CN109036121A - A kind of display panel - Google Patents

Abstract

The embodiment of the present invention provides a kind of display panel, and the boundary line of viewing area and non-display area includes the broken line by being connected to form along the line segment of first direction and second direction extension；In the display area, using the parallelogram region that two neighboring line segment is adjacent side formation as first area；Display panel further includes a variety of light-shielding structures positioned at viewing area, different light-shielding structures has different light penetrations, light-shielding structure at least partly covers first area, and light-shielding structure is located at the light emission side of display panel and at least partly blocks the open region of first area sub-pixel；In the first region, the direction of viewing area is directed toward along non-display area and the light penetration of sub-pixel arranged is gradually increased in a first direction and/or in second direction；There are the open regions of at least one sub-pixel in first area is blocked by a variety of light-shielding structures.The embodiment of the present invention provides a kind of display panel, eliminates jagged display bad phenomenon to realize.

Description

A kind of display panel

Technical field

The present embodiments relate to field of display technology more particularly to a kind of display panels.

Background technique

With the fast development of display technology, display device in the electronic device using more and more extensive, make people couple The requirement of display device is higher and higher, the performance indicators such as large scale, the fine definition of display panel is no longer only satisfied with, to display The shape of panel has higher requirement, occurs special-shaped display panel thus.

Compared with existing conventional display panels, the main distinction of special-shaped display panel is that round, arc is presented in its viewing area The non-rectangle special shape such as shape, diamond shape, trapezoidal.But the pixel unit in conventional display panels be mostly rectangular configuration or its Its more regular structure, therefore, in the fringe region of special-shaped display panel, the boundary line of pixel unit and special-shaped display panel It cannot exactly match, jagged display bad phenomenon can be presented in display in special-shaped display panel.

Summary of the invention

The embodiment of the present invention provides a kind of display panel, eliminates jagged display bad phenomenon to realize.

The embodiment of the present invention provides a kind of display panel, comprising:

First substrate and multiple pixel units positioned at the first substrate side, the multiple pixel unit is along first party To with second direction array arrangement；Each pixel unit includes multiple sub-pixels, and each sub-pixel is provided with opening Area；

The display panel includes viewing area and non-display area, and the viewing area and the boundary line of the non-display area include By the broken line being connected to form along the line segment of the first direction and second direction extension；In the viewing area, with adjacent Two line segments are that the parallelogram region that adjacent side is formed is first area；

The display panel further includes a variety of light-shielding structures positioned at the viewing area, and the different light-shielding structures has Different light penetrations, the light-shielding structure at least partly cover the first area, and the light-shielding structure is located at described aobvious Show the light emission side of panel and at least partly blocks the open region of the first area sub-pixel；In the first area, edge The non-display area is directed toward the direction of the viewing area and described in arranging on the first direction and/or the second direction The light penetration of sub-pixel is gradually increased, and the light penetration is that the light that the sub-pixel issues passes through the light-shielding structure Light intensity afterwards and the ratio by the light intensity before the light-shielding structure；Opening there are at least one sub-pixel in the first area It is blocked by a variety of light-shielding structures mouth region.

Further, the parallelogram region formed using the side of the two neighboring first area as adjacent side is the secondth area Domain；A variety of light-shielding structures also at least partly cover the second area；In the second region, along the non-display area The light of the sub-pixel for being directed toward the direction of the viewing area and arranging on the first direction and/or the second direction Transmitance is gradually increased.

Further, the light penetration of all sub-pixels is identical in the same pixel unit.

Further, the first area is equal to the sub-pixel along the first direction along the length of the first direction On length；And/or the first area is equal to the sub-pixel in the second direction along the length of the second direction Length.

Further, in the first area, the direction of the viewing area is directed toward along the non-display area and described The light penetration for the sub-pixel arranged on first direction and/or the second direction, which is gradually increased, includes:

In the first area, the direction of the viewing area is directed toward along the non-display area and in the first direction And/or the shading-area for the sub-pixel arranged in the second direction is gradually reduced, the shading-area of the sub-pixel is Frontal projected area of the light-shielding structure in the open region of the sub-pixel.

Further, the display panel further includes black matrix, upright projection of the black matrix in the first substrate Between the two neighboring sub-pixel, the light-shielding structure and the black matrix use same material shape in same technique At.

Further, the light-shielding structure includes latticed light-shielding structure and/or strip light-shielding structure.

Further, in the first area, along the first direction and/or the second direction, and by described non- Viewing area is directed toward on the direction of the viewing area, and the latticed light-shielding structure is located at the non-display area and the strip shading Between structure.

Further, in the first area, the direction of the viewing area is directed toward along the non-display area and described The light penetration for the sub-pixel arranged on first direction and/or the second direction, which is gradually increased, includes:

In the first area, the direction of the viewing area is directed toward along the non-display area and in the first direction And/or the material transmissivity for the light-shielding structure arranged in the second direction is gradually increased.

Further, the display panel further includes the second substrate, and it is close that the light-shielding structure is located at the second substrate The side of the first substrate.

Display panel provided in an embodiment of the present invention, the intersection in viewing area and non-display area, the open region of sub-pixel It is blocked by light-shielding structure and at least partly capped, and there is the sub-pixel blocked by least two light-shielding structures, it is different Light-shielding structure is different to the coverage extent of sub-pixel, antithetical phrase low to the light penetration of the light-shielding structure of sub-pixel serious shielding The light penetration that pixel blocks not serious light-shielding structure is high, along the direction that non-display area is directed toward viewing area, sub-pixel Light penetration gradually increases, it is often more important that, since a sub-pixel corresponds at least two light-shielding structures, along non-display area It is directed toward on the direction of viewing area, light penetration gradually increases in the same sub-pixel, corresponds only to relative to a sub-pixel For a kind of light-shielding structure, there is display panel provided in an embodiment of the present invention more careful light penetration to change, thus The edge of viewing area is blurred, does not have apparent zigzag fashion, eliminates jagged display bad phenomenon, reached round and smooth Edge display effect.

Detailed description of the invention

Fig. 1 is a kind of overlooking structure diagram for display panel that the embodiment of the present invention one provides；

Fig. 2 is a kind of enlarged structure schematic diagram in the region S1 in Fig. 1；

Fig. 3 is a kind of enlarged structure schematic diagram in the region S2 in Fig. 2；

Fig. 4 is a kind of the schematic diagram of the section structure of the AA ' along Fig. 3；

Fig. 5 is another enlarged structure schematic diagram in the region S2 in Fig. 2；

Another enlarged structure schematic diagram in the region S1 in Fig. 1 that Fig. 6 provides for embodiment two.

Specific embodiment

It is of the invention to reach the technical means and efficacy that predetermined goal of the invention is taken further to illustrate, below in conjunction with Attached drawing and preferred embodiment, to a kind of specific embodiment of display panel proposed according to the present invention, structure, feature and its function Effect, detailed description is as follows.

Embodiment one

Fig. 1 is a kind of overlooking structure diagram for display panel that the embodiment of the present invention one provides, and Fig. 2 is the area Tu1Zhong S1 A kind of enlarged structure schematic diagram in domain, Fig. 3 are a kind of enlarged structure schematic diagram in the region S2 in Fig. 2, with reference to Fig. 1 and Fig. 2, display Panel includes viewing area 110 and non-display area 120, and the boundary line of viewing area 110 and non-display area 120 includes straight line and curve, That is, the edge of viewing area 110 is made of straight line and curve, rather than just straight line.The edge of viewing area 110 is curve And position is located at the corner of display panel, is commonly called as the angle R；The edge of viewing area 110 is curve and position is located at display panel One side edge simultaneously forms groove, is commonly referred to as special-shaped display panel or fringe screen or comprehensively screen with reeded display panel. One section of curve at the edge of viewing area 110 shown in Fig. 1 is actually the macro manifestations of a large amount of broken lines, the microcosmic situation of curve As shown in Figure 2.It is understood that display panel provided in an embodiment of the present invention can be aobvious for abnormity as shown in Figure 1 Show panel, or viewing area is the display panel of rectangle, as long as the edge of viewing area includes curve.Viewing area 110 Boundary line with non-display area 120 includes the broken line L by being connected to form along the line segment of first direction X and second direction Y extension.? In viewing area 110, the parallelogram region formed by adjacent side of two neighboring line segment is first area 121.Illustratively, it rolls over Line L includes line segment AB and line segment BC, and line segment AB is adjacent with line segment BC and shares the same terminal B, is with line segment AB and line segment BC The parallelogram region that adjacent side is formed is a first area 121.

Display panel includes first substrate 10 and multiple pixel units 30 positioned at 10 side of first substrate, multiple pixel lists Member 30 is arranged along first direction X and second direction Y array, and optionally, multiple pixel units 30 are along first direction X and second direction The arrangement of Y matrix.Along first direction X, multiple arrangements of pixel unit 30 are in a row；In a second direction on Y, multiple pixel units 30 It is arranged in a column.Each pixel unit 30 includes multiple sub-pixels, and each sub-pixel is provided with open region, the open region of sub-pixel For light emitting region.The light that backlight (not shown) issues can be emitted to outside display panel by the open region of sub-pixel, To realize luminescence display.Optionally, each pixel unit 30 includes that three sub-pixels are named as the ease of distinguishing First sub-pixel 31, the second sub-pixel 32 and third sub-pixel 33.It should be noted that the embodiment of the present invention is for a pixel Without limitation, in other embodiments, a pixel unit 30 can also include it to the sub-pixel quantity for including in unit 30 The sub-pixel of his quantity, such as a pixel unit 30 may include 4 sub-pixels.

With reference to Fig. 2, display panel further includes a variety of light-shielding structures 40 positioned at viewing area 110, different light-shielding structures 40 With different light penetrations, light-shielding structure 40 at least partly covers first area 121, and light-shielding structure 40 is located at display panel Light emission side and at least partly block the open region of 121 sub-pixel of first area.Illustratively, it is first that light-shielding structure 40, which divides, Light-shielding structure 41 and the second light-shielding structure 42, light-shielding structure 40 all cover first area 121.In first area 121, along non- The light penetration for the sub-pixel that viewing area 120 is directed toward the direction of viewing area 110 and arranges on second direction Y is gradually increased, Light penetration is that the light that sub-pixel issues passes through the light intensity after light-shielding structure 40 and the ratio by the light intensity before light-shielding structure 40 It is worth, there are the open regions of at least one sub-pixel in first area 121 is blocked by a variety of light-shielding structures 40.In other embodiments It can also be to be directed toward the direction of viewing area 110 along non-display area 120 and the light of sub-pixel arranged on X is saturating in a first direction The rate of mistake is gradually increased, alternatively, being directed toward the direction of viewing area 110 along non-display area 120 and in a first direction on X and in second party The light penetration for the sub-pixel arranged on Y is gradually increased.

Display panel provided in an embodiment of the present invention, the intersection in viewing area and non-display area, the open region of sub-pixel It is blocked by light-shielding structure and at least partly capped, and there is the sub-pixel blocked by least two light-shielding structures, it is different Light-shielding structure is different to the coverage extent of sub-pixel, antithetical phrase low to the light penetration of the light-shielding structure of sub-pixel serious shielding The light penetration that pixel blocks not serious light-shielding structure is high, along the direction that non-display area is directed toward viewing area, sub-pixel Light penetration gradually increases, it is often more important that, since a sub-pixel corresponds at least two light-shielding structures, along non-display area It is directed toward on the direction of viewing area, light penetration gradually increases in the same sub-pixel, corresponds only to relative to a sub-pixel For a kind of light-shielding structure, there is display panel provided in an embodiment of the present invention more careful light penetration to change, thus Blur the edge of viewing area, there is no apparent zigzag fashions, eliminate jagged display bad phenomenon, have reached round and smooth Edge display effect.

It is understood that there are various ways to realize that different light-shielding structures have different light penetrations, it is exemplary Ground can be made light-shielding structure of lighttight material, and light-shielding structure is made to have transmission region and light tight region, be led to It crosses adjustment transmission region and accounts for the area ratio that entire light-shielding structure edge surrounds to realize that different light-shielding structures have different light Line transmitance.

With reference to Fig. 2, Fig. 3, in first area 121, the direction of viewing area 110 is directed toward along non-display area 120 and first It includes: the edge in first area 121 that the light penetration for the sub-pixel arranged on direction X and/or second direction Y, which is gradually increased, The shading of the direction of the direction of non-display area 120 viewing area 110 and the sub-pixel arranged on X and/or second direction Y in a first direction Area is gradually reduced, and the shading-area of sub-pixel is frontal projected area of the light-shielding structure 40 in the open region of sub-pixel.

Optionally, light-shielding structure 40 includes latticed light-shielding structure, and the gap of latticed light-shielding structure is transmission region, can With by adjusting gap size and density degree come realize different light-shielding structures have different light penetrations.At other In embodiment, light-shielding structure 40 can also include strip light-shielding structure, and strip light-shielding structure includes multiple shading strips, two neighboring There is gap between shading strip, can spacing between the width and two neighboring shading strip by adjusting each shading strip come Realize that different light-shielding structures have different light penetrations.In other embodiments, light-shielding structure 40 can also include simultaneously Latticed light-shielding structure and strip light-shielding structure, specific to need depending on product demand, the embodiment of the present invention does not limit this It is fixed.

Fig. 4 is a kind of the schematic diagram of the section structure of the AA ' along Fig. 3；

With reference to Fig. 4, display panel further includes the second substrate 20, and the second substrate 20 is opposed with first substrate 10, light-shielding structure 40 are located at the second substrate 20 close to the side of first substrate 10.Display panel can also include the first color blocking 61, the second color blocking 62 With third color blocking 63, the first color blocking 61, the second color blocking 62 and third color blocking 63 are located at light-shielding structure 40 far from the second substrate 20 1 Side.The light that first sub-pixel 31, the second sub-pixel 32 and third sub-pixel 33 issue passes through the first color blocking 61, the second color blocking respectively 62 and third color blocking 63 after be irradiated on light-shielding structure 40.Wherein, the first color blocking 61 can be red color resistance, and the second color blocking 62 can Think that green color blocking, third color blocking 63 can be blue color blocking.

Optionally, with reference to Fig. 3 and Fig. 4, display panel further includes black matrix 50, and black matrix 50 is vertical first substrate 10 Between two neighboring sub-pixel, light-shielding structure 40 is formed in same technique with black matrix 50 using same material for projection. Light-shielding structure 40 can be arranged with 50 same layer of black matrix.Since light-shielding structure 40 and black matrix 50 are formed in same technique, nothing Two manufacture crafts need to be set for light-shielding structure 40 and black matrix 50, such as original technique for forming black matrix 50 can be used simultaneously Light-shielding structure 40 and black matrix 50 are formed, to save manufacturing process.

Optionally, the light penetration of all sub-pixels is identical in same pixel unit 30.Illustratively, pixel unit 30 Including the first sub-pixel 31, the second sub-pixel 32 and third sub-pixel 33, light-shielding structure 40 divides for the first light-shielding structure 41 and Two light-shielding structures 42, the open region of each sub-pixel (the first sub-pixel 31, the second sub-pixel 32 and third sub-pixel 33) is by One light-shielding structure 41 and the covering of the second light-shielding structure 42.Along first direction X, multiple first light-shielding structure, 41 repeated arrangements are more A second light-shielding structure 42 also repeated arrangement.That is, the first sub-pixel 31, the second sub-pixel 32 and third sub-pixel 33 are right The type for the light-shielding structure answered is identical with distribution, so that the first sub-pixel 31, the second sub-pixel 32 and third sub-pixel 33 have Identical light penetration.Due to different subpixel correspond to different colours color blocking, if in same pixel unit 30 not It is different with the coverage extent of sub-pixel, cause mixed light that colour cast occurs.For example, the first sub-pixel 31 sending feux rouges, second Sub-pixel 32 issues green light, and third sub-pixel 33 issues blue light, the light penetration of the first sub-pixel 31 and the second sub-pixel 32 It is partially blue then to will lead to mixed light for the respectively less than light penetration of third sub-pixel 33.In the embodiment of the present invention, due to same The light penetration of all sub-pixels is identical in pixel unit 30, avoids the generation of colour cast.

Furthermore it is also possible to be made light-shielding structure of the material of light transmission, and light-shielding structure is made to block sub-pixel completely Open region, by adjusting the light transmittance of saturating light-shielding structure come realize different light-shielding structures have different light penetrations.With reference to Fig. 2, in first area 121, along the direction that non-display area 120 is directed toward viewing area 110 and X and/or second party in a first direction It includes: to be directed toward along non-display area 120 aobvious in first area 121 that the light penetration for the sub-pixel arranged on Y, which is gradually increased, Show that the material transmissivity for the light-shielding structure 40 arranged on the direction in area 110 and in a first direction X and/or second direction Y gradually increases Greatly.That is, the material transmissivity closer to the light-shielding structure 40 of non-display area 120 is lower, the screening closer to viewing area 110 The material transmissivity of photo structure 40 is higher.It can be formed using multiple material in the corresponding region of a sub-pixel a variety of The light-shielding structure 40 of light rate, or in the corresponding region of a sub-pixel, using the material that material transmissivity gradually changes come Form light-shielding structure 40.

Fig. 5 is another enlarged structure schematic diagram in the region S2 in Fig. 2, and referring to figs. 2 and 5, light-shielding structure includes first Light-shielding structure 41 and the second light-shielding structure 42, the first light-shielding structure 41 are latticed light-shielding structure, and the second light-shielding structure is strip Light-shielding structure.In first area 121, viewing area is directed toward along first direction X and/or second direction Y, and by non-display area 120 On 110 direction, latticed light-shielding structure is between non-display area 120 and strip light-shielding structure.

Referring to figs. 2 and 3, first area 121 is equal to length of the sub-pixel on first direction along the length of first direction X Degree；And/or first area 121 in a second direction Y length be equal to sub-pixel in a second direction on length.Illustratively, The shape that the edge of one sub-pixel 31, the second sub-pixel 32 and third sub-pixel 33 surrounds is in rectangle, and the short side direction of rectangle is flat For row in first direction X, the longitudinal direction of rectangle is parallel to second direction Y, the parallelogram region where first area 121 Endpoint is respectively A, B, C and D.First sub-pixel 31, the second sub-pixel 32 and 33 three of third sub-pixel long side having the same Length, the length of line segment AB are equal to the long side length of the first sub-pixel 31, and the two of the length of line segment BC generally line segment AB length Times, that is to say, that the first area 121 that parallelogram region ABCD is determined is arranged two pixel lists along first direction X Member 30, Y is arranged a pixel unit 30 in a second direction for the first area 121 that parallelogram region ABCD is determined.For It is easy to understand, sets " 0 " for the light penetration of sub-pixel in non-display area 120, by the light of sub-pixel in viewing area 110 Line transmitance is set as " 1 ", if a kind of light-shielding structure 40 is only arranged in a sub-pixel, the light of sub-pixel at this time is saturating The rate of mistake is set as " 0.5 ", then the variation of light penetration is from " 0 " to " 0.5 " again to " 1 ", and brightness separation is " 0.5 ", edge Virtualization, round and smooth degree are insufficient, edge poor display effect；If the first light-shielding structure 41 and second is arranged in a sub-pixel Light-shielding structure 42, the light penetration that sub-pixel corresponds at 41 position of the first light-shielding structure is " 0.33 ", and sub-pixel corresponds to Light penetration at second light-shielding structure, 42 position is " 0.66 ", then the variation of light penetration from " 0 " to " 0.33 " to " 0.66 " is arrived " 1 " again, and brightness separation is about " 0.33 ", is almost the half of " 0.5 ", the interval of brightness change is compared at this time Small, virtualization degree in edge is higher, eliminates jagged display bad phenomenon.Due to the length of a line of first area 121 Equal to the length of sub-pixel, therefore at least two light-shielding structures 40 can only be set in a sub-pixel and be just able to achieve preferable light Line transmitance gradual change, to reach round and smooth edge display effect.

Embodiment two

On the basis of the above embodiments, light-shielding structure is not only arranged in the embodiment of the present invention in the first region, second Light-shielding structure is also provided in region.Another enlarged structure schematic diagram in the region S1 in Fig. 1 that Fig. 6 provides for embodiment two, With reference to Fig. 6, the parallelogram region formed using the side of two neighboring first area 121 as adjacent side is second area 122, a variety of Light-shielding structure 40 also at least partly covers second area 122.In second area 122, viewing area is directed toward along non-display area 120 The light penetration for the sub-pixel arranged on 110 direction and in a first direction X and/or second direction Y is gradually increased.It is exemplary Two first areas 121 are referred to as first area ABCD and first area CEFG, with the firstth area for the ease of distinguishing by ground The while CG in CD and first area CEFG of domain ABCD is that adjacent side forms second area DCGH.A variety of light-shielding structures 40 cover completely First area ABCD and first area CEFG are covered, and part covers second area DCGH.If first area 121 is only arranged Without second area 122 is arranged, then observer's arrow direction along Fig. 6 is observed it will be observed that apparent zigzag fashion.It needs It should be noted that being directed toward the direction of viewing area 110 along non-display area 120 and first in region ABGH and region DEFH The light penetration for the sub-pixel arranged on direction X and/or second direction Y is gradually increased.As it can be seen that shading in second area 122 Structure 40 is adapted to the setting of light-shielding structure 40 in first area 121, thus from coming observer from any direction, all It would not observe that apparent zigzag fashion.

The above described is only a preferred embodiment of the present invention, be not intended to limit the present invention in any form, though So the present invention has been disclosed as a preferred embodiment, and however, it is not intended to limit the invention, any technology people for being familiar with this profession Member, without departing from the scope of the present invention, when the technology contents using the disclosure above make a little change or modification It is right according to the technical essence of the invention for the equivalent embodiment of equivalent variations, but without departing from the technical solutions of the present invention Any simple modification, equivalent change and modification made by above embodiments, all of which are still within the scope of the technical scheme of the invention.

Claims (10)

1. a kind of display panel characterized by comprising

First substrate and multiple pixel units positioned at the first substrate side, the multiple pixel unit along first direction and Second direction array arrangement；Each pixel unit includes multiple sub-pixels, and each sub-pixel is provided with open region；

The display panel includes viewing area and non-display area, and the viewing area and the boundary line of the non-display area include by edge The broken line that the line segment that the first direction and the second direction extend is connected to form；In the viewing area, with two neighboring Line segment is that the parallelogram region that adjacent side is formed is first area；

The display panel further includes a variety of light-shielding structures positioned at the viewing area, and the different light-shielding structures has difference Light penetration, the light-shielding structure at least partly covers the first area, and the light-shielding structure is located at the display surface The light emission side of plate and the open region at least partly blocking sub-pixel described in the first area；In the first area, edge The non-display area is directed toward the direction of the viewing area and described in arranging on the first direction and/or the second direction The light penetration of sub-pixel is gradually increased, and the light penetration is that the light that the sub-pixel issues passes through the light-shielding structure Light intensity afterwards and the ratio by the light intensity before the light-shielding structure；Opening there are at least one sub-pixel in the first area It is blocked by a variety of light-shielding structures mouth region.

2. display panel according to claim 1, which is characterized in that using the side of the two neighboring first area as adjacent side The parallelogram region of formation is second area；A variety of light-shielding structures also at least partly cover the second area；? In the second area, the direction of the viewing area is directed toward along the non-display area and in the first direction and/or described The light penetration for the sub-pixel arranged on two directions is gradually increased.

3. display panel according to claim 1, which is characterized in that the light of all sub-pixels in the same pixel unit Line transmitance is identical.

4. display panel according to claim 1, which is characterized in that length of the first area along the first direction Equal to length of the sub-pixel on the first direction；And/or the first area is along the length etc. of the second direction In length of the sub-pixel in the second direction.

5. display panel according to claim 1, which is characterized in that in the first area, along the non-display area The light of the sub-pixel for being directed toward the direction of the viewing area and arranging on the first direction and/or the second direction Transmitance, which is gradually increased, includes:

In the first area, be directed toward the direction of the viewing area along the non-display area and in the first direction and/or The shading-area for the sub-pixel arranged in the second direction is gradually reduced, and the shading-area of the sub-pixel is the screening Frontal projected area of the photo structure in the open region of the sub-pixel.

6. display panel according to claim 1, which is characterized in that the display panel further includes black matrix, described black Matrix the first substrate upright projection between the two neighboring sub-pixel, the light-shielding structure and the black square Battle array is formed in same technique using same material.

7. display panel according to claim 1, which is characterized in that the light-shielding structure includes latticed light-shielding structure And/or strip light-shielding structure.

8. display panel according to claim 7, which is characterized in that in the first area, along the first direction And/or the second direction, and be directed toward on the direction of the viewing area by the non-display area, the latticed light-shielding structure position Between the non-display area and the strip light-shielding structure.

9. display panel according to claim 1, which is characterized in that in the first area, along the non-display area The light of the sub-pixel for being directed toward the direction of the viewing area and arranging on the first direction and/or the second direction Transmitance, which is gradually increased, includes:

In the first area, be directed toward the direction of the viewing area along the non-display area and in the first direction and/or The material transmissivity for the light-shielding structure arranged in the second direction is gradually increased.

10. display panel according to claim 1, which is characterized in that the display panel further includes the second substrate, described Light-shielding structure is located at the second substrate close to the side of the first substrate.