CN205405008U - Display panel and display device - Google Patents

Abstract

The embodiment of the utility model discloses display panel and display device, wherein, this display panel includes: display area and non - display area, non - display area includes many data line connection lines and many touch sensing line connection lines, many touch sensing line connection spaces separate the setting and are in between the many data line connection lines, arbitrary adjacent two between the touch sensing line connection line the quantity of data line connecting wire is the same. The embodiment of the utility model provides a display panel and display device can improve the display effect.

Description

A kind of display floater and display device

Technical field

This utility model relates to Display Technique field, particularly relates to a kind of display floater and display device.

Background technology

Along with developing rapidly of Display Technique, the application of display floater and the display device that includes this display floater is more and more extensive.The viewing area of existing display floater is provided with the holding wire of multiple classification, non-display area is provided with driving chip, all of holding wire is each through connecting line corresponding on non-display area signal end electrical connection corresponding with on driving chip, apply corresponding signal to corresponding holding wire by signal end, it is achieved functions such as display and touch-controls.

In the non-display area of the display floater of integrated touch controllable function, except including a plurality of data lines connecting line, (data wire of viewing area is electrically connected to driving chip by data wire connecting line, data signal is provided for each pixel cell) outside, also include a plurality of touch-sensing line connecting line.The touch-sensing line (touch-sensing line electrically connects with public electrode block) of viewing area is electrically connected to driving chip by touch-sensing line connecting line.In the display stage, driving chip provides public voltage signal by touch-sensing line connecting line and touch-sensing line for public electrode block.Owing to the quantity of data wire connecting line is more, the negligible amounts of touch-sensing line connecting line, therefore, in prior art, generally touch-sensing line connecting line is arranged between data wire connecting line, and its arrangement mode does not have any rule.

During due to the display stage, in data wire connecting line, transmission has data signal, in touch-sensing line connecting line, transmission has public voltage signal, and therefore, in data wire connecting line, the public voltage signal of transmission in touch-sensing line connecting line can be produced coupling effect by the data signal of transmission.Again because the arrangement mode of data wire connecting line and touch-sensing line connecting line does not have any rule, therefore, the degree that in data wire connecting line, the public voltage signal of transmission in every touch-sensing line connecting line is produced coupling effect by the data signal of transmission is different, cause the public voltage signal of transmission in every touch-sensing line connecting line different, therefore, display effect can be affected, thus display floater of the prior art and display device display effect are poor.

Utility model content

This utility model embodiment provides a kind of display floater and display device, to solve display floater of the prior art and the poor problem of display device display effect.

For reaching this purpose, this utility model by the following technical solutions:

First aspect, this utility model embodiment provides a kind of display floater, including: viewing area and non-display area,

Described non-display area includes a plurality of data lines connecting line and a plurality of touch-sensing line connecting line；

Described a plurality of touch-sensing line connecting line is disposed between described a plurality of data lines connecting line；

The quantity of the described data wire connecting line between two described touch-sensing line connecting lines of arbitrary neighborhood is identical.

Second aspect, this utility model embodiment additionally provides a kind of display device, including the display floater that first aspect provides.

The display floater of this utility model embodiment offer and display device, by the quantity of the data wire connecting line between the two of arbitrary neighborhood touch-sensing line connecting lines is set to identical, when achieving the display stage, in data wire connecting line, the data signal of transmission is identical to the degree of the coupling effect of the public voltage signal of transmission in every touch-sensing line connecting line, it is thus possible to it is identical to realize the public voltage signal of transmission in every touch-sensing line connecting line, and then display effect can be improved.

Accompanying drawing explanation

By reading the detailed description that non-limiting example is made made with reference to the following drawings, other features, objects and advantages of the present utility model will become more apparent upon:

Fig. 1 is the schematic top plan view of the structure of a kind of implementation of the display floater that this utility model embodiment provides；

Fig. 2 is the schematic top plan view of the structure of a kind of implementation of the data wire connecting line in Fig. 1 and touch-sensing line connecting line；

Fig. 3 is the schematic top plan view of the structure of the another kind of implementation of the data wire connecting line in Fig. 1 and touch-sensing line connecting line；

Fig. 4 is the schematic top plan view of the structure of the another kind of implementation of the data wire connecting line in Fig. 1 and touch-sensing line connecting line；

Fig. 5 is the schematic top plan view of the structure of a kind of implementation of the data wire connecting line in Fig. 1 and touch-sensing line connecting line；

Fig. 6 is the schematic top plan view of the structure of the another kind of implementation of the data wire connecting line in Fig. 1 and touch-sensing line connecting line；

Fig. 7 is the schematic top plan view of the structure of the another kind of implementation of the data wire connecting line in Fig. 1 and touch-sensing line connecting line；

Fig. 8 is the schematic top plan view of the structure of a kind of implementation of the viewing area in Fig. 1；

Fig. 9 is the schematic top plan view of the structure of the another kind of implementation of the viewing area in Fig. 1.

Detailed description of the invention

Below in conjunction with drawings and Examples, the utility model is described in further detail.It is understood that specific embodiment described herein is used only for explaining this utility model, but not to restriction of the present utility model.It also should be noted that, for the ease of describing, accompanying drawing illustrate only the part relevant to this utility model but not full content.

This utility model embodiment provides a kind of display floater.

Fig. 1 is the schematic top plan view of the structure of a kind of implementation of the display floater that this utility model embodiment provides.As it is shown in figure 1, this display floater includes: viewing area 101 and non-display area 102.

Non-display area 102 includes a plurality of data lines connecting line 103 and a plurality of touch-sensing line connecting line 104.

Touch-sensing line connecting line 104 is disposed between data wire connecting line 103.

The quantity of the data wire connecting line 103 between two touch-sensing line connecting lines 104 of arbitrary neighborhood is identical.

The display floater that this utility model embodiment provides, by the quantity of the data wire connecting line 103 between the two of arbitrary neighborhood touch-sensing line connecting lines 104 is set to identical, when achieving the display stage, in data wire connecting line 103, the data signal of transmission is identical to the degree of the coupling effect of the public voltage signal of transmission in every touch-sensing line connecting line 104, it is thus possible to it is identical to realize the public voltage signal of transmission in every touch-sensing line connecting line 104, and then display effect can be improved.

It should be understood that the thickness of Fig. 1 center line is only intended to distinguish data wire connecting line 103 and touch-sensing line connecting line 104, it is not intended to represent both thicknesses, both thicknesses can be designed according to actual needs, does not limit in this utility model embodiment.In Fig. 1, the quantity of data wire connecting line 103 and touch-sensing line connecting line 104 is intended merely to description this utility model embodiment and illustrates, both quantity is not limited by this utility model embodiment, and both quantity can be designed according to actual needs.

As it is shown in figure 1, all of data lines connecting line 103 includes the first straight line portion 105 and the first broken line part 106；Partial touch sense wire connecting line 104 includes the second straight line portion 107 and the second broken line part 108.

It should be understood that include except all of data lines connecting line 103 except first straight line portion 105 and the first broken line part 106, it is also possible to be that segment data line connecting line 103 includes the first straight line portion 105 and the first broken line part 106.Include except the second straight line portion 107 and the second broken line part 108 except partial touch sense wire connecting line 104, it is also possible to be that whole touch-sensing line connecting line 104 includes the second straight line portion 107 and the second broken line part 108.Quantity including the quantity of the first straight line portion 105 and the data wire connecting line 103 of the first broken line part 106 and the touch-sensing line connecting line 104 that includes the second straight line portion 107 and the second broken line part 108 can be designed according to actual needs, does not limit in this utility model embodiment.The length of first straight line portion the 105, first broken line part the 106, second straight line portion 107 and the second broken line part 108 and set-up mode (that is: the position of intersecting point of the position of intersecting point of the first straight line portion 105 and the first broken line part 106 and the second straight line portion 107 and the second broken line part 108) can be designed according to actual needs, do not limit in this utility model embodiment.

Fig. 2 is the schematic top plan view of the structure of a kind of implementation of the data wire connecting line in Fig. 1 and touch-sensing line connecting line.As shown in Figure 2, on the left of touch-sensing line connecting line 201 distance between the straight line portion of N data line connecting line and the straight line portion of touch-sensing line connecting line 201 and on the right side of touch-sensing line connecting line 201 distance between straight line portion and the straight line portion of touch-sensing line connecting line 201 of N data line connecting line equal, wherein, N is positive integer.Such as: on the left of touch-sensing line connecting line 201 distance A1 between the straight line portion of Article 1 data wire connecting line 202 with the straight line portion of touch-sensing line connecting line 201 and on the right side of touch-sensing line connecting line 201 distance A2 between straight line portion and the straight line portion of touch-sensing line connecting line 201 of Article 1 data wire connecting line 203 equal；On the left of touch-sensing line connecting line 201 distance A3 between the straight line portion of Article 2 data wire connecting line 204 with the straight line portion of touch-sensing line connecting line 201 and on the right side of touch-sensing line connecting line 201 distance A4 between straight line portion and the straight line portion of touch-sensing line connecting line 201 of Article 2 data wire connecting line 205 equal.That is: the distance that touch-sensing line connecting line 201 both sides arrange relative to touch-sensing line connecting line 201 between straight line portion and the straight line portion of touch-sensing line connecting line 201 of two identical data line connecting lines of sequence number is equal.

It should be noted that the touch-sensing line connecting line 201 in the implementation shown in Fig. 2 can be the whole touch-sensing line connecting lines 104 in Fig. 1, it is also possible to be the partial touch sense wire connecting line 104 in Fig. 1.

In implementation shown in Fig. 2, the distance arranged relative to touch-sensing line connecting line 201 between straight line portion and the straight line portion of touch-sensing line connecting line 201 of two identical data line connecting lines of sequence number due to touch-sensing line connecting line 201 both sides is equal, therefore, achieve touch-sensing line connecting line 201 both sides relative to the straight line portion that touch-sensing line connecting line 201 arranges two identical data line connecting lines of sequence number, the degree of the coupling effect of touch-sensing line connecting line 201 is identical, it is thus possible to it is identical to realize the public voltage signal of transmission in touch-sensing line connecting line, and then display effect can be improved.

Fig. 3 is the schematic top plan view of the structure of the another kind of implementation of the data wire connecting line in Fig. 1 and touch-sensing line connecting line.As shown in Figure 3, on the left of touch-sensing line connecting line 301 distance between the broken line part of N data line connecting line and the broken line part of touch-sensing line connecting line 301 and on the right side of touch-sensing line connecting line 301 distance between broken line part and the broken line part of touch-sensing line connecting line 301 of N data line connecting line equal, wherein, N is positive integer.Such as: on the left of touch-sensing line connecting line 301 distance B1 between the broken line part of Article 1 data wire connecting line 302 with the broken line part of touch-sensing line connecting line 301 and on the right side of touch-sensing line connecting line 301 distance B2 between broken line part and the broken line part of touch-sensing line connecting line 301 of Article 1 data wire connecting line 303 equal；On the left of touch-sensing line connecting line 301 distance B3 between the broken line part of Article 2 data wire connecting line 304 with the broken line part of touch-sensing line connecting line 301 and on the right side of touch-sensing line connecting line 301 distance B4 between broken line part and the broken line part of touch-sensing line connecting line 301 of Article 2 data wire connecting line 305 equal.That is: the distance that touch-sensing line connecting line 301 both sides arrange relative to touch-sensing line connecting line 301 between broken line part and the broken line part of touch-sensing line connecting line 301 of two identical data line connecting lines of sequence number is equal.

It should be noted that the touch-sensing line connecting line 301 in the implementation shown in Fig. 3 can be the whole touch-sensing line connecting lines 104 in Fig. 1, it is also possible to be the partial touch sense wire connecting line 104 in Fig. 1.

In implementation shown in Fig. 3, the distance arranged relative to touch-sensing line connecting line 301 between broken line part and the broken line part of touch-sensing line connecting line 301 of two identical data line connecting lines of sequence number due to touch-sensing line connecting line 301 both sides is equal, therefore, achieve touch-sensing line connecting line 301 both sides relative to the broken line part that touch-sensing line connecting line 301 arranges two identical data line connecting lines of sequence number, the degree of the coupling effect of touch-sensing line connecting line 301 is identical, it is thus possible to it is identical to realize the public voltage signal of transmission in touch-sensing line connecting line, and then display effect can be improved.

Fig. 4 is the schematic top plan view of the structure of the another kind of implementation of the data wire connecting line in Fig. 1 and touch-sensing line connecting line.As shown in Figure 4, on the left of touch-sensing line connecting line 401 distance between the straight line portion of N data line connecting line and the straight line portion of touch-sensing line connecting line 401 and on the right side of touch-sensing line connecting line 401 distance between straight line portion and the straight line portion of touch-sensing line connecting line 401 of N data line connecting line equal, and, on the left of touch-sensing line connecting line 401 distance between the broken line part of N data line connecting line and the broken line part of touch-sensing line connecting line 401 and on the right side of touch-sensing line connecting line 401 distance between broken line part and the broken line part of touch-sensing line connecting line 401 of N data line connecting line equal, wherein, N is positive integer.Such as: on the left of touch-sensing line connecting line 401 distance C1 between the straight line portion of Article 1 data wire connecting line 402 with the straight line portion of touch-sensing line connecting line 401 and on the right side of touch-sensing line connecting line 401 distance C2 between straight line portion and the straight line portion of touch-sensing line connecting line 401 of Article 1 data wire connecting line 403 equal；On the left of touch-sensing line connecting line 401 distance C3 between the straight line portion of Article 2 data wire connecting line 404 with the straight line portion of touch-sensing line connecting line 401 and on the right side of touch-sensing line connecting line 401 distance C4 between straight line portion and the straight line portion of touch-sensing line connecting line 401 of Article 2 data wire connecting line 405 equal；On the left of touch-sensing line connecting line 401 distance C5 between the broken line part of Article 1 data wire connecting line 402 with the broken line part of touch-sensing line connecting line 401 and on the right side of touch-sensing line connecting line 401 distance C6 between broken line part and the broken line part of touch-sensing line connecting line 401 of Article 1 data wire connecting line 403 equal；On the left of touch-sensing line connecting line 401 distance C7 between the broken line part of Article 2 data wire connecting line 404 with the broken line part of touch-sensing line connecting line 401 and on the right side of touch-sensing line connecting line 401 distance C8 between broken line part and the broken line part of touch-sensing line connecting line 401 of Article 2 data wire connecting line 405 equal.That is: the distance that touch-sensing line connecting line 401 both sides arrange relative to touch-sensing line connecting line 401 between straight line portion and the straight line portion of touch-sensing line connecting line 401 of two identical data line connecting lines of sequence number is equal, and, touch-sensing line connecting line 401 both sides are equal relative to the distance that touch-sensing line connecting line 401 arranges between broken line part and the broken line part of touch-sensing line connecting line 401 of two identical data line connecting lines of sequence number.

It should be noted that the touch-sensing line connecting line 401 in the implementation shown in Fig. 4 can be the whole touch-sensing line connecting lines 104 in Fig. 1, it is also possible to be the partial touch sense wire connecting line 104 in Fig. 1.

nullIn implementation shown in Fig. 4，The distance arranged relative to touch-sensing line connecting line 401 between straight line portion and the straight line portion of touch-sensing line connecting line 401 of two identical data line connecting lines of sequence number due to touch-sensing line connecting line 401 both sides is equal，And，Touch-sensing line connecting line 401 both sides are equal relative to the distance that touch-sensing line connecting line 401 arranges between broken line part and the broken line part of touch-sensing line connecting line 401 of two identical data line connecting lines of sequence number，Therefore，Achieve touch-sensing line connecting line 401 both sides with broken line part, the degree of the coupling effect of touch-sensing line connecting line 401 is identical relative to the straight line portion that touch-sensing line connecting line 401 arranges two identical data line connecting lines of sequence number，It is thus possible to it is identical to realize the public voltage signal of transmission in touch-sensing line connecting line，And then display effect can be improved.

Fig. 5 is the schematic top plan view of the structure of a kind of implementation of the data wire connecting line in Fig. 1 and touch-sensing line connecting line.As shown in Fig. 5 and Fig. 2, with the implementation shown in Fig. 2 the difference is that, in the implementation shown in Fig. 5: A1=A2=A3=A4.That is: the distance between the straight line portion of two data line connecting lines of arbitrary neighborhood is equal.

Compared with the implementation shown in Fig. 2, in implementation shown in Fig. 5, owing to the distance between the straight line portion of two data line connecting lines of arbitrary neighborhood is equal, achieve A1=A2=A3=A4, it is thus possible to the straight line portion realizing the data wire connecting line of touch-sensing line connecting line 201 both sides is identical to the degree of the coupling effect of touch-sensing line connecting line 201, it is thus possible to it is identical to realize the public voltage signal of transmission in touch-sensing line connecting line, and then display effect can be improved.

Fig. 6 is the schematic top plan view of the structure of the another kind of implementation of the data wire connecting line in Fig. 1 and touch-sensing line connecting line.As indicated in fig. 6 and fig. 3, with the implementation shown in Fig. 3 the difference is that, in the implementation shown in Fig. 6: B1=B2=B3=B4.That is: the distance between the broken line part of two data line connecting lines of arbitrary neighborhood is equal.

Compared with the implementation shown in Fig. 3, in implementation shown in Fig. 6, owing to the distance between the broken line part of two data line connecting lines of arbitrary neighborhood is equal, achieve B1=B2=B3=B4, it is thus possible to the broken line part realizing the data wire connecting line of touch-sensing line connecting line 301 both sides is identical to the degree of the coupling effect of touch-sensing line connecting line 301, it is thus possible to it is identical to realize the public voltage signal of transmission in touch-sensing line connecting line, and then display effect can be improved.

Fig. 7 is the schematic top plan view of the structure of the another kind of implementation of the data wire connecting line in Fig. 1 and touch-sensing line connecting line.As shown in Fig. 7 and Fig. 4, with the implementation shown in Fig. 4 the difference is that, in implementation shown in Fig. 7: C1=C2=C3=C4, and C5=C6=C7=C8, that is: the distance between the straight line portion of two data line connecting lines of arbitrary neighborhood is equal, and, the distance between the broken line part of two data line connecting lines of arbitrary neighborhood is equal.

Compared with the implementation shown in Fig. 4, in implementation shown in Fig. 7, owing to the distance between the straight line portion of two data line connecting lines of arbitrary neighborhood is equal, and, distance between the broken line part of two data line connecting lines of arbitrary neighborhood is equal, achieve C1=C2=C3=C4, and C5=C6=C7=C8, it is thus possible to the straight line portion realizing the data wire connecting line of touch-sensing line connecting line 401 both sides is identical to the degree of the coupling effect of touch-sensing line connecting line 401 with broken line part, it is thus possible to it is identical to realize the public voltage signal of transmission in touch-sensing line connecting line, and then display effect can be improved.

Owing to the quantity of data wire connecting line 103 is more than the quantity of touch-sensing line connecting line 104, therefore, when touch-sensing line connecting line 104 is disposed between data wire connecting line 103, touch-sensing line connecting line 104 possibility will not be disposed between data wire connecting line 103 equably, that is: as it is shown in figure 1, be in two touch-sensing line connecting lines of marginal position: the arranged outside of the first edge touch-sensing line connecting line 109 and the second edge touch-sensing line connecting line 110 has data wire connecting line 103.

Preferably, as it is shown in figure 1, the quantity of data wire connecting line 103 outside the quantity of data wire connecting line 103 outside the first edge touch-sensing line connecting line 109 and the second edge touch-sensing line connecting line 110 is equal.This kind of set-up mode, it is capable of data wire connecting line outside the first edge touch-sensing line connecting line 109 the data wire connecting line outside the degree of the coupling effect of any one touch-sensing line connecting line 104 and the second edge touch-sensing line connecting line 110 is identical to the degree of the coupling effect of any one touch-sensing line connecting line 104, it is thus possible to it is identical to realize the public voltage signal of transmission in touch-sensing line connecting line 104, and then display effect can be improved.

It should be noted that the quantity of the data wire connecting line 103 outside the first edge touch-sensing line connecting line 109 can be arbitrary integer, its quantity can be designed according to actual needs, is not specifically limited in this utility model embodiment.

Alternatively, as it is shown in figure 1, the quantity of data wire connecting line 103 between quantity and two touch-sensing line connecting lines 104 of arbitrary neighborhood of data wire connecting line 103 outside the first edge touch-sensing line connecting line 109 is identical.This kind of set-up mode, achieve touch-sensing line connecting line 104 and be disposed between data wire connecting line 103 equably, it is achieved thereby that the coupling effect of touch-sensing line connecting line 104 is uniformly distributed by data wire connecting line 103, it is thus possible to it is identical to realize the public voltage signal of transmission in touch-sensing line connecting line 104, and then display effect can be improved.

In the two data line connecting lines 103 adjacent with any one touch-sensing line connecting line 104, the signal of transmission is at synchronization opposite polarity, that is: at synchronization, in a data line connecting line 103 adjacent with any one touch-sensing line connecting line 104, the signal of transmission is positive polarity, and in another data line connecting line 103 adjacent with this touch-sensing line connecting line 104, the signal of transmission is negative polarity.This kind of set-up mode, it is capable of any one the touch-sensing line connecting line 104 both sides two data line connecting lines 103 adjacent with this touch-sensing line connecting line 104 opposite polarity to the coupling effect of this touch-sensing line connecting line 104, again owing to both distances are more near, the degree of coupling effect is more big, therefore, this kind of set-up mode is capable of any one the touch-sensing line connecting line 104 both sides two data line connecting lines 103 adjacent with this touch-sensing line connecting line 104 and the coupling effect of this touch-sensing line connecting line 104 is cancelled out each other, it is thus possible to it is constant to realize the public voltage signal of transmission in every touch-sensing line connecting line 104, and then display effect can be improved.

Especially, when display floater display flicker picture, in the two data line connecting lines 103 adjacent with any one touch-sensing line connecting line 104, the signal of transmission is at synchronization not only opposite polarity, and it is worth identical, now, the coupling effect of this touch-sensing line connecting line 104 can be cancelled out each other by any one touch-sensing line connecting line 104 both sides two data line connecting lines 103 adjacent with this touch-sensing line connecting line 104 completely, it is thus possible to it is constant to realize the public voltage signal of transmission in every touch-sensing line connecting line 104, and then display effect can be improved.

Alternatively, the signal transmitted in two data line connecting lines 103 of arbitrary neighborhood is at synchronization opposite polarity.This kind of set-up mode, the coupling effect of this touch-sensing line connecting line 104 is cancelled out each other by the two data line connecting lines 103 being capable of any one touch-sensing line connecting line 104 both sides, it is thus possible to it is constant to realize the public voltage signal of transmission in every touch-sensing line connecting line 104, and then display effect can be improved.

As it is shown in figure 1, the display floater that this utility model embodiment provides also includes: driving chip 111.

Driving chip 111 includes multiple data line end 112 and multiple touch-sensing line end 113.

Data line end 112 and data wire connecting line 103 one_to_one corresponding, and electrically connect with corresponding data wire connecting line 103, for providing data signal for data wire connecting line 103；Touch-sensing line end 113 and touch-sensing line connecting line 104 one_to_one corresponding, and electrically connect with corresponding touch-sensing line connecting line 104, for showing that the stage provides public voltage signal for touch-sensing line connecting line 104, the touch stage provides touch signal for touch-sensing line connecting line 104.

Data line end 112 and touch-sensing line end 113 arrange order and corresponding data wire connecting line 103 and touch-sensing line connecting line 104 to arrange order identical.That is: data line end 112 on driving chip 111 arrange order and the data wire connecting line 103 corresponding with this data line end 112 viewing area 101 to arrange order identical；Touch-sensing line end 113 on driving chip 111 arrange order and the touch-sensing line connecting line 104 corresponding with this touch-sensing line end 113 to arrange order identical.This kind of set-up mode, it is capable of when data wire connecting line 103 and touch-sensing line connecting line 104 are electrically connected with corresponding data line end 112 and touch-sensing line end 113, do not have data wire connecting line 103 and the situation of touch-sensing line connecting line 104 intersection, it is simple to the design and fabrication of display floater.

As it is shown in figure 1, the viewing area 101 of the display floater of this utility model embodiment offer also includes: a plurality of data lines 114 and a plurality of touch-sensing line 115.

Fig. 8 is the schematic top plan view of the structure of a kind of implementation of the viewing area in Fig. 1.As shown in Figure 8, the viewing area of the display floater that this utility model embodiment provides also includes: multiple touch control electrode 801, wherein, touch control electrode 801 is block structure.

In conjunction with shown in Fig. 1 and Fig. 8, data wire 114 and data wire connecting line 103 one_to_one corresponding, and electrically connect with corresponding data wire connecting line 103, driving chip 111 provides data signal by data wire connecting line 103 for data wire 114, thinks that pixel cell corresponding in display floater provides data signal；Touch-sensing line 115 and touch-sensing line connecting line 104 one_to_one corresponding, and electrically connect with corresponding touch-sensing line connecting line 104, each touch control electrode 801 is corresponding with at least one touch-sensing line 115, and electrically connect with corresponding touch-sensing line 115, driving chip 111 provides public voltage signal for corresponding touch control electrode 801 in the display stage by touch-sensing line connecting line 104 and touch-sensing line 115, provides touch signal in the stage of touch.Wherein, each touch control electrode 801 can pass through via 802 realization electrical connection with corresponding touch-sensing line 115.

Data wire 114 and touch-sensing line 115 arrange order and corresponding data wire connecting line 103 and touch-sensing line connecting line 104 to arrange order identical.That is: data wire 114 on viewing area 101 arrange order and the data wire connecting line 103 corresponding with this data wire 114 viewing area 101 to arrange order identical；Touch-sensing line 115 on viewing area 101 arrange order and the touch-sensing line connecting line 104 corresponding with this touch-sensing line 115 to arrange order identical.This kind of set-up mode, it is capable of when data wire 114 and touch-sensing line 115 are electrically connected with corresponding data wire connecting line 103 and touch-sensing line connecting line 104, do not have data wire 114 and the situation of touch-sensing line 115 intersection, it is simple to the design and fabrication of display floater.

It should be understood that in other optional embodiments of this utility model, in viewing area 101, segment data line 114 and touch-sensing line 115 can also overlap.This kind of set-up mode so that the data wire wires design of the viewing area 101 of display floater is more uniform such that it is able to the display effect making display floater is more uniform, and then can improve display effect.

As shown in Figure 1, owing to the size of driving chip 111 is less than the size of viewing area 101, therefore, data wire 114 is being electrically connected to data line end 112 corresponding in driving chip 111 by data wire connecting line 103, and when touch-sensing line 115 is electrically connected to touch-sensing line end 113 corresponding in driving chip 111 by touch-sensing line connecting line 104, part or all of data wire connecting line 103 includes broken line part and straight line portion, and/or, part or all of touch-sensing line connecting line 104 includes broken line part and straight line portion.

In the display stage, driving chip 111 provides public voltage signal by touch-sensing line connecting line 104 and touch-sensing line 115 for corresponding touch control electrode 801；In the touch stage, driving chip 111 provides touch signal by touch-sensing line connecting line 104 and touch-sensing line 115 for corresponding touch control electrode 801.Therefore, during the display stage, public electrode is made in touch control electrode 801 multiplexing.

Fig. 9 is the schematic top plan view of the structure of the another kind of implementation of the viewing area in Fig. 1.As shown in Fig. 9 and Fig. 8, with the implementation shown in Fig. 8 the difference is that, in structure shown in Fig. 9, touch control electrode 901 is the first touch control electrode (being also called drive electrode), viewing area 101 also includes the second touch control electrode 902 (being also called detecting electrode), wherein, first touch control electrode 901 and the second touch control electrode 902 are list structure, and first touch control electrode 901 extend direction with second touch control electrode 902 extend direction intersect (alternatively, as described in Figure 9, the direction that first touch control electrode 901 extends is vertical with the direction that the second touch control electrode 902 extends).First touch control electrode 901 electrically connects with at least one corresponding touch-sensing line 115.

Known in conjunction with Fig. 9 and Fig. 1: the display stage, driving chip 111 provides public voltage signal by touch-sensing line connecting line 104 and touch-sensing line 115 for the first corresponding touch control electrode 901；In the touch stage, driving chip 111 provides touch signal by touch-sensing line connecting line 104 and touch-sensing line 115 for the first corresponding touch control electrode 901.Therefore, during the display stage, public electrode is made in the first touch control electrode 901 multiplexing.

To those skilled in the art, it is to be understood that the display floater that this utility model embodiment provides can be display panels, it is also possible to be organic electroluminescence display panel.

This utility model embodiment additionally provides a kind of display device.This display device includes the display floater that this utility model embodiment provides.The display device that this utility model embodiment provides has the beneficial effect of the display floater that this utility model embodiment provides, it is possible to reference to the display floater that above-described embodiment provides, do not repeat at this.This display device can be the equipment that mobile phone, TV or computer etc. arbitrarily have display function.

Note, above are only preferred embodiment of the present utility model and institute's application technology principle.It will be appreciated by those skilled in the art that this 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 without departing from protection domain of the present utility model.Therefore, although this utility model being described in further detail by above example, but this utility model is not limited only to above example, when conceiving without departing from this utility model, other Equivalent embodiments more can also be included, and scope of the present utility model is determined by appended right.

Claims (12)

1. a display floater, including: viewing area and non-display area, it is characterised in that

Described non-display area includes a plurality of data lines connecting line and a plurality of touch-sensing line connecting line；

Described a plurality of touch-sensing line connecting line is disposed between described a plurality of data lines connecting line；

The quantity of the described data wire connecting line between two described touch-sensing line connecting lines of arbitrary neighborhood is identical.

2. display floater according to claim 1, it is characterised in that part or all of described data wire connecting line, and part or all of described touch-sensing line connecting line includes straight line portion and broken line part；

Part or all of described touch-sensing line connecting line both sides are equal relative to the distance that described touch-sensing line connecting line arranges between straight line portion and the straight line portion of described touch-sensing line connecting line of two identical described data wire connecting lines of sequence number, and/or,

Part or all of described touch-sensing line connecting line both sides are equal relative to the distance that described touch-sensing line connecting line arranges between broken line part and the broken line part of described touch-sensing line connecting line of two identical described data wire connecting lines of sequence number.

3. display floater according to claim 2, it is characterised in that the distance between the straight line portion of two described data wire connecting lines of arbitrary neighborhood is equal, and/or,

Distance between the broken line part of two described data wire connecting lines of arbitrary neighborhood is equal.

4. according to the arbitrary described display floater of claim 1-3, it is characterised in that the quantity of the described data wire connecting line being in the outside of two described touch-sensing lines of marginal position in described a plurality of touch-sensing line connecting line is identical.

5. display floater according to claim 4, it is characterized in that, the quantity of the described data wire connecting line being between quantity and the two of arbitrary neighborhood described touch-sensing line connecting lines of the described data wire connecting line in the outside of the described touch-sensing line of marginal position in described a plurality of touch-sensing line connecting line is identical.

6. display floater according to claim 1, it is characterised in that in two described data wire connecting lines adjacent with any one described touch-sensing line connecting line, the signal of transmission is at synchronization opposite polarity.

7. display floater according to claim 6, it is characterised in that in two described data wire connecting lines of arbitrary neighborhood, the signal of transmission is at synchronization opposite polarity.

8. display floater according to claim 1, it is characterised in that also include: driving chip；

Described driving chip includes multiple data line end and multiple touch-sensing line end；

Described data line end and described data wire connecting line one_to_one corresponding, and electrically connect with corresponding described data wire connecting line；

Described touch-sensing line end and described touch-sensing line connecting line one_to_one corresponding, and electrically connect with corresponding described touch-sensing line connecting line；

Described data line end and described touch-sensing line end arrange order and corresponding described data wire connecting line and described touch-sensing line connecting line to arrange order identical.

9. display floater according to claim 1, it is characterised in that described viewing area includes: a plurality of data lines, a plurality of touch-sensing line and multiple touch control electrode；

Described data wire and described data wire connecting line one_to_one corresponding, and electrically connect with corresponding described data wire connecting line；

Described touch-sensing line and described touch-sensing line connecting line one_to_one corresponding, and electrically connect with corresponding described touch-sensing line connecting line；

Each described touch control electrode is corresponding with touch-sensing line described at least one, and electrically connects with corresponding described touch-sensing line；

Described data wire and described touch-sensing line arrange order and corresponding described data wire connecting line and described touch-sensing line connecting line to arrange order identical.

10. display floater according to claim 9, it is characterised in that the plurality of touch control electrode makes public electrode in display stage multiplexing.

11. display floater according to claim 1, it is characterised in that described display floater is display panels or organic electroluminescence display panel.

12. a display device, it is characterised in that include the arbitrary described display floater of claim 1-11.