CN103268175B - Capacitance touching control module and be provided with the substrate of capacitance touching control module - Google Patents

Abstract

The invention discloses a kind of capacitance touching control module and be provided with the substrate of capacitance touching control module, this capacitance touching control module comprises touch-control sensing electrode and the touch-control drive electrode of arranged in a crossed manner and mutually insulated, it is characterized in that, also comprise many conductive connecting lines, between any two touch-control sensing electrodes, connect a conductive connecting line, the resistance value of two touch-control sensing electrodes that this conductive connecting line connects is all less than the resistance value of this conductive connecting line; And/or connecting a conductive connecting line between any two touch-control drive electrodes, the resistance value of two touch-control drive electrodes that this conductive connecting line connects is all less than the resistance value of this conductive connecting line. This scheme can ensure that first the static producing in production process and actual application puncture these conductive connecting lines, and can not puncture touch-control sensing electrode and/or touch-control drive electrode.

Description

Capacitance touching control module and be provided with the substrate of capacitance touching control module

Technical field

The present invention relates to touch technology field, espespecially a kind of capacitance touching control module and be provided with capacitance touching control mouldThe substrate of group.

Background technology

The structure of existing capacitive touch screen (TouchPanel, TP) as shown in Figure 1, comprises laterally and establishingThe touch-control sensing electrode 10 of putting and the touch-control drive electrode 11 longitudinally arranging, as shown in Figure 2, drive at touch-controlThe tin indium oxide at 13 places, position of touch-control sensing electrode corresponding to the bridge 12 of moving electrode and this bridge(IndiumTinOxides, ITO) figure live width sharply diminishes, and resistance sharply increases, in production process andIn actual application, can produce static, the static of generation can puncture the ITO at 12,13 places, causesTP open circuit.

Summary of the invention

The embodiment of the present invention provides a kind of capacitance touching control module and is provided with the substrate of capacitance touching control module, usesTo solve bridge position and this bridge position correspondence of the touch-control sensing electrode in existing capacitive touch screenThe ITO of position of touch-control sensing electrode easily by the problem of electrostatic breakdown.

A kind of capacitance touching control module, comprises that touch-control sensing electrode and the touch-control of arranged in a crossed manner and mutually insulated drivesMoving electrode, also comprises many conductive connecting lines, wherein:

Between any two described touch-control sensing electrodes, connect a described conductive connecting line, this conductive connecting line connectsThe resistance value of two touch-control sensing electrodes that connect is all less than the resistance value of this conductive connecting line; And/or

Between any two described touch-control drive electrodes, connect a described conductive connecting line, this conductive connecting line connectsThe resistance value of two touch-control drive electrodes that connect is all less than the resistance value of this conductive connecting line.

Be provided with a substrate for capacitance touching control module, comprise metal lead wire and multiple capacitance touching control module,Each described capacitance touching control module comprises that touch-control sensing electrode and the touch-control of arranged in a crossed manner and mutually insulated driveMoving electrode, also comprises many conductive connecting lines that insulate with described metal lead wire, wherein:

Between any two described touch-control sensing electrodes, connect a described conductive connecting line, this conductive connecting line connectsThe resistance value of two touch-control sensing electrodes that connect is all less than the resistance value of this conductive connecting line, and this conductive connecting lineTwo touch-control sensing electrodes that connect lay respectively in two adjacent described capacitance touching control modules; And/or

Between any two described touch-control drive electrodes, connect a described conductive connecting line, this conductive connecting line connectsThe resistance value of two touch-control drive electrodes that connect is all less than the resistance value of this conductive connecting line, and this conductive connecting lineTwo touch-control drive electrodes that connect lay respectively in two adjacent described capacitance touching control modules.

Beneficial effect of the present invention is as follows:

A kind of capacitance touching control module that the embodiment of the present invention provides and the substrate that is provided with capacitance touching control module,Capacitance touching control module comprises touch-control sensing electrode, the touch-control drive electrode of arranged in a crossed manner and mutually insulated,Also comprise many conductive connecting lines, wherein: between any two described touch-control sensing electrodes, connect described in oneConductive connecting line, the resistance value of two touch-control sensing electrodes that this conductive connecting line connects is all less than this conductive connecting lineResistance value; And/or connect a described conductive connecting line between any two described touch-control drive electrodes, shouldThe resistance value of two touch-control drive electrodes that conductive connecting line connects is all less than the resistance value of this conductive connecting line. LeadThe resistance value of two touch-control sensing electrodes that electrical wiring connects is all less than the resistance value of conductive connecting line, and/or conductionThe resistance value of two touch-control drive electrodes that line connects is all less than the resistance value of conductive connecting line, so just canEnsure that the static that produces first can disruptive conduction line in production process and actual application, and can not hitWear touch-control sensing electrode and/or touch-control drive electrode.

Brief description of the drawings

Fig. 1 is TP structural representation of the prior art;

Fig. 2 is that the position of touch-control sensing electrode corresponding to the bridge position in TP of the prior art is by staticThe schematic diagram puncturing;

Fig. 3 is the structural representation of capacitance touching control module in the embodiment of the present invention;

Fig. 4 is the structural representation of preferred capacitance touching control module in the embodiment of the present invention;

Fig. 5 is the structural representation of the first conductive connecting line in the embodiment of the present invention;

Fig. 6 is the structural representation of the second conductive connecting line in the embodiment of the present invention;

Fig. 7 is the structural representation that is provided with the substrate of capacitance touching control module in the embodiment of the present invention;

Fig. 8 is the structural representation that is preferably provided with the substrate of capacitance touching control module in the embodiment of the present invention.

Detailed description of the invention

For bridge position and this bridge position pair of the touch-control sensing electrode in existing capacitive touch screenThe ITO of the position of the touch-control sensing electrode of answering is easily by the problem of electrostatic breakdown, and the embodiment of the present invention is carriedFor a kind of capacitance touching control module, as shown in Figure 3, comprise the touch-control sensing electricity of arranged in a crossed manner and mutually insulatedThe utmost point 10 and touch-control drive electrode 11, and many conductive connecting lines 14, wherein: any two touch-control sensing electricityBetween the end of the utmost point 10, connect a conductive connecting line 14, two touch-control sensing electricity that this conductive connecting line 14 connectsThe resistance value of the utmost point 10 is all less than the resistance value of this conductive connecting line 14; And/or any two touch-control drive electrodesBetween 11 end, connect a conductive connecting line 14, two touch-control drive electrodes that this conductive connecting line 14 connects11 resistance value is all less than the resistance value of this conductive connecting line 14.

In this scheme, between the end of any two touch-control sensing electrodes, connect a conductive connecting line, and/or arbitrarilyBetween the end of two touch-control drive electrodes, connect a conductive connecting line, two touch-controls that conductive connecting line connectsThe resistance value of induction electrode is all less than the resistance value of conductive connecting line, and two touch-controls that conductive connecting line connects drive electricityThe resistance value of the utmost point is all less than the resistance value of conductive connecting line, so just can ensure in production process and practical applicationThe static producing in process first can disruptive conduction line, drives and can not puncture touch-control sensing electrode and/or touch-controlMoving electrode.

Concrete, in this capacitance touching control module, can be the end of two adjacent touch-control sensing electrodes 10Between portion, connect a conductive connecting line 14; And/or connect between the end of two adjacent touch-control drive electrodes 11Connect a conductive connecting line 14. Shown in Fig. 3 be two adjacent touch-control sensing electrode 10 two ends end itBetween connect a conductive connecting line 14, and between the end at two adjacent touch-control drive electrode 11 two ends alsoConnect the situation of a conductive connecting line 14; Also can adopt the end of two adjacent touch-control sensing electrode one endBetween portion, connect between the end an of conductive connecting line, two adjacent touch-control drive electrode one end and connect oneThe mode of bar conductive connecting line, can also adopt a lot of other modes, repeats no more here.

Concrete, if connect a conductive connecting line, this conductive connecting line between any two touch-control sensing electrodesResistance value be at least greater than the electricity of resistance value the greater in two touch-control sensing electrodes that this conductive connecting line connects30 times of resistance; If connect a conductive connecting line, this conductive connecting line between any two touch-control drive electrodesResistance value be at least greater than the electricity of resistance value the greater in two touch-control drive electrodes that this conductive connecting line connects30 times of resistance. Can ensure better like this static producing in production process and actual applicationFirst disruptive conduction line, thus protection touch-control sensing electrode and/or touch-control drive electrode be not by electrostatic breakdown.

Preferably, as shown in Figure 4, above-mentioned capacitance touching control module also comprises: any one touch-control sensing electricityBetween the utmost point 10 and any one touch-control drive electrode 11, be connected a conductive connecting line 14, this conductive connecting line connectsTouch-control sensing electrode and the resistance value of touch-control drive electrode be all less than the resistance value of this conductive connecting line. In Fig. 4Only mark three conductive connecting lines, can also have a lot of set-up modes, do not illustrated one by one here.

Except between touch-control sensing electrode, connect conductive connecting line between touch-control drive electrode, also canTo connect conductive connecting line between touch-control sensing electrode and touch-control drive electrode, can equally also can like thisRealize protection touch-control sensing electrode and touch-control drive electrode not by electrostatic breakdown.

Concrete, if be connected one between any one touch-control sensing electrode and any one touch-control drive electrodeBar conductive connecting line, the resistance value of this conductive connecting line is at least greater than the touch-control sensing electrode that this conductive connecting line connectsWith 30 times of the resistance value of resistance value the greater in touch-control drive electrode. At this moment can ensure better giving birth toThe static producing in product process and actual application is disruptive conduction line first, and conductive connecting line is connectedThe protection effect of touch-control drive electrode and touch-control sensing electrode is better.

Concrete, conductive connecting line is bending curve, the material of conductive connecting line can be ITO or indium oxideZinc (IndiumZincOxide, IZO) etc.

All be less than in order to meet the touch-control sensing electrode of conductive connecting line connection and the resistance value of touch-control drive electrodeThe requirement of the resistance value of conductive connecting line, the length of conductive connecting line need to be as far as possible long, the shape of conductive connecting line,The first can be bending curve as shown in Figure 5, and the second can be bending curve as shown in Figure 6,It can certainly be other shape.

Based on same inventive concept, the embodiment of the present invention provides a kind of substrate that is provided with capacitance touching control module,As shown in Figure 7, comprise metal lead wire and multiple capacitance touching control module 1, each capacitance touching control module bagDraw together touch-control sensing electrode 10 and the touch-control drive electrode 11 of arranged in a crossed manner and mutually insulated, and draw with metalMany the conductive connecting lines 14 of line insulation, wherein: between the end of any two touch-control sensing electrodes 10, connect, a conductive connecting line 14, the resistance value of two touch-control sensing electrodes 10 that this conductive connecting line 14 connects is all less thanThe resistance value of this conductive connecting line, and two touch-control sensing 10 electrodes that this conductive connecting line 14 connects lay respectively atIn two adjacent capacitance touching control modules 1; And/or between the end of any two touch-control drive electrodes 11Connect a conductive connecting line 14, the resistance value of two touch-control drive electrodes 11 that this conductive connecting line 14 connects is equalBe less than the resistance value of this conductive connecting line, and two touch-control drive electrodes 11 that this conductive connecting line 14 connects respectivelyBe arranged in two adjacent capacitance touching control modules 1.

Concrete, between the end of two adjacent touch-control sensing electrodes 10, connect a conductive connecting line 14;And/or between the end of two adjacent touch-control drive electrodes 11, connect a conductive connecting line 14. Shown in Fig. 7Be touch-control drive electrode 11 adjacent with two between the end of two adjacent touch-control sensing electrodes 10Between end, all connect the situation of conductive connecting line 14.

Concrete, if connect a conductive connecting line between any two touch-control sensing electrodes, and this conduction connectsTwo touch-control sensing electrodes that line connects lay respectively in two adjacent capacitance touching control modules, and this is ledIt is larger that the resistance value of electrical wiring is at least greater than in two touch-control sensing electrodes that this conductive connecting line connects resistance value30 times of person's resistance value; If connect a conductive connecting line between any two touch-control drive electrodes, and shouldTwo touch-control drive electrodes that conductive connecting line connects lay respectively in two adjacent capacitance touching control modules,The resistance value of this conductive connecting line is at least greater than resistance in two touch-control drive electrodes that this conductive connecting line connects30 times of resistance value of value the greater.

On substrate, there are a lot of metal lead wires, also not shown in figure, in order to ensure that touch module can be normalUse, conductive connecting line needs and these metal lead wire insulation, can pass through at conductive connecting line and metal lead wireBetween organic insulator be set realize.

In the time having prepared several capacitance touching control modules on a substrate, in the situations such as carrying substrate,Be very easy to produce static, these static can puncture touch-control sensing electrode and touch-control drive electrode equally, thisTime, just can between the touch-control sensing electrode in two adjacent capacitance touching control modules, connect conduction evenLine also can connect conduction and connect between the touch-control drive electrode of two adjacent capacitance touching control modulesLine, can certainly drive electricity at the touch-control sensing electrode of two adjacent capacitance touching control modules and touch-controlBetween the utmost point, connect conductive connecting line, the resistance value of two touch-control sensing electrodes that conductive connecting line connects is all less than and leadsThe resistance value of electrical wiring, the resistance value of two touch-control drive electrodes that conductive connecting line connects is all less than conduction and connectsThe resistance value of line, so just can ensure to produce static time, static is disruptive conduction line first, thereby risesTo the effect of protection capacitance touching control module.

Preferably, the above-mentioned substrate that is provided with capacitance touching control module, not only can comprise: any two are touchedBetween the end of control induction electrode, connect a conductive connecting line, two touch-control sensings that this conductive connecting line connectsThe resistance value of electrode is all less than the resistance value of this conductive connecting line, and the touch-control sensing electricity of this conductive connecting line connectionThe utmost point lays respectively in two adjacent capacitance touching control modules; And/or the end of any two touch-control drive electrodesBetween portion, connect a conductive connecting line, the resistance value of two touch-control drive electrodes that this conductive connecting line connects is equalBe less than the resistance value of this conductive connecting line, and the touch-control drive electrode that this conductive connecting line connects lays respectively at twoIn adjacent capacitance touching control module. Can also comprise: any one touch-control sensing electrode and any oneBetween touch-control drive electrode, connect a conductive connecting line, the touch-control sensing electrode that this conductive connecting line connects and tactileThe resistance value of control drive electrode is all less than the resistance value of this conductive connecting line, and the touch-control of this conductive connecting line connectionInduction electrode and touch-control drive electrode lay respectively in two adjacent capacitance touching control modules. Preferably,The resistance value that this conductive connecting line can be set is at least greater than the touch-control sensing electrode of this conductive connecting line connection and touches30 times of resistance value of resistance value the greater in control drive electrode. Can better protect like this conductive connecting lineThe touch-control sensing electrode at two ends and touch-control drive electrode be not by electrostatic breakdown.

Preferably, as shown in Figure 8, any two the touch-control sensing electrodes in same capacitance touching control module 1Between 10 end, connect a conductive connecting line 14, what this conductive connecting line 14 connected is positioned at same capacitive touchThe resistance value of two touch-control sensing electrodes 10 in control module is all less than the resistance value of this conductive connecting line; And/orBetween the end of any two the touch-control drive electrodes 11 in same capacitance touching control module 1, connecting one leadsElectrical wiring 14, two touch-controls of what this conductive connecting line 14 connected be arranged in same capacitance touching control module driveThe resistance value of electrode 11 is all less than the resistance value of this conductive connecting line. Concrete, same capacitance touching control moduleIn the end of two adjacent touch-control sensing electrodes 10 between connect a conductive connecting line 14; And/or sameBetween the end of two adjacent touch-control drive electrodes 11 in capacitance touching control module, connecting a conduction connectsLine 14. Shown in Fig. 8 is two adjacent touch-control sensing electrodes 10 in same capacitance touching control module 1Between the end at two ends, connect a conductive connecting line 14, and in same capacitance touching control module 1 twoBetween the end at adjacent touch-control drive electrode 11 two ends, also connect the situation of a conductive connecting line 14; CertainlyAlso can be to connect between the end of two adjacent touch-control sensing electrode one end of same capacitance touching control moduleConnect a conductive connecting line, two adjacent touch-control drive electrode 11 one end of same capacitance touching control moduleBetween end, connect the mode of a conductive connecting line 14.

Preferably, if connect one between any two touch-control sensing electrodes in same capacitance touching control moduleConductive connecting line, the resistance value of this conductive connecting line is at least greater than the same condenser type that is positioned at of this conductive connecting line connectionIn two touch-control sensing electrodes in touch module 30 times of the resistance value of resistance value the greater; If same electricityBetween any two touch-control drive electrodes in appearance formula touch module, connect a conductive connecting line, this conduction connectsTwo of what the resistance value of line was at least greater than that this conductive connecting line connects be arranged in same capacitance touching control module are touched30 times of resistance value of resistance value the greater in control drive electrode.

Concrete, conductive connecting line is bending curve, the material of conductive connecting line can be ITO or IZO etc.

All be less than in order to meet the touch-control sensing electrode of conductive connecting line connection and the resistance value of touch-control drive electrodeThe requirement of the resistance value of conductive connecting line, the length of conductive connecting line need to be as far as possible long, the shape of conductive connecting line,The first can be bending curve as shown in Figure 5, and the second can be bending curve as shown in Figure 6,It can certainly be other shape.

Obviously, those skilled in the art can carry out various changes and modification and not depart from this present inventionBright spirit and scope. Like this, if of the present invention these amendment and modification belong to the claims in the present invention andWithin the scope of its equivalent technologies, the present invention be also intended to comprise these change and modification interior.

Claims (17)

1. a capacitance touching control module, comprises the touch-control sensing electrode of arranged in a crossed manner and mutually insulated and touchesControl drive electrode, is characterized in that, also comprises many conductive connecting lines, wherein:

Between any two described touch-control sensing electrodes, connect a described conductive connecting line, this conductive connecting line connectsThe resistance value of two touch-control sensing electrodes that connect is all less than the resistance value of this conductive connecting line; And/or

Between any two described touch-control drive electrodes, connect a described conductive connecting line, this conductive connecting line connectsThe resistance value of two touch-control drive electrodes that connect is all less than the resistance value of this conductive connecting line.

2. capacitance touching control module according to claim 1, is characterized in that, two adjacent institutesState between the end of touch-control sensing electrode and connect a described conductive connecting line; And/or

Between the end of two adjacent described touch-control drive electrodes, connect a described conductive connecting line.

3. capacitance touching control module according to claim 1, is characterized in that, if any two institutesState between touch-control sensing electrode and connect a described conductive connecting line, the resistance value of this conductive connecting line is at least greater thanIn two touch-control sensing electrodes that this conductive connecting line connects 30 times of the resistance value of resistance value the greater;

If connect a described conductive connecting line, this conductive connecting line between any two described touch-control drive electrodesResistance value be at least greater than the electricity of resistance value the greater in two touch-control drive electrodes that this conductive connecting line connects30 times of resistance.

4. capacitance touching control module according to claim 1, is characterized in that, also comprises:

Touch-control sensing electrode and be connected one between touch-control drive electrode described in any one described in any oneDescribed conductive connecting line, the touch-control sensing electrode that this conductive connecting line connects and the resistance value of touch-control drive electrode are equalBe less than the resistance value of this conductive connecting line.

5. capacitance touching control module according to claim 4, is characterized in that, if any one instituteState touch-control sensing electrode and described in any one, between touch-control drive electrode, be connected a described conductive connecting line,The resistance value of this conductive connecting line is at least greater than touch-control sensing electrode and the touch-control driving electricity that this conductive connecting line connects30 times of the resistance value of extremely middle resistance value the greater.

6. according to the arbitrary described capacitance touching control module of claim 1-5, it is characterized in that, described in leadElectrical wiring is bending curve.

7. capacitance touching control module according to claim 6, is characterized in that, described conductive connecting lineMaterial be tin indium oxide ITO or zinc-tin oxide IZO.

8. be provided with a substrate for capacitance touching control module, comprise metal lead wire and multiple capacitance touching control mouldGroup, each described capacitance touching control module comprises the touch-control sensing electrode of arranged in a crossed manner and mutually insulated and touchesControl drive electrode, is characterized in that, also comprises many conductive connecting lines that insulate with described metal lead wire, itsIn:

Between any two described touch-control sensing electrodes, connect a described conductive connecting line, this conductive connecting line connectsThe resistance value of two touch-control sensing electrodes that connect is all less than the resistance value of this conductive connecting line, and this conductive connecting lineTwo touch-control sensing electrodes that connect lay respectively in two adjacent described capacitance touching control modules; And/or

Between any two described touch-control drive electrodes, connect a described conductive connecting line, this conductive connecting line connectsThe resistance value of two touch-control drive electrodes that connect is all less than the resistance value of this conductive connecting line, and this conductive connecting lineTwo touch-control drive electrodes that connect lay respectively in two adjacent described capacitance touching control modules.

9. substrate according to claim 8, is characterized in that, two adjacent described touch-control sensingsBetween the end of electrode, connect a described conductive connecting line; And/or

Between the end of two adjacent described touch-control drive electrodes, connect a described conductive connecting line.

10. substrate according to claim 8, is characterized in that, if any two described touch-control sensingsBetween electrode, connect a described conductive connecting line, and two touch-control sensing electrodes that this conductive connecting line connects divideBe not arranged in two adjacent described capacitance touching control modules, the resistance value of this conductive connecting line is at least greater thanIn two touch-control sensing electrodes that this conductive connecting line connects 30 times of the resistance value of resistance value the greater;

If connect a described conductive connecting line between any two described touch-control drive electrodes, and this conduction connectsTwo touch-control drive electrodes that line connects lay respectively in two adjacent described capacitance touching control modules,The resistance value of this conductive connecting line is at least greater than resistance value in two touch-control drive electrodes that this conductive connecting line connects30 times of the resistance value of the greater.

11. substrates according to claim 8, is characterized in that, also comprise:

Touch-control sensing electrode and be connected one between touch-control drive electrode described in any one described in any oneDescribed conductive connecting line, the touch-control sensing electrode that this conductive connecting line connects and the resistance value of touch-control drive electrode are equalBe less than the resistance value of this conductive connecting line, and touch-control sensing electrode and touch-control that this conductive connecting line connects drive electricityThe utmost point lays respectively in two adjacent described capacitance touching control modules.

12. substrates according to claim 11, is characterized in that, if touch-control sense described in any oneAnswer electrode and described in any one, between touch-control drive electrode, be connected a described conductive connecting line, and this conductionTouch-control sensing electrode and touch-control drive electrode that line connects lay respectively at two adjacent described capacitive touchIn control module, the resistance value of this conductive connecting line is at least greater than the touch-control sensing electrode that this conductive connecting line connectsWith 30 times of the resistance value of resistance value the greater in touch-control drive electrode.

13. substrates according to claim 11, is characterized in that, also comprise:

Between the end of any two the described touch-control sensing electrodes in same described capacitance touching control module, connectConnect a described conductive connecting line, what this conductive connecting line connected be arranged in same described capacitance touching control moduleThe resistance value of two touch-control sensing electrodes is all less than the resistance value of this conductive connecting line; And/or

Between the end of any two the described touch-control drive electrodes in same described capacitance touching control module, connectConnect a described conductive connecting line, what this conductive connecting line connected be arranged in same described capacitance touching control moduleThe resistance value of two touch-control drive electrodes is all less than the resistance value of this conductive connecting line.

14. substrates according to claim 13, is characterized in that, same described capacitance touching control mouldBetween the end of two adjacent described touch-control sensing electrodes in group, connect a described conductive connecting line; With/Or

Between the end of two adjacent described touch-control drive electrodes in same described capacitance touching control moduleConnect a described conductive connecting line.

15. substrates according to claim 13, is characterized in that, if same described capacitance touching controlIn module, between any two described touch-control sensing electrodes, connect a described conductive connecting line, this conductive connecting lineBe arranged in same described capacitance touching control module two of being at least greater than that this conductive connecting line connects of resistance valueIn touch-control sensing electrode 30 of the resistance value of resistance value the greater times;

If connect one between any two the described touch-control drive electrodes in same described capacitance touching control moduleConductive connecting line described in bar, it is same that the resistance value of this conductive connecting line is at least greater than being positioned at of this conductive connecting line connectionIn two touch-control drive electrodes in described capacitance touching control module 30 of the resistance value of resistance value the greaterDoubly.

16. according to Claim 8-15 arbitrary described substrates, is characterized in that, described conductive connecting line isBending curve.

17. substrates according to claim 16, is characterized in that, the material of described conductive connecting line isTin indium oxide ITO or zinc-tin oxide IZO.