CN205844685U - A kind of display floater and display device - Google Patents
A kind of display floater and display device Download PDFInfo
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- CN205844685U CN205844685U CN201620746163.9U CN201620746163U CN205844685U CN 205844685 U CN205844685 U CN 205844685U CN 201620746163 U CN201620746163 U CN 201620746163U CN 205844685 U CN205844685 U CN 205844685U
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Abstract
The utility model discloses a kind of display floater and display device, belong to display field.Described display floater includes color membrane substrates and photoelectric medium layer;Viewing area and non-display area is included on color membrane substrates;Color membrane substrates is formed with choked flow groove on the non-display area of the side of photoelectric medium layer.This utility model is by forming choked flow groove on the non-display area of the color membrane substrates of display floater, after instilling photoelectric medium between color membrane substrates and array base palte and completing box, photoelectric medium between color membrane substrates and array base palte spreads to non-display area, photoelectric medium can be played drainage by the choked flow groove on non-display area, photoelectric medium is stoped to rapidly flow toward encapsulant, reduce the photoelectric medium diffusion velocity to encapsulant direction, the photoelectric medium contacted with photoelectric medium before preventing encapsulant uncured and cause is polluted by encapsulant or display floater periphery is bad.
Description
Technical field
This utility model relates to display field, particularly to a kind of display floater and display device.
Background technology
Photoelectric display panel is the important component part of electro-optical display device, generally includes two the display bases being oppositely arranged
Plate and be closed in the photoelectric medium layer between these two display base plates by encapsulant, these two display base plates are respectively array
Substrate and color membrane substrates, each display base plate includes underlay substrate and the multiple film layers being formed on this underlay substrate, Mei Gexian
Show that substrate includes viewing area and is positioned at the non-display area of this viewing area surrounding, wherein, between two underlay substrates
Multiple film layers and photoelectric medium layer constitute multiple pixel cell, be positioned at aobvious for image of the pixel cell of viewing area
Show, the pixel cell that is positioned at non-display area the most virtual (English: Dummy) pixel cell, do not carry out image and show, mainly
For ensureing the concordance of photoelectric display plate thickness.
At present, after complete array base palte and color membrane substrates, drip on color membrane substrates photoelectric medium, at array base
The underlay substrate of plate surrounding coating encapsulant, then carry out two pieces of display base plates to box molding, now, photoelectric medium to
The surrounding of two display base plates spreads and is sealed in encapsulant, forms photoelectric medium layer.
When photoelectric medium is at the space internal diffusion that two display base plates are formed with encapsulant, if photoelectric medium is close
Diffuse to contact with encapsulant before closure material solidification, photoelectric medium can be caused to be polluted by uncured encapsulant and aobvious
Show that the periphery of panel is bad.
Utility model content
This utility model embodiment provides a kind of display floater, including color membrane substrates and photoelectric medium layer, and described color film
Viewing area and non-display area is included on substrate;
Described color membrane substrates is formed with choked flow groove on the non-display area of the side of described photoelectric medium layer.
The color membrane substrates of the display floater in embodiment of the present utility model at least can reduce to a certain extent due to
Photoelectric medium diffusion is too fast to be touched uncured encapsulant and causes the contaminated problem of photoelectric medium.
Alternatively, described color membrane substrates includes:
Underlay substrate;
Described underlay substrate is formed the first film layer, the non-display area of described first film layer is formed with groove, institute
Stating groove and constitute described choked flow groove, described first film layer includes chromatic filter layer or screed-coat.
Alternatively, the non-display area of described first film layer includes at least one bar-shaped zone, at least one described slab region
At least one virtual pixel district of array arrangement in territory;
In each described bar-shaped zone, the interval in virtual pixel district described at least two forms a described groove.
Alternatively, the non-display area of described first film layer is made up of four bar-shaped zones, in described four bar-shaped zones all
At least one virtual pixel district of array arrangement, wherein, the length direction in the virtual pixel district in each bar-shaped zone is parallel to institute
State the outer peripheral direction near described bar-shaped zone, the viewing area.
Alternatively, in bar-shaped zone at least one described, at least one described virtual pixel district is provided with at least one
Breach, described virtual pixel district is blocked by described breach.
Alternatively, the most adjacent breach in two described virtual pixel districts is staggered mutually.
Alternatively, in same described bar-shaped zone, along the inward flange of described non-display area to outer peripheral direction, institute
The quantity stating the breach in virtual pixel district gradually decreases.
Alternatively, in same described bar-shaped zone, along the inward flange of described non-display area to outer peripheral direction, institute
The width stating groove is sequentially reduced.
Alternatively, the width of described choked flow groove be some the virtual pixel district in described chromatic filter layer width or
The integral multiple of the width in one virtual pixel district of person.
On the other hand, this utility model embodiment provides a kind of display device, and described display device includes described display
Panel.
The technical scheme that this utility model embodiment provides has the benefit that
By forming choked flow groove on the non-display area of the color membrane substrates in display floater, when at color membrane substrates and array
After instilling photoelectric medium between substrate and completing box, the photoelectric medium between color membrane substrates and array base palte is from viewing area
Four circumference non-display areas diffusion, photoelectric medium can be played drainage, make photoelectric medium by the choked flow groove on non-display area
Flow along choked flow groove, by changing speed and the direction of photoelectric medium flowing, stop photoelectric medium to rapidly flow toward close
Closure material, reduces the photoelectric medium diffusion velocity to encapsulant direction, it is therefore prevented that be situated between with photoelectricity before encapsulant is uncured
Matter contacts and causes photoelectric medium bad by encapsulant pollution and display floater periphery.
Accompanying drawing explanation
In order to be illustrated more clearly that the technical scheme in this utility model embodiment, required in embodiment being described below
Accompanying drawing to be used is briefly described, it should be apparent that, the accompanying drawing in describing below is only realities more of the present utility model
Execute example, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to according to these accompanying drawings
Obtain other accompanying drawing.
Fig. 1 is the cross-sectional structure signal of the color membrane substrates of a kind of display floater that this utility model embodiment one provides
Figure;
Fig. 2 is the cross-sectional structure signal of the color membrane substrates of a kind of display floater that this utility model embodiment one provides
Figure;
Fig. 3 is the top view of the underlay substrate that this utility model embodiment one provides;
Fig. 4 is the top view of the underlay substrate that this utility model embodiment one provides;
Fig. 5 is the vertical view that the underlay substrate that this utility model embodiment one provides is formed at the first film layer of underlay substrate
Figure;
Fig. 6 is the underlay substrate that this utility model embodiment one provides and the bowing of the first film layer being formed at underlay substrate
View;
Fig. 7 is the underlay substrate that this utility model embodiment one provides and the bowing of the first film layer being formed at underlay substrate
View;
Fig. 8 is the underlay substrate that this utility model embodiment one provides and the bowing of the first film layer being formed at underlay substrate
View.
Wherein,
1 viewing area;
2 non-display areas, 21 bar-shaped zones;
3 choked flow grooves;
4 underlay substrates;
5 first film layers;
6 second film layers;
7 black matrix layers;
8 breach;
9 deviations coordinate pixel region;
A groove;
B virtual pixel district.
Detailed description of the invention
For making the purpose of this utility model, technical scheme and advantage clearer, new to this practicality below in conjunction with accompanying drawing
Type embodiment is described in further detail.
Embodiment one
In order to solve the space internal diffusion formed with encapsulant at two display base plates in prior art when photoelectric medium
Time, owing to, before encapsulant solidifies, the photoelectric medium that photoelectric medium contacts with encapsulant and causes is by uncured sealing
The problem that the periphery of material contamination or display floater is bad, these two display base plates are respectively color membrane substrates and array base palte,
This utility model embodiment provides a kind of display floater, and this display floater includes color membrane substrates and photoelectric medium layer, such as Fig. 1 institute
Showing, this color membrane substrates includes viewing area 1 and non-display area 2, non-display area 2 is positioned at the surrounding of viewing area 1, and wherein Fig. 1 is color
The cross sectional representation of film substrate, merely illustrates part viewing area 1 and non-display area 2;
Color membrane substrates is formed with choked flow groove 3 on the non-display area 2 of the side of photoelectric medium layer;
Wherein, color membrane substrates is used for instiling or spraying photoelectric medium near the side of photoelectric medium layer.
In this utility model embodiment, photoelectric medium can be liquid crystal, and now display floater is display panels, close
Closure material can be sealed plastic box.
In this utility model embodiment, can on color membrane substrates instillation photoelectric medium, array base palte surrounding be coated with
Cover encapsulant, then complete two display base plates to box to form display floater;Light can also be instilled on array base palte
Electrolyte, color membrane substrates surrounding coat encapsulant, then complete two display base plates to box to form display floater;
Meanwhile, being additionally provided with bracer in order to support two display base plates between color membrane substrates and array base palte, wherein, a bracer is permissible
It is formed on color membrane substrates, it is also possible to be formed on array base palte.
In this utility model embodiment, by forming choked flow ditch on the non-display area 2 of the color membrane substrates at display floater
Groove 3, after instilling photoelectric medium between color membrane substrates and array base palte and completing box, is positioned at color membrane substrates and array base palte
Between photoelectric medium spread from the four of viewing area 1 circumference non-display areas 2, photoelectricity can be situated between by the choked flow groove 3 on non-display area 2
Matter plays drainage, makes photoelectric medium flow along choked flow groove 3, by changing speed and the side of photoelectric medium flowing
To, stop photoelectric medium to rapidly flow toward encapsulant, reduce the photoelectric medium diffusion velocity to encapsulant direction, it is therefore prevented that
Contact with photoelectric medium before encapsulant is uncured and the photoelectric medium that causes by encapsulant pollution and display floater periphery not
Good.
In embodiments of the present invention, either instillation photoelectric medium on color membrane substrates, or instil on array base palte
Photoelectric medium, photoelectric medium all can be played drainage by choked flow groove 3, during because instilling photoelectric medium, the most now
Photoelectric medium is liquid crystal, and the liquid crystal as whole liquid crystal layer all can concentrate on the region dripped, and the area of the liquid crystal in this region is little
In the area of display base plate, the height of liquid crystal is significantly larger than the thickness of the display floater after completing box, box-like is become display surface
After plate, liquid crystal spreads to the surrounding of display floater due to limiting of space, and the diffusion of liquid crystal can't be only limited to some display
The endosexine of substrate, but flow in the whole space between two display base plates, the most either drip on color membrane substrates
Note photoelectric medium, or instillation photoelectric medium on array base palte, photoelectric medium all can be played drain and make by choked flow groove 3
With.
As it is shown in figure 1, in this utility model embodiment, color membrane substrates includes:
Underlay substrate 4;
Underlay substrate 4 is formed the first film layer 5, the non-display area 2 of the first film layer 5 is formed groove A, groove A
Constituting choked flow groove 3, the first film layer 5 includes chromatic filter layer or screed-coat;
In this utility model embodiment, can be according to practical situation shape on the underlay substrate 4 being formed with the first film layer 5
Become to have the second film layer 6, the second film layer 6 can include common electrode layer and the oriented layer being sequentially overlapped, the part in the second film layer 6
Can be formed in groove A, now, the region that the second film layer 6 is corresponding with groove A constitutes choked flow groove 3, and the second film layer 6 can be straight
Connecing and contact with photoelectric medium such as liquid crystalline phase, in this utility model embodiment, the second film layer 6 is simply laid in the first film layer 5
And first film layer 5 groove A on, the second film layer 6 not section of being formed itself is poor;
It should be noted that this second film layer 6 region corresponding with groove A refers to groove A on the second film layer 6
Orthographic projection region, that is to say, in Fig. 1, the second film layer 6 is positioned at the region above groove A.
In this utility model embodiment, if the first film layer 5 includes chromatic filter layer, as in figure 2 it is shown, example, permissible
Forming the non-display area 2 color filter layer with fluted A by patterning processes on underlay substrate 4, example, when this colour is filtered
Chromatograph includes three kinds of colors of red, green and blue, can form this non-display area 2 colour with fluted A by three patterning processes
Colour filter.Example, it is also possible on underlay substrate 4, form color filter layer by patterning processes, then by this colour
Filter layer performs etching process makes its non-display area 2 form groove A.As it is shown in figure 1, defining the substrate of chromatic filter layer again
Forming the second film layer 6 on substrate 4, in this utility model embodiment, the second film layer 6 can include the public electrode being sequentially overlapped
Layer and oriented layer, the part in the second film layer 6 can be formed in groove A, and groove A and the second film layer 6 corresponding thereto are same
Time groove choked flow groove 3, oriented layer can directly contact with photoelectric medium such as liquid crystalline phase.
If the first film layer 5 includes screed-coat, when forming groove A: first can form colorized optical filtering on underlay substrate 4
Layer, forms the non-display area 2 screed-coat with fluted A on the underlay substrate 4 be formed with chromatic filter layer;
Or, first can form chromatic filter layer on underlay substrate 4, be formed with the underlay substrate 4 of chromatic filter layer
Upper formation screed-coat, is then processed this screed-coat by etching technics so that it is non-display area 2 forms groove A.
Or, first can form the non-display area 2 chromatic filter layer with fluted A on underlay substrate 4, be formed with coloured silk
On the underlay substrate 4 of color filtering optical layer formed the non-display area 2 screed-coat with fluted A, so so that the degree of depth of groove A relatively
Deeply.
Then, then on the underlay substrate 4 define screed-coat, form the second film layer 6, in this utility model embodiment,
Second film layer 6 can include that common electrode layer and the oriented layer being sequentially overlapped, the part in the second film layer 6 can form groove A
In, groove A and the second film layer 6 corresponding thereto simultaneously constitute choked flow groove 3, and oriented layer can directly and photoelectric medium example
As liquid crystalline phase contacts.
As it is shown in figure 1, in this utility model embodiment, the underlay substrate 4 of color membrane substrates is also formed with black matrix layer
7, the black matrix layer 7 being positioned at viewing area 1 removes unnecessary part by patterning processes, and is positioned at the black square of non-display area 2
Battle array layer 7 can be without processing by patterning processes owing to being not involved in display.
In this utility model embodiment, the non-display area 2 of the first film layer 5 includes at least one bar-shaped zone, such as may be used
To include four bar-shaped zones, when including four bar-shaped zones, the arrangement of four bar-shaped zones 21 can be as it is shown on figure 3, also
Can as shown in Figure 4, wherein, at least one virtual pixel district of array arrangement B at least one bar-shaped zone 21, in this practicality
In new embodiment, as it is shown in figure 1, virtual pixel district B can be by a composition work with other figures on the first film floor 5
Skill is formed on this first film layer 5;In this utility model embodiment, the slab region that the non-display area 2 of the first film layer 5 includes
The quantity in territory can select according to practical situation, and such as photoelectric medium is liquid crystal, according to the position of initially instiling of liquid crystal, permissible
Only arranging two bar-shaped zones, the position of these two bar-shaped zones is mutually symmetrical with relative to viewing area.
It should be noted that the virtual pixel district B on the first film floor 5 is to belong to a virtual pixel on this first film floor 5
The region of unit.In this utility model embodiment, on the one hand, virtual pixel cell can be with (the bowing of the pixel cell of viewing area 1
Angle) shape is identical, and accordingly, a virtual pixel district B can be identical with the shape of the pixel region of viewing area 1, viewing area 1
A pixel region corresponding to a pixel cell in photoelectric display panel, wherein, pixel cell is for sending a kind of face
The minimum pixel unit of the light of color, such as the red pixel cell in viewing area or green pixel cell.Now virtual pixel
The length of district B is identical with the length of red pixel cell or green pixel cell, and width is identical with the width of pixel cell, namely
It is that the length of virtual pixel district B can be equal to the width of the pixel region of the length of the pixel region of viewing area 1, width and viewing area 1
Identical.
On the other hand, virtual pixel cell can be different, accordingly from (depression angle) shape of the pixel cell of viewing area 1
, a virtual pixel district B can be different from the shape of the pixel region of viewing area 1.In this utility model embodiment, can not
Limiting the length of virtual pixel cell, the length of virtual pixel cell can also be more than the red pixel in viewing area 1
Unit or the length of green pixel cell, as long as being formed with choked flow groove 3 in ensureing non-display area 2.Therefore, virtual pixel
The length of district B can be the integral multiple of the length of the pixel region of viewing area 1, and width is identical with the width of the pixel region of viewing area 1.
In the case of bar-shaped zone 21 is as shown in Figure 3, the arrangement of virtual pixel district B can as shown in Figure 5 or Figure 6, wherein, often
In individual bar-shaped zone 21, the interval of at least two virtual pixel district B forms a groove A, if as it is shown in figure 5, certain slab region
In territory 21 during only one of which virtual pixel district B, then the interval of the first film floor 5 in this virtual pixel district B and viewing area 1 forms one
Individual groove A, in this utility model embodiment, as it is shown in figure 5, and see Fig. 3, the virtual pixel district in each bar-shaped zone 21
The length direction of B is parallel to the outer peripheral direction near bar-shaped zone 21, the viewing area 1, it is possible to set according to practical situation
Meter, is not limited to this utility model embodiment.
As shown in Figure 6, in this utility model embodiment, at least one bar-shaped zone 21, at least one virtual representation
Element district B is provided with at least one breach 8, and virtual pixel district B is blocked by breach 8, wherein, closest to the outward flange of non-display area 2
Virtual pixel district B on can also be not provided with breach 8.
In this utility model embodiment, photoelectric medium such as liquid crystal can be by lacking on different B territories, virtual pixel district
Mouth 8 flows to another choked flow groove 3 from a choked flow groove 3, slows down liquid crystal by speed and the direction of change liquid crystal flowing
To the diffusion velocity in encapsulant such as sealed plastic box direction, before preventing sealed plastic box solidification, liquid crystal contacts with sealed plastic box.
As shown in Figure 6, in this utility model embodiment, the most adjacent breach 8 on Liang Ge virtual pixel district B is staggered mutually
Open.
In this utility model embodiment, by the breach 8 of adjacent Liang Ge virtual pixel district B is staggered mutually, change
The flow direction of photoelectric medium such as liquid crystal, adds liquid crystal and flows to the flowing of another choked flow groove 3 from a choked flow groove 3
Time, slow down the liquid crystal diffusion velocity to encapsulant such as sealed plastic box direction further.
As shown in Figure 6, in this utility model embodiment, in same bar-shaped zone 21, along the inner edge of non-display area 2
Edge is to outer peripheral direction, and the quantity of the breach 8 on virtual pixel district B gradually decreases.
In this utility model embodiment, by reducing along the inward flange of non-display area 2 to the virtual representation in outward flange direction
The quantity of the breach 8 on element district B, can increase the time that liquid crystal flows to sealed plastic box, slow down liquid crystal further to sealed plastic box
Diffusion velocity.
As it is shown in fig. 7, in this utility model embodiment, in same bar-shaped zone 21, along the inner edge of non-display area 2
Edge is to outer peripheral direction, and the width of groove A is sequentially reduced.Wherein, the non-display area 2 in Fig. 7 only includes two bar-shaped zones,
The both sides of the viewing area of the underlay substrate 4 that these two regions are positioned in Fig. 7.
In this utility model embodiment, the narrowest by what the groove A closer to encapsulant was designed so that closer to
The choked flow groove 3 of encapsulant is the narrowest, and when photoelectric medium flows to encapsulant, photoelectricity can be situated between by narrow choked flow groove 3
Matter plays throttling action, increases the time that photoelectric medium flows to encapsulant, slows down photoelectric medium further to encapsulant
Diffusion velocity.
In this utility model embodiment, if groove A is arranged on chromatic filter layer, the width of groove A is colorized optical filtering
The width of some the virtual pixel district B in floor or the integral multiple of the width of a virtual pixel district B, be so designed that can so that
In forming choked flow groove 3 by patterning processes;Correspondingly, if color membrane substrates also includes the second film layer 6, then the second film layer 6 is with recessed
The width of choked flow groove 3 that groove A is constituted is the width of some the virtual pixel district B in chromatic filter layer or a virtual representation
The integral multiple of the width of element district B.
As shown in Figure 8, in this utility model embodiment, it is placed with deviation at least one bar-shaped zone 21 and coordinates pixel
District 9, deviation coordination pixel region 9 is connected with the first film layer 5 and the second film layer 6, and the second film layer 6 not shown in Fig. 8, in this practicality
In new embodiment, multiple film layers that deviation coordination pixel region 9 includes are identical with the multiple film layers included in viewing area 1, pass through
Patterning processes forms deviation simultaneously on non-display area 2 and coordinates pixel region 9 when forming multiple film layer of viewing area 1.
In this utility model embodiment, in order to prevent filter layer in the viewing area 1 caused due to technical process
Size has deviation, can form deviation and coordinate pixel, when dimensional discrepancy occurs in the filter layer in viewing area 1, can pass through deviation
Coordinate pixel to regulate.
In this utility model embodiment, by forming choked flow ditch on the non-display area 2 of the color membrane substrates at display floater
Groove 3, after instilling photoelectric medium between color membrane substrates and array base palte and completing box, is positioned at color membrane substrates and array base palte
Between photoelectric medium spread from the four of viewing area 1 circumference non-display areas 2, photoelectricity can be situated between by the choked flow groove 3 on non-display area 2
Matter plays drainage, makes photoelectric medium flow along choked flow groove 3, by changing speed and the side of photoelectric medium flowing
To, stop photoelectric medium to rapidly flow toward encapsulant, reduce the photoelectric medium diffusion velocity to encapsulant direction, it is therefore prevented that
Contact with photoelectric medium before encapsulant is uncured and the photoelectric medium that causes by encapsulant pollution and display floater periphery not
Good.
Embodiment two
This utility model embodiment provides a kind of display device, and the display device that this utility model embodiment provides is permissible
For mobile phone, panel computer, television set, display, notebook computer, DPF, navigator etc. are any, there is display function
Product or parts.This display device includes the display floater described in embodiment one.
In display device in this utility model embodiment, by forming choked flow on the non-display area 2 of color membrane substrates
Groove 3, after instilling photoelectric medium between color membrane substrates and array base palte and completing box, is positioned at color membrane substrates and array base
Photoelectric medium between plate spreads from four circumference non-display areas 2 of viewing area 1, and the choked flow groove 3 on non-display area 2 can be to photoelectricity
Medium plays drainage, makes photoelectric medium flow along choked flow groove 3, by change photoelectric medium flowing speed with
Direction, stops photoelectric medium to rapidly flow toward encapsulant, reduces the photoelectric medium diffusion velocity to encapsulant direction, prevent
The photoelectric medium contacted with photoelectric medium before encapsulant is uncured and cause is polluted by encapsulant or display floater is all
Limit is bad.
Above-mentioned this utility model embodiment sequence number, just to describing, does not represent the quality of embodiment.
The foregoing is only preferred embodiment of the present utility model, not in order to limit this utility model, all in this practicality
Within novel spirit and principle, any modification, equivalent substitution and improvement etc. made, should be included in guarantor of the present utility model
Within the scope of protecting.
Claims (10)
1. a display floater, including color membrane substrates and photoelectric medium layer, it is characterised in that include display on described color membrane substrates
District and non-display area;
Described color membrane substrates is formed with choked flow groove on the non-display area of the side of described photoelectric medium layer.
Display floater the most according to claim 1, it is characterised in that described color membrane substrates includes:
Underlay substrate;
Described underlay substrate is formed the first film layer, the non-display area of described first film layer is formed with groove, described recessed
Groove constitutes described choked flow groove, and described first film layer includes chromatic filter layer or screed-coat.
Display floater the most according to claim 2, it is characterised in that the non-display area of described first film layer includes at least one
Individual bar-shaped zone, at least one virtual pixel district of array arrangement at least one described bar-shaped zone;
In each described bar-shaped zone, the interval in virtual pixel district described at least two forms a described groove.
Display floater the most according to claim 3, it is characterised in that the non-display area of described first film layer is by four bar shapeds
Region forms, and equal at least one virtual pixel district of array arrangement in described four bar-shaped zones, wherein, in each bar-shaped zone
The length direction in virtual pixel district is parallel to the outer peripheral direction near described bar-shaped zone, the described viewing area.
Display floater the most according to claim 3, it is characterised in that in bar-shaped zone at least one described, at least one
Individual described virtual pixel district is provided with at least one breach, and described virtual pixel district is blocked by described breach.
Display floater the most according to claim 5, it is characterised in that lacking in two the most adjacent described virtual pixel districts
Mouth is staggered mutually.
Display floater the most according to claim 5, it is characterised in that in same described bar-shaped zone, along described non-
The inward flange of viewing area is to outer peripheral direction, and the quantity of the breach in described virtual pixel district gradually decreases.
Display floater the most according to claim 3, it is characterised in that in same described bar-shaped zone, along described non-
The inward flange of viewing area is to outer peripheral direction, and the width of described groove is sequentially reduced.
Display floater the most according to claim 2, it is characterised in that the width of described choked flow groove is described colorized optical filtering
The width in some the virtual pixel district in floor or the integral multiple of the width in a virtual pixel district.
10. a display device, it is characterised in that described display device includes described in claim 1-9 any one claim
Display floater.
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CN111596486B (en) * | 2020-06-22 | 2023-06-30 | 成都京东方显示科技有限公司 | Substrate, manufacturing method thereof and display panel |
CN113013221A (en) * | 2021-04-14 | 2021-06-22 | 京东方科技集团股份有限公司 | Color film substrate, display panel and display device |
CN113013221B (en) * | 2021-04-14 | 2024-04-19 | 京东方科技集团股份有限公司 | Color film substrate, display panel and display device |
CN114035362A (en) * | 2021-11-15 | 2022-02-11 | 惠州华星光电显示有限公司 | Liquid crystal display panel and display device |
CN114035362B (en) * | 2021-11-15 | 2023-10-13 | 惠州华星光电显示有限公司 | Liquid crystal display panel and display device |
CN114628451A (en) * | 2021-11-30 | 2022-06-14 | 京东方科技集团股份有限公司 | Display substrate and display device |
CN114628451B (en) * | 2021-11-30 | 2024-01-09 | 京东方科技集团股份有限公司 | Display substrate and display device |
WO2024007387A1 (en) * | 2022-07-05 | 2024-01-11 | Tcl华星光电技术有限公司 | Display panel and electronic device |
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