CN205539855U - Display substrate, display panel and display device - Google Patents

Abstract

The utility model provides a display substrate, display panel and display device relates to and shows technical field, can avoid being appeared the problem of cockscomb structure by the display area edge that current inferior dot structure and range formed. A display substrates, includes: many grid lines, wherein, every grid line all is closed lines, many the grid line encircles from inside to outside in proper order, and many the mutual contactlesss of grid line, many grid line lead wires, grid line lead wire with grid line one -to -one ground is connected, many data lines, with a plurality of inferior pixel regions are alternately injectd by the grid line, and every the data line is with every the grid line has a point of intersect, wherein, many the mutual contactlesss of data line, a plurality of inferior dot structures, inferior dot structure is located in the inferior pixel region, and by the grid line with the data line drive. Be applied to special -shaped display screen.

Description

A kind of display base plate, display floater and display device

Technical field

This utility model relates to Display Technique field, particularly relates to a kind of display base plate, display floater and display device.

Background technology

Along with intelligence is dressed, the fast development of car-mounted display, the particularly circular display screen of abnormity display screen is increasingly used widely.

Existing abnormity display screen still uses traditional rectangular pixel, as shown in Figure 1, as a example by circular display screen, when the sub-pix 11 of rectangle is applied to circular display screen, jagged edges in viewing area, cause there is the strongest granular sensation during display, it is impossible to reach good display effect, affect Consumer's Experience.

Utility model content

Embodiment of the present utility model provides a kind of display base plate, display floater and display device, it is to avoid the problem of the viewing area jagged edges formed by existing sub-pixel structure and arrangement.

For reaching above-mentioned purpose, embodiment of the present utility model adopts the following technical scheme that

On the one hand, this utility model embodiment provides a kind of display base plate, including:

A plurality of grid line, wherein, every grid line is all closed line, described a plurality of grid line cincture the most successively, and a plurality of grid line is not in contact with each other；

A plurality of grid line goes between, and described grid line lead-in wire is connected correspondingly with described grid line；

A plurality of data lines, intersects with described grid line and limits multiple subpixel regions, and every described data wire has an intersection point with every described grid line, and wherein, described a plurality of data lines is not in contact with each other；

Multiple sub-pixel structure, described sub-pixel structure is positioned at described subpixel regions, and is driven by described grid line and described data wire.

Optionally, same grid line the multiple sub-pixel structure driven form the first sub-pix group, same data wire the multiple sub-pixel structure driven form the second sub-pix group；

The area and/or the aperture opening ratio that belong to each subpixel regions of same described first sub-pix group are equal；Or,

The area and/or the aperture opening ratio that belong to each subpixel regions of same described second sub-pix group are equal；Or,

Each Asia on display base plate is equal as area and/or the aperture opening ratio in region.

Optionally, belonging to each subpixel regions area equation of same described second sub-pix group, or, each Asia on display base plate as the area in region and/or aperture opening ratio equal in the case of；

In described a plurality of grid line, the spacing of adjacent two grid lines is sequentially reduced from inside to outside.

Optionally, a plurality of described grid line is concentric circular.

Optionally, in a plurality of described data wire, the angle of two data line of arbitrary neighborhood is equal.

Optionally, being formed with insulating barrier between described grid line lead-in wire and described grid line, described insulating barrier is provided with via, described grid line lead-in wire is connected by described via with described grid line.

On the other hand, this utility model embodiment provides a kind of color membrane substrates, including:

A plurality of first shading strip, wherein, every first shading strip closes and is not in contact with each other, described a plurality of first shading strip cincture the most successively；

A plurality of second shading strip, intersects with described first shading strip and limits multiple transmission region；

Chromatic filter layer, is positioned at described transmission region.

On the other hand, this utility model embodiment provides a kind of display floater, including the arbitrary described display base plate of this utility model embodiment and with the described display base plate base plate for packaging to box.

Optionally, described base plate for packaging is the color membrane substrates described in claim 7, wherein,

The first shading strip on described color membrane substrates is corresponding with the grid line position on described display base plate, and the second shading strip on described color membrane substrates is corresponding with the linear position data on described display base plate.

Optionally, corresponding on a sub-pixel structure on described display base plate and described color membrane substrates transmission region forms a sub-pix；

In multiple sub-pixs that multiple sub-pixel structure of being driven by same grid line are corresponding, the sub-pix that at least three is adjacent forms a pixel；And/or,

In multiple sub-pixs that multiple sub-pixel structure of being driven by same data wire are corresponding, the sub-pix that at least three is adjacent forms a pixel.

On the other hand, this utility model embodiment provides a kind of display device, the arbitrary described display floater provided including this utility model embodiment.

Embodiment of the present utility model provides a kind of display base plate, display floater and display device, the viewing area of display base plate is made up of multiple subpixel regions, and the shape of grid line is approximately equivalent to the shape of viewing area, and grid line and data wire intersect to form multiple subpixel regions, then relative to the display screen shown in Fig. 1, the display periphery formed in this utility model embodiment is just the same with internal display effect, does not results in the best display effects such as periphery sawtooth.

Accompanying drawing explanation

In order to be illustrated more clearly that this utility model embodiment or technical scheme of the prior art, the accompanying drawing used required in embodiment or description of the prior art will be briefly described below, apparently, accompanying drawing in describing below is only embodiments more of the present utility model, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is existing circular display screen schematic diagram；

A kind of display base plate schematic diagram that Fig. 2 provides for this utility model embodiment；

The second display base plate schematic diagram that Fig. 3 provides for this utility model embodiment；

The third display base plate schematic diagram that Fig. 4 provides for this utility model embodiment；

The 4th kind of display base plate schematic diagram that Fig. 5 provides for this utility model embodiment；

A kind of color membrane substrates schematic diagram that Fig. 6 provides for this utility model embodiment；

The second color membrane substrates schematic diagram that Fig. 7 provides for this utility model embodiment；

The third color membrane substrates schematic diagram that Fig. 8 provides for this utility model embodiment.

Reference

1-grid line；2-data wire；3-grid line goes between；4-sub-pixel structure；10-pixel；11-sub-pix；21-the first shading strip；22-the second shading strip；23-chromatic filter layer；24-second week edge regions；41-thin film transistor (TFT)；42-pixel electrode；43-the first neighboring area.

Detailed description of the invention

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is clearly and completely described, it is clear that described embodiment is only a part of embodiment of this utility model rather than whole embodiments.Based on the embodiment in this utility model, the every other embodiment that those of ordinary skill in the art are obtained under not making creative work premise, broadly fall into the scope of this utility model protection.

This utility model embodiment provides a kind of display base plate, as in figure 2 it is shown, include:

A plurality of grid line 1, wherein, every grid line 1 is all closed line, a plurality of grid line 1 cincture the most successively, and a plurality of grid line 1 is not in contact with each other.As in figure 2 it is shown, as a example by grid line 1 is as circle, wherein include as a example by 5 grid lines by display base plate in Fig. 2,5 circular grid lines are successively outwardly around arranging, and 5 grid lines are not in contact with each other.

A plurality of grid line lead-in wire 3, grid line lead-in wire 3 is connected correspondingly with grid line 1, and i.e. one grid line lead-in wire 3 one grid line 1 of connection connects and is not attached to other grid lines.In Fig. 2 as a example by grid line lead-in wire 3 includes s1-s5, wherein, s1 is connected with innermost grid line 1, and the most outwards, every grid line lead-in wire connects with a corresponding grid line, then s5 is connected with outmost grid line 1.

A plurality of data lines 2, intersects with grid line 1 and limits multiple subpixel regions, and every data line 2 has an intersection point with every grid line 1, and wherein, a plurality of data lines 2 is not in contact with each other.In Fig. 2 as a example by data wire 2 includes D1-D10.It should be noted that every data line 2 has an intersection point with every grid line 1, then one end of data wire 2 is connected with innermost grid line 1, and the other end stretches out in outmost grid line 1.Additionally, the subpixel regions that grid line 1 and data wire 2 intersect to form can be the inner side being positioned at grid line 1 as shown in Figure 2, certainly can also is that the outside being positioned at grid line.

Multiple sub-pixel structure 4, sub-pixel structure 4 is positioned at subpixel regions, and is driven by grid line 1 and data wire 2.Fig. 2 include as a example by thin film transistor (TFT) 41 and pixel electrode 42 by sub-pixel structure 4, wherein grid and the grid line 1 of thin film transistor (TFT) 41 connects, source electrode and data wire 2 connect, drain electrode and pixel electrode 42 connect, then when grid line 1 and data wire 2 load signal simultaneously, thin film transistor (TFT) 41 is opened, and charges to pixel electrode 42.Identical with existing grid line and data wire, different data line signals varies in size and controls the transmitance of different sub-pix, to realize different display effects.

It should be noted that in this utility model embodiment, the shape of grid line is approximately equivalent to the shape of viewing area, to realize maximum display area on display base plate.Then grid line is that circle can realize circular display, and grid line can also be other shapes, such as, can be ellipse or regular hexagon etc., then the viewing area of display base plate can be oval or regular hexagon.This utility model embodiment and accompanying drawing are only described in detail as a example by grid line is as circle.

The display base plate that this utility model embodiment provides, the viewing area of display base plate is made up of multiple subpixel regions, and the shape of grid line is approximately equivalent to the shape of viewing area, and grid line and data wire intersect to form multiple subpixel regions, then relative to the display screen shown in Fig. 1, the viewing area periphery formed in this utility model embodiment is just the same with internal display effect, does not results in the best display effects such as periphery sawtooth.

Due to grid line lead-in wire typically formed by metal, grid line lead-in wire light tight, if then grid line lead-in wire be positioned at the same area be easily caused this region display brightness be less than other regions.Then this utility model embodiment is preferred, as it is shown on figure 3, grid line lead-in wire 3 dispersed and distributed on display base plate, so that the brightness uniformity on display base plate.

Preferably, same grid line the multiple sub-pixel structure driven form the first sub-pix group, same data wire the multiple sub-pixel structure driven form the second sub-pix group.

The area and/or the aperture opening ratio that then belong to each subpixel regions of same first sub-pix group are equal.Example, as in figure 2 it is shown, the sub-pixel structure driven by an outmost grid line 1 forms the first sub-pix group, the first sub-pix group includes subpixel regions a1-a10, then area and/or the aperture opening ratio of subpixel regions a1-a10 are equal.Area and/or the aperture opening ratio of each subpixel regions being i.e. positioned on same circumference are equal, and being positioned at subpixel regions adjacent in each subpixel regions on same circumference can be to be respectively used to show different colours, is more beneficial for the mixing of primary colours, it is achieved precisely show.

Or, the area and/or the aperture opening ratio that belong to each subpixel regions of same second sub-pix group are equal.Example, as in figure 2 it is shown, the sub-pixel structure that data wire D1 drives forms the second sub-pix group, the second sub-pix group includes subpixel regions b1-b5, then area and/or the aperture opening ratio of subpixel regions b1-b5 are equal.In like manner, area and/or the aperture opening ratio of the subpixel regions that each sub-pixel structure of being driven by same data wire is corresponding are equal, and adjacent subpixel regions, each subpixel regions of being driven by same data wire can be to be respectively used to show different colours, it is more beneficial for the mixing of primary lights, it is achieved precisely show.

Or, each Asia on display base plate is equal as area and/or the aperture opening ratio in region.Then on display base plate, each subpixel regions is evenly distributed.

Preferably, belonging to each subpixel regions area equation of same second sub-pix group, or, each Asia on display base plate as the area in region and/or aperture opening ratio equal in the case of；As shown in Figure 4, in a plurality of grid line 1, the spacing of adjacent two grid lines 1 is sequentially reduced from inside to outside.Due to the most outside, the adjacent distance between two data line is the biggest, then so that belonging to each subpixel regions area equation of same second sub-pix group, or, each Asia on display base plate is equal as area and/or the aperture opening ratio in region, and the spacing of adjacent two grid lines is sequentially reduced from inside to outside.As shown in Figure 4, be outwards L1-L5 in the spacing of adjacent two grid lines 1, then L1-L5 is sequentially reduced, i.e. L1 ＞ L2 ＞ L3 ＞ L4 ＞ L5.Preferably, as shown in figs 2-4, grid line 1 is circular.Then display base plate may be used for circular display screen, such as, may be used for accutron.And it is further preferred that as shown in figs 2-4, a plurality of grid line 1 is concentric circular.

Preferably, as shown in figs 2-4, in a plurality of data lines 2, the angle of two data line 2 of arbitrary neighborhood is equal.I.e. a plurality of data lines 2 is circumference array.Grid line is concentric circular, and data wire is circumference array, then the subpixel regions circumference array formed, sub-pixel structure circumference array, more convenient making.

Preferably, being formed with insulating barrier between grid line lead-in wire and grid line, insulating barrier is provided with via, grid line lead-in wire is connected by via with grid line.Owing to a grid line only connects with a corresponding grid line, and be not connected with other grid lines, then grid line lead-in wire needs to insulate with other grid lines in addition to corresponding grid line.This utility model embodiment is preferred, and grid line lead-in wire and grid line are positioned at different layers, grid, are formed with insulating barrier between grid line lead-in wire and grid line, and insulating barrier is provided with via, and grid line lead-in wire is connected by via with corresponding grid line.

Preferably, display base plate includes that the first viewing area connects with the first viewing area and surrounds the first neighboring area of the first viewing area；Wherein, the first viewing area includes that multiple subpixel regions, the first neighboring area are provided with light shield layer.As it is shown in figure 5, the first viewing area can be the region that outermost grid line surrounds, the first neighboring area 43 is the region outside outermost grid line.First neighboring area 43 is provided with light shield layer, is possible to prevent the first viewing area at the first neighboring area 43 light leak, affects display effect.

Preferably, the display base plate that this utility model embodiment provides also includes:

Gate drivers, is connected with grid line lead-in wire in the first neighboring area, to add scanning signal by each grid line lead-in wire to grid line every day, to drive display base plate.

Source electrode driver, is connected with data wire in the first neighboring area, to add data signal to each data wire, to drive display base plate.

This utility model embodiment provides a kind of color membrane substrates, as Figure 6-Figure 8, and including:

A plurality of first shading strip 21, wherein, every first shading strip 21 closes and is not in contact with each other, a plurality of first shading strip 21 cincture the most successively.

A plurality of second shading strip 22, intersects with the first shading strip 21 and limits multiple transmission region；

Chromatic filter layer 23, is positioned at transmission region.

It should be noted that color membrane substrates for array base palte to box to form display floater, then this utility model embodiment provide color membrane substrates may be used for this utility model embodiment offer display base plate to box to form display floater.The color of this filter layer is shown owing to the chromatic filter layer in color membrane substrates is mainly used to allow the light by this filter layer, then chromatic filter layer is to be the colored film layer including at least three kinds of primary colours of RGB, and its transmission region being positioned at is corresponding with the subpixel regions on display base plate.First shading strip and the second shading strip are mainly used in mode light leak, region outside then the first shading strip and the second shading strip can be provided in corresponding display base plate subpixel regions, concrete, the first shading strip can be at least corresponding grid line, and the second shading strip can be at least respective data lines.

Preferably, as Figure 6-Figure 8, color membrane substrates includes that the second viewing area connects with the second viewing area and surrounds the second week edge regions 24 of the second viewing area；Wherein, the second viewing area includes that multiple transmission region, second week edge regions 24 are provided with light shield layer.

In like manner, after color membrane substrates and display base plate are to box, second viewing area of color membrane substrates is corresponding with the first viewing area of display base plate, the second week edge regions of color membrane substrates is corresponding with the first neighboring area of display base plate, in order to prevent the light leak outside viewing area of the display floater after box, further light shield layer is set in color membrane substrates second week edge regions.

Preferably, this utility model embodiment provides a kind of display floater, arbitrary described display base plate of providing including this utility model embodiment and with the display base plate base plate for packaging to box.

It should be noted that this display floater can be OLED display panel, the most each subpixel regions includes a luminescent device, and each sub-pixel structure can send the light of particular color.Or, this display floater can also is that display panels, then be also filled with liquid crystal between display base plate and base plate for packaging.

Preferably, in order to realize colored display, in the display floater that this utility model embodiment provides, the color membrane substrates that base plate for packaging provides for this utility model embodiment, wherein,

The first shading strip on color membrane substrates is corresponding with the grid line position on display base plate, and the second shading strip on color membrane substrates is corresponding with the linear position data on display base plate.

Preferably, corresponding on a sub-pixel structure on display base plate and color membrane substrates transmission region forms a sub-pix.This utility model embodiment and accompanying drawing form a pixel with three sub-pixs, and wherein three sub-pixs illustrate as a example by showing red (R), green (G), blue (B) three kinds of primary colours respectively.It is, of course, also possible to be that four sub-pixs form pixels, wherein four sub-pixs show red, green, blue respectively, show red, green, blue, Huang Si kind primary colours in vain or respectively.

In multiple sub-pixs that multiple sub-pixel structure of being driven by same grid line are corresponding, the sub-pix that at least three is adjacent forms a pixel.As shown in Figure 6, illustrate as a example by the Show Color of the chromatic filter layer on color membrane substrates, owing to grid line is corresponding with the first shading strip position, multiple sub-pixs that multiple sub-pixel structure of being driven by same grid line are corresponding, can be i.e. as shown in Figure 6, it is positioned in each sub-pix on same circumference, three adjacent sub-pixs show three kinds of primary colours of red, green, blue respectively, the sub-pix showing these three kinds of primary colours is a pixel 10, the most along the circumferential direction, three sub-pixs of arbitrary neighborhood show different colors respectively.

Or, same data wire in multiple sub-pixs that multiple sub-pixel structure of driving are corresponding, the sub-pix that at least three is adjacent forms a pixel.As it is shown in fig. 7, in the multiple sub-pixs driven by same data wire, three adjacent sub-pixs form a pixel 10, and i.e. in the direction along data wire, three sub-pixs of arbitrary neighborhood show different colors respectively.

Or, in multiple sub-pixs that multiple sub-pixel structure of being driven by same grid line are corresponding, the adjacent sub-pix of at least three forms a pixel, same data wire, in multiple sub-pixs that multiple sub-pixel structure of driving are corresponding, the sub-pix that at least three is adjacent forms a pixel.As shown in Figure 8, two sub-pixs of arbitrary neighborhood show different colors, along the circumferential direction three sub-pixs of arbitrary neighborhood show that different colours is to form a pixel respectively, three sub-pixs along data wire direction arbitrary neighborhood show respectively different colours to form a pixel so that the colour mixture of each sub-pix is more uniformly distributed on display floater.

This utility model embodiment provides a kind of display device, the arbitrary described display floater provided including this utility model embodiment.This display device can be the display devices such as liquid crystal display, Electronic Paper, OLED (Organic Light-Emitting Diode, Organic Light Emitting Diode) display and include any product with display function or the parts such as the TV of these display devices, digital camera, mobile phone, panel computer.

The above; it is only detailed description of the invention of the present utility model; but protection domain of the present utility model is not limited thereto; any those familiar with the art is in the technical scope that this utility model discloses; change can be readily occurred in or replace, all should contain within protection domain of the present utility model.Therefore, protection domain of the present utility model should be as the criterion with described scope of the claims.

Claims (11)

1. a display base plate, it is characterised in that including:

A plurality of grid line, wherein, every grid line is all closed line, described a plurality of grid line cincture the most successively, and a plurality of grid line is not in contact with each other；

A plurality of grid line goes between, and described grid line lead-in wire is connected correspondingly with described grid line；

A plurality of data lines, intersects with described grid line and limits multiple subpixel regions, and every described data wire has an intersection point with every described grid line, and wherein, described a plurality of data lines is not in contact with each other；

Multiple sub-pixel structure, described sub-pixel structure is positioned at described subpixel regions, and is driven by described grid line and described data wire.

Display base plate the most according to claim 1, it is characterised in that the multiple sub-pixel structure driven by same grid line form the first sub-pix group, same data wire the multiple sub-pixel structure driven form the second sub-pix group；

The area and/or the aperture opening ratio that belong to each subpixel regions of same described first sub-pix group are equal；Or,

The area and/or the aperture opening ratio that belong to each subpixel regions of same described second sub-pix group are equal；Or,

Each Asia on display base plate is equal as area and/or the aperture opening ratio in region.

Display base plate the most according to claim 1, it is characterised in that each Asia on display base plate as the area in region and/or aperture opening ratio equal in the case of；

In described a plurality of grid line, the spacing of adjacent two grid lines is sequentially reduced from inside to outside.

Display base plate the most according to claim 2, it is characterised in that at each subpixel regions area equation belonging to same described second sub-pix group；

In described a plurality of grid line, the spacing of adjacent two grid lines is sequentially reduced from inside to outside.

Display base plate the most according to claim 1, it is characterised in that a plurality of described grid line is concentric circular.

Display base plate the most according to claim 5, it is characterised in that in a plurality of described data wire, the angle of two data line of arbitrary neighborhood is equal.

Display base plate the most according to claim 1, it is characterised in that be formed with insulating barrier between described grid line lead-in wire and described grid line, described insulating barrier is provided with via, and described grid line lead-in wire is connected by described via with described grid line.

8. a display floater, it is characterised in that include the display base plate described in any one of claim 1-7 and with the described display base plate base plate for packaging to box.

Display floater the most according to claim 8, it is characterised in that described base plate for packaging is color membrane substrates, including:

A plurality of first shading strip, wherein, every first shading strip closes and is not in contact with each other, described a plurality of first shading strip cincture the most successively；

A plurality of second shading strip, intersects with described first shading strip and limits multiple transmission region；

Chromatic filter layer, is positioned at described transmission region；

Wherein,

The first shading strip on described color membrane substrates is corresponding with the grid line position on described display base plate, and the second shading strip on described color membrane substrates is corresponding with the linear position data on described display base plate.

Display floater the most according to claim 9, it is characterised in that transmission region corresponding on a sub-pixel structure on described display base plate and described color membrane substrates forms a sub-pix；

In multiple sub-pixs that multiple sub-pixel structure of being driven by same grid line are corresponding, the sub-pix that at least three is adjacent forms a pixel；And/or,

In multiple sub-pixs that multiple sub-pixel structure of being driven by same data wire are corresponding, the sub-pix that at least three is adjacent forms a pixel.

11. 1 kinds of display devices, it is characterised in that include the display floater described in any one of claim 8-10.