CN205193762U - Integrated touch -control display panel and touch -control display device - Google Patents

Abstract

The utility model provides an integrated touch -control display panel, a serial communication port, include: the base plate, the setting is in many data lines on the base plate, many the data line provides the demonstration signal for display pixel, many the data line is arranged along the first direction in proper order, and follow the second orientation and extend, the first direction with the 2nd direction is crossing, a plurality of banding touch -control electrodes are followed the first direction is arranged in proper order, follows the second direction is extended, perpendicularly in the base plate direction, at least one the touch -control electrode overlaps with N strip data line, and N is the natural number, in the touch -control stage, the strip scalar sum that the display driver voltage that corresponds in the N strip data line be positive polarity is equal for the branch number of negative polarity. The embodiment of the utility model provides a thereby integrated touch -control display panel can reduce the touch -control noise effectively and improve the touch -control precision.

Description

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

Technical field

The utility model relates to display technique field, especially relates to a kind of display panel of integrated embedded touch control structure.

Background technology

Along with the development of modern electronic technology, corresponding structure can be set in the display panel of display device to realize corresponding function, such as, realize touch controllable function etc. by arranging touch-control structure, to bring the facility in application to user.

At present, in order to reduce the thickness of display panel and realize touch controllable function, usually touch-control structure is integrated in display panel, when using capacitance type touch-control structure, can by the touch control electrode in capacitance type touch-control structure directly and display structure make on the same substrate, the problem that this setup is brought is, display panel at work, all complexity can be inputted and the electric signal of constantly change in display structure and touch-control structure, can influence each other between these electric signal, thus affect touch-control performance or the display performance of the display panel of integrated touch-control structure.

Utility model content

In view of this, the utility model provides a kind of integrated touch-control display panel and touch control display device.

First aspect of the present utility model provides a kind of integrated touch-control display panel, comprising:

Substrate;

Arrange a plurality of data lines on the substrate, described a plurality of data lines provides display for display pixel, and described a plurality of data lines is arranged successively along first direction, and extend along second direction, described first direction is crossing with described second direction;

The touch control electrode of multiple strip, arranges successively along described first direction, extends along described second direction;

On vertical described orientation substrate, touch control electrode described at least one and N bar data line overlap, N is natural number, in the touch-control stage, display driver voltage corresponding in described N bar data line be positive polarity number and for the number of negative polarity equal.

Second aspect of the present utility model provides a kind of touch control display device, comprises above-mentioned integrated touch-control display panel.

The integrated touch-control display panel that the utility model provides, in the touch-control stage, in the data line that touch control electrode covers, the number of display driver voltage to be the number of positive polarity and display driver voltage be negative polarity is equal, display driver voltage is that the data line of positive polarity can be offset the impact of touch control electrode to a certain extent on the data line that the impact of touch control electrode and display driver voltage are negative polarity, display driver voltage to greatest extent on reduction data line is on the impact of touching signals in touch control electrode, therefore, can effectively reduce touch-control noise thus improve touch accuracy.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of a kind of integrated touch control display apparatus of the present utility model;

The schematic top plan view of the integrated touch-control display panel that Fig. 2 provides for the utility model;

Fig. 3 is a kind of local schematic top plan view of integrated touch-control display panel of the present utility model;

Fig. 4 is the another kind of local schematic top plan view of integrated touch-control display panel of the present utility model;

Fig. 5 is the schematic top plan view of the touch control electrode of integrated touch-control display panel of the present utility model;

Fig. 6 is the schematic diagram of the mutual capacitance type touch control structure of the utility model embodiment;

Fig. 7 is a kind of schematic cross-section in CD direction in Fig. 6;

Fig. 8 is the another kind of schematic cross-section in CD direction in Fig. 6;

Fig. 9 is another local schematic top plan view of integrated touch-control display panel of the present utility model.

Embodiment

In order to explain technology contents of the present utility model in more detail; illustrate as follows appended by also coordinating especially exemplified by specific embodiment; but the following drawings and embodiment are not to restriction of the present utility model; have in any art and usually know the knowledgeable; not departing from spirit and scope of the present utility model; when doing a little change and retouching, therefore protection domain of the present utility model is when being as the criterion depending on those as defined in claim.

Fig. 1 is the schematic diagram of a kind of integrated touch control display apparatus of the present utility model, as shown in Figure 1, embodiment of the present utility model provides a kind of integrated touch control display apparatus, this integrated touch control display apparatus 10 comprises integrated touch-control display panel 100, can also comprise for supporting the miscellaneous part that integrated touch control display apparatus 10 normally works, integrated touch control display apparatus 10 can be mobile phone, desktop computer, notebook, panel computer, electron album etc., wherein integrated touch-control display panel 100 touch-control structure and display structure is made to realize showing with touch-control two functions on the same substrate integrated, in this case, decrease the number of substrates of integrated touch-control display panel, the thickness of integrated touch-control display panel can be reduced significantly, thus make integrated touch control display apparatus have easily while touch controllable function, thinner size can also be obtained, use lighter, certainly, for integrated touch-control display panel 100, touch-control structure and display structure are made and will inevitably bring more problems on the same substrate, the utility model provides integrated touch control display apparatus, for integrated touch-control display panel 100 wherein, do improvement on the basis of existing technology, improve the reliability of integrated touch-control display panel 100, specific descriptions for integrated touch-control display panel are as follows.

The integrated touch-control display panel that the utility model provides comprises: substrate; Be arranged on a plurality of data lines on substrate, a plurality of data lines provides display driver voltage for display pixel, and a plurality of data lines is arranged successively along first direction, extends along second direction; The touch control electrode of multiple strip, arranges successively along first direction, extends along second direction; On vertical substrate direction, at least one touch control electrode and N bar data line overlap, N is natural number, in the touch-control stage, display driver voltage corresponding in N bar data line be positive polarity number and for the number of negative polarity equal.Specifically can the schematic top plan view of integrated touch-control display panel that provides for the utility model of reference diagram 2, Fig. 2, as shown in Figure 2, integrated touch-control display panel 100 comprises: substrate 200, be arranged on a plurality of data lines DL on substrate 200, a plurality of data lines DL provides display for display pixel PL, and a plurality of data lines DL arranges successively along first direction D1, extends along second direction D2, the touch control electrode TPE of multiple strip, arranges successively along first direction D1, extends along second direction D2, on vertical substrate direction, at least one touch control electrode TPE is overlapping with N bar data line DL, N is natural number, such as, on vertical substrate direction, touch control electrode TPE1 is overlapping with 4 data line DL, in the touch-control stage, in 4 data lines that touch control electrode TPE1 covers, the number of display driver voltage to be the number of positive polarity and display driver voltage be negative polarity is equal, 2 can be, certain Fig. 2 is only schematic, be not limited to the situation that touch control electrode covers 4 data lines, only in the data line that covers of demand fulfillment touch control electrode, the number of display driver voltage to be the number of positive polarity and display driver voltage be negative polarity is equal.Due to the coupling between data line and touch control electrode, display driver voltage on data line can disturb the signal in touch control electrode: if touch control electrode is touch-control drive electrode, the touch-control stage, touch-control drive electrode can apply touch-control drive singal, touch-control drive singal is generally pulse signal, display driver voltage on data line can affect touch-control drive singal, makes touch-control drive singal unstable; If touch control electrode is touch detection electrodes, the touch-control stage, touch detection electrodes can export touch control detection signal, touch control detection signal is also pulse signal usually, display driver voltage on data line can affect touch control detection signal, make touch control detection signal can not react touch-control situation exactly, finally, the impact of the display driver voltage on data line on touch-control drive singal and touch control detection signal all can cause the accuracy of touch-control result to decline.The integrated touch-control display panel that the utility model embodiment provides, in the touch-control stage, in the data line that touch control electrode covers, the number of display driver voltage to be the number of positive polarity and display driver voltage be negative polarity is equal, display driver voltage is that the data line of positive polarity can be offset the impact of touch control electrode to a certain extent on the data line that the impact of touch control electrode and display driver voltage are negative polarity, display driver voltage to greatest extent on reduction data line is on the impact of touching signals in touch control electrode, therefore, can effectively reduce touch-control noise thus improve touch accuracy.

The driving of liquid crystal display must have the reversal of poles of array of display pixels to remain to avoid the direct current of liquid crystal, the mode of common array of display pixels reversal of poles has frame to reverse, row reversion, row reversion and some reversion, extendability ground, also have 2 reversions, two row reversions, two row reversion isoinversion forms, for a reversion or row reversion, at synchronization, the polarity of the display driver voltage on pieces of data line is not identical, and, positive polarity and negative polarity will be spaced, the display driver mode of this reversal of poles is applied in integrated touch-control display panel, in the data line that touch control electrode is covered, the number of display driver voltage to be the number of positive polarity and display driver voltage be negative polarity is equal, just the effect of the touch accuracy improving integrated touch-control display panel can be reached.

The touch control electrode of the integrated touch-control display panel that the utility model provides is the touch control electrode of multiple strip, and multiple strip touch control electrode is arranged successively, therefore, between multiple touch control electrode, there is gap, alternatively, on the direction of vertical substrate, gap between adjacent touch control electrode and data line are not overlapping, specifically can reference diagram 3, Fig. 3 is a kind of local schematic top plan view of integrated touch-control display panel of the present utility model, as shown in Figure 3, there is between adjacent touch control electrode TPE gap 101, on the direction of vertical substrate, gap 101 is not overlapping with data line DL, under this embodiment, on the direction of vertical substrate, touch control electrode is basic completely overlapping with data line, therefore, each data line is equivalent to the interference effect of touch control electrode substantially, display driver voltage is that the data line of positive polarity can be offset the impact of touch control electrode substantially completely on the data line that the impact of touch control electrode and display driver voltage are negative polarity, thus the touch accuracy of integrated touch-control display panel can be improved to greatest extent.

In another embodiment, on the direction of vertical substrate, the gap between adjacent touch control electrode is overlapping with data line, and in the touch-control stage, the polarity of the display driver voltage corresponding with two data lines of the gap overlap of touch control electrode both sides is contrary.Concrete reference diagram 4, Fig. 4 is the another kind of local schematic top plan view of integrated touch-control display panel of the present utility model, as shown in Figure 4, there is between adjacent touch control electrode gap 101, on the direction of vertical substrate, gap 101 between adjacent touch control electrode TPE is overlapping with data line DL, the situation that data line DL is completely overlapping with gap 101 has been shown in Fig. 4, certainly, data line and gap also can partly overlap, in the touch-control stage, the polarity of the display driver voltage corresponding with two data line DL of gap 101 overlap of touch control electrode TPE both sides is contrary, particularly, as shown in Figure 4, two the data line DLs overlapping with the gap 1011 and 1012 of touch control electrode TPE2 both sides are respectively DL1 and DL2, in the touch-control stage, the polarity of the display driver voltage that data line DL1 and data line DL2 is corresponding is contrary, in addition, data line DL3, DL4, DL5 and DL6 thinks the data line DL overlapping with touch control electrode TPE, and overlapping with gap 101 or partly overlapping data line DL is not counted in the data line DL overlapping with touch control electrode TPE, therefore, in the touch-control stage, data line DL3, DL4, in DL5 and DL6, the number of display driver voltage to be the number of positive polarity and display driver voltage be negative polarity is equal.Equivalence is tending towards in the influence of data line to touch control electrode of gap location, a touch control electrode can be subject to the impact of two data lines of its ground, both sides gap location, when the display driver polarity of voltage on these two data lines is contrary, wherein display driver voltage is that the data line of positive polarity can be offset the impact of touch control electrode substantially completely on the data line that the impact of touch control electrode and another display driver voltage are negative polarity, thus can improve the touch accuracy of integrated touch-control display panel to greatest extent.

Alternatively, touch control electrode can have gap, N bar data line corresponding to touch control electrode comprises M bar data line, on the direction of vertical substrate, gap and M bar data line overlap, in the touch-control stage, display driver voltage corresponding in M bar data line be positive polarity number and for the number of negative polarity equal, wherein, M is natural number, and M≤N.Specifically can reference diagram 5, Fig. 5 is the schematic top plan view of the touch control electrode of integrated touch-control display panel of the present utility model, as shown in Figure 5, on the direction of vertical substrate, a touch control electrode TPE is overlapping with 8 data line DL, i.e. touch control electrode TPE corresponding 8 data lines DL11, DL12, DL13, DL14, DL15, DL16, DL17 and DL18, in the touch-control stage, in these 8 data lines DL11, DL12, DL13, DL14, DL15, DL16, DL17 corresponding display driver voltage be positive polarity number and for the number of negative polarity equal.Touch control electrode TPE has multiple gap 102, gap 102 is overlapping with 4 data line DL, article 4, data line is respectively DL11, DL13, DL14, DL16, in the touch-control stage, in these 4 data lines DL11, DL13, DL14, DL16 corresponding display driver voltage be positive polarity number and for the number of negative polarity equal.Position corresponding with data line in touch control electrode arranges gap can reduce the impact of data line on touch control electrode, therefore, be that the data line of positive polarity is offset effectively on the impact of data line on touch control electrode that the impact of touch control electrode can be negative polarity with display driver voltage in order to make display driver voltage, need to consider whether position corresponding with data line in touch control electrode is provided with gap respectively, display driver voltage corresponding in the data line corresponding with gap be positive polarity number and for the number of negative polarity equal, the touch accuracy of integrated touch-control display panel can be improved to greatest extent.

Alternatively, integrated touch-control display panel can also comprise common electrode layer, and common electrode layer can comprise multiple strip sub-electrode insulated from each other, and strip sub-electrode is arranged successively along first direction, and extend along second direction, strip sub-electrode is multiplexed with touch control electrode.Particularly, continue with reference to figure 2, integrated touch-control display panel 100 comprises multiple display pixel PL, each display pixel PL comprises a pixel electrode, a public electrode and a thin film transistor (TFT), pixel electrode is electrically connected to the drain electrode of thin film transistor (TFT), the source electrode of thin film transistor (TFT) is electrically connected to data line DL, the grid of thin film transistor (TFT) is connected to sweep trace SL, the sweep signal that sweep trace SL can be produced by input scan drive circuit 500 controls the turn-on and turn-off of thin film transistor (TFT), thus whether sweep trace SL can be input in display pixel by the display driver voltage on control data line DL, pixel electrode receives display, public electrode receives common signal, pixel electrode in display pixel and the electric field formed between public electrode, the deflection of liquid crystal can be controlled, thus realize display.Usually, the public electrode in each display pixel can receive identical common signal, therefore, the public electrode in the display pixel of whole display panel can be joined together to form an entirety in prior art.The integrated touch-control display panel that the utility model embodiment provides comprises common electrode layer, and common electrode layer comprises multiple strip sub-electrode insulated from each other, strip sub-electrode can by obtaining the segmentation of common electrode layer, a strip sub-electrode is used as the public electrode of multiple display pixel, meanwhile, strip sub-electrode can also be multiplexed with touch control electrode.When strip sub-electrode is multiplexed with touch control electrode, the duty of integrated touch-control display panel comprises display working condition and touch-control duty, display working condition and touch-control duty can adopt time-sharing work pattern, the display stage is display working condition, the touch-control stage is touch-control duty, display the stage and the touch-control stage separate.Particularly, for integrated touch-control display panel, display working condition is its normality.In the display stage, strip sub-electrode is applied in common signal or is grounded; In the touch-control stage, stop display working condition, strip sub-electrode receives or generates touching signals.The touch control electrode that is multiplexed with strip sub-electrode can reduce the processing procedure operation of integrated touch-control display panel; save manufacturing time and manufacturing cost; and during owing to arranging separately touch control electrode in integrated touch-control display panel; also need auxiliarily to arrange insulation course not disturbed by other elements to protect touch control electrode; therefore; the touch control electrode that is multiplexed with strip sub-electrode can also reduce the Rotating fields in integrated touch-control display panel, thus reduces the thickness of integrated touch-control display panel.

The touch controllable function of integrated touch-control display panel can be realized by mutual capacitance type touch control, continue with reference to figure 2, common electrode layer comprises multiple strip sub-electrode TPE, strip sub-electrode TPE is multiplexed with touch control electrode TPE, therefore, strip sub-electrode TPE and touch control electrode TPE is in fact same electrode, and strip sub-electrode TPE arranges successively along first direction D1, extends along second direction D2.And as can be seen from the figure, strip sub-electrode TPE is corresponding multiple display pixel PL, therefore, a strip sub-electrode TPE is used as the public electrode of multiple display pixel PL.Strip sub-electrode TPE can as in the touch-control drive electrode of mutual capacitance type touch control and touch detection electrodes.In mutual capacitance type touch control, to the touch-control drive singal of touch-control drive electrode input pulse formula, electric capacity is formed between touch-control drive electrode and touch detection electrodes, when there is touch-control in integrated touch-control display panel, the coupling between touch-control drive electrode and touch detection electrodes near touch point can be affected, thus change the electric capacity between touch-control drive electrode and touch detection electrodes.The method of detected touch point position is, touch-control drive singal is inputted successively to touch-control drive electrode, touch detection electrodes exports touch control detection signal simultaneously, the capacitance size of all touch-control drive electrodes and touch detection electrodes joint can be obtained like this, the i.e. capacitance size of the two dimensional surface of whole integrated touch-control display panel, according to integrated touch-control display panel two dimension capacitance change data, the coordinate of touch point can be calculated.

Alternatively, strip sub-electrode is multiplexed with touch-control drive electrode, integrated touch-control display panel also comprises the counter substrate be oppositely arranged with substrate, and is arranged on the touch detection electrodes in counter substrate, and data line and common electrode layer are all arranged on the side of real estate to counter substrate.Concrete reference diagram 6, Fig. 6 is the schematic diagram of the mutual capacitance type touch control structure of the utility model embodiment, and strip sub-electrode TPE can as touch-control drive electrode, in the touch-control stage, for strip sub-electrode TPE provides touch-control drive singal.Correspondingly, integrated touch-control display panel also comprises touch detection electrodes, alternatively, continue with reference to figure 6, touch detection electrodes comprises multiple strip touch detection electrodes TPE3 be arranged in order, strip touch detection electrodes TPE3 extends along first party D1, the bearing of trend of strip touch detection electrodes TPE3 is crossing with the bearing of trend of touch-control drive electrode TPE and strip sub-electrode TPE, multiple strip touch detection electrodes TPE3 laid out in parallel, strip touch detection electrodes TPE3 is used for providing touch control detection signal, namely strip touch detection electrodes TPE3 can as touch detection electrodes.Further, the relative position of strip sub-electrode TPE and strip touch detection electrodes TPE3 also has following two kinds of optional manner.Fig. 7 is a kind of schematic cross-section in CD direction in Fig. 6, as shown in Figure 7, strip sub-electrode TPE is arranged on substrate 200, integrated touch-control display panel also comprises the counter substrate 900 be oppositely arranged with substrate 200, strip touch detection electrodes TPE3 is arranged in counter substrate 900, data line and common electrode layer are all arranged on the side of substrate 200 in the face of counter substrate 900, strip touch detection electrodes TPE3 is arranged on the side of counter substrate 900 in the face of substrate 200, is filled with liquid crystal between substrate 200 and counter substrate 900.Fig. 8 is the another kind of schematic cross-section in CD direction in Fig. 6, as shown in Figure 8, strip sub-electrode TPE is arranged on substrate 200, integrated touch-control display panel also comprises the counter substrate 900 be oppositely arranged with substrate 200, strip touch detection electrodes TPE3 is arranged in counter substrate 900, with the mode shown in Fig. 7 unlike, strip touch detection electrodes TPE3 is arranged on the side of counter substrate 900 away from substrate 200.In above Alternate embodiments, strip touch detection electrodes is all arranged on strip sub-electrode and the touch-control drive electrode side away from substrate, due to usual when there is counter substrate, counter substrate is touch control operation side away from the side of substrate, therefore, strip touch detection electrodes is arranged on strip sub-electrode and the touch-control drive electrode side away from substrate, strip touch detection electrodes can be made more near touch operation surface, make the impact of touch control operation on strip touch detection electrodes stronger, thus strip touch detection electrodes will produce touching signals more accurately, make touch control operation result more accurate.Preferably, strip touch detection electrodes is arranged on the side of counter substrate away from substrate, and touch control operation result is relatively more accurate.

Except in the touch-control stage, display driver voltage corresponding in the N bar data line that touch control electrode is corresponding be positive polarity number and for the number of negative polarity equal, further, can in the display stage, display driver voltage corresponding in the N bar data line that this touch control electrode is corresponding be positive polarity number and for the number of negative polarity equal.Because the coupling between data line and touch control electrode is mutual, data line affects touch control electrode and causes the current potential in touch control electrode to change, this change also can affect data line conversely, therefore, in the display stage, display driver voltage corresponding in the N bar data line that touch control electrode is corresponding be positive polarity number and for the number of negative polarity equal, display driver voltage is that the data line of positive polarity can be cancelled out each other on the impact of touch control electrode on the data line that the impact of touch control electrode and display driver voltage are negative polarity, the current potential of touch control electrode is made to keep stable, thus touch control electrode can not cause disturbance to the display driver voltage signal on data line, make display effect more stable.

Especially, when showing some pure color pictures, such as, when showing pure red picture, even if when the polarity of display driver voltage is identical, the gap of the display driver voltage of the display driver voltage of red display pixel and blue display pixels or green display pixels is larger, therefore, the display driver voltage of the positive-negative polarity of the display pixel of same color is on the better effects if of cancelling out each other of the impact of touch control electrode, therefore, alternatively, in the touch-control stage or in the display stage, in the N bar data line that touch control electrode is corresponding, display driver voltage is for positive polarity and provide the number of the data line of display and display driver voltage for negative polarity for red/green display pixel and provide the number of the data line of display equal for red/green display pixel.Specifically can reference diagram 9, Fig. 9 is another local schematic top plan view of integrated touch-control display panel of the present utility model, as shown in Figure 9, corresponding 6 the data line DL of touch control electrode TPE, in the touch-control stage or in the display stage, in these 6 touch-control lines, the number of display driver voltage to be number and the display driver voltage of the data line of positive polarity the be data line of negative polarity is equal, is namely 3.Further, such as the touch control electrode TPE in left side in Fig. 9, its corresponding 6 data line DL, in the touch-control stage or in the display stage, 2 are had to provide the data line DLR of display for red display pixel in these 6 data lines, 2 are had to provide the data line DLG of display for green display pixels, 2 are had to provide the data line DLB of display for blue display pixels, article 2, the polarity of the display driver voltage of data line DLR is contrary, article 2, the polarity of the display driver voltage of data line DLG is contrary, article 2, the polarity of the display driver voltage of data line DLB is contrary, display driver voltage is for positive polarity and provide the number of the data line of display and display driver voltage for negative polarity for red/green display pixel and provide the number of the data line of display equal for red/green display pixel, the integrated touch-control display panel that the utility model is provided more effectively can improve touch accuracy or more stable display effect.

Note, above are only preferred embodiment of the present utility model and institute's application technology principle.Skilled person in the art will appreciate that the utility model is not limited to specific embodiment described here, various obvious change can be carried out for a person skilled in the art, readjust and substitute and protection domain of the present utility model can not be departed from.Therefore, although be described in further detail the utility model by above embodiment, but the utility model is not limited only to above embodiment, when not departing from the utility model design, can also comprise other Equivalent embodiments more, and scope of the present utility model is determined by appended right.

Claims (11)

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

Substrate;

Arrange a plurality of data lines on the substrate, described a plurality of data lines provides display for display pixel, and described a plurality of data lines is arranged successively along first direction, and extend along second direction, described first direction is crossing with described second direction;

The touch control electrode of multiple strip, arranges successively along described first direction, extends along described second direction;

On vertical described orientation substrate, touch control electrode described at least one and N bar data line overlap, N is natural number, in the touch-control stage, display driver voltage corresponding in described N bar data line be positive polarity number and for the number of negative polarity equal.

2. integrated touch-control display panel as claimed in claim 1, is characterized in that, on the direction of vertical described substrate, the gap between adjacent described touch control electrode is not overlapping with described data line.

3. integrated touch-control display panel as claimed in claim 1, it is characterized in that, on the direction of vertical described substrate, gap between adjacent described touch control electrode is overlapping with described data line, in the described touch-control stage, the polarity of the display driver voltage corresponding with two described data lines of the described gap overlap of described touch control electrode both sides is contrary.

4. integrated touch-control display panel as claimed in claim 1, it is characterized in that, described N bar data line corresponding to described touch control electrode comprises data line described in M bar, and on the direction of vertical described substrate, described touch control electrode has gap, described gap and described M bar data line overlap, in the described touch-control stage, display driver voltage corresponding in described M bar data line be positive polarity number and for the number of negative polarity equal, wherein, M is natural number, and M≤N.

5. integrated touch-control display panel as claimed in claim 1, it is characterized in that, described integrated touch-control display panel comprises common electrode layer, described common electrode layer comprises multiple strip sub-electrode insulated from each other, described strip sub-electrode is arranged successively along described first direction, extend along described second direction, described strip sub-electrode is multiplexed with described touch control electrode.

6. integrated touch-control display panel as claimed in claim 5, it is characterized in that, described strip sub-electrode is multiplexed with touch-control drive electrode, described integrated touch-control display panel also comprises the counter substrate be oppositely arranged with described substrate, and the touch detection electrodes be arranged in described counter substrate, described data line and described common electrode layer are all arranged on the side of described real estate to described counter substrate.

7. integrated touch-control display panel as claimed in claim 6, it is characterized in that, described touch detection electrodes comprises multiple strip touch detection electrodes be arranged in order, and the bearing of trend of described strip touch detection electrodes is crossing with the bearing of trend of described touch-control drive electrode.

8. integrated touch-control display panel as claimed in claim 5, is characterized in that, in the display stage, display driver voltage corresponding in described N bar data line be positive polarity number and for the number of negative polarity equal.

9. integrated touch-control display panel as claimed in claim 1, it is characterized in that, in the touch-control stage, in described N bar data line, described display driver voltage is for positive polarity and provide the number of the data line of display and described display driver voltage for negative polarity for red/green display pixel and provide the number of the data line of display equal for red/green display pixel.

10. integrated touch-control display panel as claimed in claim 8, it is characterized in that, in the display stage, in described N bar data line, described display driver voltage is for positive polarity and provide the number of the data line of display and described display driver voltage for negative polarity for red/green display pixel and provide the number of the data line of display equal for red/green display pixel.

11. 1 kinds of touch control display device, is characterized in that, described touch control display device comprise as arbitrary in claim 1-10 as described in integrated touch-control display panel.