CN207650517U - A kind of colored filter, display panel and display terminal - Google Patents

Abstract

The utility model embodiment discloses a kind of colored filter, display panel and display terminal.The colored filter includes shading strip and color blocking layer.The shading strip includes lateral shading strip and vertical shading strip, and two lateral shading strips of arbitrary neighborhood and two vertical shading strips of arbitrary neighborhood mutually enclose, and to form color blocking region, the color blocking region is arranged in matrix.The color blocking layer, including multiple color blockings, each described color blocking are set in a color blocking region；Wherein, the color blocking includes the first color blocking block and the second color blocking block, and the first color blocking block is equipped with dyed layer, dyed layer is not provided on the second color blocking block；The first color blocking block is connect with the second color blocking block.Implement the utility model embodiment, it can be in the case where not changing pixel size, it can be achieved that increasing the light transmittance of display panel, advantageously reducing power consumption.

Description

A kind of colored filter, display panel and display terminal

Technical field

The utility model is related to a kind of display technology field more particularly to colored filter, display panel and display terminals.

Background technology

Liquid crystal display panel and LED display panel all have multiple pixels arranged in arrays, traditional pixel The sub-pixel of red, blue and green three kinds of colors is generally included, each sub-pixel is controlled by corresponding thin film transistor (TFT) System.The colored display of display panel can be achieved by the control of the corresponding color blocking of each sub-pixel and thin film transistor (TFT).It is existing Color blocking used by technology is all absorption-type color blocking, and when light incidence, the light of only corresponding color could penetrate.Remaining The light of color is absorbed, and then it is low to be easy to cause Display panel light transmittance.

Utility model content

The utility model provides the higher colored filter of light transmittance, display panel and display terminal.

In a first aspect, the utility model embodiment provides a kind of colored filter, the colored filter includes：

Shading strip, including lateral shading strip and vertical shading strip, two lateral shading strips of arbitrary neighborhood and arbitrary phase Two adjacent vertical shading strips mutually enclose, and to form color blocking region, the color blocking region is arranged in matrix；

Color blocking layer, including multiple color blockings, each described color blocking are set in a color blocking region；

Wherein, the color blocking includes the first color blocking block and the second color blocking block, and the first color blocking block is equipped with dyed layer, It is not provided with dyed layer on the second color blocking block；The first color blocking block is connect with the second color blocking block.

Further, in the same color blocking region, the area of the first color blocking block is more than second color The area of stop block.

Further, in the same color blocking region, the face of the first color blocking block and the second color blocking block Product size is 2:1.

Further, in the same color blocking region, the quantity of the first color blocking block is two, described second The quantity of color blocking block is one, and the first color blocking block is respectively arranged at two sides of the second color blocking block.

Further, in the same color blocking region, the quantity of the first color blocking block is one, described first Color blocking block is equipped with notch, and the second color blocking block is set to the indentation, there.

Further, the shape of the notch is rectangular.

Second aspect, the utility model embodiment provide a kind of display panel, and the display panel includes array substrate, The colored filter described in color membrane substrates and first aspect being oppositely arranged with the array substrate；

Wherein, the colored filter is set in the array substrate and positioned at the array substrate and the color film base Between plate；Or the colored filter is set on the color membrane substrates and positioned at the array substrate and the color membrane substrates Between.

Further, the array substrate includes：

Data line is set in the array substrate；

Scan line is set in the array substrate, orthogonal with the data line, the data line and the scanning Line is mutually enclosed to form subpixel area, and the subpixel area is arranged in matrix；

Storage capacitor is set in the subpixel area；

Wherein, the color blocking region is corresponded with the subpixel area；The storage capacitor is located at second color Below stop block.

The third aspect, the utility model embodiment provide a kind of display terminal, the display terminal include shell and Display panel, the shell is for fixing the display panel, and the display panel includes array substrate, with the array substrate The colored filter described in color membrane substrates and first aspect being oppositely arranged；

Wherein, the colored filter is set in the array substrate and positioned at the array substrate and the color film base Between plate；Or the colored filter is set on the color membrane substrates and positioned at the array substrate and the color membrane substrates Between.

Further, the array substrate includes：

Data line is set in the array substrate；

Scan line is set in the array substrate, orthogonal with the data line, the data line and the scanning Line is mutually enclosed to form subpixel area, and the subpixel area is arranged in matrix；

Storage capacitor is set in the subpixel area；

Wherein, the color blocking region is corresponded with the subpixel area；The storage capacitor is located at second color Below stop block.

The colored filter that the utility model embodiment is provided includes color blocking, the color blocking include the first color blocking block and Second color blocking block is not provided with dyed layer wherein the first color blocking block is equipped with dyed layer on the second color blocking block.Implement this Utility model embodiment, can be in the case where not changing pixel size, it can be achieved that increasing the light transmittance of display panel, being conducive to drop Low-power consumption.

Description of the drawings

It is required in being described below to embodiment to make in order to illustrate more clearly of the utility model embodiment technical solution Attached drawing is briefly described, it should be apparent that, the accompanying drawings in the following description is some embodiments of the utility model, for For those of ordinary skill in the art, without creative efforts, other are can also be obtained according to these attached drawings Attached drawing.

Fig. 1 is a kind of structural schematic diagram of colored filter in the utility model embodiment；

Fig. 2 is the structural schematic diagram of another colored filter in the utility model embodiment；

Fig. 3 is a kind of structural schematic diagram of display panel in the utility model embodiment；

Fig. 4 is the structural schematic diagram of another display panel in the utility model embodiment；

Fig. 5 is a kind of structural schematic diagram of array substrate in display panel in the utility model embodiment；

Fig. 6 is a kind of structural schematic diagram of display terminal in the utility model embodiment.

Attached drawing identifies

100 colored filter, 110 shading strip

111 112 vertical shading strips of lateral shading strip

120 color blocking, 121 first color blocking block

122 second color blocking block, 200 display panel

210 array substrate, 220 color membrane substrates

230 liquid crystal layer, 211 data line

212 scan line, 213 storage capacitor

300 display terminal, 310 shell

Specific implementation mode

The following will be combined with the drawings in the embodiments of the present invention, to the technical scheme in the embodiment of the utility model into Row clearly and completely describes, it is clear that described embodiment is the utility model a part of the embodiment, rather than whole realities Apply example.Based on the embodiments of the present invention, those of ordinary skill in the art institute without making creative work The every other embodiment obtained, shall fall within the protection scope of the present invention.

It should be appreciated that ought use in this specification and in the appended claims, term " comprising " and "comprising" instruction Described feature, entirety, step, operation, the presence of element and/or component, but one or more of the other feature, whole is not precluded Body, step, operation, element, component and/or its presence or addition gathered.

It is also understood that in this utility model term used in the description merely for the sake of description specific embodiment Purpose and be not intended to limit the utility model.As used in the utility model specification and appended book Like that, other situations unless the context is clearly specified, otherwise " one " of singulative, "one" and "the" are intended to include plural number Form.

It should be noted that when element is referred to as " being fixed on " another element, it can be directly on another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it can be directly connected to To another element or it may be simultaneously present centering elements.Term as used herein "inner", "outside", "left", "right" and Similar statement for illustrative purposes only, is not offered as being unique embodiment.

It will be further appreciated that the term that is used in the utility model specification and appended book " and/ Or " refer to one or more of associated item listed any combinations and all possible combinations, and include these groups It closes.

Fig. 1 to Fig. 2 is referred to, is a kind of structural schematic diagram of colored filter in the utility model embodiment.It is described Colored filter 100 may be disposed at array substrate 210 or the color membrane substrates 220 opposite with array in display panel 200.Institute It includes shading strip 100 and color blocking layer to state colored filter 100.

Specifically, the shading strip 110 includes lateral shading strip 111 and vertical shading strip 112, two of arbitrary neighborhood Lateral shading strip 111 and two vertical shading strips 112 of arbitrary neighborhood mutually enclose, to form color blocking region 120, the color blocking Region 120 is arranged in matrix.

The color blocking layer includes multiple color blockings, each described color blocking is set in a color blocking region 120.

Wherein, the color blocking includes the first color blocking block 121 and the second color blocking block 122, is set on the first color blocking block 121 There is dyed layer, dyed layer is not provided on the second color blocking block 122；The first color blocking block 121 and the second color blocking block 122 connections.

In specific implementation, the shading strip 110 can be a part of black matrix" (black matrix, BM).It is described Shading strip 110 is made of light-proof material, such as is made of for material black color photosensitive resin or chromium.The shading strip 110 can It is formed on the glass substrate in display panel 200 by the plated film mode of magnetron sputtering, which can be display substantially Array substrate 210 in panel 200 or color membrane substrates 220.The shading strip 110 and manufacturing method thereof be the art week Know therefore no longer adds to repeat.

The color blocking layer includes multiple color blockings, includes at least one first color blocking block 121, first color in each color blocking Stop block 121 is equipped with dyed layer, and the dyed layer can be red colored layer, green colored layer or blue-colored layer.Pass through Different dyed layers is set on the first color blocking block 121, so that the corresponding color blocking filtering of the dyed layer and the coloring The layer different light of color.For example, the color blocking includes a first color blocking block 121, it is arranged on the first color blocking block 121 Dyed layer is red colored layer, then color blocking corresponding to the red colored layer can be used for filtering other colors than red Light.The dyed layer can pass through decoration method (Dyeing Method), pigment dispersion method (Pigment Dispersed Method), the modes shape such as electrodeposition process (Electro Deposition Method), print process (Printing Method) At the utility model embodiment does not define the manufacturing method thereof of the dyed layer.

Further, in the same color blocking region 120, the area of the first color blocking block 121 is more than described The area of second color blocking block 122.For example, in the same color blocking region 120, the first color blocking block 121 with it is described The size ratio of second color blocking block 122 is 2:1.It include one described first in specific implementation, in each described color blocking The length and width size of color blocking block 121, the first color blocking block 121 can be 3.53 μm * 7.66 μm, then the second color blocking block 122 Length and width size can be 3.53 μm * 3.83 μm.

Further, in the same color blocking region 120, the quantity of the first color blocking block 121 is two, described The quantity of second color blocking block 122 is one, and the first color blocking block 121 is respectively arranged at two of the second color blocking block 122 Side.Specifically, the size summation of the first color blocking block 121 can be with the size summation of second color lump Twice.

Further, in the same color blocking region 120, the quantity of the first color blocking block 121 is one, institute It states the first color blocking block 121 and is equipped with notch, the second color blocking block 122 is set to the indentation, there.Specifically, the notch Quantity can be one or more.The shape of the notch is rectangular, round or polygon, the utility model embodiment pair It is that the shape of notch and quantity do not define.

Implement the utility model embodiment, the first color blocking block 121 of coloring is equipped with by the color blocking and is not provided with coloring Second color blocking block 122 of layer, can be in the case where not changing pixel size, it can be achieved that increasing the light transmittance of display panel 200, having Conducive to reduction power consumption.

Fig. 3 to Fig. 4 is please referred to, is a kind of structural schematic diagram of display panel in the utility model embodiment.The display Panel 200 includes but are not limited to liquid crystal display panel (Liquid Crystal Display, LCD), Organic Light Emitting Diode Display panel (Organic Light-Emitting Diode, OLED), field emission display panel (Field emission Display, FED), Plasmia indicating panel PDP (Plasma Display Panel), curved face type panel.The liquid crystal display panel Including liquid crystal display panel of thin film transistor (Thin Film Transistor-Liquid Crystal display, TFT- LCD), TN panels (Twisted Nematic+Film), VA classes panel (Vertical Alignment), IPS panels (In Plane Switching), COA (Color Filter on Array) panel etc..

Specifically, the display panel 200 includes array substrate 210, the color film being oppositely arranged with the array substrate 210 Any colored filter 100 that substrate 220 and the utility model previous embodiment are provided.The display panel 200 includes The liquid crystal layer 230 being set between the array substrate 210 and the color membrane substrates 220.

Wherein, the colored filter 100 be set in the array substrate 210 and positioned at the array substrate 210 with Between the color membrane substrates 220；Or the colored filter 100 is set on the color membrane substrates 220 and is located at the battle array Between row substrate 210 and the color membrane substrates 220.It wherein, can be by COA (Color Filter on Array) technologies by institute Colored filter 100 is stated to be set in the array substrate 210 and positioned at the array substrate 210 and the color membrane substrates 220 Between, pixel aperture ratio and display quality can be improved.

In specific implementation, the colored filter 100 may be disposed at array substrate 210 in display panel 200 or with The opposite color membrane substrates 220 of array.The colored filter 100 includes shading strip 110 and color blocking layer.

Specifically, the shading strip 110 includes lateral shading strip 111 and vertical shading strip 112, two of arbitrary neighborhood Lateral shading strip 111 and two vertical shading strips 112 of arbitrary neighborhood mutually enclose, to form color blocking region 120, the color blocking Region 120 is arranged in matrix.

The color blocking layer includes multiple color blockings, each described color blocking is set in a color blocking region 120.

Wherein, the color blocking includes the first color blocking block 121 and the second color blocking block 122, is set on the first color blocking block 121 There is dyed layer, dyed layer is not provided on the second color blocking block 122；The first color blocking block 121 and the second color blocking block 122 connections.

In specific implementation, the shading strip 110 can be a part of black matrix" (black matrix, BM).It is described Shading strip 110 is made of light-proof material, such as is made of for material black color photosensitive resin or chromium.The shading strip 110 can It is formed on the glass substrate in display panel 200 by the plated film mode of magnetron sputtering, which can be display substantially Array substrate 210 in panel 200 or color membrane substrates 220.The shading strip 110 and manufacturing method thereof be the art week Know therefore no longer adds to repeat.

The color blocking layer includes multiple color blockings, includes at least one first color blocking block 121, first color in each color blocking Stop block 121 is equipped with dyed layer, and the dyed layer can be red colored layer, green colored layer or blue-colored layer.Pass through Different dyed layers is set on the first color blocking block 121, so that the corresponding color blocking filtering of the dyed layer and the coloring The layer different light of color.For example, the color blocking includes a first color blocking block 121, it is arranged on the first color blocking block 121 Dyed layer is red colored layer, then color blocking corresponding to the red colored layer can be used for filtering other colors than red Light.The dyed layer can pass through decoration method (Dyeing Method), pigment dispersion method (Pigment Dispersed Method), the modes shape such as electrodeposition process (Electro Deposition Method), print process (Printing Method) At the utility model embodiment does not define the manufacturing method thereof of the dyed layer.

Further, in the same color blocking region 120, the area of the first color blocking block 121 is more than described The area of second color blocking block 122.For example, in the same color blocking region 120, the first color blocking block 121 with it is described The size ratio of second color blocking block 122 is 2:1.It include one described first in specific implementation, in each described color blocking The length and width size of color blocking block 121, the first color blocking block 121 can be 3.53 μm * 7.66 μm, then the second color blocking block 122 Length and width size can be 3.53 μm * 3.83 μm.

Further, in the same color blocking region 120, the quantity of the first color blocking block 121 is two, described The quantity of second color blocking block 122 is one, and the first color blocking block 121 is respectively arranged at two of the second color blocking block 122 Side.Specifically, the size summation of the first color blocking block 121 can be with the size summation of second color lump Twice.

Further, in the same color blocking region 120, the quantity of the first color blocking block 121 is one, institute It states the first color blocking block 121 and is equipped with notch, the second color blocking block 122 is set to the indentation, there.Specifically, the notch Quantity can be one or more.The shape of the notch is rectangular, round or polygon, the utility model embodiment pair It is that the shape of notch and quantity do not define.

Implement the utility model embodiment, the first color blocking block 121 of coloring is equipped with by the color blocking and is not provided with coloring Second color blocking block 122 of layer, can be in the case where not changing pixel size, it can be achieved that increasing the light transmittance of display panel 200, having Conducive to reduction power consumption.

Fig. 5 specifically is please referred to, for the knot of array substrate 210 in a kind of display panel 200 in the utility model embodiment Structure schematic diagram.Further, the array substrate 210 includes transparent substrate (not shown), data line 211, scan line 212 And storage capacitor 213.

Wherein the data line 211 is set on the transparent substrate.

The scan line 212 is set on the transparent substrate, orthogonal with the data line 211, the data line 211 mutually enclose to form subpixel area with the scan line 212, and the subpixel area is arranged in matrix.

The storage capacitor 213 is set in the subpixel area.

Wherein, the color blocking region 120 is corresponded with the subpixel area；The storage capacitor 213 is located at described Second color blocking block, 122 lower section.

In specific implementation, each subpixel area includes one or more thin film transistor (TFT), every three subpixel areas A pixel region can be formed.Any one subpixel area is corresponded with a color blocking region 120, the size phase of the two Deng position is opposite.Particularly, the storage capacitor 213 is located at 122 lower section of the second color blocking block.If for example, second color The position of stop block 122 is located at the top of the color blocking region 120, then the storage capacitor 213 is correspondingly located at the sub- picture Top in plain region；If the position of the second color blocking block 122 is located at the middle part of the color blocking region 120, the energy storage Capacitance 213 is correspondingly located at the middle part in the subpixel area.

Implement the utility model embodiment, the storage capacitor 213 by that will influence 200 light transmittance of display panel is set to The lower section of the second color blocking block 122, and then the influence to 121 light transmittance of the first color blocking block equipped with dyed layer is reduced, to It does not influence to show color again while being conducive to be promoted the integral light-transmitting rate of display panel 200.

Fig. 6 is please referred to, is a kind of structural schematic diagram of display terminal in the utility model embodiment.The display terminal 300, which can be smart mobile phone, tablet computer, palm PC, media player, smart television, smartwatch etc., has display surface The terminal of plate 200.The display terminal 300 includes shell 310 and display panel 200, and the shell 310 is for described in fixation Display panel 200, the display panel 200 include array substrate 210, the color film base being oppositely arranged with the array substrate 210 Any colored filter 100 provided in plate 220 and the utility model previous embodiment.

Wherein, the colored filter 100 be set in the array substrate 210 and positioned at the array substrate 210 with Between the color membrane substrates 220；Or the colored filter 100 is set on the color membrane substrates 220 and is located at the battle array Between row substrate 210 and the color membrane substrates 220.

In specific implementation, the colored filter 100 may be disposed at array substrate 210 in display panel 200 or with The opposite color membrane substrates 220 of array.The colored filter 100 includes shading strip 110 and color blocking layer.

Specifically, the shading strip 110 includes lateral shading strip 111 and vertical shading strip 112, two of arbitrary neighborhood Lateral shading strip 111 and two vertical shading strips 112 of arbitrary neighborhood mutually enclose, to form color blocking region 120, the color blocking Region 120 is arranged in matrix.

The color blocking layer includes multiple color blockings, each described color blocking is set in a color blocking region 120.

Wherein, the color blocking includes the first color blocking block 121 and the second color blocking block 122, is set on the first color blocking block 121 There is dyed layer, dyed layer is not provided on the second color blocking block 122；The first color blocking block 121 and the second color blocking block 122 Connection.

In specific implementation, the shading strip 110 can be a part of black matrix" (black matrix, BM).It is described Shading strip 110 is made of light-proof material, such as is made of for material black color photosensitive resin or chromium.The shading strip 110 can It is formed on the glass substrate in display panel 200 by the plated film mode of magnetron sputtering, which can be display substantially Array substrate 210 in panel 200 or color membrane substrates 220.The shading strip 110 and manufacturing method thereof be the art week Know therefore no longer adds to repeat.

The color blocking layer includes multiple color blockings, includes at least one first color blocking block 121, first color in each color blocking Stop block 121 is equipped with dyed layer, and the dyed layer can be red colored layer, green colored layer or blue-colored layer.Pass through Different dyed layers is set on the first color blocking block 121, so that the corresponding color blocking filtering of the dyed layer and the coloring The layer different light of color.For example, the color blocking includes a first color blocking block 121, it is arranged on the first color blocking block 121 Dyed layer is red colored layer, then color blocking corresponding to the red colored layer can be used for filtering other colors than red Light.The dyed layer can pass through decoration method (Dyeing Method), pigment dispersion method (Pigment Dispersed Method), the modes shape such as electrodeposition process (Electro Deposition Method), print process (Printing Method) At the utility model embodiment does not define the manufacturing method thereof of the dyed layer.

Further, in the same color blocking region 120, the area of the first color blocking block 121 is more than described The area of second color blocking block 122.For example, in the same color blocking region 120, the first color blocking block 121 with it is described The size ratio of second color blocking block 122 is 2:1.It include one described first in specific implementation, in each described color blocking The length and width size of color blocking block 121, the first color blocking block 121 can be 3.53 μm * 7.66 μm, then the second color blocking block 122 Length and width size can be 3.53 μm * 3.83 μm.

Further, in the same color blocking region 120, the quantity of the first color blocking block 121 is two, described The quantity of second color blocking block 122 is one, and the first color blocking block 121 is respectively arranged at two of the second color blocking block 122 Side.Specifically, the size summation of the first color blocking block 121 can be with the size summation of second color lump Twice.

Further, in the same color blocking region 120, the quantity of the first color blocking block 121 is one, institute It states the first color blocking block 121 and is equipped with notch, the second color blocking block 122 is set to the indentation, there.Specifically, the notch Quantity can be one or more.The shape of the notch is rectangular, round or polygon, the utility model embodiment pair It is that the shape of notch and quantity do not define.

Implement the utility model embodiment, the first color blocking block 121 of coloring is equipped with by the color blocking and is not provided with coloring Second color blocking block 122 of layer, can be in the case where not changing pixel size, it can be achieved that increasing the light transmittance of display panel 200, having Conducive to reduction power consumption.

Fig. 5 specifically is please referred to, for the structural representation of array substrate in a kind of display panel in the utility model embodiment Figure.Further, the array substrate 210 includes transparent substrate (not shown), data line 211, scan line 212 and storage It can capacitance 213.

Wherein the data line 211 is set on the transparent substrate.

The scan line 212 is set on the transparent substrate, orthogonal with the data line 211, the data line 211 mutually enclose to form subpixel area with the scan line 212, and the subpixel area is arranged in matrix.

The storage capacitor 213 is set in the subpixel area.

Wherein, the color blocking region 120 is corresponded with the subpixel area；The storage capacitor 213 is located at described Second color blocking block, 122 lower section.

In specific implementation, each subpixel area includes one or more thin film transistor (TFT), every three subpixel areas A pixel region can be formed.Any one subpixel area is corresponded with a color blocking region 120, the size phase of the two Deng position is opposite.Particularly, the storage capacitor 213 is located at 122 lower section of the second color blocking block.If for example, second color The position of stop block 122 is located at the top of the color blocking region 120, then the storage capacitor 213 is correspondingly located at the sub- picture Top in plain region；If the position of the second color blocking block 122 is located at the middle part of the color blocking region 120, the energy storage Capacitance 213 is correspondingly located at the middle part in the subpixel area.

Implement the utility model embodiment, the storage capacitor 213 by that will influence 200 light transmittance of display panel is set to The lower section of the second color blocking block 122, and then the influence to 121 light transmittance of the first color blocking block equipped with dyed layer is reduced, to It does not influence to show color again while being conducive to be promoted the integral light-transmitting rate of display panel 200.

Above description is only a specific implementation of the present invention, but the scope of protection of the utility model is not limited to In this, any one skilled in the art within the technical scope disclosed by the utility model, can readily occur in various Equivalent modifications or substitutions, these modifications or substitutions should be covered within the scope of the utility model.Therefore, this practicality Novel protection domain should be subject to the protection scope in claims.

Claims (10)

1. a kind of colored filter, which is characterized in that the colored filter includes：

Shading strip, including lateral shading strip and vertical shading strip, two of arbitrary neighborhood lateral shading strips and arbitrary neighborhood Two vertical shading strips mutually enclose, and to form color blocking region, the color blocking region is arranged in matrix；

Color blocking layer, including multiple color blockings, each described color blocking are set in a color blocking region；

Wherein, the color blocking includes the first color blocking block and the second color blocking block, and the first color blocking block is equipped with dyed layer, described It is not provided with dyed layer on second color blocking block；The first color blocking block is connect with the second color blocking block.

2. colored filter as described in claim 1, which is characterized in that in the same color blocking region, described The area of stop block of the same colour is more than the area of the second color blocking block.

3. colored filter as described in claim 1, which is characterized in that in the same color blocking region, described The size ratio of stop block of the same colour and the second color blocking block is 2:1.

4. colored filter as described in claim 1, which is characterized in that in the same color blocking region, described first The quantity of color blocking block is two, and the quantity of the second color blocking block is one, and the first color blocking block is respectively arranged at described the Two sides of two color blocking blocks.

5. colored filter as described in claim 1, which is characterized in that in the same color blocking region, described The quantity of stop block of the same colour is one, and the first color blocking block is equipped with notch, and the second color blocking block is set to the indentation, there.

6. colored filter as claimed in claim 5, which is characterized in that the shape of the notch is rectangular.

7. a kind of display panel, which is characterized in that the display panel includes array substrate, is oppositely arranged with the array substrate Color membrane substrates and colored filter as claimed in any one of claims 1 to 6；

Wherein, the colored filter be set in the array substrate and positioned at the array substrate and the color membrane substrates it Between；Or the colored filter be set on the color membrane substrates and positioned at the array substrate and the color membrane substrates it Between.

8. display panel as claimed in claim 7, which is characterized in that the array substrate includes：

Transparent substrate；

Data line is set on the transparent substrate；

Scan line is set on the transparent substrate, orthogonal with the data line, the data line and the scan line phase It mutually encloses to form subpixel area, the subpixel area is arranged in matrix；

Storage capacitor is set in the subpixel area；

Wherein, the color blocking region is corresponded with the subpixel area；The storage capacitor is located at the second color blocking block Lower section.

9. a kind of display terminal, which is characterized in that the display terminal includes shell and display panel, and the shell is for solid The fixed display panel, the display panel includes array substrate, the color membrane substrates being oppositely arranged with the array substrate, and Colored filter as claimed in any one of claims 1 to 6；

Wherein, the colored filter be set in the array substrate and positioned at the array substrate and the color membrane substrates it Between；Or the colored filter be set on the color membrane substrates and positioned at the array substrate and the color membrane substrates it Between.

10. display terminal as claimed in claim 9, which is characterized in that the array substrate includes：

Transparent substrate；

Data line is set on the transparent substrate；

Scan line is set on the transparent substrate, orthogonal with the data line, the data line and the scan line phase It mutually encloses to form subpixel area, the subpixel area is arranged in matrix；

Storage capacitor is set in the subpixel area；

Wherein, the color blocking region is corresponded with the subpixel area；The storage capacitor is located at the second color blocking block Lower section.