CN106293242A - A kind of touch-control display panel and display device - Google Patents

Abstract

The invention discloses a kind of touch-control display panel and display device, each touch-control sensing electrode block row corresponding region includes at least one touch-control emission electrode, and the sensor port difference that all touch-control sensing electrode blocks corresponding to all touch-control emission electrodes connecting same emission port connect, to ensure to can determine position of touch in the touch-control stage by touch-control sensing electrode block and corresponding touch-control emission electrode；Further, by optimizing touch-control sensing electrode block and the connected mode of sensor port, it is possible to make each emission port connect multiple touch-control emission electrodes, to reduce the quantity of emission port, and then improve the configuration problem of display device.

Description

A kind of touch-control display panel and display device

Technical field

The present invention relates to technical field of touch-control display, more specifically, relate to a kind of touch-control display panel and display dress Put.

Background technology

Existing touch control display apparatus is mostly capacitance touching control display device, and capacitance touching control structure mainly includes from electricity Hold touch-control structure and mutual capacitance touch-control structure.Existing mutual capacitance touch-control structure include multiple touch-control emission electrode and multiple touch Control induction electrode, multiple touch-control emission electrodes and the isolation of multiple touch-control sensing electrode different layer are arranged, touch-control emission electrode and touch-control Intersect between induction electrode setting, and touch-control emission electrode setting direction and touch-control sensing electrode setting direction can be the most vertical Straight setting.In existing mutual capacitance touch control display apparatus, each touch-control emission electrode each connects an emission port, to touch The control stage receives the detection signal from emission port.But the quantity of the emission port of existing touch control display apparatus is too much, Affect the configuration of touch control display apparatus.

Summary of the invention

In view of this, the invention provides a kind of touch-control display panel and display device, by optimizing touch-control sensing electrode Block and the connected mode of sensor port, it is possible to make each emission port connect multiple touch-control emission electrodes, to reduce emission port Quantity, and then improve the configuration problem of display device.

For achieving the above object, the technical scheme that the present invention provides is as follows:

A kind of touch-control display panel, including:

The touch-control sensing electrode block array arranged with column direction in the row direction, and multiple sensor port, each described sense Port is answered to be all connected with at least one described touch-control sensing electrode block；

And, along the touch-control emission electrode of multiple bar shapeds that described line direction is arranged, and multiple emission port, Mei Yisuo State emission port and connect touch-control emission electrode described at least two, and the described touch-control emission electrode that different emission port connects is not With；

Described touch-control sensing electrode block array includes the multiple touch-control sensing electrode blocks row arranged along described line direction, its In, each described touch-control sensing electrode block row corresponding region includes at least one described touch-control emission electrode, and connects same institute State the described sensor port that each described touch-control sensing electrode block corresponding to each described touch-control emission electrode of emission port connects Different.

Optionally, each described emission port connects two described touch-control emission electrodes.

Optionally, described sensor port connects multiple described touch-control sensing electrode blocks, and is and is positioned at described in same a line Touch-control sensing electrode block.

Optionally, it is positioned at all described touch-control sensing electrode block correspondences of same a line and connects two described sensor port, respectively It is the first sensor port and the second sensor port, and the described touch-control sensing electrode block that described first sensor port connects is with described The described touch-control sensing electrode block that second sensor port connects is arranged alternately.

Optionally, each described touch-control sensing electrode block row corresponding region includes a described touch-control emission electrode；

Wherein, adjacent two described touch-control emission electrodes connect same described emission port.

Optionally, described touch-control display panel also includes multiple connection electrode, and connects same described emission port and phase Connection electrode described in one it is provided with between two adjacent described touch-control emission electrodes；

Wherein, described connection electrode in the both sides of the edge of described line direction respectively with adjacent described touch-control emission electrode EDGE CONTACT connects.

Optionally, being positioned at all described touch-control sensing electrode blocks of same a line is that the first touch-control sensing electrode block is to the n-th touch-control Induction electrode block, and it is positioned at same a line all described touch-control sensing electrode block correspondences two described sensor port of connection, it is respectively First sensor port and the second sensor port, described first sensor port connects the first touch-control sensing electrode block to the i-th touch-control sense Answering electrode block, described second sensor port connection i+1 touch-control sensing electrode block is to the n-th touch-control sensing electrode block, and i is for being not more than The positive integer of n.

Optionally, each described touch-control sensing electrode block row corresponding region includes a described touch-control emission electrode；

Or, in adjacent two described touch-control sensing electrode blocks row, touch-control sensing electrode block row corresponding region described in includes One described touch-control emission electrode, and another described touch-control sensing electrode block row corresponding region includes that two described touch-controls launch electricity Pole.

Optionally, described first touch-control sensing electrode block to corresponding to the i-th touch-control sensing electrode block any one described touch Control emission electrode, sends out to any one described touch-control that the n-th touch-control sensing electrode block is corresponding with described i+1 touch-control sensing electrode block Radio pole connects same described emission port.

Optionally, described touch-control display panel includes array base palte and the first substrate being oppositely arranged；

And, the driving IC being arranged on described array base palte and the connection circuitry plate being connected with described first substrate；

Wherein, described array base palte includes described touch-control emission electrode, and described emission port is electrically connected to described driving IC；And, described first substrate includes described touch-control sensing electrode block, and described sensor port is integrated in described connection circuitry Plate.

Optionally, described array base palte includes common electrode layer, and wherein, described touch-control emission electrode is by described public electrode Layer is split to form.

Optionally, described array base palte includes a plurality of gate line and a plurality of data lines, wherein, setting of described a plurality of gate line Put direction identical with described column direction, and the setting direction of described a plurality of data lines is identical with described line direction.

Accordingly, present invention also offers a kind of display device, described display device includes above-mentioned touch-control display panel.

Compared to prior art, the technical scheme that the present invention provides at least has the advantage that

The invention provides a kind of touch-control display panel and display device, including: arrange with column direction in the row direction touches Control induction electrode block array, and multiple sensor port, each described sensor port is all connected with at least one described touch-control sensing Electrode block；And, along the touch-control emission electrode of multiple bar shapeds that described line direction is arranged, and multiple emission port, Mei Yisuo State emission port and connect touch-control emission electrode described at least two, and the described touch-control emission electrode that different emission port connects is not With；Described touch-control sensing electrode block array includes the multiple touch-control sensing electrode blocks row arranged along described line direction, wherein, each Described touch-control sensing electrode block row corresponding region includes at least one described touch-control emission electrode, and connects same described transmitting terminal The described sensor port that all described touch-control sensing electrode block corresponding to all described touch-control emission electrode of mouth connects is different.

As shown in the above, the technical scheme that the present invention provides, each touch-control sensing electrode block row corresponding region includes At least one touch-control emission electrode, and connect all touch-control sensings corresponding to all touch-control emission electrodes of same emission port The sensor port that electrode block connects is different, to ensure in the touch-control stage by touch-control sensing electrode block and corresponding touch-control emission electrode Can determine position of touch；Further, by optimizing touch-control sensing electrode block and the connected mode of sensor port, it is possible to make each Penetrating port and connect multiple touch-control emission electrodes, to reduce the quantity of emission port, and then the configuration improving display device is asked Topic.

Accompanying drawing explanation

In order to be illustrated more clearly that the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing In having technology to describe, the required accompanying drawing used is briefly described, it should be apparent that, the accompanying drawing in describing below is only this Inventive embodiment, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to according to The accompanying drawing provided obtains other accompanying drawing.

The structural representation of a kind of touch-control display panel that Fig. 1 provides for the embodiment of the present application；

The structural representation of a kind of touch-control sensing electrode block array that Fig. 2 a provides for the embodiment of the present application；

A kind of touch-control sensing electrode block array and the structure of touch-control emission electrode that Fig. 2 b provides for the embodiment of the present application are shown It is intended to；

The connection diagram of a kind of touch-control emission electrode that Fig. 3 provides for the embodiment of the present application；

The structural representation of the another kind of touch-control sensing electrode block array that Fig. 4 a provides for the embodiment of the present application；

Another kind of touch-control sensing electrode block array that Fig. 4 b provides for the embodiment of the present application and the structure of touch-control emission electrode Schematic diagram；

Another touch-control sensing electrode block array and structure of touch-control emission electrode that Fig. 4 c provides for the embodiment of the present application Schematic diagram；

The structural representation of the another kind of touch-control display panel that Fig. 5 provides for the embodiment of the present application；

The structural representation of a kind of display device that Fig. 6 provides for the embodiment of the present application.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete Describe, it is clear that described embodiment is only a part of embodiment of the present invention rather than whole embodiments wholely.Based on Embodiment in the present invention, it is every other that those of ordinary skill in the art are obtained under not making creative work premise Embodiment, broadly falls into the scope of protection of the invention.

As described in background, in existing mutual capacitance touch control display apparatus, each touch-control emission electrode each connects One emission port, to receive the detection signal from emission port in the touch-control stage.But existing touch control display apparatus The quantity of emission port is too much, affects the configuration of touch control display apparatus.

Existing touch control display apparatus includes array base palte, and touch-control emission electrode and emission port are generally individually formed at battle array In row substrate, and the sensor port being connected with touch-control sensing electrode is typically integrated in flexible circuit board as binding circuit. In existing touch control display apparatus, owing to the chip area of array base palte is limited, thus the quantity of emission port too much can be poised for battle The configuration of row substrate impacts.

Based on this, the embodiment of the present application provides a kind of touch-control display panel and display device, by optimizing touch-control sensing Electrode block and the connected mode of sensor port, it is possible to make each emission port connect multiple touch-control emission electrodes, to reduce transmitting The quantity of port, and then improve the configuration problem of display device.For achieving the above object, the skill that the embodiment of the present application provides Art scheme is as follows, specifically combines shown in Fig. 1 to Fig. 6, and the technical scheme providing the embodiment of the present application is described in detail.

With reference to shown in Fig. 1, for the structural representation of a kind of touch-control display panel that the embodiment of the present application provides, wherein, touch Control display floater includes:

The touch-control sensing electrode block array that X and column direction Y is arranged in the row direction, and multiple sensor port 20, Mei Yisuo State sensor port 20 and be all connected with at least one described touch-control sensing electrode block 10；

And, along the touch-control emission electrode 30 of multiple bar shapeds that described line direction X is arranged, and multiple emission port 40, Each described emission port 40 connects touch-control emission electrode 30 described at least two, and different the described of emission port 40 connection touches Control emission electrode 30 is different；

Described touch-control sensing electrode block array includes the multiple touch-control sensing electrode block row 101 arranged along described line direction X, Wherein, each described touch-control sensing electrode block row 101 corresponding region includes at least one described touch-control emission electrode 30, and connects All described touch-control sensing electrode block 10 corresponding to all described touch-control emission electrode 30 of same described emission port 40 is even The described sensor port 20 connect is different.

The embodiment of the present application provide touch-control display panel, each touch-control sensing electrode block row 101 corresponding region include to A few touch-control emission electrode 30, and connect all touch-controls corresponding to all touch-control emission electrodes 30 of same emission port 40 The sensor port 20 that induction electrode block 10 connects is different, to ensure and to touch accordingly by touch-control sensing electrode block 10 in the touch-control stage Control emission electrode 30 can determine position of touch.If multiple touch-control sensing electrode blocks 10 of touch-control emission electrode 30 correspondence all connect Connect same sensor port 20, then not can determine that it is that the position of which touch-control sensing electrode block 10 there occurs tactile in the touch-control stage Control situation；Thus, the multiple touch-control emission electrodes 30 connecting same emission port 40 that the embodiment of the present application provides, these touch-controls Touch-control sensing electrode block 10 corresponding to emission electrode 30 can not connect identical sensor port 20, to ensure sensor port 20 With the unique corresponding relation of touch-control emission electrode 30, and then ensure that touch-control emission electrode 30 and touch-control sensing electrode block 10 phase Join and to detect the correctness of position of touch.

Concrete, as a example by the touch-control display panel of one 10 cun, wherein, when the size of touch-control display panel is 10 cun, The quantity of every a line touch-control sensing electrode block can be preferably arranged to 20 to 80, including endpoint value, it is also possible to for more than 80 Individual quantity, specifically needs to refer to the requirements such as the size of touch-control display panel, touch accuracy, and this is not done concrete limit by the application System, needs to carry out specific design according to reality application.

It should be noted that the same emission port that the application provides can connect multiple touch-control emission electrode, wherein, often Emission port described in one can connect two described touch-control emission electrodes, or, each emission port connects three or more quantity Touch-control emission electrode, this application is not particularly limited, need according to reality apply in touch-control sensing electrode block and sensing The factor specific designs such as the concrete connection of port.

Additionally, in the touch-control display panel of the embodiment of the present application offer, the touch control detection signal of each emission port output Can be identical touch control detection signal, it is also possible to for different touch control detection signals, or, the output of part emission port is identical Touch control detection signal and the part emission port different touch control detection signal of output；And, what the embodiment of the present application provided touches In control display floater, all emission ports can export each self-corresponding touch control detection signal simultaneously, it is also possible to output is each one by one Self-corresponding touch control detection signal, or, part emission port exports each self-corresponding touch control detection signal simultaneously and part is sent out Penetrate port and export each self-corresponding touch control detection signal one by one, this embodiment of the present application is not particularly limited.The application implements Example by connecting the setting of same emission port by multiple touch-control emission electrodes, it is possible to effectively reduces power consumption, and effectively Shorten the touch control detection time, and then optimize the touch controllable function of touch-control display panel.

In the touch-control display panel that the application provides, sensor port can connect a touch-control sensing electrode block, but In view of power consumption and wiring problem, the application preferred touch-control sensing port connects multiple touch-control sensing electrode blocks.Wherein, sensing Port can connect multiple touch-control sensing electrode blocks of colleague, it is also possible to connects multiple touch-control sensing electrode blocks of different rows, right This application is not particularly limited.In view of the facility of wiring, the preferred sensor port of the embodiment of the present application connects multiple touch-controls During induction electrode block, multiple touch-control sensing electrode blocks that same sensor port connects are respectively positioned on same a line.It addition, position in the application The sensor port quantity connected in the touch-control sensing electrode block correspondence of same a line can be two, three or more, to this Application is not particularly limited equally.In view of the situation of power consumption during reality application, the embodiment of the present application is preferably located at same a line Touch-control sensing electrode block for connect sensor port quantity be two.

Below in conjunction with the accompanying drawings to the embodiment of the present application provide several concrete example be described, wherein, below retouched In the touch-control display panel stated, described sensor port connects multiple described touch-control sensing electrode blocks, and is and is positioned at same a line Described touch-control sensing electrode block.

With reference to shown in Fig. 2 a, for the structural representation of a kind of touch-control sensing electrode block array that the embodiment of the present application provides, Wherein, it is positioned at all described touch-control sensing electrode blocks 10 of same a line two described sensor port of corresponding connection, the respectively first sense Answer port 21 and the second sensor port 22, and the multiple described touch-control sensing electrode block 10 that connects of described first sensor port 21 with The multiple described touch-control sensing electrode block 10 that described second sensor port 22 connects is arranged alternately.

It should be noted that the application Fig. 2 a is to be positioned at all touch-control sensing electrode blocks of same a line with alternately connection first Illustrate as a example by sensor port and the second sensor port, in other embodiments of the application, be positioned at all of same a line and touch Control induction electrode block can also be connected with the first sensor port and the second sensor port by other means, adjacent the touching of part Control induction electrode block connects the first sensor port or the second sensor port and the adjacent touch-control sensing electrode block of part replaces respectively Connect the first sensor port and the second sensor port etc., this application is not particularly limited.

On the basis of touch-control sensing electrode block array shown in Fig. 2 a, shown in ginseng Fig. 2 b, provide for the embodiment of the present application A kind of touch-control sensing electrode block array and the structural representation of touch-control emission electrode, each described touch-control sensing electrode block row 101 Corresponding region includes a described touch-control emission electrode 30；

Wherein, adjacent two described touch-control emission electrodes 30 connect same described emission port 40.

It should be noted that with the corresponding region that each touch-control sensing electrode block arranges, the application Fig. 2 b includes that a touch-control is sent out Radio extremely example illustrates, and in other embodiments of the application, touch-control sensing electrode block row corresponding region can also include Multiple touch-control emission electrodes, are not particularly limited this application, as long as all touch-controls meeting the same emission port of connection are sent out The sensor port difference that the extremely corresponding touch-control sensing electrode block of radio is connected.

Further, with reference to shown in Fig. 3, for the connection signal of a kind of touch-control emission electrode that the embodiment of the present application provides Figure, wherein, described touch-control display panel also includes multiple connection electrode 50, and connects same described emission port 40 and adjacent Two described touch-control emission electrodes 30 between be provided with described in one connection electrode 50；

Wherein, described connection electrode 50 in the both sides of the edge of described line direction respectively with adjacent described touch-control emission electrode The EDGE CONTACT of 30 connects.

The embodiment of the present application connect between same emission port and adjacent two touch-control emission electrodes, by one even These two touch-control emission electrode opposite edges are linked together by receiving electrode, can be regarded as by the electrode of this new composition and be integrated knot Structure, i.e. when making touch-control emission electrode, directly conductive film layer is etched the electrode of this integrative-structure, economizes on resources, And simplification Making programme.Further, by connection electrode, the same emission port of connection and adjacent two touch-control emission electrodes are connected Connect, it is not necessary to arrange again after two touch-control emission electrodes are connected by multiple lead-in wire and be then connected to emission port, it is only necessary to a lead-in wire Reconnect emission port after being connected to this integrative-structure, optimize wiring domain.

In the touch-control display panel that the application provides, touch-control sensing electrode block and the connected mode of sensor port are except permissible Outside for the connected mode described in above-described embodiment, i.e. all touch-control sensing electrode blocks being positioned at same a line alternately sense with first Port and the second sensor port connect, or, it is positioned at all touch-control sensing electrode blocks of same a line, the touch-control sensing that part is adjacent Electrode block connects the first sensor port or the second sensor port and the adjacent touch-control sensing electrode block of part replaces connection the respectively Outside one sensor port and the second sensor port；In another embodiment of the application, it is positioned at all touch-control sensing electrodes of same a line Block can divide two parts in the row direction and connect the first sensor port and the second sensor port respectively.With specific reference to Fig. 4 a institute Show, for the structural representation of the another kind of touch-control sensing electrode block array that the embodiment of the present application provides, wherein, be positioned at same a line institute Have described touch-control sensing electrode block 10 be the first touch-control sensing electrode block to the n-th touch-control sensing electrode block, and be positioned at same a line institute There are described touch-control sensing electrode block 10 two described sensor port of corresponding connection, the respectively first sensor port 21 and the second sensing Port 22, described first sensor port 21 connects the first touch-control sensing electrode block to the i-th touch-control sensing electrode block, described second sense Answering port 22 to connect i+1 touch-control sensing electrode block to the n-th touch-control sensing electrode block, i is the positive integer of no more than n.

It should be noted that the quantity of the touch-control sensing electrode block of the first sensor port and the connection of the second sensor port is permissible Identical, it is also possible to differ, i.e. the quantity of the first touch-control sensing electrode block to the i-th touch-control sensing electrode block and i+1 touch-control sense Answer electrode block to the quantity of the n-th touch-control sensing electrode block can be identical, it is also possible to different, this application be not particularly limited, Need to carry out specific design according to reality application.

On the basis of touch-control sensing electrod-array shown in Fig. 4 a, with reference to shown in Fig. 4 b, provide for the embodiment of the present application Another kind of touch-control sensing electrode block array and the structural representation of touch-control emission electrode, wherein, in the application one embodiment, often Described in one, touch-control sensing electrode block row 101 corresponding region includes a described touch-control emission electrode 30；

Or, with reference to shown in Fig. 4 c, another touch-control sensing electrode block array and the touch-control provided for the embodiment of the present application The structural representation of emission electrode, wherein, touch-control sensing electrode described in adjacent two described touch-control sensing electrode block row 101 Block row 101 corresponding region includes a described touch-control emission electrode 30, and the corresponding district of another described touch-control sensing electrode block row 101 Territory includes two described touch-control emission electrodes 30；

Shown in Fig. 4 b and Fig. 4 c, all in order to ensure to connect corresponding to the touch-control emission electrode of same emission port Touch-control sensing electrode block 10 connects different sensor port, and the described first touch-control sensing electrode block that the embodiment of the present application provides is extremely Any one described touch-control emission electrode 30 corresponding to i-th touch-control sensing electrode block, with described i+1 touch-control sensing electrode block extremely Any one described touch-control emission electrode 30 that n-th touch-control sensing electrode block is corresponding connects same described emission port 40.

It should be noted that touch-control sensing electrode block and the connection of sensor port in the touch-control display panel of the application offer Relation, touch-control sensing electrode block row and the corresponding relation of touch-control emission electrode, and, touch-control emission electrode and the company of emission port The relation that connects is not limited to and the situation corresponding to above-mentioned several specific embodiments, connects as long as meet multiple touch-control emission electrode Same emission port and connect all touch-control sensing electrode blocks corresponding to multiple touch-control emission electrodes of same emission port, The structure that sensor port that these touch-control sensing electrode blocks are connected is different is in the structure that the application is protected.

In the above-mentioned any one embodiment of the application, with reference to shown in Fig. 5, the another kind of touch-control provided for the embodiment of the present application The structural representation of display floater, wherein, the touch-control display panel that the application provides includes the array base palte 1000 being oppositely arranged With first substrate 2000；

And, the driving IC3000 that is arranged on described array base palte 1000 and with connecing that described first substrate 2000 is connected Line wiring board 4000；

Wherein, described array base palte 1000 includes described touch-control emission electrode 30, and described emission port is electrically connected to institute State driving IC3000；And, described first substrate 2000 includes described touch-control sensing electrode block 10, and described sensor port is integrated In described connection circuitry plate 4000.

Wherein, touch-control emission electrode accesses to emission port by lead-in wire, and emission port can electrically connect with driving IC, That is, during touch drive circuit is integrated in driving IC.And, touch-control sensing electrode block is connected to induction end again by conductive lead wire Mouthful, and the multiple touch-control sensing electrode blocks connecting same sensor port can share a conductive lead wire, especially connect same When multiple touch-control sensing electrode blocks of sensor port are for being positioned at same a line.It addition, the connection circuitry plate that sensor port is integrated in Can be the binding line line structures such as flexible circuit board.Further, array base palte includes multiple sub-pixel, between multiple sub-pixels Gap need to be blocked, it is preferred that connect touch-control sensing electrode block and touch-control emission electrode and cross the lead-in wire of viewing area, This lead-in wire corresponding region, gap between multiple sub-pixels, it is to avoid display device aperture opening ratio is impacted.

The touch-control display panel that the application provides can be liquid crystal touch control display floater, it is also possible to show for organic light emission touch-control Show panel.When touch-control display panel is liquid crystal touch control display floater, first substrate is color membrane substrates, and first substrate and array Liquid crystal layer it is additionally provided with between substrate.It addition, when touch-control display panel is liquid crystal touch control display floater, described array base palte bag Including common electrode layer, wherein, described touch-control emission electrode is split to form by described common electrode layer.Wherein, the embodiment of the present application The liquid crystal touch control display floater provided, its array base palte also includes transistor array layer, the picture being positioned on transistor array layer Element electrode layer, and pixel electrode layer may be located between common electrode layer and transistor array layer, or, pixel electrode layer is permissible It is positioned at common electrode layer and deviates from transistor array layer side, same as the prior art to this, therefore the application does not repeats..

Line direction and the column direction of offer are not restricted by the application, in the application one embodiment, and described array base palte Including a plurality of gate line and a plurality of data lines, wherein, the setting direction of described a plurality of gate line is identical with described column direction, and institute The setting direction stating a plurality of data lines is identical with described line direction.

Accordingly, the embodiment of the present application additionally provides a kind of display device, and described display device includes above-mentioned any one reality Execute the touch-control display panel that example provides.

It should be noted that the type of display device is not particularly limited by the application, it can be liquid crystal indicator, It can also be organic light-emitting display device etc..As shown in reference to Fig. 6, for the knot of a kind of display device that the embodiment of the present application provides Structure schematic diagram, wherein, display device is liquid crystal device, and it includes the touch-control display panel that above-mentioned any one embodiment provides 1；

And, including the backlight module 2 providing backlight (such as the direction of arrow in figure) for touch-control display panel.

The embodiment of the present application provides a kind of touch-control display panel and display device, including: set with column direction in the row direction The touch-control sensing electrode block array put, and multiple sensor port, it is described tactile that each described sensor port is all connected with at least one Control induction electrode block；And, along the touch-control emission electrode of multiple bar shapeds that described line direction is arranged, and multiple emission port, Each described emission port connects touch-control emission electrode described at least two, and the described touch-control that different emission port connects is launched Electrode is different；Described touch-control sensing electrode block array includes the multiple touch-control sensing electrode blocks row arranged along described line direction, its In, each described touch-control sensing electrode block row corresponding region includes at least one described touch-control emission electrode, and connects same institute State the described sensing that all described touch-control sensing electrode block corresponding to all described touch-control emission electrode of emission port connects Port is different.

As shown in the above, the technical scheme that the embodiment of the present application provides, the corresponding district of each touch-control sensing electrode block row Territory includes at least one touch-control emission electrode, and all touching of connecting corresponding to all touch-control emission electrodes of same emission port The sensor port that control induction electrode block connects is different, to ensure to be sent out by touch-control sensing electrode block and corresponding touch-control in the touch-control stage Radio pole can determine position of touch；Further, by optimizing touch-control sensing electrode block and the connected mode of sensor port, it is possible to make Each emission port connects multiple touch-control emission electrodes, to reduce the quantity of emission port, and then improves the circuit of display device Location problem.

Described above to the disclosed embodiments, makes professional and technical personnel in the field be capable of or uses the present invention. Multiple amendment to these embodiments will be apparent from for those skilled in the art, as defined herein General Principle can realize without departing from the spirit or scope of the present invention in other embodiments.Therefore, the present invention It is not intended to be limited to the embodiments shown herein, and is to fit to and principles disclosed herein and features of novelty phase one The widest scope caused.

Claims (13)

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

The touch-control sensing electrode block array arranged with column direction in the row direction, and multiple sensor port, each described induction end Mouth is all connected with at least one described touch-control sensing electrode block；

And, along the touch-control emission electrode of multiple bar shapeds that described line direction is arranged, and multiple emission port, each described Penetrate port and connect touch-control emission electrode described at least two, and the described touch-control emission electrode that different emission port connects is different；

Described touch-control sensing electrode block array includes the multiple touch-control sensing electrode blocks row arranged along described line direction, wherein, often Touch-control sensing electrode block row corresponding region described in one includes at least one described touch-control emission electrode, and connects same described transmitting The described sensor port that each described touch-control sensing electrode block corresponding to each described touch-control emission electrode of port connects is different.

Touch-control display panel the most according to claim 1, it is characterised in that described in each described emission port connects two Touch-control emission electrode.

Touch-control display panel the most according to claim 1 and 2, it is characterised in that described sensor port connects multiple described Touch-control sensing electrode block, and it is the described touch-control sensing electrode block being positioned at same a line.

Touch-control display panel the most according to claim 3, it is characterised in that be positioned at same a line all described touch-control sensings electricity Pole block correspondence connects two described sensor port, the respectively first sensor port and the second sensor port, and described first sensing The described touch-control sensing electrode block that the described touch-control sensing electrode block that port connects is connected with described second sensor port alternately sets Put.

Touch-control display panel the most according to claim 4, it is characterised in that each described touch-control sensing electrode block row correspondence Region includes a described touch-control emission electrode；

Wherein, adjacent two described touch-control emission electrodes connect same described emission port.

Touch-control display panel the most according to claim 1 or 5, it is characterised in that described touch-control display panel also includes many Individual connection electrode, and connect and be provided with an institute between same described emission port and adjacent two described touch-control emission electrodes State connection electrode；

Wherein, described connection electrode in the both sides of the edge of described line direction respectively with the edge of adjacent described touch-control emission electrode Contact connects.

Touch-control display panel the most according to claim 3, it is characterised in that be positioned at same a line all described touch-control sensings electricity Pole block be the first touch-control sensing electrode block to the n-th touch-control sensing electrode block, and be positioned at all described touch-control sensing electrodes of same a line Block correspondence connects two described sensor port, the respectively first sensor port and the second sensor port, described first sensor port Connecting the first touch-control sensing electrode block to the i-th touch-control sensing electrode block, described second sensor port connects i+1 touch-control sensing electricity Pole block is to the n-th touch-control sensing electrode block, and i is the positive integer of no more than n.

Touch-control display panel the most according to claim 7, it is characterised in that each described touch-control sensing electrode block row correspondence Region includes a described touch-control emission electrode；

Or, in adjacent two described touch-control sensing electrode blocks row, touch-control sensing electrode block row corresponding region described in includes one Described touch-control emission electrode, and another described touch-control sensing electrode block row corresponding region includes two described touch-control emission electrodes.

Touch-control display panel the most according to claim 8, it is characterised in that described first touch-control sensing electrode block is to i-th Any one described touch-control emission electrode corresponding to touch-control sensing electrode block, touches with described i+1 touch-control sensing electrode block to n-th Any one described touch-control emission electrode that control induction electrode block is corresponding connects same described emission port.

Touch-control display panel the most according to claim 1, it is characterised in that described touch-control display panel includes relatively setting The array base palte put and first substrate；

And, the driving IC being arranged on described array base palte and the connection circuitry plate being connected with described first substrate；

Wherein, described array base palte includes described touch-control emission electrode, and described emission port is electrically connected to described driving IC；With And, described first substrate includes described touch-control sensing electrode block, and described sensor port is integrated in described connection circuitry plate.

11. touch-control display panels according to claim 10, it is characterised in that described array base palte includes public electrode Layer, wherein, described touch-control emission electrode is split to form by described common electrode layer.

12. touch-control display panels according to claim 10, it is characterised in that described array base palte includes a plurality of gate line And a plurality of data lines, wherein, the setting direction of described a plurality of gate line is identical with described column direction, and described a plurality of data lines Setting direction is identical with described line direction.

13. 1 kinds of display devices, it is characterised in that described display device includes touching described in claim 1～12 any one Control display floater.