CN203858437U - Display panel - Google Patents

Abstract

The utility model provides a display panel. The display panel comprises a first substrate, a second substrate, a display dielectric layer, a plurality of first spacers and a plurality of second spacers. The first substrate is provided with a display area and a non-display area annularly arranged at the display area. The second substrate is opposite to the first substrate. The display dielectric layer is arranged between the first substrate and the second substrate. The first spacers and the second spacers are respectively arranged between the first substrate and the second substrate and correspond to the non-display area. The first spacers and the second spacers are correspondingly located on the two opposite sides of the display area and respectively arranged in the first direction, and one extension line penetrates through one of the first spacers in the second direction perpendicular to the first direction and penetrates through the part between any two adjacent second spacers. By means of the display panel, bright and dark stripe phenomenon caused by uneven brightness of the edge of the display area can be changed, and the bright and dark stripe reducing caused by gap evenness of the display panel can be achieved.

Description

Display panel

Technical field

The utility model is about a kind of display panel, particularly about a kind of display panel with photoresistance sept.

Background technology

Along with scientific and technological progress, flat display apparatus has been used in various fields widely, especially liquid crystal indicator or organic LED display device, because having that build is frivolous, low power consumption and the advantageous characteristic such as radiationless, gradually replace conventional cathode ray tube display device, and be applied in the electronic product of numerous species for example mobile phone, portable multimedia device, notebook computer or TV etc.

Taking liquid crystal indicator as example, existing a kind of liquid crystal indicator comprises a display panels (LCD Panel) and a backlight module (Backlight Module), and both are oppositely arranged.Display panels mainly comprises a colored optical filtering substrates, a thin film transistor base plate and is located in the liquid crystal layer between two substrates.Colored optical filtering substrates is relative with thin film transistor base plate and establish, and has multiple septs (spacers) to maintain the gap between colored optical filtering substrates and thin film transistor base plate.Wherein, colored optical filtering substrates and thin film transistor base plate and liquid crystal layer can form the pixel cell of multiple array configurations.Backlight module can emit beam through display panels, and forms an image via each pixel cell display color of display panels.

In the wide viewing angle technology of existing a kind of display panels, in order to control the toppling direction of liquid crystal molecule, need the both alignment layers that uses friction (Rubbing) technique to make to be arranged on colored optical filtering substrates and thin film transistor base plate to produce certain orientation.But, in the technique of brushing back and forth in rubber (Rubber), the edge that correspondence arranges non-display area both sides and viewing area will make edge produce the phenomenon of dark line (being Rubbing mura) because Rubbing is uneven because of the proper alignment of sept (spacer).

In addition, also due to the symmetric offset spread of non-display area both sides sept, the bright rays (being edge mura) that two substrates is formed in the position of the corresponding sept in the gap of the fringe region of viewing area (Cell gap) is more obvious.

Therefore, how to provide a kind of display panel, can improve Rubbing Mura phenomenon, and can improve the clearance evenness degree of display panel and reduce the edge Mura of viewing area, become one of important topic.

Utility model content

Because above-mentioned problem, the purpose of this utility model is for providing one can improve Rubbing Mura phenomenon, and can improve the clearance evenness degree of display panel and reduce the display panel of the edge Mura of viewing area.

For reaching above-mentioned purpose, comprise a first substrate, a second substrate, a display dielectric layer and multiple the first sept and multiple the second sept according to a kind of display panel of the present utility model.First substrate has a viewing area and is located on a non-display area of viewing area.Second substrate and first substrate are oppositely arranged.Display dielectric layer is arranged between first substrate and second substrate.Multiple the first septs and multiple the second sept are arranged at respectively between first substrate and second substrate, and corresponding to non-display area setting, those first septs and the corresponding relative both sides that are positioned at viewing area of those second septs, and arrange along a first direction respectively.Wherein, an extension line passes through one of them of those the first septs along a second direction of vertical first direction, and by between any two second adjacent septs.

For reaching above-mentioned purpose, comprise a first substrate, a second substrate, a display dielectric layer and multiple the first sept and multiple the second sept according to a kind of display panel of the present utility model.First substrate has a viewing area and is located on a non-display area of viewing area, and viewing area has an axis of symmetry that is parallel to a first direction, and the two opposite sides of axis of symmetry are respectively one first side and one second side.Second substrate and first substrate are oppositely arranged.Display dielectric layer is arranged between first substrate and second substrate.Multiple the first septs and multiple the second sept are arranged at respectively between first substrate and second substrate, and corresponding to non-display area setting, those the first sept correspondences are arranged at the first side, those the second sept correspondences are arranged at the second side, and those first septs and those the second septs are arranged along first direction respectively.Wherein, corresponding to those first septs of the first side, centered by axis of symmetry when mirror to the second side, those first septs and those the second septs stagger and are not overlapping.

In one embodiment, display panel more comprises a black-matrix layer, and it is arranged at first substrate or second substrate, and black-matrix layer correspondence is covered in the position of non-display area.

In one embodiment, display panel more comprises a chromatic filter layer, and it is arranged at first substrate or second substrate, and chromatic filter layer correspondence is covered in the position of viewing area.

In one embodiment, those first septs or those the second septs are periodic arrangement along first direction.

In one embodiment, those first septs or those the second septs are periodically arrangement along second direction.

In one embodiment, display panel more comprises multi-strip scanning line and many data lines, and those sweep traces and those data lines define multiple pixels, and it is rectangular that those pixel arrangement become to be made up of first direction and second direction.

In one embodiment, first direction is parallel in fact with the bearing of trend of those data lines, and second direction is parallel in fact with the bearing of trend of those sweep traces.

In one embodiment, first direction is parallel in fact with the bearing of trend of those sweep traces, and second direction is parallel in fact with the bearing of trend of those data lines.

In one embodiment, those first septs or those the second septs are less than the width of each those pixels along second direction along the width of second direction.

In one embodiment, extension line is by between two neighbors.

In one embodiment, extension line is by those pixels.

In one embodiment, display panel more comprises multiple the 3rd septs, and it is arranged between first substrate and second substrate, those the 3rd septs along second direction corresponding to arranging between two neighbors.

In one embodiment, definition forms multiple first sept mirror points when mirror to the second side corresponding to those first septs of the first side centered by axis of symmetry, and one second sept is greater than the wherein distance of one second sept to the first adjacent sept mirror point along first direction to another adjacent second sept along the distance of first direction.

From the above, in display panel of the present utility model, multiple the first septs and multiple the second sept are corresponding to non-display area setting, and those first septs and the corresponding relative both sides that are positioned at viewing area of those second septs, in addition, when extension line passes through one of them of those the first septs along the second direction of vertical first direction, this extension line will be by between those second septs of wantonly two neighbours; Or viewing area has the axis of symmetry that is parallel to first direction, and multiple the first septs and multiple the second sept correspondence are arranged at the first side and second side of axis of symmetry, and centered by axis of symmetry when mirror to the second side, those first septs and those the second septs stagger and are not overlapping corresponding to those first septs of the first side.By this, compare with existing display panels, because the corresponding sept that is positioned at non-display area both sides in display panel is the setting of staggering, therefore, display panel of the present utility model can improve the edge of viewing area because of the bright dark fringe phenomenon (improving Rubbing mura) that brightness disproportionation produces, and also can improve the clearance evenness degree of display panel and reduce the phenomenon (improving edge mura) of bright dark fringe.

Brief description of the drawings

Figure 1A is the schematic diagram of a kind of display panel of the utility model preferred embodiment;

Figure 1B is in the display panel of Figure 1A, along the cross-sectional schematic of straight line A-A;

Fig. 1 C is the schematic diagram of the display panel of another aspect of the utility model preferred embodiment;

Fig. 2 A to Fig. 2 F is respectively the schematic diagram of the different display panels of implementing aspect of the utility model preferred embodiment;

Fig. 3 is the schematic diagram of a kind of display device of the utility model preferred embodiment.

Reference numeral

1,1a～1f, 3: display panel

11: first substrate

12: second substrate

13: display dielectric layer

14: filter layer

2: display device

4: backlight module

A1: the first side

A2: the second side

AA: viewing area

AS: axis of symmetry

A-A: straight line

B, G, R: filter unit

BB: non-display area

BM: black-matrix layer

D1, D2: distance

E: light

L: extension line

P: pixel

S1: the first sept, the first sept mirror point

S2: the second sept

S3: the 3rd sept

X: second direction

Y: first direction

Z: third direction

Z1, Z2: shading section

Embodiment

Hereinafter with reference to correlative type, the display panel according to the utility model preferred embodiment is described, wherein identical element will be illustrated with identical reference marks.

Please refer to shown in Figure 1A and Figure 1B, wherein, Figure 1A is the schematic diagram of a kind of display panel 1 of the utility model preferred embodiment, and Figure 1B is in Figure 1A, the cross-sectional schematic of straight line A-A.

Display panel 1 can be a display panels or is an organic LED display panel, in this, is taking display panels as example.For explanation afterwards is easily understood, Figure 1A only shows a first substrate 11, a viewing area AA and a non-display area BB of display panel 1, the configuration of multiple pixel P, multiple the first sept S1, multiple the second sept S2 and multiple the 3rd sept S3, does not show other element of display panel 1.In addition, a first direction Y (vertical direction of Figure 1A), a second direction X (horizontal direction of Figure 1A) and a third direction Z in Figure 1A and Figure 1B, are shown, wherein, first direction Y, second direction X and third direction Z are in fact mutually vertical between two.

Display panel 1 comprises a first substrate 11, a second substrate 12 and a display dielectric layer 13.First substrate 11 is oppositely arranged with second substrate 12, and display dielectric layer 13 is arranged between first substrate 11 and second substrate 12.Wherein, first substrate 11 has a viewing area AA (Active area) and is located on a non-display area BB of viewing area AA.In this, viewing area AA is light can be through the region of first substrate 11.It is made that first substrate 11 and second substrate 12 can be light-transmitting materials, and be for example a glass substrate, a quartz base plate or a plastic substrate, and the utility model does not limit.

The display dielectric layer 13 of the present embodiment is a liquid crystal layer, and has multiple liquid crystal molecules (figure does not show).In addition, the display panel 1 of the present embodiment more can comprise a tft layer (figure does not show) that is arranged at second substrate 12.But; in another embodiment; if when display panel 1 is an organic LED display panel; display dielectric layer 13 can be an organic luminous layer; now; first substrate 11 can be a cover sheet (Cover plate), to protect organic luminous layer not to be subject to the pollution of extraneous aqueous vapor or foreign matter.

Display panel 1 more can comprise multi-strip scanning line (figure does not show) and many data lines (figure does not show), those sweep traces and those data line definables go out multiple pixel P, and those pixels P is folded between first substrate 11 and second substrate 12.What as shown in Figure 1A, those pixels P can be configured to be made up of first direction Y and second direction X is rectangular.The first direction Y of the present embodiment is parallel in fact with the bearing of trend of those data lines, and second direction X is parallel in fact with the bearing of trend of those sweep traces, and third direction Z is respectively the other direction of vertical first direction Y and second direction X.

In addition, display panel 1 more can comprise a black-matrix layer BM and a filter layer 14.Black-matrix layer BM is arranged on first substrate 11 or second substrate 12, and has a shading section Z1, and shading section Z1 correspondence is covered in the position setting of non-display area BB.In addition, the filter layer 14 of the present embodiment is arranged at first substrate 11 in the face of in a side of second substrate 12, or is arranged on second substrate 12, and filter layer 14 correspondences are covered in the position setting of viewing area AA.Because black-matrix layer BM is light tight material, therefore on first substrate 11, can form a lighttight region (being non-display area BB), and then define the region (being viewing area AA) of light-permeable.In addition, black-matrix layer BM more can have multiple shading section Z2.Wherein, pixel P can a corresponding filter unit, and between two adjacent filter units, (as between filter unit R and filter unit G, between filter unit G and filter unit B, between filter unit B and filter unit R) can have a shading section Z2.The black-matrix layer BM of the present embodiment and filter layer 14 (having multiple filter unit R, G, B) are arranged at respectively on first substrate 11, but, in other enforcement aspect, black-matrix layer BM or filter layer 14 also can be arranged at respectively on second substrate 12, become a black matrix" integrated array (BM on array, BOA) substrate, or become a chromatic filter layer integrated array (color filter on array, COA) substrate.In this, do not limited.In addition, display panel 1 more can comprise a protective seam (for example, for over-coating (over-coating), figure does not show), and protective seam can cover black-matrix layer BM and filter unit R, G, B.The material of protective seam can be photoresist, resin material or inorganic material (such as SiOx/SiNx) etc., in order to protect black-matrix layer BM and filter unit R, G, B not to be subject to the impact of subsequent technique and destroyed.

Therefore, in the present embodiment, in the time that receiving one scan signal, those sweep traces of display panel 1 can make respectively the thin film transistor (TFT) conducting that each sweep trace is corresponding, and a data-signal of the every one-row pixels of correspondence is sent to the pixel electrode of corresponding these pixels P by these data lines, make the display panel 1 can display frame.

In addition, display panel 1 more comprises multiple the first sept S1 and multiple the second sept S2, and those the first sept S1 and those second septs S2 are arranged at respectively between first substrate 11 and second substrate 12, and arrange corresponding to non-display area BB.Value one is carried, the first sept S1 described in the utility model and the second sept S2 corresponding to non-display area BB arrange, but and do not correspond to filter layer 14 position arrange.In other words, while overlooking first substrate 11 by third direction Z, if when the surrounding of viewing area AA has part filter unit R, G, B to be covered by black-matrix layer BM, although still may have the sept arranging along first direction Y on the correspondence position of the filter unit R being covered by black-matrix layer BM, G, B, these septs are not the first alleged sept S1 of the utility model or the second sept S2.

Those of the present embodiment the first sept S1 and those second septs S2 are that correspondence is arranged in the sept of non-display area BB, along the edge person who approaches most viewing area AA on second direction X.Wherein, those first septs S1 correspondence is positioned at the left side of viewing area AA, and those second septs S2 correspondence is positioned at the right side of viewing area AA.In addition, display panel 1 more can comprise multiple the 3rd sept S3, those the 3rd sept S3 are arranged between first substrate 11 and second substrate 12, and those the 3rd sept S3 along second direction X corresponding to arranging between two neighbor P, therefore the 3rd sept S3 correspondence is positioned at the sept of viewing area AA.Wherein, the first sept S1, the second sept S2 and the 3rd sept S3 can maintain the gap between first substrate 11 and second substrate 12, for example, so that display dielectric layer 13 (liquid crystal molecule of liquid crystal layer) can be filled this gap and is folded between two substrates.

In addition, those of the present embodiment the first sept S1 and those second septs S2 are respectively periodic arrangement along first direction Y, and those the first sept S1 and those second septs S2 are also respectively periodically arrangement along second direction X.But, in other enforcement aspect, the first sept S1 or the second sept S2 can not be also periodic arrangement along first direction Y or second direction X.In addition, each first sept S1 or each the second sept S2 are less than the width of a pixel P along second direction X along the width of second direction X.

Article one, when extension line L passes through one of them of those first septs S1 along second direction X, extension line L will be by between two those second septs S2.In the present embodiment, as shown in Figure 1A, extension line L is through those first septs S1, and through the pixel P of a permutation, and through any one of those second septs S2, make along second direction X above, those the first sept S1 and those second septs S2 are the setting of staggering (not on same extension line L).

In other words, please refer to shown in Fig. 1 C, it is another schematic diagram of display panel 1.Wherein, on the viewing area AA of first substrate 11, can there is an axis of symmetry AS of parallel first direction Y, and the both sides of axis of symmetry AS are defined as respectively one first side A1 and one second side A2.In this, it is upper that so-called " axis of symmetry " is shown in viewing area AA, and those pixels P that correspondence is positioned at axis of symmetry AS both sides is left and right full symmetric (equating and symmetrical with respect to the quantity of the pixel P of axis of symmetry AS both sides).Those the first sept S1 and those second septs S2 correspondence are arranged at non-display area BB, wherein, those first septs S1 correspondence is arranged at the first side A1, and those second septs S2 correspondence is arranged at the second side A2, and those first septs S1 is the same with those second septs S2 respectively along first direction Y periodic arrangement.Therefore,, when those the first septs S1 corresponding to the first side A1 is centered by axis of symmetry AS when mirror to the second side A2, those the first sept S1 and those second septs S2 are the setting of staggering, and do not have overlapping generation.In addition, when extension line L passes through one of them of those first septs S1 along the second direction X of vertical first direction Y, this extension line L equally can be by between two those second septs S2.In addition, when those the first septs S1 corresponding to the first side A1 is centered by axis of symmetry AS when mirror to the second side A2, as shown in Figure 1 C, form multiple the first sept mirror points (being denoted as equally S1), two adjacent the second sept S2 are greater than the wherein distance B 2 (D1 > D2) of one second sept S2 to the first adjacent sept mirror point S1 along first direction Y along the distance B 1 of first direction Y.In addition, other technical characterictic of the display panel 1 of Fig. 1 C can, with reference to the explanation of above-mentioned Figure 1A and Figure 1B, repeat no more.

In addition, please respectively with reference to shown in Fig. 2 A to Fig. 2 F, it is respectively the schematic diagram of the different display panel 1a～1f that implement aspect of the utility model preferred embodiment.

As shown in Figure 2 A, different being that display panel 1a is main from the display panel 1 of Figure 1A, the extension line L extending along second direction X is by (being covered by the shading section Z2 of black-matrix layer BM between two neighbor P) between those the first sept S1 and two neighbor P, and passes through between two adjacent those second septs S2.In addition, other technical characterictic of display panel 1a can, with reference to the similar elements of display panel 1, repeat no more.

In addition, as shown in Figure 2 B, display panel 1b and display panel 1, main different being of 1a, the distribution density of those first septs S1 of display panel 1b is two times of those first septs S1 of display panel 1a, and the distribution density of those second septs S2 is two times of those second septs S2 of display panel 1.But, in different enforcement aspects, the distribution density that also can only have the first sept S1 is two times of display panel 1a, or to only have the distribution density of the second sept S2 be two times of display panel 1, or its multiple is not yet defined as and only has two times.In addition, other technical characterictic of display panel 1b can, with reference to the similar elements of display panel 1,1a, repeat no more.

In addition, as shown in Figure 2 C, different being that display panel 1c is main from the display panel 1b of Fig. 2 B, those first septs S1 of display panel 1c along the distribution density of first direction Y be those first septs S1 of same a line of display panel 1b along 1/2 times of first direction Y, and those second septs S2 of display panel 1c is that those second septs S2 of same a line of display panel 1b is along 1/2 times of first direction Y along the distribution density of first direction Y.In addition, those the first sept S1 of two adjacent lines and those second septs S2 are upper along first direction Y is the setting of staggering.In addition, other technical characterictic of display panel 1c can, with reference to the similar elements of display panel 1b, repeat no more.

In addition, as shown in Figure 2 D, different being that display panel 1d is main from the display panel 1c of Fig. 2 C, display panel 1d is in along on third direction Z, the filter layer 14 (outboard peripheries) of its part is covered by the shading section Z1 of black matrix" BM, comprise therefore the region of non-display area BB is also corresponding the filter layer 14 that part is covered by shading section Z1, viewing area AA corresponds to the region that filter layer 14 is not covered by shading section Z1.In addition, other technical characterictic of display panel 1d can, with reference to the similar elements of display panel 1c, repeat no more.

In addition, as shown in Figure 2 E, different being that display panel 1e is main from the display panel 1 of Figure 1A, display panel 1e is along on first direction Y, on the width of a pixel P, there are two the first sept S1, and on the width of a pixel P, also there are two the second sept S2, and upper along first direction Y, the first sept S1 and the second sept S2 are the setting of staggering.In addition, other technical characterictic of display panel 1e can, with reference to the similar elements of display panel 1, repeat no more.

In addition, as shown in Figure 2 F, different being that display panel 1f is main from the display panel 1 of Figure 1A, in display panel 1f, its first direction Y system is parallel in fact with the bearing of trend of those sweep traces, and second direction X is parallel in fact with the bearing of trend of those data lines.In other words, those of the present embodiment the first sept S1 and those second septs S2 correspondence are positioned at the upper and lower both sides of display panel 1f, and extension line L is from top to bottom, pass through those first septs S1 along second direction X, and by between two the second sept S2.In addition, other technical characterictic of display panel 1f can, with reference to the similar elements of display panel 1, repeat no more.

It should be noted that in above-mentioned all enforcement aspects, quantity, distribution density and the arrangement mode of those the first sept S1 and those second septs S2 just for example, unavailable with restriction the utility model.

In addition, please refer to shown in Fig. 3, it is the schematic diagram of a kind of display device 2 of the utility model preferred embodiment.

Display device 2 comprises a display panel 3 and a backlight module 4 (Backlight Module), and display panel 3 is oppositely arranged with backlight module 4.Wherein, display device 2 is a liquid crystal indicator, and display panel 3 comprise above-mentioned display panel 1,1a～1f one of them, its concrete technology contents can be with reference to above-mentioned, no longer explain more.The light E sending when backlight module 4 during through display panel 3, can form image by each pixel display color of display panel 3.

In sum, in display panel of the present utility model, multiple the first septs and multiple the second sept are corresponding to non-display area setting, and those first septs and the corresponding relative both sides that are positioned at viewing area of those second septs, in addition, extension line is along the second direction of vertical first direction during by one of them of those the first septs, and this extension line is by by between wantonly two adjacent those second septs; Or viewing area has the axis of symmetry that is parallel to first direction, and multiple the first septs and multiple the second sept correspondence are arranged at the first side and second side of axis of symmetry, and centered by axis of symmetry when mirror to the second side, those first septs and those the second septs stagger and are not overlapping corresponding to those first septs of the first side.By this, compare with existing display panels, because the corresponding sept that is positioned at non-display area both sides in display panel is the setting of staggering, therefore, display panel of the present utility model can improve the edge of viewing area because of the bright dark fringe phenomenon (improving Rubbing mura) that brightness disproportionation produces, and also can improve the clearance evenness degree of display panel and reduce the phenomenon (improving edge mura) of bright dark fringe.

The foregoing is only illustrative, but not be restricted person.Anyly do not depart from spirit of the present utility model and category, and equivalent modifications or change that it is carried out all should be contained in appended claim.

Claims (18)

1. a display panel, is characterized in that, described display panel comprises:

One first substrate, has a viewing area and is located on a non-display area of this viewing area;

One second substrate, is oppositely arranged with described first substrate;

One display dielectric layer, is arranged between described first substrate and described second substrate; And

Multiple the first septs and multiple the second sept, be arranged at respectively between described first substrate and described second substrate, and corresponding to described non-display area setting, described multiple the first sept and the corresponding relative both sides that are positioned at described viewing area of described multiple the second septs, and arrange along a first direction respectively

Wherein, an extension line is one of them by described multiple the first septs along a second direction of vertical described first direction, and by between wantonly two adjacent described multiple the second septs.

2. display panel according to claim 1, is characterized in that, described display panel more comprises:

One black-matrix layer, is arranged on described first substrate or described second substrate, and described black-matrix layer correspondence is covered in the position of described non-display area.

3. display panel according to claim 1, is characterized in that, described multiple the first septs or described multiple the second sept are periodic arrangement along described first direction.

4. display panel according to claim 1, is characterized in that, described display panel more comprises:

One chromatic filter layer, is arranged on described first substrate or described second substrate, and described chromatic filter layer correspondence is covered in the position of described viewing area.

5. display panel according to claim 1, is characterized in that, described display panel more comprises:

Multi-strip scanning line and many data lines, described multi-strip scanning line and described many data lines define multiple pixels, and it is rectangular that described multiple pixel arrangement become to be made up of described first direction and described second direction.

6. display panel according to claim 5, is characterized in that, described first direction is parallel with the bearing of trend of described many data lines, and described second direction is parallel with the bearing of trend of described multi-strip scanning line.

7. display panel according to claim 5, is characterized in that, described first direction is parallel with the bearing of trend of described multi-strip scanning line, and described second direction is parallel with the bearing of trend of described many data lines.

8. display panel according to claim 5, is characterized in that, described multiple the first septs or described multiple the second sept are less than the width of each described multiple pixels along described second direction along the width of described second direction.

9. display panel according to claim 5, is characterized in that, described display panel more comprises:

Multiple the 3rd septs, are arranged between described first substrate and described second substrate, described multiple the 3rd septs along described second direction corresponding to arranging between two neighbors.

10. a display panel, is characterized in that, described display panel comprises:

One first substrate, has a viewing area and is located on a non-display area of described viewing area, and described viewing area has an axis of symmetry that is parallel to a first direction, and the two opposite sides of described axis of symmetry are respectively one first side and one second side;

One second substrate, is oppositely arranged with described first substrate;

One display dielectric layer, is arranged between described first substrate and described second substrate; And

Multiple the first septs and multiple the second sept, be arranged at respectively between described first substrate and described second substrate, and corresponding to described non-display area setting, described multiple the first sept correspondence is arranged at described the first side, described multiple the second sept correspondence is arranged at described the second side, and described multiple the first sept and described multiple the second sept are arranged along described first direction respectively

Wherein, when corresponding to described multiple first septs of described the first side, centered by described axis of symmetry, mirror is to described the second side, described multiple the first septs and described multiple the second sept stagger and not overlapping.

11. display panels according to claim 10, it is characterized in that, definition forms multiple the first sept mirror points corresponding to described multiple first septs of described the first side when mirror is to described the second side centered by described axis of symmetry, one second sept is greater than the wherein distance of the second sept to adjacent described the first sept mirror point along described first direction described in to another adjacent second sept along the distance of described first direction.

12. display panels according to claim 10, is characterized in that, described display panel more comprises:

One chromatic filter layer, is arranged on described first substrate or described second substrate, and described chromatic filter layer correspondence is covered in the position of described viewing area.

13. display panels according to claim 10, is characterized in that, described display panel more comprises:

One black-matrix layer, is arranged on described first substrate or described second substrate, and described black-matrix layer is corresponding to described non-display area setting.

14. display panels according to claim 10, is characterized in that, described multiple the first septs or described multiple the second sept are periodic arrangement along described first direction.

15. display panels according to claim 10, is characterized in that, described display panel more comprises:

Multi-strip scanning line and many data lines, described multi-strip scanning line and described many data lines define multiple pixels, and it is rectangular that described multiple pixel arrangement become to be made up of described first direction and described second direction.

16. display panels according to claim 15, is characterized in that, described first direction is parallel with the bearing of trend of described many data lines, and described second direction is parallel with the bearing of trend of described multi-strip scanning line.

17. display panels according to claim 16, is characterized in that, described multiple the first septs or described multiple the second sept are less than the width of each described multiple pixels along described second direction along the width of described second direction.

18. display panels according to claim 15, is characterized in that, described display panel more comprises:

Multiple the 3rd septs, are arranged between described first substrate and described second substrate, described multiple the 3rd septs along described second direction corresponding to arranging between two neighbors.