes of first kind 301 and a second kind electrode 302, one Individual second kind electrode 302 is located at multiple first electrode X1 one end, multiple second electrode Y1 include electrode of third kind 303 with Multiple 4th class electrodes 304 a, electrode of third kind 303 is located at multiple second electrode Y1 one end, multiple first electrode X1's Arrangement mode after the overall turned upside down of arrangement mode and multiple second electrode Y1 is identical, and multiple first electrode X1 respectively with it is whole Second electrode Y1 after body turned upside down corresponds identical.

The structures of two electrodes in first electrode unit 112 not be the same as Example is described for above-mentioned combination Fig. 3, it is same suitable For second electrode unit 122, the 3rd electrode unit 132 and the 4th electrode unit 142, repeat no more here.

Further, for each electrode unit 112, each first electrode X1 is connected to touch-control core by the first lead wire The different pins of piece 200, the second electrode Y1 that the second electrode Y1 is divided into two electrode groups, each electrode group is non-adjacent, In the present embodiment, the second electrode Y1 of odd-numbered line is divided into an electrode group, and the second electrode Y1 of even number line is divided into another Individual electrode group.Second electrode Y1 in same electrode group is connected in the same pin of the touch chip 200, Different electrodes group Second electrode Y1 be connected to the different pins of the touch chip 200.The touch chip 200 is used to drive first electricity Pole X1 and second electrode Y1 carries out capacitance sensing, obtains touch information.

In addition, with reference to Fig. 1 and 2, by rational zoning arrangement, lead wire cabling lays four of area 10 from induction arrays Direction is walked out, and blind area is horizontal and vertical to be present, and the harmful effect of blind area can be made more uniformly to spread to induction arrays laying In area 10；Moreover, lead wire cabling is walked out from four direction, the induction arrays of cabling needs lay the frame spatial dispersion in area 10 To four sides, by adjusting the quantity of four side outlets, rationally to adapt to the space limitation of frame wiring.First electrode list can be set Member 112 is close or even identical with the quantity of second electrode unit 122.3rd electrode unit 132 and the 4th electrode list can also be set First 142 quantity are close or even identical.

Please continue to refer to Fig. 2,3, in addition to balance ground wire 108, the balance ground wire 108 be laid in adjacent electrode unit it Between and adjacent induction arrays between.With reference to Fig. 4, present invention also offers second of single-layer touch screen, the single-layer touch screen Area 20 and marginal zone 30 are laid including induction arrays.

Area 20, including first area 31, second area 32, the 3rd region 33 and the are laid around induction arrays in marginal zone 30 Four regions 34, first area 31, second area 32, the 3rd region 33 and the 4th region 34 are located at induction arrays and lay area 20 respectively Four sides, wherein, first area 31 and second area 32 are relative, and the 3rd region 33 is relative with the 4th region 34；

Induction arrays are laid area 20 and are laid with：First induction arrays 210, the second induction arrays 220, the 3rd induction arrays 230th, the first lead wire 201, the second lead wire 202 and the 3rd lead wire 203.

First induction arrays 210, including multiple first electrode units 212 being set up in parallel, each first electrode unit 212 Including first electrode X1 and second electrode Y1, first electrode X1 and second electrode Y1 is coupled to form electric capacity, multiple first electrodes Unit 212 is arranged along the first axial direction F1.Each first electrode X1 and each second electrode Y1 of first induction arrays 210 pass through list respectively The first only lead wire 201 is connected, and the first lead wire 201 lays area 20 from the induction arrays of touch-screen and extends out to marginal zone 30 First area 31.

Second induction arrays 220, including multiple second electrode units 222 being set up in parallel, each second electrode unit 222 Including the 3rd electrode X2 and the 4th electrode Y2, the 3rd electrode X2 and the 4th electrode Y2 are coupled and to form electric capacity, multiple second electrodes Unit 222 is arranged along the first axial direction F1, and the second induction arrays 220 and the first induction arrays 210 are arranged along the second axial direction F2, and first Axial F1 is mutually perpendicular to the second axial direction F2.Each electrode Y2 of 3rd electrode X2 and Ge tetra- of second induction arrays 220 leads to respectively Cross single second lead wire 202 to connect, the second lead wire 202 lays area 20 from the induction arrays of touch-screen and extends out to edge The second area 32 in area 30.

3rd induction arrays 230, between the first induction arrays 210 and the second induction arrays 220, including it is multiple arranged side by side The 3rd electrode unit 232 set, every one the 3rd electrode unit 232 includes the 5th electrode X3 and multiple 6th electrode Y3, the 5th Electrode X3 and multiple 6th electrode Y3 are coupled to form electric capacity, and multiple 3rd electrode units 232 are arranged along the second axial direction F2.3rd Each electrode Y3 of 5th electrode X3 and Ge six of induction arrays 230 is connected by single 3rd lead wire 203 respectively, and the 3rd draws Wiring 203 lays the 3rd region 33 that area 20 extends out to marginal zone 30 from the induction arrays of touch-screen.

In a further embodiment, the 3rd induction arrays 230 are laid area 20 from the induction arrays of touch-screen and extended out to 3rd region 33 of marginal zone 30 and the 4th region 34.

In other embodiments, the 5th electrode X3 of the 3rd induction arrays 230 can also to be multiple, and with the 6th electrode Y3 One-to-one arrangement.

With reference to Fig. 5,6, the second lead wire 202 continues to extend via the region 33 of second area 32 and the 3rd, the 4th region 34 To first area 31；3rd lead wire 203 continues and extend to first area 31 via the 3rd region 33, and the 4th lead wire 204 is passed through First area 31 is continued and extend to by the 4th region 34.

Please continue to refer to Fig. 6, in one embodiment, the first induction arrays 210 are in relative second induction arrays 220 Side is upwardly formed the first lug boss, and it is raised that the second induction arrays 220 are upwardly formed second in the side of relative first induction arrays 210 Portion, the first lug boss and the second lug boss offset, the 3rd induction arrays 230 and the 4th induction arrays 24 be laid in respectively this first The lug boss both sides relative with the second lug boss.

Similarly, can also be with each with the setting of Fig. 6 same principles in the induction arrays of the first single-layer touch screen lay area Individual induction arrays, are repeated no more here.

In addition, a kind of touch panel device is additionally provided, including the use of any of the above-described kind of single-layer touch screen and the touch-control Chip 200.Further, additionally provide it is a kind of include the electronic installation of the touch panel device, the electronic installation is as being hand Machine etc..

Above-mentioned touch panel device is by setting above-mentioned single-layer touch screen, the single-layer touch that its relative traditional blind area is concentrated For screen screen body, blind area can be distributed uniformly to that there is provided individual layer in single-layer touch screen by this above-mentioned single-layer touch screen screen body Sensitive, the accuracy of touch-screen positioning, improve the Consumer's Experience of touch panel device.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all essences in the present invention Any modifications, equivalent substitutions and improvements made within refreshing and principle etc., should be included in the scope of the protection.

Claims

1. a kind of single-layer touch screen, it is characterised in that the single-layer touch screen includes：

Induction arrays lay area；And

Area is laid around the induction arrays in marginal zone, the marginal zone；

The induction arrays are laid area and are laid with：First induction arrays, including multiple first electrode units being set up in parallel, it is each The first electrode unit includes first electrode and second electrode, and the first electrode is coupled to form electricity with the second electrode Hold, the multiple first electrode unit is axially arranged along first；

Second induction arrays, including multiple second electrode units being set up in parallel, each second electrode unit include the 3rd Electrode and the 4th electrode, the 3rd electrode are coupled to form electric capacity with the 4th electrode, the multiple second electrode unit Axially arranged along described first, second induction arrays are axially arranged with first induction arrays along second, described first It is axial to be axially mutually perpendicular to described second；

3rd induction arrays, between first induction arrays and second induction arrays, including multiple are set up in parallel The 3rd electrode unit, each 3rd electrode unit include the 5th electrode and the 6th electrode, the 5th electrode with it is described 6th electrode is coupled to form electric capacity, and the multiple 3rd electrode unit is axially arranged along described second；

First lead wire, each first electrode and each second electrode of first induction arrays are respectively by single The first lead wire connection, and extend the induction arrays laying area to the edge of touch-screen along a first direction Area；

Second lead wire, each 3rd electrode of second induction arrays and each 4th electrode are respectively by single Second lead wire connection, and extend along second direction opposite to the first direction the sensing battle array of touch-screen Row lay area to the marginal zone；

3rd lead wire, each 5th electrode of the 3rd induction arrays and each 6th electrode are respectively by single The 3rd lead wire connection, and the induction arrays for extending touch-screen along third direction lay area to the edge Area, the third direction is different from the first direction, the second direction；

Each described first electrode unit includes multiple first electrodes and multiple second electrodes, the multiple first Electrode includes the electrode of first kind and second kind electrode, and each electrode of first kind and at least two second electrodes are coupled to be formed at least Two electric capacity, each second kind electrode is coupled to form at least one electric capacity with least one second electrode；

For each first electrode unit, multiple second electrodes include the electrode of third kind and the 4th class electrode, each The electrode of third kind and at least one first electrode are coupled to form at least one electric capacity, every 1 the 4th class electrode and at least two the One electrode is coupled to form at least two electric capacity；

For each first electrode unit, multiple first electrodes include multiple electrodes of first kind and an Equations of The Second Kind electricity Pole, one second kind electrode is located at one end of multiple first electrodes, and multiple second electrodes include one the 3rd Class electrode and multiple 4th class electrodes, one electrode of third kind are located at one end of the multiple second electrode, multiple described Arrangement mode after the overall turned upside down of the arrangement mode of first electrode and the multiple second electrode is identical, and the multiple the One electrode is identical with the second electrode one-to-one corresponding after overall turned upside down respectively.

2. single-layer touch screen according to claim 1, it is characterised in that the 3rd induction arrays are further along the 4th The induction arrays that touch-screen is extended in direction lay area to the marginal zone, the fourth direction and the third direction phase Instead.

3. single-layer touch screen according to claim 1, it is characterised in that the induction arrays are laid area's cloth and further set Have：

4th induction arrays, between first induction arrays and second induction arrays, including multiple are set up in parallel The 4th electrode unit, each 4th electrode unit include the 7th electrode and the 8th electrode, the 7th electrode with it is described 8th electrode is coupled to form electric capacity, and the multiple 4th electrode unit is axially arranged along described second；The 3rd sensing battle array Row are axially arranged with the 4th induction arrays along first；

4th lead wire, each 7th electrode of the 4th induction arrays and each 8th electrode are respectively by single The 4th lead wire connection, and the induction arrays for extending touch-screen along fourth direction lay area to the edge Area, the fourth direction is opposite with the third direction.

4. single-layer touch screen according to claim 3, it is characterised in that first induction arrays are in relatively described second The direction of induction arrays forms the first lug boss, and second induction arrays are convex in relatively described first induction arrays formation second The portion of rising, first lug boss and second lug boss offset, the 3rd induction arrays and the 4th induction arrays point First lug boss both sides relative with second lug boss are not laid in.

5. single-layer touch screen as claimed in any of claims 1 to 4, it is characterised in that the first direction and institute State second axially it is identical, third direction is identical with first axial direction.

6. single-layer touch screen according to claim 5, it is characterised in that each described first electrode unit includes one The first electrode and a second electrode, the first electrode is relative with the second electrode and coupling forms electric capacity；

Each described second electrode unit include the 3rd electrode and the 4th electrode, the 3rd electrode with 4th electrode is relative and coupling forms electric capacity.

7. single-layer touch screen according to claim 5, it is characterised in that each described first electrode unit includes one Second electrode described in the first electrode and two or more, the first electrode is relative with the two or more second electrode and couples shape Into two or more electric capacity；

Each described second electrode unit includes the 4th electrode described in the 3rd electrode and two or more, the 3rd electricity Pole is relative with the electrode of two or more the 4th and coupling forms two or more electric capacity.

8. single-layer touch screen according to claim 5, it is characterised in that each the 3rd electrode unit is included described in one 5th electrode and multiple 6th electrodes, the 5th electrode and the plurality of 6th electrode are relative and coupling forms multiple electric capacity.

9. single-layer touch screen according to claim 3, it is characterised in that each the 4th electrode unit is included described in one 7th electrode and multiple 8th electrodes, the 7th electrode and the plurality of 8th electrode are relative and coupling forms multiple electric capacity.

10. single-layer touch screen according to claim 1, it is characterised in that the first electrode unit and second electrode list First quantity is identical.

11. single-layer touch screen according to claim 4, it is characterised in that the 3rd electrode unit and the 4th electrode list First quantity is identical.

12. single-layer touch screen according to claim 1, it is characterised in that also including balance ground wire, the balance ground wire is laid Between adjacent electrode unit and between adjacent induction arrays.

13. a kind of single-layer touch screen, it is characterised in that the single-layer touch screen includes：

Induction arrays lay area；And

Marginal zone, the marginal zone around the induction arrays lay area, including first area, second area, the 3rd region with 4th region, the first area, the second area, the 3rd region and the 4th region are located at the sensing respectively Array lays four sides in area, wherein, the first area is relative with the second area, the 3rd region and the 4th area Domain is relative；

The induction arrays are laid area and are laid with：

First induction arrays, including multiple first electrode units being set up in parallel, each first electrode unit include first Electrode and second electrode, the first electrode are coupled to form electric capacity with the second electrode, the multiple first electrode unit Axially arranged along first；

3rd induction arrays, between first induction arrays and the second induction arrays, including it is multiple be set up in parallel Three electrode units, each 3rd electrode unit includes the 5th electrode and the 6th electrode, the 5th electrode and the described 6th Electrode is coupled to form electric capacity, and the multiple 3rd electrode unit is axially arranged along described second；

First lead wire, each first electrode and each second electrode of first induction arrays are respectively by single The first lead wire connection, first lead wire lays area from the induction arrays of the touch-screen and extends out to the edge The first area in area；

Second lead wire, each 3rd electrode of second induction arrays and each 4th electrode are respectively by single The second lead wire connection, second lead wire lays area from the induction arrays of the touch-screen and extends out to the edge The second area in area；

3rd lead wire, each 5th electrode of the 3rd induction arrays and each 6th electrode are respectively by single The 3rd lead wire connection, the 3rd lead wire lays area from the induction arrays of the touch-screen and extends out to the edge 3rd region in area；

14. single-layer touch screen according to claim 13, it is characterised in that the 3rd induction arrays are from the touch-screen Induction arrays lay area and extend out to the 3rd region and the 4th region of the marginal zone.

15. single-layer touch screen according to claim 13, it is characterised in that the induction arrays are laid area's cloth and further set Have：

4th lead wire, each 7th electrode of the 4th induction arrays and each 8th electrode are respectively by single The 4th lead wire connection, the 4th lead wire lays area from the induction arrays of the touch-screen and extends out to the edge 4th region in area.

16. single-layer touch screen according to claim 15, it is characterised in that second lead wire is via secondth area Domain continues and extend to the first area with the 3rd region, the 4th region；3rd lead wire is via described Three regions continue and extend to the first area, and the 4th lead wire continues and extend to described first via the 4th region Region.

17. single-layer touch screen according to claim 15, it is characterised in that first induction arrays are in relatively described The direction of two induction arrays forms the first lug boss, and second induction arrays are in relatively described first induction arrays formation second Lug boss, first lug boss and second lug boss offset, the 3rd induction arrays and the 4th induction arrays First lug boss both sides relative with second lug boss are laid in respectively.

18. the single-layer touch screen according to any one of claim 13 to 17, it is characterised in that each described first electricity Pole unit includes a first electrode and a second electrode, and the first electrode is relative with the second electrode and couples Form electric capacity；

19. the single-layer touch screen according to any one of claim 13 to 17, it is characterised in that each described first electricity Pole unit includes second electrode described in the first electrode and two or more, the first electrode and the electricity of two or more second It is extremely relative and coupling forms two or more electric capacity；

20. the single-layer touch screen according to any one of claim 13 to 17, it is characterised in that each the 3rd electrode list Member includes the 5th electrode and multiple 6th electrodes, and the 5th electrode and the plurality of 6th electrode be relative and coupling Form multiple electric capacity.

21. the single-layer touch screen according to claim 15,16 or 17, it is characterised in that each the 4th electrode unit bag Include the 7th electrode and multiple 8th electrodes, the 7th electrode and the plurality of 8th electrode is relative and coupling is formed Multiple electric capacity.

22. single-layer touch screen according to claim 13, it is characterised in that the first electrode unit and second electrode list First quantity is identical.

23. single-layer touch screen according to claim 15, it is characterised in that the 3rd electrode unit and the 4th electrode list First quantity is identical.

24. single-layer touch screen according to claim 13, it is characterised in that also including balance ground wire, the balance ground wire cloth It is located between adjacent electrode unit and between adjacent induction arrays.

25. a kind of single-layer touch screen, it is characterised in that the single-layer touch screen includes：

Induction arrays lay area；And

Area is laid around the induction arrays in marginal zone, the marginal zone；

The induction arrays are laid area and are laid with：First induction arrays, including multiple first electrode units being set up in parallel, it is each The first electrode unit includes first electrode and second electrode, and the first electrode is coupled to form electricity with the second electrode Hold；

Second induction arrays, including multiple second electrode units being set up in parallel, each second electrode unit include the 3rd Electrode and the 4th electrode, the 3rd electrode are coupled to form electric capacity with the 4th electrode, second induction arrays and institute State the two ends that the first induction arrays lay area positioned at the induction arrays；

3rd induction arrays, between first induction arrays and second induction arrays, including multiple are set up in parallel The 3rd electrode unit, each 3rd electrode unit include the 5th electrode and the 6th electrode, the 5th electrode with it is described 6th electrode is coupled to form electric capacity；

26. single-layer touch screen according to claim 25, it is characterised in that the third direction and described first, second Direction is vertical.

27. a kind of touch panel device, it is characterised in that including the single-layer touch screen any one of claim 1 to 12, or Including the single-layer touch screen any one of claim 13 to 24, or including any one of claim 25 to 26 Single-layer touch screen.

28. a kind of electronic installation, it is characterised in that including the touch panel device described in claim 27.