CN108227316A - Display panel and curved-surface display device - Google Patents

Abstract

The application provides a kind of display panel and curved-surface display device, and display panel includes a dot structure, the pixel unit with multiple array configurations, and each pixel unit includes：First main electrode and the second main electrode intersect vertically configuration with the first main electrode, and pixel unit are divided into four electrode zones；A plurality of branch electrodes, are mutually parallel, and are set to corresponding electrode zone；In first area, the first branch electrodes and the 4th branch electrodes of pixel unit have the first line width, and the second branch electrodes and third branch electrodes have the second line width；In second area, the first branch electrodes and the 4th branch electrodes of pixel unit have third line width, and the second branch electrodes and third branch electrodes have the 4th line width；The width of first line width, the second line width, third line width and the 4th line width is identical or different.The application can weaken or eliminate the caused LCD alignment problem that misplaces between dark line problem and substrate on display panel.

Description

Display panel and curved-surface display device

Technical field

This application involves display field, more particularly to a kind of display panel and curved-surface display device.

Background technology

Liquid crystal display device (Liquid Crystal Display, LCD) has that fuselage is thin, power saving, radiationless etc. numerous Advantage is widely used, and is occupied an leading position in flat display field.

In recent years, with the development of LCD technology, all big enterprises successively be proposed curved surface (Curved) liquid crystal Showing device, generally speaking, curved surface liquid crystal display device can provide best viewing effect from edge-to-edge, and common liquid Presentation ability of the crystal device in terms of screen edge is relatively less preferable always, and there are the problems such as colour cast.And curved surface liquid crystal The cambered design of display device, it is possible to provide broad full-view image effect, it, can whether in center Screen or edge surrounding Good visual enjoyment is enough brought, and the distortion factor of off-axis viewing is also reduced when closely watching.In addition, curved surface liquid crystal Display device can allow the ornamental distance of user to be elongated, and reach preferably ornamental experience.Therefore, it is filled compared to common liquid crystal display It puts, curved surface liquid crystal display device has very big advantage.

For curved surface liquid crystal display device, used pixel electrode is usually required in common liquid crystal display dress Deformation design is done on the basis of putting, to be conducive to the bending of liquid crystal display device, common " rice " font pixel electrode along Its vertical centerline is divided into two, then the partial pixel electrode on right side be connected to left side pixel electrode lower section, in this way may be used To ensure that pixel-shift degree of the LCD in bending in each region is identical, ensure display effect, due to curved-surface display device Curved design, the rate of travel of two substrates from it is intermediate toward both sides be gradually to increase, the center of liquid crystal display panel is without relative movement It measures, the pixel electrode in sub-pixel on the center of liquid crystal display panel does not deviate or, and at left and right sides of liquid crystal display panel on region Pixel electrode in sub-pixel shifts, and forms dark line area, will result in center and dark line area in this way has apparent brightness Difference so that the phenomenon that dark line occurs in panel.

Invention content

In order to solve the above-mentioned technical problem, the purpose of the application is, provides a kind of display panel and curved-surface display device.

The purpose of the application and its technical problem is solved using following technical scheme to realize.It is proposed according to the application A kind of display panel, have symmetrical first area and second area, including a dot structure, the dot structure have it is more The pixel unit of a array configuration, each pixel unit include：First main electrode；Second main electrode, with described One main electrode intersects vertically configuration, and the pixel unit is divided into four electrode zones；A plurality of first branch electrodes, phase It is mutually parallel, it is set to first electrode area；A plurality of second branch electrodes, are mutually parallel, are set to the second electrode region；A plurality of Three branch electrodes, are mutually parallel, and are set to third electrode zone；A plurality of 4th branch electrodes, are mutually parallel, and are set to the 4th electricity Polar region domain；Wherein, using first main electrode as line of demarcation, the second electrode region and the same position of third electrode zone In the side of the pixel unit, the first electrode area and the 4th electrode zone are located on the another of the pixel unit Side；In the first area of the dot structure, the first branch electrodes of the pixel unit and the 4th branch electrodes have the One line width, the second branch electrodes and third branch electrodes have the second line width；In the second area of the dot structure, the picture The first branch electrodes and the 4th branch electrodes of plain unit have third line width, and the second branch electrodes and third branch electrodes have 4th line width；Wherein, the width of first line width, second line width, the third line width and the 4th line width is phase It is same or different.

In the embodiment of the application, the width of second line width and first line width be it is different, the described 4th The width of line width and the third line width is different.

In the embodiment of the application, first line width and the third line width be it is identical or different, and described the Two line widths are identical or different with the 4th line width.

In the embodiment of the application, first branch electrodes, second branch electrodes, the third branch electricity Pole, the angle that the 4th branch electrodes are formed with first main electrode is identical.

In the embodiment of the application, first branch electrodes, second branch electrodes, the third branch electricity Pole, the 4th branch electrodes are the strip shaped electric poles of linear.

In the embodiment of the application, the first electrode area, the second electrode region, the third electrode district The area of domain and the 4th electrode zone is identical.

It the purpose of the application and solves its technical problem following technical measures also can be used further to realize.

The another object of the application is a kind of curved-surface display device, including：First substrate；Second substrate, with described first Substrate is oppositely arranged, wherein, the first substrate and the second substrate are flexible base board, and the line of symmetry of the second substrate will Second substrate divides into first area and second area；Multiple active switches are set to the second substrate；Multiple array configurations Pixel unit, be correspondingly arranged with the active switch, each pixel unit includes：First main electrode；Second trunk Electrode intersects vertically configuration with first main electrode, and the pixel unit is divided into four electrode zones；A plurality of One branch electrodes, are mutually parallel, and are set to first electrode area；A plurality of second branch electrodes, are mutually parallel, and are set to the second electricity Polar region domain；A plurality of third branch electrodes, are mutually parallel, and are set to third electrode zone；A plurality of 4th branch electrodes, it is mutually flat Row, is set to the 4th electrode zone；Wherein, using first main electrode as line of demarcation, the second electrode region and described Third electrode zone is located on the side of the pixel unit, and the first electrode area and the 4th electrode zone are located on The opposite side of the pixel unit；In the first area, first branch electrodes and the 4th branch electrodes have the One line width, second branch electrodes and the third branch electrodes have the second line width；In the second area, described first Branch electrodes and the 4th branch electrodes have third line width, and second branch electrodes and the third branch electrodes have 4th line width；Wherein, the width of first line width, second line width, the third line width and the 4th line width is phase It is same or different.

In the embodiment of the application, the width of second line width and first line width be it is different, the described 4th The width of line width and the third line width is different.

In the embodiment of the application, first line width and the third line width be it is identical or different, and described the Two line widths are identical or different with the 4th line width.

The further object of the application is a kind of display panel, has symmetrical first area and second area, including a picture Plain structure, the dot structure have the pixel unit of multiple array configurations, and each pixel unit includes：First trunk electricity Pole；Second main electrode intersects vertically configuration with first main electrode, and the pixel unit is divided into four electrodes Region；A plurality of first branch electrodes, are mutually parallel, are set to first electrode area；A plurality of second branch electrodes, are mutually parallel, It is set to the second electrode region；A plurality of third branch electrodes, are mutually parallel, and are set to third electrode zone；A plurality of 4th branch Electrode is mutually parallel, and is set to the 4th electrode zone；Wherein, using first main electrode as line of demarcation, the second electrode Region and the third electrode zone are located on the side of the pixel unit, the first electrode area and the 4th electrode Region is located on the opposite side of the pixel unit；In the first area of dot structure, the first branch electricity of the pixel unit Pole and the 4th branch electrodes have the first line width, and the second branch electrodes and third branch electrodes have the second line width；In pixel knot The second area of structure, the first branch electrodes and the 4th branch electrodes of the pixel unit have third line width, the second branch electricity Pole and third branch electrodes have the 4th line width；Wherein, first line width and the third line width are identical or different, and institute It is identical or different that the second line width, which is stated, with the 4th line width；Wherein, between a plurality of branch electrodes in Different electrodes region Spacing to be identical.

The application is designed by dot structure, can be weakened or be eliminated on curved face display panel caused by pixel-shift Dark line problem and substrate between misplace caused LCD alignment problem.

Description of the drawings

Fig. 1 is exemplary dot structure schematic diagram.

Fig. 2 is the dot structure schematic diagram of one embodiment of the application.

Fig. 3 is the dot structure schematic diagram of the another embodiment of the application.

Fig. 4 is the dot structure schematic diagram of the another embodiment of the application.

Fig. 5 is the dot structure schematic diagram of the application another embodiment.

Fig. 6 is the dot structure schematic diagram of another embodiment of the application.

Fig. 7 is the dot structure schematic diagram of another embodiment of the application.

Fig. 8 is the dot structure schematic diagram of another embodiment of the application.

Fig. 9 is the dot structure schematic diagram of another embodiment of the application.

Figure 10 is the dot structure schematic diagram of another embodiment of the application.

Figure 11 is the dot structure schematic diagram of another embodiment of the application.

Figure 12 is the pixel electrode schematic diagram of one embodiment of the application.

Figure 13 is the pixel electrode schematic diagram of another embodiment of the application.

Figure 14 is the dot structure schematic diagram of another embodiment of the application.

Figure 15 is the dot structure schematic diagram of another embodiment of the application.

Figure 16 is the display device module map of one embodiment of the application.

Specific embodiment

The explanation of following embodiment is with reference to additional schema, to illustrate the particular implementation that the application can be used to implementation Example.The direction term that the application is previously mentioned, such as " on ", " under ", "front", "rear", "left", "right", " interior ", " outer ", " side " Deng being only the direction with reference to annexed drawings.Therefore, the direction term used be illustrate and understand the application rather than to Limit the application.

Attached drawing and explanation are considered inherently illustrative rather than restricted.The similar list of structure in the figure Member is to be given the same reference numerals.In addition, in order to understand and convenient for describing, the size and thickness of each component shown in attached drawing are It is arbitrarily shown, but the application is without being limited thereto.

In the accompanying drawings, for clarity, the thickness in layer, film, panel, region etc. is exaggerated.In the accompanying drawings, in order to understand With convenient for description, the thickness of some layer and region is exaggerated.It will be appreciated that ought such as layer, film, region or substrate component quilt Referred to as " " another component " on " when, the component can be directly on another component or there may also be middle groups Part.

In addition, in the description, unless explicitly described as opposite, otherwise word " comprising " will be understood as meaning to wrap The component is included, but is not excluded for any other component.In addition, in the description, " above " means to be located at target group Part either above or below, and be not intended to must be positioned on the top based on gravity direction.

Further to illustrate that the application is to reach the technological means and effect that predetermined goal of the invention taken, below in conjunction with Attached drawing and specific embodiment, to a kind of display panel and curved-surface display device proposed according to the application, specific embodiment party Formula, structure, feature and its effect are described in detail as after.

Fig. 1 is exemplary dot structure schematic diagram.It please refers to Fig.1, a kind of exemplary dot structure 1, has opposite Symmetrical first area and second area, the dot structure 1 include：The pixel unit (10,20) of multiple array configurations, it is each The pixel unit includes：First main electrode 101；Second main electrode 102, with the 101 vertical phase of the first main electrode Mating is put, and the pixel unit is divided into multiple electrodes region；A plurality of branch electrodes 120, are mutually parallel, and are set to described Multiple electrodes region.Wherein, in first area, the branch electrodes 120 of the pixel unit 10 and second main electrode 102 Angle be θ 1；In second area, the angle of the branch electrodes 120 of the pixel unit 20 and second main electrode 102 For θ 2, by angle theta 1 and the difference of angle theta 2, weaken curved face display panel with this due to panel bending and cause pixel list Member deviates formed dark line.

Fig. 2 is the dot structure schematic diagram of one embodiment of the application.It please refers to Fig.2, in the embodiment of the application, one Kind dot structure 2, the first area and second area, the dot structure 2 with relative symmetry include：Multiple array configurations Pixel unit (10,20), each pixel unit include：First main electrode 101；Second main electrode 102, with described One main electrode 101 intersects vertically configuration, and the pixel unit is divided into four electrode zones；A plurality of first branch electrodes 121, it is mutually parallel, is set to first electrode area；A plurality of second branch electrodes 122, are mutually parallel, and are set to second electrode area Domain；A plurality of third branch electrodes 123, are mutually parallel, and are set to third electrode zone；A plurality of 4th branch electrodes 124, it is mutually flat Row, is set to the 4th electrode zone；Wherein, it is line of demarcation with first main electrode 101, the second electrode region and institute State the side that third electrode zone is located on the pixel unit, the first electrode area and the same position of the 4th electrode zone In the opposite side of the pixel unit.In the first area of the dot structure, the first branch electrodes of the pixel unit 10 121 and the 4th branch electrodes 124 there is the first line width D1, the second branch electrodes 122 and third branch electrodes 123 have the second line Wide D2.In the second area of the dot structure, the first branch electrodes 121 of the pixel unit 20 and the 4th branch electrodes 124 have third line width D3, and the second branch electrodes 122 and third branch electrodes 123 have the 4th line width D4.Wherein, described The width of one line width D1, the second line width D2, the third line width D3 and the 4th line width D4 is identical or different.

In the embodiment of the application, the width of the second line width D2 and the first line width D1 be it is different, can example Such as it is more than the first line width D1 for the second line width D2.The width of the 4th line width D4 and third line width D3 is phase It is different, may be, for example, that the 4th line width D4 is more than the third line width D3.

In the embodiment of the application, the first line width D1 and the third line width D3 are identical or different, and institute It is identical or different that the second line width D2, which is stated, with the 4th line width D4.

In the embodiment of the application, first branch electrodes 121, second branch electrodes 122, the third Branch electrodes 123, the 4th branch electrodes 124 are identical with the angle that first main electrode 101 is formed, and are θ 1. Wherein, the θ 1 is acute angle.

In the embodiment of the application, first branch electrodes 121, second branch electrodes 122, the third Branch electrodes 123, the 4th branch electrodes 124 are the strip shaped electric poles of linear.

In the embodiment of the application, the first electrode area, the second electrode region, the third electrode district The area of domain and the 4th electrode zone is identical.

In the embodiment of the application, the material of the pixel unit (10,20) is tin indium oxide.

In the embodiment of the application, a plurality of branch electrodes (121,122,123,124) positioned at Different electrodes region Between spacing to be identical.

Fig. 2 is refer again to, in the embodiment of the application, a kind of curved face display panel, including：(figure is not for first substrate Show)；Second substrate (not shown) is oppositely arranged with the first substrate, wherein, the first substrate and the second substrate are Second substrate is divided into first area and second area by flexible base board, the line of symmetry of the second substrate；Multiple active switches 130, it is set to the second substrate；The pixel unit (10,20) of multiple array configurations, is correspondingly arranged with the active switch, Each pixel unit includes：First main electrode 101；Second main electrode 102, phase vertical with first main electrode Mating is put, and the pixel unit is divided into four electrode zones；A plurality of first branch electrodes 121, are mutually parallel, are set to First electrode area；A plurality of second branch electrodes 122, are mutually parallel, are set to the second electrode region；A plurality of third branch electrodes 123, it is mutually parallel, is set to third electrode zone；A plurality of 4th branch electrodes 124, are mutually parallel, and are set to the 4th electrode district Domain；Wherein, it is line of demarcation with first main electrode 101, the second electrode region and the same position of third electrode zone In the side of the pixel unit, the first electrode area and the 4th electrode zone are located on the another of the pixel unit Side.In the first area, first branch electrodes 121 and the 4th branch electrodes 124 have the first line width D1, institute Stating the second branch electrodes 122 and the third branch electrodes 123 has the second line width D2.In the second area, described first Branch electrodes 121 and the 4th branch electrodes 124 have third line width D3, second branch electrodes 121 and the third Branch electrodes 124 have the 4th line width D4.Wherein, the first line width D1, the second line width D2, the third line width D3 and The width of the 4th line width D4 is identical or different.

In the embodiment of the application, the width of the second line width D2 and the first line width D1 be it is different, it is described The width of the 4th line width D4 and third line width D3 is different.

In the embodiment of the application, the first line width D1 and the third line width D3 are identical or different, and institute It is identical or different that the second line width D2, which is stated, with the 4th line width D4.

Fig. 3 and Fig. 4 is the dot structure schematic diagram of the another embodiment of the application.Fig. 3 and Fig. 4 are please also refer to, in this Shen In an embodiment please, a kind of dot structure (3,3') has first area and the second area of relative symmetry, including multiple battle arrays The pixel unit (10,20) of configuration is arranged, each pixel unit includes：First main electrode 101；Second main electrode 102, It intersects vertically configuration with first main electrode 101, and the pixel unit is divided into multiple electrodes region；A plurality of branch Electrode 120, is mutually parallel, and is set to the multiple electrode zone；And active switch, including grid, source electrode and drain electrode is described Active switch couples respective data lines and scan line；In first area, the active switch 130 have the first channel width W1 and First channel length L1；In second area, the active switch 130 has second channel width W2 and second channel length L2； Wherein, the ratio W1/L1 and the second channel width W2 of the first channel width W1 and the first channel length L1 and The ratio W2/L2 of the second channel length L2 is different.

In the embodiment of the application, the first channel width W1 and the second channel width W2 are identical or phase Different, the first channel length L1 and the second channel length L2 are identical or different.

In the embodiment of the application, the source electrode of active switch (131,132) or drain electrode have a warp architecture, described Warp architecture is U-shaped structure or V-structure.In Fig. 4, dot structure 3' is so non-with this figure using U-shaped warp architecture as illustration It is limited, can is the mashed up of V-type warp architecture or U-shaped and V-type warp architecture.

In the embodiment of the application, folder that a plurality of branch electrodes and first main electrode 101 are formed Angle is identical.

In the embodiment of the application, a plurality of branch electrodes are the strip shaped electric poles of linear.

In the embodiment of the application, the area of the multiple electrode zone is identical.

Fig. 3 and Fig. 4 are refer again to, in the embodiment of the application, a kind of curved face display panel, including：First substrate (not shown)；Second substrate (not shown) is oppositely arranged with the first substrate, wherein, the first substrate and described second Substrate is flexible base board, and second substrate is divided into first area and second area by the line of symmetry of the second substrate；Multiple battle arrays The pixel unit (10,20) of configuration is arranged, is set to the second substrate, each pixel unit includes：First main electrode 101；Second main electrode 102 intersects vertically configuration with first main electrode, and the pixel unit is divided into multiple Electrode zone；A plurality of branch electrodes, are mutually parallel, and are set to the multiple electrode zone；And active switch 130, including grid Pole, source electrode and drain electrode, the active switch coupling respective data lines and scan line；In first area, the active switch 130 has There are the first channel width W1 and the first channel length L1；In second area, the active switch 130 has second channel width W2 With second channel length L2；Wherein, the ratio W1/L1 and institute of the first channel width W1 and the first channel length L1 The ratio W2/L2 of second channel width W2 and the second channel length L2 are stated, is different.

In the embodiment of the application, the first channel width W1 and the second channel width W2 are identical or phase Different, the first channel length L1 and the second channel length L2 are identical or different.

In the embodiment of the application, the source electrode of active switch (131,132) or drain electrode have a warp architecture, described Warp architecture is U-shaped structure or V-structure.

Fig. 5 is the dot structure schematic diagram of the application another embodiment.Fig. 5 is please referred to, in the embodiment of the application, A kind of dot structure 4, the pixel unit (10,20) including multiple array configurations, each pixel unit include：First trunk Electrode 101；Second main electrode 102 intersects vertically configuration with first main electrode 101, and by the pixel unit area It is divided into four electrode zones；A plurality of branch electrodes 120, are mutually parallel, and are set to the multiple electrode zone；And it actively opens It closes, including grid, source electrode and drain electrode, the active switch coupling respective data lines and scan line；In first area, first electrode Region has the first area A1, and the second electrode region has a second area A2, and third electrode zone has a third area A3, and the 4th There is electrode zone fourth face to accumulate A4；In second area, first electrode area has the 5th area A5, and the second electrode region has 6th area A6, third electrode zone have the 7th area A7, and there is the 4th electrode zone octahedral to accumulate A8；Wherein, in described The area of first area or the second area, the first electrode area or the second electrode region, with third electricity The area of polar region domain or the 4th electrode zone is different；Wherein, it is corresponding in the first area and the second area The area (i.e. for A1 to A5, A2 is to A6, and A3 is to A7, and A4 is to A8) in identical electrodes region is different.

In the embodiment of the application, the first area A1 and the second area A2 be it is identical or different, it is described Third area A3 and fourth face product A4 is identical or different.

In the embodiment of the application, the 5th area A5 and the 6th area A6 be it is identical or different, it is described 7th area A7 and octahedral product A8 is identical or different.

Fig. 5 is refer again to, in the embodiment of the application, a kind of curved face display panel, including：(figure is not for first substrate Show)；Second substrate (not shown) is oppositely arranged with the first substrate, wherein, the first substrate and the second substrate are Second substrate is divided into first area and second area by flexible base board, the line of symmetry of the second substrate；Multiple array configurations Pixel unit, be set to the second substrate, each pixel unit includes：First main electrode 101；Second trunk electricity Pole 102 intersects vertically configuration with first main electrode 101, and the pixel unit is divided into multiple electrodes region；It is more Branch electrodes 120, are mutually parallel, are set to the multiple electrode zone；And active switch, including grid, source electrode and leakage Pole, the active switch coupling respective data lines and scan line；In first area, first electrode area has the first area A1, The second electrode region has second area A2, and third electrode zone has third area A3, and the 4th electrode zone has fourth face Product A4；In second area, first electrode area has the 5th area A5, and the second electrode region has the 6th area A6, third electricity Polar region domain has the 7th area A7, and there is the 4th electrode zone octahedral to accumulate A8；Wherein, in the first area or described second The area of region, the first electrode area or the second electrode region, with the third electrode zone or the 4th electricity The area in polar region domain is different；Wherein, in the first area and the second area, the area in corresponding identical electrodes region (i.e. for A1 to A5, A2 is to A6, and A3 is to A7, and A4 is to A8) is different.

In the embodiment of the application, the first area A1 and the second area A2 be it is identical or different, it is described Third area A3 and fourth face product A4 is identical or different.

In the embodiment of the application, the 5th area A5 and the 6th area A6 be it is identical or different, it is described 7th area A7 and octahedral product A8 is identical or different.

Fig. 6 to Figure 11 is the dot structure schematic diagram of another embodiment of the application.Fig. 6 to Figure 11 is please also refer to, it is a kind of Dot structure (5,5', 6,6', 7,7') has first area and the second area of relative symmetry, including multiple array configurations Pixel unit, each pixel unit include：First main electrode 101；Second main electrode 102, with first trunk Electrode 101 intersects vertically configuration, and the pixel unit is divided into four electrode zones；A plurality of first branch electrodes 121, if First electrode area is placed in, wherein, there is the first folder between first branch electrodes 121 and second main electrode 102 Angle α 1；A plurality of second branch electrodes 122, are set to the second electrode region, wherein, second branch electrodes 122 and described the There is the second angle α 2 between two main electrodes 102；A plurality of third branch electrodes 123, are set to third electrode zone, wherein, There is third angle α 3 between the third branch electrodes 123 and second main electrode 102；A plurality of 4th branch electrodes 124, the 4th electrode zone is set to, wherein, have between the 4th branch electrodes 124 and second main electrode 102 4th angle α 4.In first area or the second area, first angle α 1 and the third angle α 3 be it is identical, it is described Second angle α 2 and the 4th angle α 4 be it is identical, and first angle α 1 and second angle α 2 be it is different, it is described Third angle α 3 and the 4th angle α 4 are different.Wherein, first angle α 1, second angle α 2, the third The acute angle that angle α 3 and the 4th angle α 4 are formed for branch electrodes with second main electrode 102.

In the embodiment of the application, in each pixel unit, with first main electrode 101 and described second Point centered on the crosspoint of main electrode 102, two electrode zones of arbitrary neighborhood with it is right centered on other two electrode zone Claim.

In the embodiment of the application, the angle of one of first angle α 1 or described second angle α 2 is 45 °, The angle of another angle (α 2 or α 1) is then more than or less than 45 °.The dot structure (5,6,6') of Fig. 6, Fig. 8 and Fig. 9 are please referred to, the The pixel unit 10 in one region, the first angle α 1 and third angle α 3 are 45 °, and the second angle α 2 and the 4th angle α 4 are more than 45°；The pixel unit 20 of second area, the first angle α 1 and third angle α 3 are 45 °, the second angle α 2 and the 4th angle α 4 Less than 45 °.Please refer to the dot structure (5', 7,7') of Fig. 7, Figure 10 and Figure 11, the pixel unit 10 of first area, the first folder Angle α 1 and third angle α 3 are more than 45 °, and the second angle α 2 and the 4th angle α 4 are 45 °；The pixel unit 20 of second area, the One angle α 1 and third angle α 3 are less than 45 °, and the second angle α 2 and the 4th angle α 4 are 45 °.

In the embodiment of the application, (it is such as Fig. 6 to Fig. 7 for the strip shaped electric poles of linear for a plurality of branch electrodes It is shown)；Or, the branch electrodes of one of first branch electrodes 121 or described second branch electrodes 122 are done fold-line-shaped and are set It puts, i.e. its strip shaped electric poles for fold-line-shaped, another branch electrodes are the strip shaped electric poles of linear (its is as shown in Figs. 8 to 11).

Fig. 8, the pixel unit 10 of the first area of dot structure 6 are please referred to, the first angle α 1 and third angle α 3 are 45 °, the second angle α 2 and the 4th angle α 4 are less than 45 °, and the second branch electrodes 122 and the 4th branch electrodes 124 do fold-line-shaped Setting；The pixel unit 20 of the second area of the dot structure 6, the first angle α 1 and third angle α 3 are 45 °, the second folder α 2 and the 4th angle αs 4 in angle are less than 45 °, and the first branch electrodes 121 and third branch electrodes 123 do fold-line-shaped setting.

Fig. 9, the pixel unit 10 of the first area of dot structure 6' are please referred to, the first angle α 1 and third angle α 3 are 45 °, the second angle α 2 and the 4th angle α 4 are more than 45 °, and the second branch electrodes 122 and the 4th branch electrodes 124 do fold-line-shaped Setting；The pixel unit 20 of the second area of the dot structure 6, the first angle α 1 and third angle α 3 are 45 °, the second folder α 2 and the 4th angle αs 4 in angle are more than 45 °, and the first branch electrodes 121 and third branch electrodes 123 do fold-line-shaped setting.

0 is please referred to Fig.1, the pixel unit 10 of the first area of dot structure 7, the first angle α 1 and third angle α 3 are big In 45 °, the second angle α 2 and the 4th angle α 4 are 45 °, and the second branch electrodes 122 and the 4th branch electrodes 124 do fold-line-shaped Setting；The pixel unit 20 of the second area of the dot structure 6, the first angle α 1 and third angle α 3 are more than 45 °, second 2 and the 4th angle α 4 of angle α is 45 °, and the first branch electrodes 121 and third branch electrodes 123 do fold-line-shaped setting.

Please refer to Fig.1 1, the pixel unit 10 of the first area of dot structure 7', the first angle α 1 and third angle α 3 Less than 45 °, the second angle α 2 and the 4th angle α 4 are 45 °, and the second branch electrodes 122 and the 4th branch electrodes 124 do broken line Shape is set；The pixel unit 20 of the second area of the dot structure 6, the first angle α 1 and third angle α 3 are less than 45 °, and the Two angle αs 2 and the 4th angle α 4 are 45 °, and the first branch electrodes 121 and third branch electrodes 123 do fold-line-shaped setting.

In the embodiment of the application, the area in the multiple electrodes region of the dot structure is identical.

Fig. 6 to Figure 11 is refer again to, in the embodiment of the application, a kind of curved face display panel, including：First substrate (not shown)；Second substrate (not shown) is oppositely arranged with the first substrate, wherein, the first substrate and described second Substrate is flexible base board, and second substrate is divided into first area and second area by the line of symmetry of the second substrate；First master Dry electrode 101；Second main electrode 102 intersects vertically configuration with first main electrode 101, and by the pixel unit Divide into four electrode zones；A plurality of first branch electrodes 121, are set to first electrode area, wherein, the first branch electricity There is the first angle α 1 between pole 121 and second main electrode 102；A plurality of second branch electrodes 122 are set to the second electricity Polar region domain, wherein, there is the second angle α 2 between second branch electrodes 122 and second main electrode 102；A plurality of Three branch electrodes 123, are set to third electrode zone, wherein, the third branch electrodes 123 and second main electrode There is third angle α 3 between 102；A plurality of 4th branch electrodes 124, are set to the 4th electrode zone, wherein, described 4th point There is the 4th angle α 4 between branch electrode 124 and second main electrode 102.In first area or the second area, institute It is identical to state the first angle α 1 and the third angle α 3, and second angle α 2 and the 4th angle α 4 are identical, and institute It is different to state the first angle α 1 and second angle α 2, and the third angle α 3 and the 4th angle α 4 are different.Wherein, First angle α 1, second angle α 2, the third angle α 3 and the 4th angle α 4 for branch electrodes with it is described The acute angle that second main electrode 102 is formed, and the angle of one of first angle α 1 or described second angle α 2 is 45 °.

In the embodiment of the application, in each pixel unit, with first main electrode 101 and described second Point centered on the crosspoint of main electrode 102, two electrode zones of arbitrary neighborhood with it is right centered on other two electrode zone Claim.

In the embodiment of the application, (it is such as Fig. 6 to Fig. 7 for the strip shaped electric poles of linear for a plurality of branch electrodes It is shown)；Or, the branch electrodes of one of first branch electrodes 121 or described second branch electrodes 122 are done fold-line-shaped and are set It puts, i.e. its strip shaped electric poles for fold-line-shaped, another branch electrodes are the strip shaped electric poles of linear (its is as shown in Figs. 8 to 11).

In the embodiment of the application, the pixel unit 10 is set to first area, the pixel unit 20, if It is placed in second area.Wherein, in the first area and the juncture area of the second area, the pixel unit 10 and described Pixel unit 20 is interconnected, and the caused LCD alignment problem that misplaces between substrate is eliminated with this

In some embodiments, the first area of the relative symmetry and second area, as relative to display panel pair Claim two panel regions of line.

In some embodiments, the fold-line-shaped setting, is folded to towards second main electrode 102, that is, to correspond to The angle that the bending part of branch electrodes is formed with first main electrode 101, more than non-bending part and the described first master The angle (α 1, α 2, α 3, α 4) that dry electrode 101 is formed.

Figure 12 is the pixel electrode schematic diagram of one embodiment of the application.The embodiment of the present application provides a kind of pixel electrode 310, It when it is applied to single pixel, array substrate or display device, need to be only electrically connected with active switch, color error ratio can reduced Under the premise of, it realizes the driving to the liquid crystal molecule of single pixel, reduces using active switch number during multidomain pixel electrode knot, Improve accounting of the glazed area in elemental area.

In one embodiment, pixel electrode 310 includes multiple subpixel electrode areas, different subpixel electrode areas Transmitance is different.The quantity of subpixel electrode area can be set according to actual needs, and the number of subpixel electrode area is picture The farmland number of plain electrode, for example, two farmland pixel electrodes include two subpixel electrode areas, four farmland pixel electrodes include four sub- pictures Plain electrode zone, eight farmland pixel electrodes include eight subpixel electrode areas.

In one embodiment, the quantity for the subpixel electrode area that the pixel electrode includes is greater than or equal to four.

In Figure 12, illustratively show that pixel electrode 310 includes eight subpixel electrode areas 311.Pixel electrode area Domain can divide in any way, i.e., the subpixel area in pixel electrode can be arranged according to arbitrary form, as long as all sub- pictures A complete pixel electrode is formed in plain region entirety.The shape of subpixel area can also be set in any way, As long as ensure that different subpixel areas is not overlapped.

It in the application, can be by pixel electricity in order to which liquid crystal molecule is made to be tilted along multiple and different directions with rule backward Pole is divided into multiple regularly arranged and symmetrical subpixel area, and subpixel area is set as regular shape, for example, Triangle, quadrangle, regular pentagon or regular hexagon etc..

In the present embodiment, subpixel electrode area 311 is illustrated as rectangle.Subpixel electrode area 310 includes closed Electrode wires frame 411 and a plurality of orientation electrode wires 412；Wherein, enclosed type electric polar curve frame 411 is by a plurality of frame electrode wires head and the tail It connects and composes, adjacent subpixel electrode area shares a line frame electrode wires；

A plurality of orientation electrode wires 412 are inclined in enclosed type electric polar curve frame 412, a plurality of orientation 412 phase of electrode wires Mutually it is parallel, line spacing is identical and line width is identical；The inclination side of orientation electrode wires 412 in different subpixel electrode areas 311 It is different to, line spacing or line width.In the application, orientation electrode wires limit it by applying voltage to its corresponding liquid crystal molecule The inclined direction of corresponding liquid crystal molecule.

In the application, the line width that is orientated electrode wires is wider, line spacing is smaller, and the transmitance of corresponding liquid crystal pixel is got over It is high；Conversely, line width is smaller, line spacing is bigger, the transmitance of corresponding liquid crystal pixel is lower；Wherein, transmitance=sub-pixel The area of the sum of area of all electrode wires of electrode zone/subpixel electrode area.

In Figure 12, eight subpixel areas are illustratively shown, the orientation in the subpixel electrode area 311 of four, top The line width of electrode wires 412 is identical with line spacing, the line width of the orientation electrode wires 412 in the subpixel electrode area 311 of lower part four Line spacing is identical.

In one embodiment, several subpixel electrode areas in multiple subpixel electrode areas form the pixel electrode Main region, remaining subpixel electrode area forms the subregion of the pixel electrode；

Wherein, all subpixel electrode areas in the main region adjoin each other, all sub- pictures in the subregion Plain electrode zone adjoins each other, and the line spacing of the orientation electrode wires in the main region is more than the orientation electrode in the subregion The line spacing of line, the line width of the orientation electrode wires in the main region are more than the line width of the orientation electrode wires in the subregion.

By using the larger subpixel electrode area of line width and line spacing as main region, it can realize that main region corresponds to Liquid crystal pixel region high transmittance, so as to reduce the color error ratio in the liquid crystal pixel region.

In Figure 12, illustratively show orientation electrode wires 412 in the subpixel electrode area 311 of four, top line width and Line spacing is all higher than the line width of orientation electrode wires 412 and line spacing in the subpixel electrode area 311 of lower part four.

In the application, the inclined direction of electrode wires is orientated in each subpixel electrode area to be set according to actual needs It puts, the inclined direction of the orientation electrode wires in different subpixel areas can be identical or different.In order to make entire pixel electrode Corresponding pixel energy realizes uniformly regular display effect, the orientation electrode made in each subpixel electrode area that should be as possible The regular setting of inclined direction of line.Such as, the orientation electrode wires in odd-numbered line (or row) subpixel electrode area are all to the left It is tilted a certain angle, the orientation electrode wires in even number line (or row) subpixel electrode area are all tilted to the right certain angle； Orientation electrode wires on row or column direction in adjacent subpixel electrode area are using shared border electrode line as symmetrical axial symmetry Distribution etc..

In Figure 12, illustratively show the orientation electrode wires in adjacent subpixel electrode area with shared frame electricity Polar curve is symmetrical for symmetry axis；Wherein, the orientation electrode wires in the subpixel electrode area in the upper left corner are tilted to the left, the upper right corner Subpixel electrode area in orientation electrode wires be tilted to the right, the inclination of the orientation electrode wires in other subpixel electrode areas The rest may be inferred in direction, and details are not described herein again.

In the application, in order to reduce color error ratio, also can by the area of increase main region as possible, reduce it is subregional Area is realized.

Figure 13 is the pixel electrode schematic diagram of another embodiment of the application.In one embodiment, the pixel electrode in Figure 12 The pixel electrode of slit 413, i.e. the second row first row is provided in 310 main region and the border electrode line of subregion intersection Slit, the son of the second row secondary series are provided on border electrode line between region and the subpixel electrode area of the third line first row Slit is provided on border electrode line between the subpixel electrode area of pixel electrode area and the third line secondary series.

In the application, slit can be by the techniques shape such as hollow out, etching, cutting on a complete border electrode line Into or reserve between two border electrode lines what certain gap was formed, it is similarly, narrow on entire pixel electrode Seam may each be being formed on a piece of complete pixel electrode by techniques such as hollow out, etching, cuttings or adjacent Orientation electrode wires between reserve what certain gap was formed.

By reserving certain gap between main region and subregion in the present embodiment, can make main region and subregion it Between the inclined direction of liquid crystal molecule do not interfere with each other.

In one embodiment, it is provided with slit on the border electrode line of adjacent subpixel electrode area intersection.By Certain interval is reserved between the subpixel electrode area of arbitrary neighborhood, can be made between the subpixel electrode area of arbitrary neighborhood The inclined direction of liquid crystal molecule is not all interfere with each other.

Figure 14 and Figure 15 is the dot structure schematic diagram of another embodiment of the application.One embodiment of the application provides one Kind dot structure, including above-mentioned pixel electrode 310, active switch 320, gate line 330 and data line 340；Pixel electrode 310 are electrically connected with active switch 320.Active switch 320 includes grid (not shown), drain electrode 321, source electrode 322 and active layer 323, active layer is arranged between grid and drain electrode and source electrode, and grid is electrically connected with gate line 330, drain electrode and pixel electrode 310 are electrically connected, and source electrode is electrically connected with data line 340.

Figure 14 illustratively shows the dot structure realized based on the pixel electrode shown in Figure 12, and Figure 15 illustratively shows The dot structure realized based on the pixel electrode shown in Figure 13 is gone out.In the application, shape between the grid and source electrode of active switch Into there is parasitic capacitance.Drain electrode and source electrode are formed on a surface of active layer, and grid is in the active layer opposite with source electrode and drain electrode Another surface where side formed, grid, drain electrode, source electrode and active layer collectively form active switch, grid and grid Line is formed in same layer, and source electrode and data line are formed in same layer.

In the application, active layer is made of the different types of semi-conducting material of multilayer, for example, by three layers different types of half The organic semiconductor active layer that conductor material is formed.In the application, gate insulation layer is formed between active layer and grid, will be active Layer and gate spacer are opened, and realize insulation.Data line, source electrode and drain electrode are formed in protective layer side, and pixel electrode is formed in protection Layer opposite side, via is provided on protective layer, and pixel electrode passes through via and is electrically connected with drain electrode.

As shown in Figure 14 or 15, two 330 and two data lines 340 of gate line are illustratively shown；Wherein；One grid Polar curve 330 is set to the upside of pixel electrode 310, and another gate line 320 is set to the downside of pixel electrode 310, a number The left side of pixel electrode 310 is set to according to line 340, another data line 340 is set to the right side of pixel electrode 310.

In some embodiments, the display panel of the application may be, for example, liquid crystal display panel, so without being limited thereto, also may be used For OLED display panel, W-OLED display panels, QLED display panels, plasma display panel or other types display surface Plate.

Figure 16 is the display device module map of one embodiment of the application.It please also refer to Fig. 2 to Figure 16, a kind of curved-surface display Device 201, including：The display panel 202 of technical characteristic described in the various embodiments described above and its dot structure 203.

The application can be weakened or be eliminated on curved face display panel since pixel-shift is led by the design of dot structure Misplace caused LCD alignment problem between the dark line problem and substrate of cause, and the display that panel quality and panel are improved with this is imitated Fruit.

" in some embodiments " and " in various embodiments " terms are used repeatedly etc..The term is not usually Refer to identical embodiment；But it may also mean that identical embodiment.The words such as "comprising", " having " and " comprising " are synonymous Word, unless its context meaning shows other meanings.

The above is only embodiments herein, not makees limitation in any form to the application, although the application It is disclosed above with specific embodiment, however the application is not limited to, any person skilled in the art, not It is detached from the range of technical scheme, when the technology contents using the disclosure above make a little change or are modified to equivalent change The equivalent embodiment of change, as long as being the content without departing from technical scheme, the technical spirit according to the application is to above real Any simple modification, equivalent change and modification that example is made is applied, in the range of still falling within technical scheme.

Claims (10)

1. a kind of display panel has symmetrical first area and second area, which is characterized in that including a dot structure, institute Stating dot structure has the pixel unit of multiple array configurations, and each pixel unit includes：

First main electrode；

Second main electrode intersects vertically configuration with first main electrode, and the pixel unit is divided into four electricity Polar region domain；

A plurality of first branch electrodes, are mutually parallel, are set to first electrode area；

A plurality of second branch electrodes, are mutually parallel, are set to the second electrode region；

A plurality of third branch electrodes, are mutually parallel, and are set to third electrode zone；

A plurality of 4th branch electrodes, are mutually parallel, and are set to the 4th electrode zone；

Wherein, using first main electrode as line of demarcation, the second electrode region and the third electrode zone are located on The side of the pixel unit, the first electrode area and the 4th electrode zone are located on the another of the pixel unit Side；

In the first area of the dot structure, the first branch electrodes and the 4th branch electrodes of the pixel unit have first Line width, the second branch electrodes and third branch electrodes have the second line width；

In the second area of the dot structure, the first branch electrodes and the 4th branch electrodes of the pixel unit have third Line width, the second branch electrodes and third branch electrodes have the 4th line width；

Wherein, the width of first line width, second line width, the third line width and the 4th line width is identical or phase It is different.

2. display panel as described in claim 1, which is characterized in that the width of second line width and first line width is Different, the width of the 4th line width and the third line width is different.

3. display panel as described in claim 1, which is characterized in that first line width and the third line width to be identical or It is different, and second line width is identical or different with the 4th line width.

4. display panel as described in claim 1, which is characterized in that first branch electrodes, second branch electrodes, The third branch electrodes, the angle that the 4th branch electrodes are formed with first main electrode is identical.

5. display panel as described in claim 1, which is characterized in that first branch electrodes, second branch electrodes, The third branch electrodes, the 4th branch electrodes are the strip shaped electric poles of linear.

6. display panel as described in claim 1, which is characterized in that the first electrode area, the second electrode region, The area of the third electrode zone and the 4th electrode zone is identical.

7. a kind of curved-surface display device, which is characterized in that including：

First substrate；

Second substrate is oppositely arranged with the first substrate, wherein, the first substrate and the second substrate are flexible base Second substrate is divided into first area and second area by plate, the line of symmetry of the second substrate；

Multiple active switches are set to the second substrate；

The pixel unit of multiple array configurations is correspondingly arranged with the active switch, and each pixel unit includes：

First main electrode；

Second main electrode intersects vertically configuration with first main electrode, and the pixel unit is divided into four electricity Polar region domain；

A plurality of first branch electrodes, are mutually parallel, are set to first electrode area；

A plurality of second branch electrodes, are mutually parallel, are set to the second electrode region；

A plurality of third branch electrodes, are mutually parallel, and are set to third electrode zone；

A plurality of 4th branch electrodes, are mutually parallel, and are set to the 4th electrode zone；

Wherein, using first main electrode as line of demarcation, the second electrode region and the third electrode zone are located on The side of the pixel unit, the first electrode area and the 4th electrode zone are located on the another of the pixel unit Side；

In the first area, first branch electrodes and the 4th branch electrodes have the first line width, described second point Branch electrode and the third branch electrodes have the second line width；

In the second area, first branch electrodes and the 4th branch electrodes have a third line width, described second point Branch electrode and the third branch electrodes have the 4th line width；

Wherein, the width of first line width, second line width, the third line width and the 4th line width is identical or phase It is different.

8. curved-surface display device as claimed in claim 7, which is characterized in that the width of second line width and first line width It spends to be different, the width of the 4th line width and the third line width is different.

9. curved-surface display device as claimed in claim 8, which is characterized in that first line width is phase with the third line width It is same or different, and second line width is identical or different with the 4th line width.

10. a kind of display panel has symmetrical first area and second area, which is characterized in that including a dot structure, institute Stating dot structure has the pixel unit of multiple array configurations, and each pixel unit includes：

First main electrode；

Second main electrode intersects vertically configuration with first main electrode, and the pixel unit is divided into four electricity Polar region domain；

A plurality of first branch electrodes, are mutually parallel, are set to first electrode area；

A plurality of second branch electrodes, are mutually parallel, are set to the second electrode region；

A plurality of third branch electrodes, are mutually parallel, and are set to third electrode zone；

A plurality of 4th branch electrodes, are mutually parallel, and are set to the 4th electrode zone；

Wherein, using first main electrode as line of demarcation, the second electrode region and the third electrode zone are located on The side of the pixel unit, the first electrode area and the 4th electrode zone are located on the another of the pixel unit Side；

In the first area of dot structure, the first branch electrodes and the 4th branch electrodes of the pixel unit have First Line Width, the second branch electrodes and third branch electrodes have the second line width；

In the second area of dot structure, the first branch electrodes and the 4th branch electrodes of the pixel unit have third line Width, the second branch electrodes and third branch electrodes have the 4th line width；

Wherein, first line width and the third line width are identical or different, and second line width and the 4th line width It is identical or different；

Wherein, the spacing between a plurality of branch electrodes in Different electrodes region is identical.