CN110376813A - A kind of dot structure and display panel - Google Patents

Abstract

The invention discloses a kind of dot structure and display panel, the dot structure includes multiple sub-pixels in array arrangement；The two sides of each sub-pixel are equipped with the data line longitudinally extended and electrode wires, and the electrode wires are overlapped in the top of the part data line；The data line electrical connection of longitudinally adjacent two sub-pixels, and the data line of junction is located along the same line, to improve the penetrance of dot structure.

Description

A kind of dot structure and display panel

Technical field

The present invention relates to technical field of display panel more particularly to a kind of dot structures and display panel.

Background technique

With the all-round popularization of large-sized monitor, the HVA technology with 8domain pixel design relies on its excellent view Angle shows and is used widely, but introduces center longitudinal direction since the design of its pixel (pixel) is designed compared to other pixels Electrode wires (trunk), and longitudinal electrode line can generate dark line, therefore the penetrance of pixel is significantly reduced.

For the penetrance for improving pixel, the prior art will be on longitudinal electrode line 11 sidesway to data line 12 in sub-pixel 10 Side, as shown in Figure 1, to realize being overlapped for 11 dark line of longitudinal electrode line and 12 concealed wire of data line, to reduce light transmission loss Design scheme effectively increases the penetrance of pixel.

Although the sidesway design of the longitudinal electrode line of existing 8domain picture element significantly improves its penetrance, to ensure Visual angle performance is using wrong row's design structure, and wrong row designs while introducing the dislocation of data line 12 between adjacent picture element, such as Fig. 1 It is shown, coupled electric field is generated between data line so as to cause when applying signal, and then cause to swing in the liquid crystal of corresponding position mixed Disorderly, new dark line is generated, as shown in Fig. 2, seriously reducing the penetrance of display panel.

Summary of the invention

The embodiment of the present invention provides a kind of dot structure and display panel, is generated with solving data line in existing display panel The problem that dark line causes display panel penetrance low.

The embodiment of the invention provides a kind of dot structures, including multiple sub-pixels in array arrangement；Each sub-pixel Two sides be equipped with the data line that longitudinally extends and electrode wires, and the electrode wires are overlapped in the upper of the part data line Side；

The data line electrical connection of longitudinally adjacent two sub-pixels, and the data line bit of junction is in same straight line On.

Further, the electrode wires of the two sub-pixels of arbitrary neighborhood overlap its corresponding data line not Same position.

Further, each sub-pixel includes the main region and subregion of longitudinal arrangement, and the data line passes through the master Region and the subregion；The electrode wires include the first sub-electrode line and the second son electricity for being located at the sub-pixel two sides Polar curve；

The first sub-electrode line is overlapped with the segment data line in the main region, the second sub electrode line with Segment data line on the subregion overlaps.

Further, the data line includes the first subdata line and the second son for being located at the sub-pixel two sides Data line；

The first sub-electrode line is arranged with different subdata line overlaps respectively from the second sub electrode line.

Further, the first sub-electrode line of the two sub-pixels of arbitrary neighborhood respectively from the different subnumbers in its main region Be arranged according to line overlap, the second sub electrode line of the two sub-pixels of arbitrary neighborhood respectively from the different subdata lines on its subregion It overlaps.

Further, adjacent two sub-pixels include first sub-pixel and second sub-pixel；

The first subdata line overlap on first sub-electrode line of first sub-pixel and its main region is arranged, and described the The second sub electrode line of one sub-pixel and the second subdata line overlap on its subregion are arranged；The first of second sub-pixel The second subdata line overlap on sub-electrode line and its main region is arranged, the second sub electrode line of second sub-pixel and its son The first subdata line overlap setting on region.

Further, the main region of the first subdata line and longitudinally adjacent sub-pixel on the subregion of each sub-pixel On the first subdata line be located along the same line, and be electrically connected；The second subdata line on the subregion of each sub-pixel It is located along the same line, and is electrically connected with the second subdata line in the main region of longitudinally adjacent sub-pixel.

Further, the first subdata line on the subregion of the sub-pixel is arranged in parallel with the second subdata line, institute The the first subdata line stated in the main region of sub-pixel is arranged in parallel with the second subdata line.

The embodiment of the invention also provides a kind of display panels, including above-mentioned dot structure.

Further, the display panel further includes the thin film transistor (TFT) being arranged in a one-to-one correspondence with multiple sub-pixels；

The data line and electrode wires of each sub-pixel are distinguished corresponding thin film transistor (TFT) and are electrically connected.

The invention has the benefit that the electrode wires that each sub-pixel longitudinally extends are overlapped in segment data line Top, realization longitudinal electrode line merge with data line concealed wire, effectively the penetrance of promotion dot structure, and longitudinally adjacent two The data line that sub-pixel is connected is located along the same line, i.e. the connection of data line is no longer misaligned state, effectively eliminates connection The dark line at place effectively promotes panel penetrance while ensureing that visual angle shows.

Detailed description of the invention

It, below will be to embodiment or the prior art in order to illustrate more clearly of embodiment or technical solution in the prior art Attached drawing needed in description is briefly described, it should be apparent that, the accompanying drawings in the following description is only some of invention Embodiment for those of ordinary skill in the art without creative efforts, can also be attached according to these Figure obtains other attached drawings.

Fig. 1 is the structural schematic diagram of dot structure in the prior art；

Fig. 2 is the dark line figure of dot structure in the prior art；

Fig. 3 is the structural schematic diagram of dot structure provided in an embodiment of the present invention；

Fig. 4 is the dark line figure of dot structure provided in an embodiment of the present invention；

Fig. 5 is the structural schematic diagram of display panel provided in an embodiment of the present invention.

Specific embodiment

The explanation of following embodiment is referred to the additional illustration, the particular implementation that can be used to implement to illustrate the present invention Example.The direction term that the present invention is previously mentioned, such as [on], [under], [preceding], [rear], [left side], [right side], [interior], [outer], [side] Deng being only the direction with reference to annexed drawings.Therefore, the direction term used be to illustrate and understand the present invention, rather than to The limitation present invention.The similar unit of structure is with being given the same reference numerals in the figure.

It is the structural schematic diagram of dot structure provided in an embodiment of the present invention referring to Fig. 3.

Dot structure provided in an embodiment of the present invention includes multiple sub-pixels 20 in array arrangement；Each sub-pixel 20 Two sides are equipped with the data line 30 longitudinally extended and electrode wires 40, and the electrode wires 40 are overlapped in the part data line 30 Top.The data line 30 of longitudinally adjacent two sub-pixels 20 is electrically connected, and the data line 30 of junction is located at together On one straight line.

Further, the electrode wires 40 of the two sub-pixels 20 of arbitrary neighborhood are overlapped in its corresponding data line 30 different location.

It should be noted that as shown in figure 3, dot structure includes the sub-pixel 20 of multiple lines and multiple rows, on each sub-pixel 20 It is equipped with data line 30 and electrode wires 40, and data line 30 is set to the two sides of sub-pixel, electrode wires 40 and portion in the form of concealed wire Divided data line concealed wire is overlapped.Moreover, the position that data line 30 is arranged on each sub-pixel 20 is identical, but adjacent sub- picture in row and column The position that the electrode wires 40 of element 20 are arranged is different, for example, the electrode wires in a sub-pixel overlap the number in first position According to the top of line, the electrode wires in the sub-pixel adjacent with the sub-pixel are overlapped in the top of the data line of the second position, And first position and the position of the second position be not corresponding.In addition, the data line 30 of each column sub-pixel 20 is electrically connected, and junction Data line 30 be of a straight line type, to eliminate the dark line of junction, as shown in figure 4, to ensure visual angle show while improve The penetrance of display panel.

Further, described as shown in figure 3, each sub-pixel 20 includes the main region 21 and subregion 22 of longitudinal arrangement Data line 30 passes through the main region 21 and the subregion 22；The electrode wires 40 include being located at 20 liang of the sub-pixel The the first sub-electrode line 41 and second sub electrode line 42 of side.

The first sub-electrode line 41 is overlapped with the segment data line in the main region 21, the second sub electrode Line 42 is overlapped with the segment data line on the subregion 22.

It should be noted that the two sides of main region 21 are respectively equipped with segment data line, the two sides of subregion 22 are respectively equipped with Segment data line, and the segment data line of the segment data line of main region 21 and subregion 22 constitutes the data line 30.Specifically , the first sub-electrode line 41 and the segment data line of 21 side of main region overlap, second sub electrode line 42 and subregion 22 The segment data line of the other side overlaps.

Further, the data line 30 include be located at 20 two sides of sub-pixel the first subdata line 31 and Second subdata line 32, the first subdata line 31 and the second subdata line 32 both pass through the main region 21 and described Subregion 22.

The first sub-electrode line 41 is arranged with different subdata line overlaps respectively from the second sub electrode line 42.Tool Body, if the first sub-electrode line 41 is overlapped with the first subdata line 31, second sub electrode line 42 and the second subdata line 32 overlap；If the first sub-electrode line 41 is overlapped with the second subdata line 32, second sub electrode line 42 and the first son Data line 31 overlaps.

Further, the first sub-electrode line 41 of the two sub-pixels 20 of arbitrary neighborhood respectively in its main region 21 not It is arranged with subdata line overlap, the second sub electrode line 42 of the two sub-pixels 20 of arbitrary neighborhood is respectively and on its subregion 22 Different subdata line overlap settings.Specifically, if the first sub-electrode line of a sub-pixel and the first data in its main region Line overlap is arranged, then the second data line overlap on the first sub-electrode line of the sub-pixel adjacent with the sub-pixel and its main region Setting；If the first sub-electrode line of a sub-pixel is overlapped with the second data line in its main region, with the sub-pixel The first electrode line of adjacent sub-pixel is overlapped with the first data line in its main region.The of adjacent two sub-pixels The position of two sub-electrode lines setting is similar, and in this not go into detail.

In a specific embodiment, as shown in figure 3, adjacent two sub-pixels 20 include the first sub-pixel 20a With the second sub-pixel 20b；

The first sub-electrode line 41 of the first sub-pixel 20a is Chong Die with the first subdata line 31 in its main region 21 to be set It sets, second sub electrode line 42 and the second subdata line 32 on its subregion 22 of the first sub-pixel 20a overlaps；Institute The the first sub-electrode line 41 and the second subdata line 32 in its main region 21 for stating the second sub-pixel 20b overlap, and described The second sub electrode line 42 of two sub-pixel 20b is overlapped with the first subdata line 31 on its subregion 22.

Further, in each sub-pixel 20, the first subdata line 31 and the second subdata line 32 on subregion 22 are flat Row is arranged, and the first subdata line 31 in main region 21 is arranged in parallel with the second subdata line 32.

Further, the first subdata line 31 and longitudinally adjacent sub-pixel 20 on the subregion 22 of each sub-pixel 20 Main region 21 on the first subdata line 31 be located along the same line, and be electrically connected；The subregion 22 of each sub-pixel 20 On the second subdata line 32 be located at the second subdata line 32 in the main region 21 of longitudinally adjacent sub-pixel 20 with always On line, and it is electrically connected.

It should be noted that the main region of adjacent two sub-pixels is adjacent, and subregion is adjacent in every row sub-pixel, In each column sub-pixel, the subregion of the main region of sub-pixel sub-pixel adjacent thereto is adjacent.

In a specific embodiment, longitudinally adjacent two sub-pixels 20 include third sub-pixel 20c and the 4th Sub-pixel 20d.The subregion 22 of third sub-pixel 20c is adjacent with the main region 21 of the 4th sub-pixel 20d, third sub-pixel 20c Subregion 22 on the first subdata line 31 and the 4th sub-pixel 20d main region 21 on the first subdata line 32 be located at it is same One straight line, and be electrically connected, the second subdata line 31 and the 4th sub-pixel 20d on the subregion 22 of third sub-pixel 20c The second subdata line 32 in main region 21 is located at same straight line, and is electrically connected.

In the dot structure manufacturing process of the present embodiment, dot structure in the prior art can be first obtained, in conjunction with anti- To translation design, by existing dot structure data line and electrode wires translate, make electrode wires dark line and data line concealed wire Merge, and the data line connection between longitudinally adjacent sub-pixel is in no longer misaligned state, to obtain the dot structure in the present embodiment.

In a specific embodiment, it by the first sub-electrode line of a sub-pixel to left 25um, and will lead The first subdata line in region translates 9um to the first sub-electrode line direction, realizes the first son of the first sub-electrode line and main region Data line essentially coincides；By the second sub electrode line of the sub-pixel to right translation 25um, and by the second subdata of subregion Line translates 9um to second sub electrode line, and the second subdata line of realization is essentially coincided with second sub electrode line.Meanwhile by the son First sub-electrode line of pixel adjacent subpixels is to right translation 25um, and by the first subdata line of main region to the first sub-electrode Line direction translates 9um, realizes essentially coinciding for the first subdata line of the first sub-electrode line and main region；The sub-pixel is adjacent The second sub electrode line of sub-pixel is translated to left 25um, and by the second subdata line of subregion to second sub electrode line 9um, the second subdata line of realization are essentially coincided with second sub electrode line.Adjacent same type sub-pixel does the period with positive mimetic design Property arrangement, effectively promote the penetrance of pixel, and due to the data line using reversed translation setting, between longitudinally adjacent sub-pixel No longer wrong is in position state, it can be seen that junction dark line disappears, as shown in Figure 4 from optical appearance.By testing it is found that this reality The dot structure for applying example offer makes the penetrance amplification of display panel up to 4.24%, thus effective while ensureing that visual angle shows Promote the penetrance of display panel.

It can be seen from the above, dot structure provided in this embodiment, the electrode line overlap for extending each sub-pixel longitudinally The top of segment data line is set, and realization longitudinal electrode line merges with data line concealed wire, effectively promotes wearing for dot structure Saturating rate, the data line that longitudinally adjacent two sub-pixels are connected are located along the same line, i.e. the connection of data line is no longer wrong Position state, effectively eliminates the dark line of junction, and panel penetrance is effectively promoted while ensureing that visual angle shows.

It is the structural schematic diagram of display panel provided in an embodiment of the present invention referring to Fig. 5.

Display panel provided in this embodiment includes dot structure 51 and multiple thin film transistor (TFT)s 52.Wherein, dot structure 51 be the dot structure in above-described embodiment, and multiple thin film transistor (TFT)s 52 and multiple sub-pixels 20 1 in dot structure 51 are a pair of It should be arranged, and the data line 30 of each sub-pixel 20 and electrode wires 40 are distinguished corresponding thin film transistor (TFT) 52 and are electrically connected (not shown).

It can be seen from the above, display panel provided in this embodiment, the electrode line overlap for extending each sub-pixel longitudinally The top of segment data line is set, and realization longitudinal electrode line merges with data line concealed wire, effectively promotes wearing for dot structure Saturating rate, the data line that longitudinally adjacent two sub-pixels are connected are located along the same line, i.e. the connection of data line is no longer wrong Position state, effectively eliminates the dark line of junction, and panel penetrance is effectively promoted while ensureing that visual angle shows.

In conclusion although the present invention has been disclosed above in the preferred embodiment, but above preferred embodiment is not to limit The system present invention, those skilled in the art can make various changes and profit without departing from the spirit and scope of the present invention Decorations, therefore protection scope of the present invention subjects to the scope of the claims.

Claims (10)

1. a kind of dot structure, which is characterized in that including multiple sub-pixels in array arrangement；The two sides of each sub-pixel are equipped with The data line and electrode wires longitudinally extended, and the electrode wires are overlapped in the top of the part data line；

The data line electrical connection of longitudinally adjacent two sub-pixels, and the data line of junction is located along the same line.

2. dot structure according to claim 1, which is characterized in that the electrode wires of the two sub-pixels of arbitrary neighborhood Overlap the different location in its corresponding data line.

3. dot structure according to claim 2, which is characterized in that each sub-pixel include longitudinal arrangement main region and Subregion, the data line pass through the main region and the subregion；The electrode wires include being located at the sub-pixel The the first sub-electrode line and second sub electrode line of two sides；

The first sub-electrode line is overlapped with the segment data line in the main region, the second sub electrode line with it is described Segment data line on subregion overlaps.

4. dot structure according to claim 3, which is characterized in that the data line includes being located at the sub-pixel The the first subdata line and the second subdata line of two sides；

The first sub-electrode line is arranged with different subdata line overlaps respectively from the second sub electrode line.

5. dot structure according to claim 4, which is characterized in that the first sub-electrode of the two sub-pixels of arbitrary neighborhood Line is arranged from the different subdata line overlaps in its main region respectively, the second sub electrode line point of the two sub-pixels of arbitrary neighborhood It is not arranged from the different subdata line overlaps on its subregion.

6. dot structure according to claim 5, which is characterized in that adjacent two sub-pixels include the first sub-pixel and Second sub-pixel；

First sub-electrode line of first sub-pixel and the first subdata line overlap in its main region are arranged, first son The second sub electrode line of pixel and the second subdata line overlap on its subregion are arranged；First son electricity of second sub-pixel The second subdata line overlap on polar curve and its main region is arranged, the second sub electrode line and its subregion of second sub-pixel On the first subdata line overlap setting.

7. dot structure according to claim 4, which is characterized in that the first subdata on the subregion of each sub-pixel Line is located along the same line with the first subdata line in the main region of longitudinally adjacent sub-pixel, and is electrically connected；Every height The second subdata line on the subregion of pixel and the second subdata line in the main region of longitudinally adjacent sub-pixel are located at same On one straight line, and it is electrically connected.

8. dot structure according to claim 4, which is characterized in that the first subdata on the subregion of the sub-pixel Line is arranged in parallel with the second subdata line, and the first subdata line in the main region of the sub-pixel is parallel with the second subdata line Setting.

9. a kind of display panel, which is characterized in that including dot structure as claimed in any one of claims 1 to 8.

10. display panel according to claim 9, which is characterized in that the display panel further includes and multiple sub-pixels The thin film transistor (TFT) being arranged in a one-to-one correspondence；

The data line and electrode wires of each sub-pixel are distinguished corresponding thin film transistor (TFT) and are electrically connected.