CN105446549A - Array substrate, touch display panel and display device - Google Patents

Abstract

The embodiment of the invention discloses an array substrate, a touch display panel and a display device. The array substrate comprises a first electrode layer, wherein the first electrode layer comprises at least one first region and multiple first touch electrodes extending in the first direction, multiple touch sub-electrodes distributed in an M-line N-row mode are included in the first region, and the M and the N are integers greater than or equal to 2. At least two touch sub-electrodes in the same row of touch sub-electrodes are mutually insulated. Each touch sub-electrode located in the 1st line and the Mth line is electrically connected with one touch sub-electrode, each touch sub-electrode located in the Nth line is electrically connected with two touch sub-electrodes, the multiple mutually and electrically connected touch sub-electrodes are respectively located in different lines, and the N is an integer greater than 1 but smaller than M. The influence of a scanning circuit on touch detection signals can be reduced.

Description

Array base palte, touch-control display panel and display device

Technical field

The application relates to electronic technology field, is specifically related to display technique field, particularly relates to a kind of array base palte, touch-control display panel and display device.

Background technology

Along with the development of mobile terminal technology, the display screen with touch controllable function has become the main flow screen of all kinds of mobile terminal configuration gradually.Usually can use embedded touch structure in display terminal, namely directly embed touch controllable function in the inside of display panel, to make whole touch display screen curtain more frivolous.

Mixing embedded touch structure of the prior art, can be arranged at a part of touch control electrode on TFT (ThinFilmTransistor, the thin film transistor (TFT)) substrate of display panel.When this part touch control electrode extends along the data line direction of display panel, the touch control electrode being positioned at edge, viewing area can with the sweep circuit of display panel mutually by very near.Specifically can reference diagram 1, it illustrates the structural representation of a kind of TFT substrate in prior art.As shown in Figure 1, multiple touch control electrode 11 extends along data line direction in TFT substrate 10, is positioned at viewing area AA the right and left touch control electrode 11A and 11B, adjacent with sweep circuit VSRL and VSRR respectively.Like this, in the touch-control stage, touching signals on touch control electrode 11A is easy to the interference being subject to sweep circuit VSRL, and the touching signals on touch control electrode 11B is easy to the interference being subject to sweep circuit VSRR, the touch-control sensing amount of the two is made to be greater than touch-control sensing amount in other touch control electrode, thus the problem causing whole panel touch control detection inequality signal even.

Summary of the invention

In view of above-mentioned defect of the prior art or deficiency, expect to provide a kind of scheme that touch control detection inequality signal can be avoided even.In order to realize above-mentioned one or more object, the embodiment of the present application provides a kind of array base palte, touch-control display panel and display device.

First aspect, the embodiment of the present application provides a kind of array base palte, comprising: the first electrode layer;

Described first electrode layer comprises the first touch control electrode that at least one first area and many extend along first direction, and described first area comprises multiple touch-control sub-electrodes of the capable N column distribution in M, described M, N be more than or equal to 2 integer;

At least two touch-control sub-electrode mutually insulateds in the described touch-control sub-electrode of same row;

Be positioned at touch-control sub-electrode described in the 1st row and capable each of M to be electrically connected with a described touch-control sub-electrode, be positioned at n-th line each described in touch-control sub-electrode be electrically connected with two described touch-control sub-electrodes, the multiple described touch-control sub-electrode be electrically connected to each other lays respectively at different rows, and n is the integer being greater than 1 and being less than M.

Second aspect, the embodiment of the present application provides a kind of touch-control display panel, and this touch-control display panel comprises the array base palte that above-mentioned first aspect provides.

The third aspect, the embodiment of the present application provides a kind of display device, and this display device comprises the touch-control display panel that above-mentioned second aspect provides.

The array base palte that the embodiment of the present application provides, touch-control display panel and display device, can be divided into multiple touch-control sub-electrode and carry out alternately connecting, thus forming the touch control electrode of left and right alternative expression by adjacent touch control electrode.Like this, the touch control electrode of alternative expression can a part adjacent with sweep circuit, and another part and sweep circuit non-conterminous, thus reduce the impact of sweep circuit on touching signals, improve the homogeneity of touch control detection signal on whole substrate.

Accompanying drawing explanation

By reading the detailed description done non-limiting example done with reference to the following drawings, the other features, objects and advantages of the application will become more obvious:

Fig. 1 is the structural representation of a kind of TFT substrate in prior art;

Fig. 2 is the structural representation of an embodiment of the application's array base palte;

Fig. 3 is the structural representation of a specific implementation of array base palte in Fig. 2;

Fig. 4 is the structural representation of another embodiment of the application's array base palte;

Fig. 5 is a part section structural representation of array base palte in Fig. 4;

Fig. 6 is the structural representation of another embodiment of the application's array base palte;

Fig. 7 is a part section structural representation of array base palte in Fig. 6;

Fig. 8 is the structural representation of an embodiment of the application's touch-control display panel.

Embodiment

Below in conjunction with drawings and Examples, the application is described in further detail.Be understandable that, specific embodiment described herein is only for explaining related invention, but not the restriction to this invention.It also should be noted that, for convenience of description, in accompanying drawing, illustrate only the part relevant to Invention.

It should be noted that, when not conflicting, the embodiment in the application and the feature in embodiment can combine mutually.Below with reference to the accompanying drawings and describe the application in detail in conjunction with the embodiments.

Please refer to Fig. 2, it illustrates the structural representation of an embodiment of the application's array base palte.

As shown in Figure 2, the array base palte 20 of the present embodiment comprises: the first electrode layer 21.

First electrode layer 21 comprises at least one first area 22 and many first touch control electrode 23 extended along first direction A.Can comprise multiple touch-control sub-electrodes 221 of the capable N column distribution in M in first area 22, wherein, M, N can for the integers being more than or equal to 2.

At least two touch-control sub-electrode 221 mutually insulateds in same row touch-control sub-electrode 221.Be positioned at the 1st row and capable each the touch-control sub-electrode 221 of M is electrically connected with a touch-control sub-electrode 221, each the touch-control sub-electrode 221 being positioned at n-th line is electrically connected with two touch-control sub-electrodes 221, the multiple touch-control sub-electrodes 221 be electrically connected to each other lay respectively at different rows, and n is the integer being greater than 1 and being less than M.

In some optional implementations of the present embodiment, first area 22 is positioned at the edge of array base palte 20.Because the both sides outside array base palte 20 can arrange sweep circuit VSRL and VSRR respectively, therefore first area 22 can be adjacent with sweep circuit VSRL or VSRR.

In a specific implementation of the present embodiment, as shown in Figure 3, first electrode layer 21 can comprise two first areas 22 and five the first touch control electrode 23 extended along first direction A, and two first areas 22 lay respectively at the edge, two, left and right of array base palte 20, and adjacent with sweep circuit VSRL and VSRR respectively.

Be arranged in the first area 22 of array base palte 20 left side edge, comprise nine touch-control sub-electrodes 221 in 3 row 3 column distributions.All touch-control sub-electrodes 221 in 1st row touch-control sub-electrode 221 insulate mutually, the touch-control sub-electrode 221 being positioned at the 2nd row in 2nd row touch-control sub-electrode 221 insulate with the touch-control sub-electrode 221 being positioned at the 1st row and the 3rd row, and the touch-control sub-electrode 221 being positioned at the 3rd row in the 3rd row touch-control sub-electrode 221 insulate with the touch-control sub-electrode 221 being positioned at the 1st row and the 2nd row.Insulate mutually with all touch-control sub-electrodes 221 in a line touch-control sub-electrode 221.

Each the touch-control sub-electrode 221 being positioned at the 1st row and the 3rd row is electrically connected with a touch-control sub-electrode 221.Such as, be positioned at touch-control sub-electrode 221 that the 1st row the 1st arranges and be positioned at the touch-control sub-electrode 221 that the 2nd row the 2nd arranges and be electrically connected, the touch-control sub-electrode 221 being positioned at the 3rd row the 1st row be positioned at the touch-control sub-electrode 221 that the 2nd row the 3rd arranges and be electrically connected.Each the touch-control sub-electrode 221 being positioned at the 2nd row is electrically connected with two touch-control sub-electrodes 221, such as, be positioned at touch-control sub-electrode 221 that the 2nd row the 2nd arranges can simultaneously be positioned at two touch-control sub-electrodes 221 that the 1st row the 1st arranges and the 3rd row the 3rd arranges and be electrically connected.Further, the multiple touch-control sub-electrodes 221 be electrically connected to each other lay respectively at different rows.

Meanwhile, be arranged in the first area 22 of array base palte 20 right side edge, four touch-control sub-electrodes 221 in 2 row 2 column distributions can comprised.Two touch-control sub-electrode 221 mutually insulateds in 1st row, two touch-control sub-electrode 221 mutually insulateds in the 2nd row touch-control sub-electrode 221, with two the touch-control sub-electrodes 221 also mutually insulated in a line touch-control sub-electrode 221.Be positioned at touch-control sub-electrode 221 that the 1st row the 1st arranges and be positioned at the touch-control sub-electrode 221 that the 2nd row the 2nd arranges and be electrically connected, the touch-control sub-electrode 221 being positioned at the 1st row the 2nd row be positioned at the touch-control sub-electrode 221 that the 2nd row the 1st arranges and be electrically connected.Like this, the multiple touch-control sub-electrodes 221 be electrically connected to each other lay respectively at different rows.

The array base palte that the present embodiment provides, can be divided into multiple touch-control sub-electrode and carry out alternately connecting, thus forming the touch control electrode of left and right alternative expression by adjacent touch control electrode.Like this, the touch control electrode of alternative expression can a part adjacent with sweep circuit, and another part and sweep circuit non-conterminous.Such as, in the first area 22 of array base palte 20 left side edge, put on the touching signals on touch-control sub-electrode 221 that the 3rd row the 1st arranges, can be transferred to successively and be positioned on the 2nd row the 3rd arranges and the 1st row the 3rd arranges touch-control sub-electrode 211, and can not to transmit along the 1st row touch-control sub-electrode 211 completely.That is, touching signals can not completely along that row touch-control sub-electrode transmission of next-door neighbour's sweep circuit VSRL, but fractional transmission is on other not adjacent with sweep circuit VSRL touch-control sub-electrodes, thus the impact of sweep circuit on touching signals can be reduced, improve the homogeneity of touch control detection signal on whole substrate.

With further reference to Fig. 4, it illustrates the structural representation of another embodiment of the application's array base palte.

As shown in Figure 4, the array base palte 30 of the present embodiment comprises: the first electrode layer 31.

First electrode layer 31 can comprise the first touch control electrode 33 that two first areas 32 and six extend along first direction A, and two first areas 32 lay respectively at the edge, two, left and right of array base palte 30.It should be noted that, in the embodiment of the present application, the concrete number of first area 32 and the first touch control electrode 33 is exemplary explanation, and it does not form the restriction to the application.In practice, the concrete number of first area 32 and the first touch control electrode 33 can be set according to actual needs.

In two first areas 32, comprise eight touch-control sub-electrodes 321 in 4 row 2 column distributions respectively.In each first area 32, be positioned at the touch-control sub-electrode 321 of the 1st row and the 3rd row and touch-control sub-electrode 321 mutually insulated being positioned at the 2nd row and the 4th row in 1st row touch-control sub-electrode 321, in the 2nd row touch-control sub-electrode 321, be positioned at the touch-control sub-electrode 321 of the 1st row and the 3rd row and touch-control sub-electrode 321 mutually insulated being positioned at the 2nd row and the 4th row.With two touch-control sub-electrode 321 mutually insulateds in a line touch-control sub-electrode 321.

Each the touch-control sub-electrode 321 being positioned at the 1st row and the 4th row is electrically connected with a touch-control sub-electrode 321.Such as, be positioned at touch-control sub-electrode 321 that the 1st row the 1st arranges and be positioned at the touch-control sub-electrode 321 that the 2nd row the 2nd arranges and be electrically connected, the touch-control sub-electrode 321 being positioned at the 4th row the 2nd row be positioned at the touch-control sub-electrode 321 that the 3rd row the 1st arranges and be electrically connected.Each the touch-control sub-electrode 321 being positioned at the 2nd row or the 3rd row is electrically connected with two touch-control sub-electrodes 321, such as, be positioned at touch-control sub-electrode 321 that the 2nd row the 1st arranges can simultaneously be positioned at two touch-control sub-electrodes 321 that the 1st row the 2nd arrange and the 3rd row the 2nd arranges and be electrically connected, be positioned at the 3rd row the 1st row touch-control sub-electrode 321 can while be positioned at two touch-control sub-electrodes 321 that the 2nd row the 1st arranges and the 4th row the 1st arranges and be electrically connected.Further, the multiple touch-control sub-electrodes 221 be electrically connected to each other lay respectively at different rows.In the present embodiment, four that are electrically connected to each other multiple touch-control sub-electrodes 321 can lay respectively at the 1st row, the 2nd row, the 3rd row and the 4th row.

In some optional implementations of the present embodiment, above-mentioned electrical connection can be realized by plain conductor.The length sum of multiple touch-control sub-electrodes 321 on first direction A be electrically connected to each other by same plain conductor equals the length of first touch control electrode 33 on first direction A.Particularly, as shown in Figure 4, be arranged in the first area 32 at array base palte about 30 two edges, the connection between touch-control sub-electrode 321 is all realized by plain conductor 34.And, be electrically connected to each other four touch-control sub-electrodes 321, namely lay respectively at the length sum of four touch-control sub-electrodes 321 on first direction A that the 1st row the 1st arranges, the 2nd row the 2nd arranges, the 3rd row the 1st arranges and the 4th row the 2nd arranges, equal the length of first touch control electrode 33 on first direction A.Similarly, lay respectively at the length sum of four touch-control sub-electrodes 321 on first direction A that the 1st row the 2nd arranges, the 2nd row the 1st arranges and the 3rd row the 2nd arranges and the 4th row the 1st arranges, also equal the length of first touch control electrode 33 on first direction A.

In some optional implementations of the present embodiment, above-mentioned plain conductor 34 can be positioned at different layers.In first area 32, the line position of walking of plain conductor 34 there occurs staggered, and therefore plain conductor 34 in this region can be positioned at different layers, as being positioned on two different layers.

With further reference to Fig. 5, it illustrates a part section structural representation of array base palte in Fig. 4.Particularly, Fig. 5 is the cut-open view of the array base palte 30 in Fig. 4 along M1-M2 line.As can be seen from Figure 4, along comprising two touch-control sub-electrode 321a and 321b in the cut-open view of M1-M2 line, and the sectional structure of plain conductor 34a and 34b of touch-control sub-electrode 321a and 321b is connected respectively.As shown in Figure 5, touch-control sub-electrode 321a and 321b can be disposed with the first insulation course 35, second insulation course 36, the 3rd insulation course 37 and the 4th insulation course 38.Plain conductor 34a can be arranged in the second insulation course 36, and is electrically connected with touch-control sub-electrode 321a by ITO layer 391.Plain conductor 34b can be arranged in the 3rd insulation course 37, and is electrically connected with touch-control sub-electrode 321b by ITO layer 392.Further, ITO layer 391 and ITO layer 392 are mutually insulateds.Like this, even if staggered case as shown in Figure 3 appears in the wiring of plain conductor 34a and 34b, the transmission of touching signals can not also be affected.

The array base palte that the present embodiment provides, undertaken alternately connecting by adjacent touch control electrode being divided into multiple touch-control sub-electrode, avoid edge touch control electrode cabling and sweep circuit mutually by too near, thus reduce the interference of sweep circuit to touching signals, improve the homogeneity of touch control detection signal on whole substrate.And can be connected by plain conductor between multiple touch-control sub-electrode, compared with the pure touch control electrode formed by ITO, its resistance value is less, therefore, it is possible to reduce the decay of touching signals.

With further reference to Fig. 6, it illustrates the structural representation of another embodiment of the application's array base palte.

As shown in Figure 6, the array base palte 40 of the present embodiment comprises: the first electrode layer 41.

First electrode layer 41 can comprise the first touch control electrode 43 that two first areas 42 and six extend along first direction A, and two first areas 42 lay respectively at the edge, two, left and right of array base palte 40.In two first areas 42, comprise eight touch-control sub-electrodes 421 in 4 row 2 column distributions respectively.Concatenate rule between touch-control sub-electrode 421, the embodiment provided with Fig. 3 is similar, repeats no more here.

With Fig. 4 unlike, the plain conductor 44 in the present embodiment can be positioned at same layer.In the first area 42 of the present embodiment, by adjustment plain conductor 44 walk line position, plain conductor 44 can not be interlocked.Like this, all plain conductors 44 just can be positioned on same layer.

With further reference to Fig. 7, it illustrates a part section structural representation of array base palte in Fig. 6.Particularly, Fig. 7 is the cut-open view of the array base palte 40 in Fig. 6 along M1-M2 line.As can be seen from Figure 6, along comprising two touch-control sub-electrode 421a and 421b in the cut-open view of M1-M2 line, and the sectional structure of plain conductor 44a and 44b of touch-control sub-electrode 421a and 421b is connected respectively.As shown in Figure 7, touch-control sub-electrode 421a and 421b is disposed with the first insulation course 45 and the second insulation course 46, and plain conductor 44a and 44b all can be arranged in the second insulation course 46.Plain conductor 44a is electrically connected with touch-control sub-electrode 421a by ITO layer 471, and plain conductor 44b is electrically connected with touch-control sub-electrode 421b by ITO layer 472.Further, ITO layer 471 and ITO layer 472 are mutually insulateds.

Compared with the embodiment shown in Fig. 4, the plain conductor in the array base palte that the present embodiment provides can be positioned at same layer, thus can simplify the production process of array base palte, and reduces the thickness of array base palte.

With further reference to Fig. 8, it illustrates the structural representation of an embodiment of the application's touch-control display panel.

As shown in Figure 8, the touch-control display panel 70 of the present embodiment comprises the array base palte that above-mentioned any embodiment provides, and the color membrane substrates be oppositely arranged with array base palte.

Particularly, for the array base palte provided in Fig. 3, the structure of touch-control display panel 70 in the present embodiment is described.First electrode layer 71 of the array base palte of the present embodiment can comprise two first areas 72 and five the first touch control electrode 73 extended along first direction A, and two first areas 72 lay respectively at the edge, two, left and right of array base palte.In the first area 72 being arranged in array base palte left side edge, comprise nine touch-control sub-electrodes 721 in 3 row 3 column distributions, and in the first area 72 being arranged in array base palte right side edge, four touch-control sub-electrodes 721 in 2 row 2 column distributions can be comprised.

In the present embodiment, color membrane substrates is provided with the second electrode lay, comprise multiple the second touch control electrode 74 extended along second direction B, wherein, second direction B and first direction A is orthogonal.Alternatively, the first electrode layer 71 can also be multiplexed with public electrode.

In the touch-control stage of touch-control display panel 70, the first touch control electrode 73 can by as drive electrode, and the second touch control electrode 74 can by as induction electrode.In the present embodiment, by the mutual tolerance signal value between detection first touch control electrode 73 and the second corresponding touch control electrode 74, touch location can be determined.Particularly, in multiple first touch control electrode 73, pumping signal can be applied successively, such as pulse signal.Meanwhile, touch-control sensing signal can be received by the second touch control electrode 74, the mutual tolerance signal namely between each second touch control electrode 74 and the first corresponding touch control electrode 73.When pointing close to touch-control display panel 70, the local electric capacity at finger place can be caused to reduce.According to the change location of the capacitance of whole touch-control display panel 70, just can obtain touch point coordinate, the position of touch namely pointed.

The embodiment of the present application can also provide a kind of display device, and this display device comprises the touch-control display panel provided in Fig. 8.

More than describe and be only the preferred embodiment of the application and the explanation to institute's application technology principle.Those skilled in the art are to be understood that, invention scope involved in the application, be not limited to the technical scheme of the particular combination of above-mentioned technical characteristic, also should be encompassed in when not departing from described inventive concept, other technical scheme of being carried out combination in any by above-mentioned technical characteristic or its equivalent feature and being formed simultaneously.The technical characteristic that such as, disclosed in above-mentioned feature and the application (but being not limited to) has similar functions is replaced mutually and the technical scheme formed.

Claims (8)

1. an array base palte, is characterized in that, comprising: the first electrode layer;

Described first electrode layer comprises the first touch control electrode that at least one first area and many extend along first direction, and described first area comprises multiple touch-control sub-electrodes of the capable N column distribution in M, described M, N be more than or equal to 2 integer;

At least two touch-control sub-electrode mutually insulateds in the described touch-control sub-electrode of same row;

Be positioned at touch-control sub-electrode described in the 1st row and capable each of M to be electrically connected with a described touch-control sub-electrode, be positioned at n-th line each described in touch-control sub-electrode be electrically connected with two described touch-control sub-electrodes, the multiple described touch-control sub-electrode be electrically connected to each other lays respectively at different rows, and n is the integer being greater than 1 and being less than M.

2. array base palte according to claim 1, is characterized in that, described first area is positioned at the edge of described array base palte.

3. array base palte according to claim 1, is characterized in that,

Described electrical connection is realized by plain conductor;

The multiple described touch-control sub-electrode length sum be in said first direction electrically connected to each other by same described plain conductor equals described first touch control electrode length in said first direction.

4. array base palte according to claim 3, is characterized in that, described plain conductor is positioned at same layer.

5. array base palte according to claim 3, is characterized in that, described plain conductor is positioned at different layers.

6. a touch-control display panel, is characterized in that, comprises the array base palte as described in any one of claim 1 to 5, and the color membrane substrates be oppositely arranged with described array base palte;

Described color membrane substrates is provided with the second electrode lay, comprise multiple along second direction extend the second touch control electrode, described second direction and described first direction orthogonal.

7. touch-control display panel according to claim 6, is characterized in that, described first electrode layer is multiplexed with public electrode.

8. a display device, is characterized in that, comprises touch-control display panel as claimed in claims 6 or 7.