CN101673004A - Touch-control display panel and display device - Google Patents

Abstract

The invention discloses a touch-control display panel and a display device. The touch-control display panel comprises a first substrate, a touch-control assembly and a display medium layer, wherein the first substrate is provided with a display area and a non-display area, and the non-display area is positioned outside the display area; the touch-control assembly is directly allocated on the firstsubstrate and positioned in the non-display area, and the touch-control assembly at least comprises two sets of receiving assemblies; and the display medium layer is positioned in the display area. The touch-control display panel has high processing procedure precision and can reduce the resistance value and the width of the transmission wire. Since the display device is provided with the touch-control display panel, the width of the non-display area can be reduced so as to increase the size of the display screen of the product.

Description

Touch-control display panel and display device

Technical field

The invention relates to a kind of touch-control display panel and display device, and particularly relevant for a kind of processing procedure precision height, the lead resistance is low and width non-display area is narrow, low power consumption, and touch-control display panel and the display device write that can be used for the hand-written of conductor and insulate.

Background technology

At present, the contact panel design roughly can be divided into resistance-type, condenser type, optical profile type, sound wave type and electromagnetic type etc.Wherein, the sound wave type contact panel mainly is that the sound behind the sensing touch panel positions, no matter but therefore be to write or all identifications of glove mode of operation with hand-written, pen.In addition, when the size of panel increased, the needed sensing component quantity of sound wave type contact panel did not need to increase, so the cost of manufacture of product is lower.

Fig. 1 is for looking synoptic diagram on known a kind of sound wave type contact panel.Please refer to Fig. 1, contact panel 100 comprises protective substrate 101, piezoelectric element 112,114,116,118, transfer wire 122 and signal bonding pad 130.Protective substrate 101 for example is that it has viewing area A1 and non-display area A2 in order to the cover glass (coverglass) of protection display panel.Piezoelectric element 112,114,116,118, transfer wire 122 and signal bonding pad 130 are disposed among the non-display area A2, wherein one group of piezoelectric element 112,114 is connected in series to signal bonding pad 130 by transfer wire 122, and another group piezoelectric element 116,118 is connected in series to signal bonding pad 130 by transfer wire 122.These two groups of piezoelectric elements, one group of piezoelectric element wherein, for example: piezoelectric element 116,118 is the assembly that transmits, and another group piezoelectric element, for example: piezoelectric element 112,114 is the received signal assembly.This known sound wave type contact panel is called as active sound wave type contact panel.

Generally speaking, protective substrate 101 is in order to provide the function that covers with the protection display panel, and it need not dispose any electronic package or circuit.But, when protective substrate 101 is applied to the carrying sheet material of contact panel 100, must on protective substrate 101, dispose transfer wire 122.These transfer wires 122 are to adopt the wire mark processing procedure to be made mostly.Therefore, the resistance of transfer wire 122 is higher.For instance, when transfer wire 122 be that the resistance of transfer wire 122 is about 100 Ω/ (per unit area resistance value) when adopting the formed silver-colored line of wire mark processing procedure.

In addition, because the precision of wire mark processing procedure is low, so the live width of transfer wire 122 is difficult to be reduced effectively, and in fact two transfer wire 122 spacings at least must be greater than 0.1mm.In other words, the width W of the non-display area A2 of contact panel 100 will certainly further increase again, so will cause the space availability ratio of product not good.In addition, owing to use the display device of contact panel 100 must have the setting of protective substrate 101, this also causes the design space of display device to be limited to.

Summary of the invention

The technical matters that the present invention solves is, a kind of touch-control display panel is provided, and has higher processing procedure precision and lower lead resistance.

The present invention proposes a kind of display device again, has above-mentioned touch-control display panel, can dwindle the width of non-display area and reduce manufacturing cost.

The present invention proposes a kind of touch-control display panel, comprises first substrate, touch control component and display dielectric layer.First substrate has viewing area and non-display area, and non-display area is positioned at outside the viewing area.Touch control component directly is disposed on first substrate, and is arranged in non-display area, and wherein touch control component is made up of two group of received assemblies at least.Display dielectric layer is arranged in the viewing area.

In one embodiment of this invention, above-mentioned each group of received assembly is made up of one or more piezoelectric element and transfer wire, and transfer wire is connected in series this one or more piezoelectric element.The online not central point by the viewing area of any two piezoelectric elements.

In one embodiment of this invention, above-mentioned first substrate has active assembly array, and display dielectric layer drives by active assembly array, and display dielectric layer and touch control component are positioned at the same side of first substrate.

In one embodiment of this invention, above-mentioned touch-control display panel more comprises at least one shielding cabling, is disposed between active assembly array and the touch control component, is arranged in non-display area, and the shielding cabling is connected to earthing potential or shared current potential.

In one embodiment of this invention, above-mentioned first substrate has more the first connection pad portion and the second connection pad portion, lay respectively in the non-display area, and touch control component is connected to the first connection pad portion, and active assembly array is connected to the second connection pad portion.The first connection pad portion and the second connection pad portion are positioned at the different both sides of viewing area respectively.

In one embodiment of this invention, above-mentioned touch-control display panel more comprises second substrate, and display dielectric layer is disposed between first substrate and second substrate.Display dielectric layer is plasmasphere or liquid crystal layer.

In one embodiment of this invention, above-mentioned touch-control display panel more comprises first polaroid and second polaroid, and first substrate and second substrate are between first polaroid and second polaroid.

In one embodiment of this invention, above-mentioned second substrate has active assembly array, and display dielectric layer drives by active assembly array, and touch control component is positioned at the side of first substrate away from display dielectric layer.

In one embodiment of this invention, above-mentioned first substrate or second substrate have chromatic filter layer.Display dielectric layer is electrophoretic display thin film or organic luminescent assembly layer.The width of non-display area is 1mm to 10mm.

The present invention proposes a kind of display device, comprises framework and above-mentioned touch-control display panel.Touch-control display panel is arranged in framework.

In one embodiment of this invention, above-mentioned display device more comprises protective seam, is disposed on the framework, and covers touch-control display panel.

In one embodiment of this invention, above-mentioned display device more comprises display light source, is disposed between framework and the touch-control display panel.

Based on above-mentioned, touch-control display panel of the present invention directly is disposed at touch control component on first substrate of display panel, and the transfer wire of touch control component can adopt the lithography mode in the display panel processing procedure to form.Therefore, touch-control display panel of the present invention has higher processing procedure precision, and can reduce the resistance and the live width of transfer wire.In addition,, therefore can dwindle the width of non-display area, and then enlarge the display screen size of product because display device of the present invention has above-mentioned touch-control display panel.

For above-mentioned feature and advantage of the present invention can be become apparent, embodiment cited below particularly, and cooperate appended graphic being described in detail below.

Description of drawings

Fig. 1 is for looking synoptic diagram on known a kind of sound wave type contact panel;

Fig. 2 A be in the touch-control display panel of one embodiment of the invention first substrate and be disposed at assembly on first substrate on look synoptic diagram;

Fig. 2 B be in the touch-control display panel of another embodiment of the present invention first substrate and be disposed at assembly on first substrate on look synoptic diagram;

Fig. 3 A is the touch-control display panel schematic side view of one embodiment of the invention;

Fig. 3 B is the touch-control display panel of another embodiment of the present invention;

Fig. 4 is for looking synoptic diagram on first substrate of the touch-control display panel of another embodiment of the present invention and the configuration assembly thereon;

Fig. 5 is the touch-control display panel schematic side view of further embodiment of this invention;

Fig. 6 A is the display device synoptic diagram of one embodiment of the invention;

Fig. 6 B is the touch control display panel synoptic diagram of Fig. 6 A, wherein only illustrates partial component;

Fig. 7 A is the display device synoptic diagram of another embodiment of the present invention;

Fig. 7 B is the touch control display panel synoptic diagram of Fig. 7 A, wherein only illustrates partial component.

Wherein, Reference numeral:

100: contact panel 101: protective substrate

112,114,116,118: piezoelectric element 122: transfer wire

200a, 200b, 400: touch-control display panel 130: signal bonding pad

201: the first substrate 203a, 203b: display dielectric layer

Substrate 210 in 205: the second: touch control component

212,214,216: receiving unit

212a, 212b, 214a, 214b, 216a, 216b: piezoelectric element

212c, 214c, 216c: 232: the first connection pad portions of transfer wire

242: the first polaroids of 234: the second connection pad portions

Polaroid 252,254 in 244: the second: the shielding cabling

500,600: display device 510: framework

520: protective seam 530: display light source

A1: viewing area A2: non-display area

AA: active assembly array CF: chromatic filter layer

F: fanout area W: width

WA: array coiling

Embodiment

Touch-control display panel

Fig. 2 A be in the touch-control display panel of one embodiment of the invention first substrate and be disposed at assembly on first substrate on look synoptic diagram.Fig. 3 A is the touch-control display panel schematic side view of one embodiment of the invention.

Please refer to Fig. 2 A, dispose touch control component 210 on first substrate 201.First substrate 201 has viewing area A1 and non-display area A2, and non-display area A2 is positioned at outside the A1 of viewing area.Touch control component 210 directly is disposed on first substrate 201, and is arranged in non-display area A2, and wherein touch control component 210 all is made up of 212,214 of two group of received assemblies.

Specifically, receiving unit 212 is made up of piezoelectric element 212a, piezoelectric element 212b and transfer wire 212c, and transfer wire 212c is connected in series this two piezoelectric element 212a, 212b.214 of receiving units are made up of piezoelectric element 214a, piezoelectric element 214b and transfer wire 214c, and transfer wire 214c is connected in series this two piezoelectric element 214a, 214b.

As piezoelectric element 212a, 212b, 214a, when 214b receives voice signal, piezoelectric element 212a, 212b, 214a, 214b just can produce corresponding voltage signal respectively.Therefore, when first substrate 201 is subjected to touching, as long as the voltage signal that piezoelectric element 212a, 212b, 214a, 214b are produced analyzed, can to touched to the position position.What deserves to be mentioned is,, and can be described as the passive type contact panel owing to touch control component 210 is made up of for passive type designs piezoelectric element 212a, 212b, 214a, 214b.Therefore, the structure of touch control component 210 is comparatively simple and response frequency is fast.In one embodiment, the voltage signal of piezoelectric element 212a, 212b, 214a, 214b for example is 1 ~ 5mV, and it has the characteristic of comparatively power saving.

In addition, in above-mentioned piezoelectric element 212a, 212b, 214a, 214b, appoint both online central points that does not pass through viewing area 201a.The position of piezoelectric element 212a, 212b, 214a, 214b is that asymmetrical design can avoid piezoelectric element to receive the erroneous judgement that identical voice signal causes position of touch, and so-called asymmetrical design is meant that piezoelectric element is asymmetric with respect to the centre of form of display shape each other.In addition, though in the present embodiment, every group of received assembly 212 or 214 is to have two piezoelectric element 212a, b or 214a, b, but the present invention does not limit number and the position of piezoelectric element 212a, 212b, 214a, 214b, and this partly can optionally be adjusted.

In the present embodiment, first substrate 201 has active assembly array AA.In addition, first substrate 201 has more the first connection pad portion 232 and the second connection pad portion 234, lays respectively among the non-display area A2.Touch control component 210 is connected to the first connection pad portion 232, and active assembly array AA is connected to the second connection pad portion 234.Exactly, the first connection pad portion 232 and the second connection pad portion 234 for example are made up of a plurality of connection pads (not indicating) institute respectively.The first connection pad portion 232 for example is the different both sides that lay respectively at viewing area A1 with the second connection pad portion 234.In addition, in the present embodiment, the assembly in the A1 of viewing area for example is that (Wire on Array WOA) electrically connects with the second connection pad portion 234, and only the present invention is non-is limited to this by the cabling in the fanout area F and array coiling WA.

Because first substrate 201 is an active assembly array substrate, transfer wire 212c and transfer wire 214c for example can use micro-photographing process to be made on first substrate 201, and have higher processing procedure precision.Form the mode of lead in the known techniques in the wire mark mode, the transfer wire 212c of present embodiment and transfer wire 214c can be comparatively fine and close plain conductors.Therefore, transfer wire 212c and transfer wire 214c can have lower resistance.In part embodiment, the resistance of transfer wire 212c and transfer wire 214c is about 0.1 ~ 2 Ω/.Therefore, transfer wire 212c and transfer wire 214c have the good signal transmission quality.

Particularly, by suitable processing procedure control such as above-mentioned lithography or metal deposition, the live width of transfer wire 212c and transfer wire 214c can be reduced to quite little.In other words, the width W of non-display area A2 can therefore and significantly reduce.In part embodiment, the width W of non-display area A2 is about 1mm to 10mm.

Fig. 2 B be in the touch-control display panel of another embodiment of the present invention first substrate and be disposed at assembly on first substrate on look synoptic diagram.Please refer to Fig. 2 A and Fig. 2 B, at this, identical member is represented with identical label and is no longer repeated.Particularly, in the embodiment shown in Fig. 2 B, touch control component 210 more comprises the 3rd group of received assembly 216.The 3rd group of received assembly 216 is made up of piezoelectric element 216a, piezoelectric element 216b and transfer wire 216c, and transfer wire 216c is connected in series this two piezoelectric element 216a, 216b.Be noted that in Fig. 2 B the ratio of partial component presents so that illustrate that therefore, the width W of non-display area A2 in fact can be less in the mode of exaggeration.

In the embodiment shown in Fig. 2 B, because touch control component 210 has three group of received assemblies 212,214,216, therefore when first substrate 201 was subjected to touching, piezoelectric element 212a, 212b, 214a, 214b, 216a, 216b just can produce corresponding voltage signal respectively.In other words, in the embodiment that Fig. 2 B is illustrated, on first substrate 201 touched to the position can locate according to the voltage signal that more groups of piezoelectric elements produced, and then improved the signal resolution of touch point.Yet above-mentioned only for for example, the present invention does not limit the quantity of the receiving unit that touch control component 210 had.

Component application shown in Fig. 2 A or Fig. 2 B can constitute a display panel with touch controllable function in display panel.For instance, please refer to Fig. 3 A, the design example of touch-control display panel 200a is disposed at display dielectric layer 203a on first substrate 201 of Fig. 2 A or Fig. 2 B in this way, and display dielectric layer 203a is arranged in viewing area A1.Display dielectric layer 203a is driven by active assembly array AA, and display dielectric layer 203a and touch control component 210 are positioned at the same side of first substrate 201.Under such design, touch-control display panel 300a does not need other member, for example protects eyeglass etc., just can be with the function of demonstration and touch-control.

In addition, by Fig. 2 A or Fig. 2 B as can be known, the width W of non-display area A2 is comparatively narrow, uses the product of touch-control display panel 200a just can have good portability.On the other hand, the display dielectric layer 203a of touch-control display panel 200a for example is electrophoretic display thin film or organic luminescent assembly layer.That is to say that touch-control display panel 200a is electrophoretic display panel or the organic electroluminescence display panel with touch controllable function.But, with the material difference of display dielectric layer 203a, touch-control display panel 200a also may be other display panel.

Fig. 3 B is the touch-control display panel of another embodiment of the present invention.Shown in Fig. 3 B, touch-control display panel 200b more comprises second substrate 205 except the assembly that Fig. 2 A or Fig. 2 B are illustrated, and display dielectric layer 203b is disposed between first substrate 201 and second substrate 205.Display dielectric layer 203b is a liquid crystal layer for example, and second substrate 205 for example has chromatic filter layer CF.That is to say that touch-control display panel 200b is the display panels with touch controllable function.

Yet, the present invention is non-to be limited to this, in other embodiments, chromatic filter layer CF is integrated on first substrate 201 simultaneously with active assembly array AA, to form chromatic filter layer is integrated in active assembly array AA (Color Filter on Array, COA) design on or with chromatic filter layer be integrated in active assembly array AA (Color Filter on Array, the COA) design under (Array on ColorFilter, AOC).In addition, touch-control display panel 200b more comprises first polaroid 242 and second polaroid 244, and first substrate 201 and second substrate 205 are between first polaroid 242 and second polaroid 244.

More specifically, touch-control display panel 200b can be the semi-penetration, semi-reflective touch-control display panel, the reflection-type touch-control display panel, colored filter touch-control display panel of (color filter on array) on active layers, active layers touch-control display panel of (array on color filter) on colored filter, vertical orientation type (VA) touch-control display panel, horizontal switch type (IPS) touch-control display panel, multi-domain perpendicular alignment-type (MVA) touch-control display panel, twisted nematic (TN) touch-control display panel, super-twist nematic (STN) touch-control display panel, pattern vertical orientation type (PVA) touch-control display panel, super pattern vertical orientation type (S-PVA) touch-control display panel, the advanced person is type (ASV) touch-control display panel with great visual angle, fringe field switch type (FFS) touch-control display panel, continuous fireworks shape arrange type (CPA) touch-control display panel, rotational symmetry is arranged micella type (ASM) touch-control display panel, optical compensation curved arrange type (OCB) touch-control display panel, super horizontal switch type (S-IPS) touch-control display panel, advanced super horizontal switch type (AS-IPS) touch-control display panel, extreme edge electric field switch type (UFFS) touch-control display panel, blue phase touch-control display panel (Blue phase touch display panel), stabilizing polymer alignment-type touch-control display panel, double vision angle type (dual-view) touch-control display panel, three visual angle type (triple-view) touch-control display panels, three-dimensional touch display panel (three-dimensional) or other profile plate.

Yet display dielectric layer 203b be except being the above-mentioned liquid crystal layer, more can be to be made of other material.For example, the material of display dielectric layer 203b for example is a plasma, and it is between first substrate 201 and second substrate 205.During as display medium, touch-control display panel 200b can not have the setting of first, second polaroid 242,244 with plasma.In other embodiment, the material of display dielectric layer 203b comprises electrophoretic display materials, luminous organic material, phosphor or other suitable material.

Fig. 4 is for looking synoptic diagram on first substrate of the touch-control display panel of another embodiment of the present invention and the configuration assembly thereon.Please refer to Fig. 4, more dispose shielding cabling 252 and shielding cabling 254 on first substrate 201, it is arranged in non-display area A2 between active assembly array AA and touch control component 210.And shielding cabling 252,254 is connected to earthing potential or shared current potential.

Because the display voltage that driving voltage or data line provided that sweep trace provided among the active assembly array AA is often greater than 210 voltage signals that can produce of touch control component.Therefore, the voltage signal that shielding cabling 252,254 can protect touch control component 210 to be produced avoids being subjected to the influence that circuit caused among the A1 of viewing area, for example: because the noise that signal produced (noise) of sweep trace or data line.Be noted that herein that in Fig. 4 the width that will shield cabling 252,254 especially strengthens so that clearly demonstrate, in fact, the consideration the when length of shielding cabling 252,254, position or width viewable design and different.

In the above-described embodiment, touch control component 210 is directly to be integrated on first substrate 201 with active assembly array AA.Because transfer wire 212c, 214c can be formed on first substrate 201 by micro-photographing process with active assembly array AA simultaneously, therefore touch- control display panel 200a and 200b can save the step of wire mark processing procedure, and the simplification manufacturing course more can be saved manufacturing cost.Yet it is directly to be integrated on first substrate 201 with active assembly array AA that the present invention also is not limited to touch control component 210.In addition, component application shown in Figure 4 in aforesaid touch- control display panel 200a and 200b, is helped to improve the sensing sensitivity of touch control component 210.

Fig. 5 is the touch-control display panel schematic side view of further embodiment of this invention.Please refer to Fig. 5, touch-control display panel 400 has all members of touch-control display panel 200b, and wherein identical member is represented with identical label, no longer repeated herein.

But, in touch-control display panel 400, second substrate 205 has active assembly array AA, and display dielectric layer 203b drives by active assembly array AA, and touch control component 210 then is positioned at the side of first substrate 201 away from display dielectric layer 203b.In addition, the material of display dielectric layer 203b can be the display medium that liquid crystal, plasma or the described material of Fig. 3 B can be driven by active assembly array AA, and first substrate 201 for example can have chromatic filter layer CF.

In brief, the touch control component 210 of touch-control display panel 400 for example is to be integrated on first substrate 201 with chromatic filter layer CF, and similarly, touch-control display panel 400 also can have mentioned purpose of above-mentioned touch- control display panel 200a, 200b and technology effect.

Display device

The described touch control display panel of the foregoing description can be applied in the display device, below will be illustrated this.

Fig. 6 A is the display device synoptic diagram of one embodiment of the invention.Fig. 6 B is the touch control display panel synoptic diagram of Fig. 6 A, wherein only illustrates partial component.Please refer to Fig. 6 A and Fig. 6 B, display device 500 comprises framework 510 (or be called hold frame or lower frame or underframe) and above-mentioned touch-control display panel 200b.Touch-control display panel 200b is arranged in framework 510.The description of number embodiment before each assembly of touch-control display panel 200b please refer to.

Display device 500 more comprises protective seam 520 and display light source 530.Protective seam 520 is disposed on the framework 510, and covers touch-control display panel 200.Protective seam 520 for example is protection eyeglass or other material.Display light source 530 is disposed between framework 510 and the touch-control display panel 200.Yet only for giving an example, the setting of protective seam 520 is also nonessential herein, and in part embodiment, display device 500 of the present invention also can not have protective seam 520.Moreover, the setting of display light source 530 is also nonessential, in part embodiment, if display dielectric layer is to use self-luminescent material, during as the suitable self luminous material of: plasma, luminous organic material, phosphor or other, display device 500 of the present invention also can not have display light source 530.

Because display device 500 has above-mentioned touch-control display panel 200, so display device 500 can have above-mentioned all mentioned purposes and technology effect.Especially, use the display device of contact panel 100 in the known technology, display device 500 can have preferable space availability ratio and portability.

Fig. 7 A is the display device synoptic diagram of another embodiment of the present invention.Fig. 7 B is the touch control display panel synoptic diagram of Fig. 7 A, wherein only illustrates partial component.Please refer to Fig. 7 A and Fig. 7 B, display device 600 is similar to above-mentioned display device 500, and wherein, identical member is represented with identical label and no longer repeated.Display device 600 is that with the difference of display device 500 display device 600 is to replace above-mentioned touch-control display panel 200 with above-mentioned touch-control display panel 400.Each assembly in the touch-control display panel 400 please refer to the associated description of earlier figures 5, and display device 600 also can reach the technology effect that above-mentioned display device 500 is had.

In other embodiments, the touch- control display panel 200b, 400 in the display device 500,600 also can be to use above-mentioned touch control display panel 200a or other touch control display panel replaces.When being applied to display device 500 or 600 with touch-control display panel 200a, display device 500 or 600 can not need dispose display light source 530.

In sum, touch-control display panel of the present invention is that touch control component directly is disposed on first substrate, and the transfer wire of touch control component can adopt the mode of lithography to form.Therefore, touch-control display panel of the present invention has higher processing procedure precision, can reduce the resistance of transfer wire, and can save the needed manufacturing cost of wire mark processing procedure.On the other hand, touch-control display panel of the present invention is to use the touch control component of passive type and does not need to be provided with source of sound (or being called transmiting signal source or assembly), therefore design is comparatively simple, cost is lower, and need be, and then increase power consumption with extra piezoelectric as source of sound (or being called transmiting signal source or assembly).In part embodiment, touch-control display panel of the present invention also has the shielding cabling design that is arranged between transfer wire and the viewing area, therefore can avoid noise effect to voltage signal that touch control component produced.In addition, display device of the present invention has above-mentioned touch-control display panel, and the live width of its transfer wire reduces, and therefore can reduce the width of surrounding zone.In other words, display device of the present invention can have the display screen size that preferable space availability ratio also can enlarge product.

Though the present invention with embodiment openly as above; but it is not in order to limit the present invention; any person of ordinary skill in the field; without departing from the spirit and scope of the present invention; when doing a little change and modification, so protection scope of the present invention is as the criterion when looking the accompanying Claim book person of defining.

Claims (18)

1. a touch-control display panel is characterized in that, comprising:

One first substrate has a viewing area and a non-display area, and this non-display area is positioned at outside this viewing area;

One touch control component directly is disposed on this first substrate, and is arranged in this non-display area, and wherein this touch control component is made up of two group of received assemblies at least; And

One display dielectric layer is arranged in this viewing area.

2. touch-control display panel as claimed in claim 1 is characterized in that, each group of received assembly is made up of one or more piezoelectric element and a transfer wire, and this transfer wire is connected in series this one or more piezoelectric element.

3. touch-control display panel as claimed in claim 2 is characterized in that, the online central point that does not pass through this viewing area of any two piezoelectric elements.

4. touch-control display panel as claimed in claim 1 is characterized in that, this first substrate has an active assembly array, and this display dielectric layer is driven by this active assembly array, and this display dielectric layer and this touch control component are positioned at the same side of this first substrate.

5. touch-control display panel as claimed in claim 4, it is characterized in that, comprise at least one shielding cabling, be disposed between this active assembly array and this touch control component, be arranged in this non-display area, and this shielding cabling is connected to an earthing potential or a shared current potential.

6. touch-control display panel as claimed in claim 4, it is characterized in that this first substrate also has one first connection pad portion and one second connection pad portion, lays respectively in this non-display area, this touch control component is connected to this first connection pad portion, and this active assembly array is connected to this second connection pad portion.

7. touch-control display panel as claimed in claim 6 is characterized in that, this first connection pad portion and this second connection pad portion are positioned at the different both sides of this viewing area respectively.

8. touch-control display panel as claimed in claim 1 is characterized in that, also comprises one second substrate, and this display dielectric layer is disposed between this first substrate and this second substrate.

9. touch-control display panel as claimed in claim 8 is characterized in that, this display dielectric layer is a plasmasphere.

10. touch-control display panel as claimed in claim 8 is characterized in that, this display dielectric layer is a liquid crystal layer.

11. touch-control display panel as claimed in claim 10 is characterized in that, also comprises one first polaroid and one second polaroid, and this first substrate and this second substrate are between this first polaroid and this second polaroid.

12. touch-control display panel as claimed in claim 8 is characterized in that, this second substrate has an active assembly array, and this display dielectric layer drives by this active assembly array, and this touch control component is positioned at the side of this first substrate away from this display dielectric layer.

13. touch-control display panel as claimed in claim 8 is characterized in that, this first substrate or this second substrate have a chromatic filter layer.

14. touch-control display panel as claimed in claim 1 is characterized in that, this display dielectric layer is an electrophoretic display thin film or an organic luminescent assembly layer.

15. touch-control display panel as claimed in claim 1 is characterized in that, the width of this non-display area is 1mm to 10mm.

16. a display device is characterized in that, comprising:

One framework; And

A touch-control display panel as claimed in claim 1 is arranged in this framework.

17. display device as claimed in claim 16 is characterized in that, also comprises a protective seam, is disposed on this framework, and covers this touch-control display panel.

18. display device as claimed in claim 16 is characterized in that, also comprises a display light source, is disposed between this framework and this touch-control display panel.

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