CN104049418A - Display panel - Google Patents

Abstract

A display panel comprises a first substrate, a second substrate, a display medium layer, at least one main spacer, a shading part, a plurality of first sub-pixels and a plurality of second sub-pixels. The first substrate has a first penetration region and a second penetration region. The display medium layer is arranged between the first substrate and the second substrate. The main spacer and the light shielding part are arranged between the first substrate and the second substrate, and the orthographic projection of the main spacer on the first substrate is located in the first penetrating region and is located in the orthographic projection of the light shielding part on the first substrate. The first sub-pixel and the second sub-pixel are respectively arranged on the first penetrating region and the second penetrating region and are both positioned between the display medium layer and the first substrate. The display medium layer corresponding to the first sub-pixel and the second sub-pixel has a first gap and a second gap, respectively, and the first gap is larger than the second gap.

Description

Display panel

[technical field]

The invention relates to a kind of display panel, and particularly relevant for a kind of high-res display panel.

[background technology]

Along with display panel industry is day by day ripe, display panel is also widely applied on various product, and so that diversified show image to be provided, wherein display panel can utilize display medium to adjust show image.Display medium is to be filled between two plate bases of display panel, and when voltage is provided, display medium can be done to switch between bright/dark state, to produce whereby different show images.

In order to make to keep certain spacing between two plate bases, display panel can comprise sept, is placed between two plate bases, the material of usining as constant spacing.For example can first sept be fixed therein on a substrate, again two plate bases be carried out bit pattern afterwards.Yet in the middle of the process of high-res (HighPPI) display panel combination, sept may produce contraposition is forbidden or another substrate of scratch, causes sept periphery light leak situation to occur.When using light shield layer to cover the region of sept periphery possibility scratch, cause the aperture opening ratio of an investigate things periphery sub-pixel not enough, thereby produce point-like moire (DotMura), and how to compensate the aperture opening ratio loss that light shield layer causes, be a problem extremely to be solved.

[summary of the invention]

An aspect of the present invention provides a kind of display panel, comprises first substrate, second substrate, display dielectric layer, at least one primary divider, light shielding part, a plurality of the first sub-pixel and a plurality of the second sub-pixel.First substrate has the first penetration region and the second penetration region.Second substrate and first substrate are oppositely arranged.Display medium is placed between first substrate and second substrate.Primary divider is placed between first substrate and second substrate, and primary divider falls within the first penetration region in the orthogonal projection of first substrate.Light shielding part is placed between first substrate and second substrate, and primary divider is arranged in light shielding part in the orthogonal projection of first substrate.The first sub-pixel is placed in the first penetration region of first substrate, and between display dielectric layer and first substrate.The first sub-pixel is around primary divider.The partial display dielectric layer of corresponding first sub-pixel has the first gap.The second at least part of sub-pixel is placed in the second penetration region of first substrate, and between display dielectric layer and first substrate.The partial display dielectric layer of corresponding the second sub-pixel has the second gap, and the first gap is greater than the second gap.

In one or more embodiment, each first sub-pixel and the second sub-pixel comprise respectively the first transparency conducting layer, dielectric layer and the second transparency conducting layer.The first electrically conducting transparent is placed between display dielectric layer and first substrate.Dielectric layer is placed between display dielectric layer and the first transparency conducting layer.The second electrically conducting transparent is placed between display dielectric layer and dielectric layer.

In one or more embodiment, the first transparency conducting layer is pixel electrode, and the second transparency conducting layer is common electrode.

In one or more embodiment, the second transparency conducting layer has a plurality of openings.

In one or more embodiment, the first transparency conducting layer is common electrode, and the second transparency conducting layer is pixel electrode.

In one or more embodiment, display panel more comprises protective seam, be placed between the first sub-pixel and first substrate, and between the second sub-pixel and first substrate.The protective seam of corresponding first sub-pixel has first area thickness, and the protective seam of corresponding the second sub-pixel has second area thickness, and second area thickness is greater than first area thickness.

In one or more embodiment, display panel more comprises the first protective seam and the second protective seam.The first protective seam is placed between the first sub-pixel and first substrate, and between the second sub-pixel and first substrate, the first protective seam has the first thickness.The second protective seam is placed between the first protective seam and the second sub-pixel, and is not arranged between the first protective seam and the first sub-pixel, and the second protective seam has the second thickness.

In one or more embodiment, light shielding part is placed between display dielectric layer and second substrate.

In one or more embodiment, light shielding part is placed between display dielectric layer and first substrate.

In one or more embodiment, the first sub-pixel in the orthogonal projection of first substrate around primary divider in the orthogonal projection of first substrate.

In one or more embodiment, part the second sub-pixel is positioned in the first penetration region.

In one or more embodiment, the difference in the first gap and the second gap is approximately 0.4 micron to 1 micron.

In one or more embodiment, display panel more comprises at least one secondary sept, be placed between first substrate and second substrate, and the length of secondary sept can be shorter than the length of primary divider.

Because the gap length of display dielectric layer and the penetrance of display dielectric layer are proportionate, that is gap is larger, penetrance is higher, and the gap length that therefore the display panel utilization of above-mentioned embodiment changes display dielectric layer is to adjust its penetrance, and then the loss of compensation light shielding part aperture opening ratio.

[accompanying drawing explanation]

For above-mentioned purpose of the present invention, feature and advantage can be become apparent, below in conjunction with accompanying drawing, the specific embodiment of the present invention is elaborated.

Fig. 1 is the top view of the display panel of an embodiment of the present invention.

Fig. 2 A is the sectional view along the line segment A-A of Fig. 1.

Fig. 2 B is the sectional view along an embodiment of the line segment B-B of Fig. 1.

Fig. 3 is the sectional view along another embodiment of the line segment B-B of Fig. 1.

Fig. 4 is the sectional view along the another embodiment of the line segment A-A of Fig. 1.

Fig. 5 is the top view of the display panel of another embodiment of the present invention.

Fig. 6 is the sectional view along the line segment C-C of Fig. 5.

Fig. 7 is the top view of the display panel of another embodiment of the present invention.

Fig. 8 is the top view of the display panel of the another embodiment of the present invention.

[symbol description]

110: 112: the first penetration region of first substrate

Within 114: the second, penetration region 120: second substrate

130: display dielectric layer 140: primary divider

145: secondary sept 150,150a: light shielding part

155: 160: the first sub-pixels of black matrix"

162,162a: the first transparency conducting layer 164: dielectric layer

166,166a: the second transparency conducting layer 167: opening

168: 170: the second sub-pixels of bridging line

180: 190: the first protective seams of protective seam

Within 195: the second, protective seam 210: sweep trace

220: data line 230: filter layer

A-A, B-B, C-C: line segment G1: the first gap

G2: the second gap T1: first area thickness

T2: 3: the first thickness of second area thickness T

T4: the second thickness

[embodiment]

Below will be with graphic exposure a plurality of embodiments of the present invention, as clearly stated, the details in many practices will be explained in the following description.Yet, should be appreciated that, the details in the plurality of practice does not apply to limit the present invention.That is to say, in part embodiment of the present invention, the details in the plurality of practice is non-essential.In addition,, for the purpose of simplicity of illustration, some known habitual structures and element middlely illustrate the mode simply to illustrate graphic.

Please with reference to Fig. 1 to Fig. 2 B, wherein, the top view of the display panel that Fig. 1 is an embodiment of the present invention, Fig. 2 A is the sectional view along the line segment A-A of Fig. 1, and Fig. 2 B is the sectional view along an embodiment of the line segment B-B of Fig. 1.Display panel comprises first substrate 110, second substrate 120, display dielectric layer 130, at least one primary divider 140, light shielding part 150, a plurality of the first sub-pixel 160 and a plurality of the second sub-pixels 170.First substrate 110 can be glass substrate, flexible base plate, plastic substrate, flexible base plate etc. with second substrate 120, but is not limited to this.Display dielectric layer 130 can be liquid crystal layer, electric wet material layer, layer of electrophoretic material etc., but is not limited to this.Liquid crystal layer can be eurymeric liquid crystal layer or negative type liquid crystal layer etc.Primary divider 140 is such as can be a column spacer or a spherical sept etc., and primary divider 140 can be consisted of photoresist, forms photoresistance sept.Light shielding part 150 is a patterning light shield layer, can form together with black matrix", or by a light screening material, be formed separately.Above-mentioned each structure and material know that by this area the knowledgeable is known conventionally, therefore repeat no more.First substrate 110 has the first penetration region 112 and the second penetration region 114.Second substrate 120 is oppositely arranged with first substrate 110.Display dielectric layer 130 is placed between first substrate 110 and second substrate 120.Primary divider 140 is placed between first substrate 110 and second substrate 120, and primary divider 140 falls within the first penetration region 112 in the orthogonal projection of first substrate 110.Light shielding part 150 is placed between first substrate 110 and second substrate 120, and primary divider 140 is arranged in light shielding part 150 in the orthogonal projection of first substrate 110.The first sub-pixel 160 is placed in the first penetration region 112 of first substrate 110, and between display dielectric layer 130 and first substrate 110.The partial display dielectric layer 130 of corresponding first sub-pixel 160 has the first clearance G 1.The second at least part of sub-pixel 170 is placed in the second penetration region 114 of first substrate 110, and between display dielectric layer 130 and first substrate 110.For example, in Fig. 1, the second sub-pixel 170 is all placed in the second penetration region 114.The partial display dielectric layer 130 of corresponding the second sub-pixel 170 has the second clearance G 2, the first clearance G 1 and is greater than the second clearance G 2.Take liquid crystal layer as example, and the first clearance G 1 and the second clearance G 2 are equivalent to respectively the cel-gap (Cell Gap) at this two place.Wherein, for graphic clear, in sectional view herein, other elements between protective seam 180 and first substrate 110 omit all.

In the present embodiment, the first clearance G 1 and the second clearance G 2 are all corresponding to the thickness of display dielectric layer 130, and the first penetration region 112 and the second penetration region 114 are all the region district that can allow visible ray penetrate.Display panel more comprises a plurality of sweep traces 210 and a plurality of data lines 220 in addition, and sweep trace 210 is crisscross arranged with data line 220, and then defines the first sub-pixel 160 and the second sub-pixel 170.

Take liquid crystal layer as example, because the penetrance of display dielectric layer 130 and the gap length herein of display dielectric layer 130 are proportionate, that is gap is larger, penetrance is higher, therefore the gap length that the display panel utilization of present embodiment changes display dielectric layer 130 to be to adjust its penetrance, and then the aperture opening ratio that loses of compensation light shielding part 150.Specifically, primary divider 140 is as the material that keeps constant spacing between first substrate 110 and second substrate 120, in the middle of the process of first substrate 110 and 120 pairs of bit patterns of second substrate, primary divider 140 may be forbidden or scratch first substrate 110 in contraposition, causes primary divider 140 periphery light leak situations to occur.Therefore in the present embodiment, the area of light shielding part 150 can strengthen, to cover possible light leak region.Just so-so one, light shielding part 150 also can cover the penetration region of its contiguous pixel cell (being for example the first sub-pixel 160 in the present embodiment), thereby aperture opening ratio is declined, near causing light shielding part 150, brightness declines and forms point-like moire (DotMura), thereby causes the flaw Shared-with of show image.So the first clearance G 1 of capable of regulating corresponding first sub-pixel 160, make the first clearance G 1 be greater than the second clearance G 2 (wherein the second sub-pixel 170 is not covered by light shielding part 150 in vertical direction in the present embodiment), improve the penetrance of the first sub-pixel 160, to compensate 160 damnous aperture opening ratios of light shielding part 150 periphery the first sub-pixels.

Then please refer to Fig. 2 A.In one or more embodiment, the first clearance G 1 for example can be approximately 3.8 microns to 4.4 microns, and the second clearance G 2 for example can be approximately 3.4 microns, therefore the difference of the first clearance G 1 and the second clearance G 2 is approximately 0.4 micron to 1 micron, yet the present invention is not as limit.When the display medium of display dielectric layer 130 is liquid crystal molecule, above-mentioned difference range can allow display panel reach the effect that changes penetrance, and compensation aperture opening ratio loss, make the shown rough equalization twice of the first sub-pixel 160 and the second sub-pixel 170, therefore can solve the problem of point-like moire (Dot Mura).

In the present embodiment, display panel more comprises protective seam 180, be placed between the first sub-pixel 160 and first substrate 110, and between the second sub-pixel 170 and first substrate 110.The protective seam 180 of corresponding first sub-pixel 160 has first area thickness T 1, and the protective seam 180 of corresponding the second sub-pixel 170 has second area thickness T 2, and second area thickness T 2 is greater than first area thickness T 1.Specifically, can reach by the thickness of adjusting protective seam 180 display dielectric layer 130 of different gap.As shown in the figure, between display dielectric layer 130, the thickness of gap and protective seam 180 is inversely proportional to, and that is to say that the thickness of protective seam 180 is less, and between display dielectric layer 130, gap is larger.Because second area thickness T 2 is greater than first area thickness T 1, therefore the first clearance G 1 is greater than the second clearance G 2.The protective seam 180 of different-thickness for example can be used shadow tone light shield (Half-Tone Mask) processing procedure or masstone light shield (Multi-Tone Mask) processing procedure to reach, yet the present invention is not as limit.

Then please refer to Fig. 3, it is the sectional view along another embodiment of the line segment B-B of Fig. 1, wherein for graphic clear, at the first protective seam 190 of Fig. 3 and other elements between first substrate 110, all omits.The different structures that are in protective seam of present embodiment and the embodiment of Fig. 2 B.In the present embodiment, display panel more comprises the first protective seam 190 and the second protective seam 195.The first protective seam 190 is placed between the first sub-pixel 160 and first substrate 110, and between the second sub-pixel 170 and first substrate 110, the first protective seam 190 has the first thickness T 3.The second protective seam 195 is placed between the first protective seam 190 and the second sub-pixel 170, and is not arranged between the first protective seam 190 and the first sub-pixel 160, and the second protective seam 195 has the second thickness T 4.Specifically by the existence of the second protective seam 195 whether,, can determine the gap length of display dielectric layer 130, that is to say, the existence of the second protective seam 195 can be dwindled the gap of display dielectric layer 130.4 of second thickness T of the second protective seam 195 are the difference of the first clearance G 1 and the second clearance G 2, and it can be approximately 0.4 micron to 1 micron.In addition, the first protective seam 190 and the second protective seam 195 can be unlike material, and wherein the first protective seam 190 is for example organic material layer, and the second protective seam 195 can be inorganic material layer, yet the present invention is not as limit.In one or more embodiment; can select to remove with etching mode part second protective seam 195 of corresponding first sub-pixel 160; in the situation that the first protective seam 190 and the second protective seam 195 are unlike material; the first protective seam 190 can be used as the etching stopping layer of the second protective seam 195, can make thus the difference of the first clearance G 1 and the second clearance G 2 more accurate.As for other details of present embodiment, because of identical with the embodiment of Fig. 2 B, therefore just repeat no more.

Then go back to Fig. 2 A.In the present embodiment, light shielding part 150 is placed between display dielectric layer 130 and second substrate 120.First substrate 110 and between first substrate 110 and display dielectric layer 130 each element for example can form active element substrate.Display panel can more comprise filter layer 230 in addition, second substrate 120 and between second substrate 120 and display dielectric layer 130 each element for example can consist of the subtend substrate that comprises filter layer 230, the corresponding filter layer 230 of each sub-pixel can be spaced apart by black matrix" (Black Matrix) 155, and light shielding part 150 can be made in the lump with black matrix" 155, yet the present invention is not as limit.

Then please refer to Fig. 4, it is the sectional view along the another embodiment of the line segment A-A of Fig. 1.The different positions that are in light shielding part of present embodiment and the embodiment of Fig. 2 A.In the present embodiment, light shielding part 150a is placed between display dielectric layer 130 and first substrate 110.First substrate 110 and between first substrate 110 and display dielectric layer 130 each element for example can form active element substrate (the Color Filter on Array that comprises filter layer (not illustrating), and second substrate 120 is for example glass substrate COA).As shown in the figure, light shielding part 150a can be placed between first substrate 110 and protective seam 180, and the material of light shielding part 150a is for example metal.And in other embodiment, display panel can more comprise black matrix" (not illustrating), be placed between display dielectric layer 130 and first substrate 110, and light shielding part 150a can make in the lump with black matrix", yet not invent not as limit.As for other details of present embodiment, because of identical with the embodiment of Fig. 2 A, therefore just repeat no more.

Then go back to Fig. 2 B.In the present embodiment, each first sub-pixel 160 and the second sub-pixel 170 comprise respectively the first transparency conducting layer 162, dielectric layer 164 and the second transparency conducting layer 166.The first transparency conducting layer 162 is placed between display dielectric layer 130 and first substrate 110.Dielectric layer 164 is placed between display dielectric layer 130 and the first transparency conducting layer 162.The second transparency conducting layer 166 is placed between display dielectric layer 130 and dielectric layer 164.This kind of structure can be applicable to the display panels that boundary electric field switches (Fringe Field Switching, FFS) technology.This kind of structure also can be applicable to the display panels (not illustrating) that copline is switched (In-Plane Switching, IPS) technology.By applying voltages to respectively between the first transparency conducting layer 162 and the second transparency conducting layer 166, the first sub-pixel 160 and the second sub-pixel 170 all can produce horizontal component of electric field, to control bright/dark state of display dielectric layer 130, switch.In the present embodiment, the first transparency conducting layer 162 can be common electrode, and the second transparency conducting layer 166 can be pixel electrode.

Yet the present invention is not limited with above-mentioned structure.Then please with reference to Fig. 5 and Fig. 6, wherein Fig. 5 is the top view of the display panel of another embodiment of the present invention, and Fig. 6 is the sectional view along the line segment C-C of Fig. 5.Present embodiment is in the position of common electrode and pixel electrode from the different of embodiment of Fig. 1.In the present embodiment, the first transparency conducting layer 162a can be pixel electrode, and the second transparency conducting layer 166a can be common electrode.Wherein between the second transparency conducting layer 166a, can bridging line 168 be electrically connected.In addition, in the present embodiment, the second transparency conducting layer 166a can have a plurality of openings 167, in order to control the orientation of the display medium in display dielectric layer 130.As for other details of present embodiment, because of identical with the embodiment of Fig. 1, therefore just repeat no more.

Then go back to Fig. 2 A.In the present embodiment, display panel more comprises at least one secondary sept 145, be placed between first substrate 110 and second substrate 120, and the length of secondary sept 145 can be shorter than the length of primary divider 140, make secondary sept 145 directly do not contact first substrate 110 and second substrate 120 one of them.Secondary sept 145 can fall within the first penetration region 112 and/or the second penetration region 114 in the orthogonal projection of first substrate 110, and the present invention is not as limit.Secondary sept 145 can make when being subjected to crunch between first substrate 110 and second substrate 120 in order to auxiliary primary divider 140, and secondary sept 145 can avoid first substrate 110 and second substrate 120 mutually to collide and damage.

Then go back to Fig. 1 and Fig. 2 A.In the present embodiment, the first sub-pixel 160 is rough around primary divider 140, and the first sub-pixel 160 in the orthogonal projection of first substrate 110 around primary divider 140 in the orthogonal projection of first substrate 110.With Fig. 1, the quantity of the first sub-pixel 160 is four, and the plurality of the first sub-pixel 160 is all partly covered by light shielding part 150 in vertical direction, therefore by tool, compared with the first sub-pixel 160 of high penetration (comparing with the second sub-pixel 170), can compensate the brightness of light shielding part 150 surroundings, for example the penetrance of each the first sub-pixel 160 can promote 8%, to reduce the problem of point-like moire, avoid producing image quality flaw Shared-with.

Then please refer to Fig. 7, the top view of its display panel that is another embodiment of the present invention.Present embodiment is in the number of area and first sub-pixel 160 of the first penetration region 112 from the different of embodiment of Fig. 1.In the present embodiment, the number of the first sub-pixel 160 is six, the region that the first penetration region 112 contains in the orthogonal projection of first substrate 110 for the plurality of the first sub-pixel 160.Compared to Fig. 1, because of the number of the first sub-pixel 160 of present embodiment more, therefore the penetrance of each the first sub-pixel 160 can be low compared with the first sub-pixel 160 of Fig. 1 a little, for example, compared with the penetrance of the second sub-pixel 170, increase by 6%, yet the present invention is not as limit.Thus, difference between first area thickness T 1 and first area thickness T 2 (all as Fig. 2 B illustrates) or between the first thickness T 3 and the second thickness T 4 (all as Fig. 3 illustrates) can, at a distance of too large, therefore can not avoid display medium placed on it to produce wrong row.As for other details of present embodiment, because of identical with the embodiment of Fig. 1, therefore just repeat no more.

Then please refer to Fig. 8, the top view of its display panel that is the another embodiment of the present invention.Present embodiment is in the number of the first sub-pixel 160 from the different of embodiment of Fig. 1.In the present embodiment, the number of the first sub-pixel 160 is two, and the second sub-pixel 170 of part is positioned in the first penetration region 112.The penetrance of the first sub-pixel 160 can adjust according to its number, for example, compared with the penetrance of the second sub-pixel 170, increase by 16%, yet the present invention is not as limit.As for other details of present embodiment, because of identical with the embodiment of Fig. 1, therefore just repeat no more.

In the respective embodiments described above, the display medium of display dielectric layer 130 can be liquid crystal molecule (that is display panel is display panels), can be the electrophoretic display materials (that is display panel is electrophoretic display panel) of microcapsules or can be the moistening display material of electricity (that is display panel is Electrowetting display panel) of polar molecule, and the present invention is not as limit.

The invention provides above-mentioned structure, adjust the gap of light shielding part the first sub-pixel around, make the first gap of the first sub-pixel be greater than the second gap of the second sub-pixel.Because the gap length of display dielectric layer and the penetrance of display dielectric layer are proportionate, that is gap is larger, penetrance is higher, therefore the gap length that the display panel utilization of above-mentioned embodiment changes display dielectric layer is to adjust its penetrance, and then the compensation light shielding part loss of the first sub-pixel aperture opening ratio around, make the rough equalization of display brightness of the first sub-pixel and the second sub-pixel, reduce the problem of point-like moire.

Although the present invention discloses as above with embodiment; so it is not in order to limit the present invention, anyly has the knack of this skill person, without departing from the spirit and scope of the present invention; when being used for a variety of modifications and variations, so protection scope of the present invention is when being as the criterion depending on the accompanying claim person of defining.

Claims (13)

1. a display panel, comprises:

One first substrate, has one first penetration region and one second penetration region;

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

One display dielectric layer, is placed between this first substrate and this second substrate;

At least one primary divider, is placed between this first substrate and this second substrate, and this primary divider falls within this first penetration region in the orthogonal projection of this first substrate;

One light shielding part, is placed between this first substrate and this second substrate, and this primary divider is arranged in this light shielding part in the orthogonal projection of this first substrate;

A plurality of the first sub-pixels, be placed in this first penetration region of this first substrate, and between this display dielectric layer and this first substrate, the plurality of the first sub-pixel is around this primary divider, and wherein this display dielectric layer of the part of corresponding the plurality of the first sub-pixel has one first gap; And

A plurality of the second sub-pixels, at least part of the plurality of the second sub-pixel is placed in this second penetration region of this first substrate, and between this display dielectric layer and this first substrate, wherein this display dielectric layer of the part of corresponding the plurality of the second sub-pixel has one second gap, and this first gap is greater than this second gap.

2. display panel as claimed in claim 1, is characterized in that, each the plurality of first sub-pixel and the plurality of the second sub-pixel comprise respectively;

One first transparency conducting layer, is placed between this display dielectric layer and this first substrate;

One dielectric layer, is placed between this display dielectric layer and this first transparency conducting layer; And

One second transparency conducting layer, is placed between this display dielectric layer and this dielectric layer.

3. display panel as claimed in claim 2, is characterized in that, this first transparency conducting layer is a pixel electrode, and this second transparency conducting layer is community electrode.

4. display panel as claimed in claim 2, is characterized in that, the plurality of the second transparency conducting layer has a plurality of openings.

5. display panel as claimed in claim 2, is characterized in that, this first transparency conducting layer is community electrode, and this second transparency conducting layer is a pixel electrode.

6. display panel as claimed in claim 1, is characterized in that, more comprises:

One protective seam; be placed between this first sub-pixel and this first substrate; and between this second sub-pixel and this first substrate; this protective seam that should the first sub-pixel is had to a first area thickness; this protective seam that should the second sub-pixel is had to a second area thickness, and this second area thickness is greater than this first area thickness.

7. display panel as claimed in claim 1, is characterized in that, more comprises:

One first protective seam, is placed between this first sub-pixel and this first substrate, and between this second sub-pixel and this first substrate, this first protective seam has one first thickness; And

One second protective seam, is placed between this first protective seam and this second sub-pixel, and is not arranged between this first protective seam and this first sub-pixel, and this second protective seam has one second thickness.

8. display panel as claimed in claim 1, is characterized in that, this light shielding part is placed between this display dielectric layer and this second substrate.

9. display panel as claimed in claim 1, is characterized in that, this light shielding part is placed between this display dielectric layer and this first substrate.

10. display panel as claimed in claim 1, is characterized in that, the plurality of the first sub-pixel in the orthogonal projection of this first substrate around this primary divider in the orthogonal projection of this first substrate.

11. display panels as claimed in claim 1, is characterized in that, the plurality of the second sub-pixel of part is positioned in this first penetration region.

12. display panels as claimed in claim 1, is characterized in that, the difference in this first gap and this second gap is approximately 0.4 micron to 1 micron.

13. display panels as claimed in claim 1, is characterized in that, more comprise:

At least one secondary sept, is placed between this first substrate and this second substrate, and the length that is shorter in length than this primary divider of this pair sept.