CN106293209A - A kind of integrated touch-control display panel and touch control display device thereof - Google Patents

Abstract

The present invention relates to a kind of integrated touch-control display panel and touch control display device thereof.The non-display area of the color membrane substrates of the integrated touch-control display panel of the present invention has been oppositely disposed the first flexible PCB and the second flexible PCB, and the touch-control sensing electrode layer on color membrane substrates is divided into the first sensing unit near the first flexible PCB and the second sensing unit near the second flexible PCB；Several touch-control sensing electrodes that first sensing unit is comprised connect the first flexible PCB each via its lead-in wire；Several touch-control sensing electrodes that second sensing unit is comprised connect the second flexible PCB each via its lead-in wire.Thus, each touch-control sensing electrode can according to nearby principle carry out going between being connected to therewith closer to flexible PCB, on the one hand, the arrangement of lead-in wire can be the compactest, such that it is able to accomplished by non-display area narrower, on the other hand, the length of the lead-in wire of part touch-control sensing electrode can shorten, reduce lead resistance, reduce thermal losses.

Description

A kind of integrated touch-control display panel and touch control display device thereof

Technical field

The present invention relates to a kind of integrated touch-control display panel and touch control display device thereof.

Background technology

Along with the development of Display Technique, increasing display floater is integrated with touch controllable function, answers to bring to user The facility used.

At present, in order to reduce the thickness of display floater and realize touch controllable function, generally touch-control structure is integrated in display surface In plate.The hybrid touch structure (hybrid In-cell) of the most existing mutual capacitance type, as it is shown in figure 1, the collection of prior art Becoming the cross-sectional schematic of touch-control display panel, in general, it includes array base palte 2 ' and the color membrane substrates 1 ' being oppositely arranged, with And the liquid crystal layer 3 ' being arranged between array base palte 2 ' and color membrane substrates 1 '；In general, by touch-control drive electrode (TX electrode) 21 ' the inner sides (near the side of liquid crystal layer) being arranged on array base palte (TFT substrate) 2 ', by touch-control sensing electrode (RX electrode) 11 ' the outsides (away from the side of liquid crystal layer) being arranged on color membrane substrates (CF substrate) 1 ', wherein, the public electrode of display floater (Vcom) it is divided into several to extend along data wire direction and along the strip sub-electrode of gate line direction parallel arranged, and is answered With for touch-control drive electrode 21 ' (the most vertically extending touch-control drive electrode arranged in left-right direction 21’)；It addition, touch-control sensing electrode 11 ' includes the strip of its direction several parallel arranged orthogonal with touch-control drive electrode 21 ' Sub-electrode.

For the display floater that screen is wider, the development length of touch-control sensing electrode 11 ' is longer, and resistance can be bigger；Institute With in prior art, generally each touch-control sensing electrode 11 ' is divided into two shorter RX sub-electrodes, as it is shown in figure 1, right All RX sub-electrode 11a ' of side guide same flexible circuit board (FPC) 4 ' by its respective lead-in wire into from right side, left side All RX sub-electrode 11b ' guide same FPC 4 ' into by its respective lead-in wire from left side, on the one hand, owing to lead-in wire is more, need To reserve wider non-display area in both sides to arrange that these go between, thus cause and cannot realize narrow frame；On the other hand, due to FPC 4 ' is positioned at one end (in general, FPC 4 ' is near display driving integrated circuit IC 5 ') of display floater, from FPC 4 ' relatively The lead-in wire of remote RX sub-electrode can be long, and resistance is relatively big, and thermal losses is bigger.

For the display floater of wide screen, the lead-in wire scheme of RX sub-electrode is a difficult problem.

Summary of the invention

For solving above-mentioned technical problem, one aspect of the present invention provides a kind of integrated touch-control display panel, comprising: relatively The array base palte and color membrane substrates, described array base palte and the described color membrane substrates that arrange include viewing area and around described viewing area Non-display area；In described viewing area, described array base palte arranges touch-control drive electrode layer, described touch-control drive electrode layer The touch-control drive electrode extended in a first direction including several and arrange the most successively；In described viewing area, described Arranging touch-control sensing electrode layer on color membrane substrates, described touch-control sensing electrode layer includes that several extend and edge along described second direction The touch-control sensing electrode that described first direction is arranged successively；Described first direction is vertical with described second direction；Wherein, described coloured silk Film substrate both sides in said first direction are relatively set with the first non-display area and the second non-display area, described first non-aobvious Showing that district is provided with the first flexible PCB, described second non-display area is provided with the second flexible PCB；Described touch-control sensing electrode layer It is divided into the first sensing unit near described first flexible PCB and the second sense near described second flexible PCB Answer unit；It is flexible that several touch-control sensing electrodes that described first sensing unit is comprised connect described first each via its lead-in wire Circuit board；It is flexible that several touch-control sensing electrodes that described second sensing unit is comprised connect described second each via its lead-in wire Circuit board.

Preferably, each described touch-control sensing electrode includes arranging successively along described second direction and disconnecting each other The first touch-control sensing sub-electrode and the second touch-control sensing sub-electrode.

Preferably, described color membrane substrates both sides in a second direction have been oppositely disposed the 3rd non-display area and the 4th non- Viewing area；Each described first touch-control sensing sub-electrode is near described 3rd non-display area, and its lead-in wire is through described 3rd non-display District；Each described second touch-control sensing sub-electrode is near described 4th non-display area, and its lead-in wire is through described 4th non-display area.

Preferably, described first touch-control sensing sub-electrode and described second touch-control sensing sub-electrode are relative to described viewing area Centrage along described first direction is symmetrically arranged.

Preferably, on described first flexible PCB, connection has the first earth lead and the second earth lead, described first ground connection Line is through described 3rd non-display area and the lead-in wire of extended the first touch-control sensing sub-electrode in described first sensing unit Outside；Described second earth lead through described 4th non-display area and extended in described first sensing unit second touch The outside of the lead-in wire of control inductor electrode；And, described second flexible PCB connects and has the 3rd earth lead and the 4th ground connection Line, described 3rd earth lead is through described 3rd non-display area and extended in the first touch-control sense of described second sensing unit Answer the outside of the lead-in wire of sub-electrode；Described 4th earth lead through described 4th non-display area and extended in described second feel Answer the outside of the lead-in wire of the second touch-control sensing sub-electrode of unit.

Preferably, described first earth lead and described 3rd earth lead connect one entirety of formation；And described second ground connection Line and described 4th earth lead connect one entirety of formation.

Preferably, described first earth lead and described 3rd earth lead are in described first sensing unit and described second sensing The boundary of unit is in the setting mutually disconnected；And described second earth lead and described 4th earth lead are at described first sensing list First setting with the boundary of described second sensing unit in mutual disconnection.

Preferably, described array base palte also sets up gate line and data wire；Described first direction is described data wire Bearing of trend；Described second direction is the bearing of trend of described gate line.

Another aspect of the present invention provides a kind of touch control display device, and it includes above-mentioned integrated touch-control display panel.

The integrated touch-control display panel of the present invention, respectively arranges a flexible PCB on color membrane substrates, each Bar touch-control sensing electrode can according to nearby principle carry out going between being connected to therewith closer to flexible PCB, on the one hand, lead-in wire Arrangement can be the compactest, such that it is able to non-display area is accomplished narrower, on the other hand, the lead-in wire of part touch-control sensing electrode Length can shorten, reduce lead resistance, it is achieved while touch-control sensitivity reduce thermal losses, another further aspect can make to touch The difference in length of the lead-in wire of control induction electrode diminishes, and strengthens touch-control uniformity.

Accompanying drawing explanation

Fig. 1 is the cross-sectional schematic of the integrated touch-control display panel of prior art；

Fig. 2 is the part-structure schematic top plan view of the integrated touch-control display panel of prior art；

Fig. 3 is the part-structure schematic top plan view of the integrated touch-control display panel of embodiment 1；

Fig. 4 is the part-structure schematic top plan view of the integrated touch-control display panel of embodiment 2.

Detailed description of the invention

Describe the present invention below with reference to detailed description of the invention shown in the drawings.But these embodiments are also It is not intended to the present invention, structure that those of ordinary skill in the art is made, method or functionally according to these embodiments Conversion is all contained in protection scope of the present invention.

It is described more fully with example embodiment referring now to accompanying drawing.But, example embodiment can be with multiple shape Formula is implemented, and is not understood as limited to embodiment set forth herein；On the contrary, it is provided that these embodiments make the present invention incite somebody to action Fully and completely, and by the design of example embodiment those skilled in the art is conveyed to all sidedly.The most identical is attached Figure labelling represents same or similar structure, thus will omit repetition thereof.

Described feature, structure or characteristic can be combined in one or more embodiment in any suitable manner In.In the following description, it is provided that many details thus be given and embodiments of the present invention fully understood.But, One of ordinary skill in the art would recognize that, do not have in specific detail is one or more, or uses other method, constituent element, material Material etc., it is also possible to put into practice technical scheme.In some cases, be not shown in detail or describe known features, material or Person's operation is to avoid the fuzzy present invention.

Specifically described herein " be arranged on/... on (it) " should be understood to include directly to contact " be arranged on/... On (it) " and be not directly contacted with " be arranged on/... on (it) ".

The accompanying drawing of the present invention is only used for signal relative position relation and electrical connection, and the thickness at some position have employed to be overstated The plotting mode shown is so that understanding, the thickness in accompanying drawing does not represent the proportionate relationship of actual thickness.

It is illustrated in figure 3 the part-structure schematic top plan view of the integrated touch-control display panel that the embodiment of the present invention 1 provides；Real Execute array base palte (not shown in Fig. 3) and color membrane substrates 100 that the integrated touch-control display panel of example 1 includes being oppositely arranged；Array Substrate and color membrane substrates 100 include viewing area and the non-display area (not marking in figure) around viewing area.

Wherein, owing to array base palte and color membrane substrates 100 are oppositely arranged, for preferably illustrating touch electrode structure, Therefore eliminate array base palte in figure 3.Although not being specifically identified out viewing area and non-display area in Fig. 3, alternatively, Fig. 3 institute Show be positioned at the staggered electrode zone of the transverse and longitudinal of centre corresponding be viewing area, the region of the surrounding being positioned at viewing area is non-display District, the lead-in wire shown in Fig. 3 and circuit part are arranged at non-display area.

In above-mentioned viewing area, array base palte arranging touch-control drive electrode layer (not marking in figure), touch-control drives electricity Pole layer include several in the first direction (y direction shown in Fig. 3) extend and in a second direction (x direction shown in Fig. 3) arrange successively The touch-control drive electrode Tx of cloth；In above-mentioned viewing area, color membrane substrates 100 arranges touch-control sensing electrode layer and (figure is not marked Note), touch-control sensing electrode layer includes several touch-control sensing electrodes that x extends and y arranges successively in the first direction in a second direction 11；First direction y is vertical with second direction x.

In the present embodiment, above-mentioned first direction y is the extension of the data wire (not shown) arranged on array base palte Direction, above-mentioned second direction x is the bearing of trend of the gate line (not shown) arranged on array base palte.

As it is shown on figure 3, the both sides on color membrane substrates 100 y in a first direction are relatively set with the first non-display area 21 and Two non-display areas 22, the first non-display area 21 is provided with the first flexible PCB 31, and the second non-display area 22 is provided with the second flexible electrical Road plate 32.

As it is shown on figure 3, touch-control sensing electrode layer is divided into the first sensing unit 101 near the first flexible PCB 31 With the second sensing unit 102 near the second flexible PCB 32；Several touch-control sensing electricity that first sensing unit 101 is comprised Pole connects the first flexible PCB 31 each via its lead-in wire；Several touch-control sensing electrodes that second sensing unit 102 is comprised The second flexible PCB 32 is connected each via its lead-in wire.

In the present embodiment, the total number of touch-control sensing electrode 11 is 2n bar (n is the integer more than 1), and the first sensing is single Unit 101 and the second sensing unit 102 comprise respectively near n article of touch-control sensing electrode 11 of the first flexible PCB 31 with near the The n bar touch-control sensing electrode 11 of two flexible PCBs 32.

In another alternate embodiment of the present invention, the total number of touch-control sensing electrode 11 is that (n is for more than 1 for 2n+1 bar Integer), the first sensing unit 101 and the second sensing unit 102 one of them comprise n bar touch-control sensing electrode 11, another Comprise n+1 bar touch-control sensing electrode 11.Certainly, in other alternate embodiment of the present invention, the first sensing unit 101 He Second sensing unit 102 can be one and comprise more touch-control sensing electrode 11, and another comprises less touch-control sensing electricity Pole 11.

In the present embodiment, as it is shown on figure 3, the first sensing unit 101 and the second sensing unit 102 are relative to edge, viewing area The centrage II of second direction x is symmetrically arranged；Change angle to say, approximately along viewing area x in a second direction centrage (as Dotted line II shown in Fig. 3) touch-control sensing electrode layer is divided into the first sensing unit 101 and the second sensing unit 102.It addition, it is aobvious Show that the centrage II of district x in a second direction substantially may be considered the first sensing unit 101 and boundary of the second sensing unit 102 Line.

The integrated touch-control display panel of the present embodiment, respectively arranges a flexible PCB on color membrane substrates 100, Touch-control sensing electrode layer can be gone between by both direction, and each touch-control sensing electrode can draw according to nearby principle Line be connected to therewith closer to flexible PCB, specifically: near the first sensing unit 101 of the first flexible PCB 31 Touch-control sensing electrode 11 be connected to the first flexible PCB 31 by lead-in wire, near the second flexible PCB 32 second sensing The touch-control sensing electrode 11 of unit 102 is connected to the second flexible PCB 32 by lead-in wire；Thus, on the one hand, the arrangement of lead-in wire Can be the compactest, such that it is able to non-display area is accomplished narrower, on the other hand, the length of the lead-in wire of part touch-control sensing electrode Can shorten, reduce lead resistance, it is achieved reducing thermal losses while touch-control sensitivity, another further aspect can make touch-control sensing The difference in length of the lead-in wire of electrode diminishes, and strengthens touch-control uniformity.

In the present embodiment, as it is shown on figure 3, each touch-control sensing electrode 11 include in a second direction x arrange successively and The the first touch-control sensing sub-electrode 11a disconnected each other and the second touch-control sensing sub-electrode 11b.In general this structure is suitable for The display floater of screen wider (wider in second direction x), specifically, if the development length of touch-control sensing electrode 11 is longer Words, resistance can be bigger, and current loss is bigger, it is possible to each touch-control sensing electrode 11 is divided into two shorter Sub-electrode.

In the present embodiment, as it is shown on figure 3, the first touch-control sensing sub-electrode 11a and the second touch-control sensing sub-electrode 11b can It is symmetrically arranged with the centrage (dotted line I as shown in Figure 3) relative to viewing area y in the first direction；Change an angle to say, substantially By the centrage I of viewing area y in the first direction, each touch-control sensing electrode 11 is divided into the son electricity of two equal length Pole.

In the present embodiment, as it is shown on figure 3, the color membrane substrates 10 both sides in second direction x have been oppositely disposed the 3rd Non-display area 23 and the 4th non-display area 24；Each first touch-control sensing sub-electrode 11a near the 3rd non-display area 23, its warp that goes between Cross the 3rd non-display area 23；Each first touch-control sensing sub-electrode 11b is near the 3rd non-display area 24, and its lead-in wire is non-aobvious through the 4th Show district 24.

Specifically, as it is shown on figure 3, be positioned at each the first touch-control sensing sub-electrode 11a of the first sensing unit 101, It is connected to the first flexible PCB 31 to upward wiring through the 3rd non-display area 23；It is positioned at each article of the second sensing unit 102 One touch-control sensing sub-electrode 11a, is connected to the second flexible PCB 32 through the 3rd non-display area to downward cabling.

Specifically, as it is shown on figure 3, be positioned at each the second touch-control sensing sub-electrode 11b of the first sensing unit 101, It is connected to the first flexible PCB 31 to upward wiring through the 4th non-display area 24；It is positioned at each article of the second sensing unit 102 Two touch-control sensing sub-electrode 11b, are connected to the second flexible PCB 32 through the 4th non-display area 24 to downward cabling.

In the present embodiment, as it is shown on figure 3, connect on the first flexible PCB 31 and have the first earth lead G1 and the second ground connection Line G2, the first earth lead G1 are through the 3rd non-display area 23 and extended first touch-control sensing in the first sensing unit 101 Outside the lead-in wire of sub-electrode 11a；Second earth lead G2 is through the 4th non-display area 24 and extended in the first sensing unit 101 In the second touch-control sensing sub-electrode 11b lead-in wire outside.

In the present embodiment, as it is shown on figure 3, connect on the second flexible PCB 32 and have the 3rd earth lead G3 and the 4th ground connection Line G4, the 3rd earth lead G3 are through the 3rd non-display area 23 and extended in the first touch-control sensing of the second sensing unit 102 The outside of the lead-in wire of sub-electrode 11a；4th earth lead G4 is through the 4th non-display area 24 and extended in the second sensing unit The outside of the lead-in wire of the second touch-control sensing sub-electrode 11b of 102.

In the present embodiment, as it is shown on figure 3, the first earth lead G1 and the 3rd earth lead G3 connects forms an entirety；And Second earth lead G2 and the 4th earth lead G4 connects one entirety of formation.

By the setting of earth lead, the lead-in wire of each touch-control sensing electrode 11 can be protected in periphery, preferably shield the external world Interference.

In the present embodiment, as it is shown on figure 3, the second non-display area 22 of color membrane substrates 100 is additionally provided with shows that driving is integrated IC circuit 41, the first flexible PCB 31 and the second flexible PCB 32 are connected with display driving integrated circuit IC 41.

Embodiment 2

As shown in Figure 4, the part-structure schematic top plan view of the integrated touch-control display panel of embodiment 2.Embodiment 2 integrated Touch-control display panel is from the difference of embodiment 1: earth lead different.

As shown in Figure 4, the first earth lead G1 ' and the second earth lead G3 ' is at the first sensing unit 101 and the second sensing unit The boundary of 102 is in the setting mutually disconnected.

Second earth lead G2 ' and the 4th earth lead G4 ' is in the first sensing unit 101 and boundary of the second sensing unit 102 Place is in the setting mutually disconnected.

Touch-control stage, the first sensing unit 101 or the second sensing unit 102 can produce with earth lead and couple, now ground connection Line can produce interference to the second sensing unit 102 or the first sensing unit 101 that do not carry out touch.Therefore, by earth lead The setting mutually disconnected, (that is, the first sensing unit 101 and the second sensing are single in two touch areas up and down being possible to prevent in Fig. 4 The touch areas that unit 102 is respectively corresponding) between interfere.

In the present embodiment, as shown in Figure 4, the first sensing unit 101 and the second sensing unit 102 are relative to edge, viewing area The centrage II of second direction x is symmetrically arranged, and therefore, the first sensing unit 101 is big with the boundary of the second sensing unit 102 Cause is positioned at centrage II position.

The integrated touch-control display panel of above-described embodiment 1 and embodiment 2 can apply to touching of such as mobile phone, pad etc Control display device.

It is to be understood that, although this specification is been described by according to embodiment, but the most each embodiment only comprises one Individual independent technical scheme, this narrating mode of description is only that for clarity sake those skilled in the art should will say Bright book is as an entirety, and the technical scheme in each embodiment can also be through appropriately combined, and forming those skilled in the art can With other embodiments understood.

The a series of detailed description of those listed above is only for the feasibility embodiment of the present invention specifically Bright, they also are not used to limit the scope of the invention, all equivalent implementations made without departing from skill of the present invention spirit Or change should be included within the scope of the present invention.

Claims (9)

1. an integrated touch-control display panel, it is characterised in that including:

The array base palte being oppositely arranged and color membrane substrates, described array base palte and described color membrane substrates include viewing area and around institute State the non-display area of viewing area；

In described viewing area, described array base palte arranging touch-control drive electrode layer, described touch-control drive electrode layer includes number The touch-control drive electrode that bar extends in a first direction and arranges the most successively；

In described viewing area, described color membrane substrates arranging touch-control sensing electrode layer, described touch-control sensing electrode layer includes number The touch-control sensing electrode that bar extends along described second direction and arranges successively along described first direction；Described first direction is with described Second direction is vertical；

Wherein,

Described color membrane substrates both sides in said first direction are relatively set with the first non-display area and the second non-display area, institute Stating the first non-display area and be provided with the first flexible PCB, described second non-display area is provided with the second flexible PCB；

Described touch-control sensing electrode layer is divided near the first sensing unit of described first flexible PCB with near described Second sensing unit of the second flexible PCB；

Several touch-control sensing electrodes that described first sensing unit is comprised connect described first flexible electrical each via its lead-in wire Road plate；

Several touch-control sensing electrodes that described second sensing unit is comprised connect described second flexible electrical each via its lead-in wire Road plate.

Integrated touch-control display panel the most as claimed in claim 1, it is characterised in that:

Each described touch-control sensing electrode includes the first touch-control arranged successively along described second direction and disconnect each other Inductor electrode and the second touch-control sensing sub-electrode.

Integrated touch-control display panel the most as claimed in claim 2, it is characterised in that:

Described color membrane substrates both sides in a second direction have been oppositely disposed the 3rd non-display area and the 4th non-display area；

Each described first touch-control sensing sub-electrode is near described 3rd non-display area, and its lead-in wire is through described 3rd non-display area；

Each described second touch-control sensing sub-electrode is near described 4th non-display area, and its lead-in wire is through described 4th non-display area.

Integrated touch-control display panel the most as claimed in claim 3, it is characterised in that:

Described first touch-control sensing sub-electrode and described second touch-control sensing sub-electrode relative to described viewing area along described first The centrage in direction is symmetrically arranged.

Integrated touch-control display panel the most as claimed in claim 3, it is characterised in that:

Connecting on described first flexible PCB and have the first earth lead and the second earth lead, described first earth lead is through described the Three non-display areas and extended in described first sensing unit outside the lead-in wire of the first touch-control sensing sub-electrode；Described second Earth lead is through described 4th non-display area and extended the second touch-control sensing sub-electrode in described first sensing unit Outside lead-in wire；And,

Connecting on described second flexible PCB and have the 3rd earth lead and the 4th earth lead, described 3rd earth lead is through described the Three non-display areas and extended in described second sensing unit outside the lead-in wire of the first touch-control sensing sub-electrode；Described 4th Earth lead is through described 4th non-display area and extended the second touch-control sensing sub-electrode in described second sensing unit Outside lead-in wire.

Integrated touch-control display panel the most as claimed in claim 5, it is characterised in that:

Described first earth lead and described 3rd earth lead connect one entirety of formation；And

Described second earth lead and described 4th earth lead connect one entirety of formation.

Integrated touch-control display panel the most as claimed in claim 5, it is characterised in that:

Described first earth lead and described 3rd earth lead are in the boundary of described first sensing unit Yu described second sensing unit Place is in the setting mutually disconnected；And

Described second earth lead and described 4th earth lead are in the boundary of described first sensing unit Yu described second sensing unit Place is in the setting mutually disconnected.

Integrated touch-control display panel the most as claimed in any of claims 1 to 7 in one of claims, it is characterised in that: described array base palte On also set up gate line and data wire；

Described first direction is the bearing of trend of described data wire；

Described second direction is the bearing of trend of described gate line.

9. a touch control display device, it is characterised in that: it includes as claimed in any of claims 1 to 8 in one of claims integrated tactile Control display floater.