CN104090415B - Color membrane substrates and display device - Google Patents

Abstract

The invention provides a kind of color membrane substrates and display device, including the multiple pixels arranged in array, the chromatic photoresist differed including three colors in each pixel, include the chromatic photoresist row of three row side by side in one row pixel, chromatic photoresist row positioned at both sides include the chromatic photoresist of two kinds of colors, and the spaced arrangement of chromatic photoresist of two kinds of colors.In above-mentioned color membrane substrates, at one in the pixel cell that four pixels are constituted, either left side or right side are adjacent with the chromatic photoresist of two kinds of colors for a kind of chromatic photoresist of color, when color membrane substrates are offset relative to array base palte or so and observe picture along oblique viewing angle, a kind of sub-pix of color can seal in other two kinds of colors, the two kinds of colors sealed in far smaller than seal in influence during solid color with the influence after the color addition of the sub-pix in itself to sub-pix color to display, so as to solve the problems, such as that color membrane substrates and array base palte align bad caused colour contamination, improve image quality.

Description

Color membrane substrates and display device

Technical field

The present invention relates to display technology field, more particularly to a kind of color membrane substrates and display device.

Background technology

Liquid crystal display device array base palte and color membrane substrates to box technique in require higher aligning accuracy, this is It can cause picture colour contamination problem because contraposition is bad.

As shown in figure 1, liquid crystal display device mainly includes：The array base palte 11 and color membrane substrates 12 being oppositely arranged, and position In liquid crystal 13 therebetween.Wherein, array base palte 11 may include：First underlay substrate 101, the first insulating barrier 102, pixel electricity Pole 103, data wire 104, the second insulating barrier 105 and public electrode 106；Color membrane substrates 12 may include：Second underlay substrate 107, Chromatic photoresist 108 and black matrix" 109.

Color membrane substrates 12 include multiple pixels, and each pixel is respectively red (R), green (G) and indigo plant including three colors Include the chromatic photoresist 108 of corresponding color in the sub-pix of color (B), the subpixel regions of different colours.The row of chromatic photoresist 108 Cloth situation is usually：Often row chromatic photoresist 108 is arranged according to RGBRGB order, the color phase of chromatic photoresist 108 in same row Together.

Color membrane substrates 12 are with array base palte 11 in the case of the contraposition shown in Fig. 1 is accurate, and the sub-pix of each color is equal The light of color required for can sending.But, when color membrane substrates 12 align bad with array base palte 11, as shown in Fig. 2 color film Substrate 12 is offset to the left relative to array base palte 11, and the green photoresistance in green sub-pixels region is leaned on to red sub-pixel region Closely, the black matrix" 109 offset can not block green sub-pixels region completely.Now, if from right side under complete red picture View directions observe display picture, although green sub-pixels are not lit, and green photoresistance can be by red sub- Liquid crystal molecule in pixel constitutes light path, causes to mix green in red picture, colour contamination occurs in picture, display quality declines.

The content of the invention

To overcome above-mentioned defect of the prior art, the technical problems to be solved by the invention are：A kind of color film base is provided Plate and display device, to solve the problems, such as that color membrane substrates and array base palte align bad caused picture colour contamination, improve and show matter Amount.

To reach above-mentioned purpose, the present invention is adopted the following technical scheme that：

A kind of color membrane substrates, including：Include three colors in the multiple pixels arranged in array, each pixel equal Include the chromatic photoresist row of three row side by side in the chromatic photoresist differed, a row pixel, the chromatic photoresist positioned at both sides is arranged Include the chromatic photoresist of two kinds of colors, and the spaced arrangement of chromatic photoresist of described two colors.

It is preferred that, in the three row chromatic photoresists row in a row pixel, include one kind positioned at middle chromatic photoresist row The chromatic photoresist of color.

It is preferred that, the chromatic photoresist row positioned at both sides include red photoresistance and blue light resistance, the centre that is located at Chromatic photoresist row include green photoresistance.

It is preferred that, the chromatic photoresist row positioned at both sides include blue light resistance and green photoresistance, the centre that is located at Chromatic photoresist row include red photoresistance.

It is preferred that, the chromatic photoresist row positioned at both sides include red photoresistance and green photoresistance, the centre that is located at Chromatic photoresist row include blue light resistance.

It is preferred that, the color membrane substrates include：Black matrix", two neighboring chromatic photoresist difference in pixel described in a line For：First chromatic photoresist and the second chromatic photoresist；The color membrane substrates also include：On the black matrix" and it is located side by side at The first compensation photoresistance and the second compensation photoresistance between the two neighboring chromatic photoresist, the first compensation photoresistance is close to described First chromatic photoresist, and the first compensation photoresistance is identical with the color of second chromatic photoresist, the second compensation photoresistance Close to second chromatic photoresist, and the second compensation photoresistance is identical with the color of first chromatic photoresist.

It is preferred that, if first chromatic photoresist is red photoresistance, second chromatic photoresist is green photoresistance, then described First compensation photoresistance is red photoresistance, and the second compensation photoresistance is green photoresistance.

It is preferred that, if first chromatic photoresist is red photoresistance, second chromatic photoresist is blue light resistance, then described First compensation photoresistance is red photoresistance, and the second compensation photoresistance is blue light resistance.

It is preferred that, if first chromatic photoresist is blue light resistance, second chromatic photoresist is green photoresistance, then described First compensation photoresistance is blue light resistance, and the second compensation photoresistance is green photoresistance.

It is preferred that, the equal length of the first compensation photoresistance and first chromatic photoresist, the second compensation photoresistance With the equal length of second chromatic photoresist.

It is preferred that, the width sum of the first compensation photoresistance and the described second compensation photoresistance is less than or equal to described first The width of black matrix" between chromatic photoresist and second chromatic photoresist.

The color membrane substrates described in any of the above are wanted present invention also offers a kind of display device, including right.

It is preferred that, the type of the display device is TN types, MVA types, PVA types, IPS types, FFS types or ADS types.

In color membrane substrates provided by the present invention and display device, by changing the arrangement of chromatic photoresist in sub-pix, make In same row pixel, the chromatic photoresist row of both sides include the chromatic photoresist of two kinds of colors, and the chromatic photoresist of both colors A kind of spaced arrangement so that at one in the pixel cell that four pixels are constituted, chromatic photoresist of color is either left Side or right side are adjacent with the chromatic photoresist of two kinds of colors.Therefore, when color membrane substrates are offset to the left relative to array base palte, from When right side perspective observes picture, or, when color membrane substrates are offset to the right relative to array base palte, the picture from left side perspective When, a kind of sub-pix of color can seal in other two kinds of colors, and the two kinds of colors sealed in are folded with the color of the sub-pix in itself Plus after the influence of influence to sub-pix color to display when far smaller than sealing in solid color, so as to solve color film Substrate aligns bad caused colour contamination problem with array base palte, improves image quality.

Brief description of the drawings

In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing There is the accompanying drawing used required in technology description to be briefly described, it should be apparent that, drawings in the following description are only this Some embodiments of invention, for those of ordinary skill in the art, on the premise of not paying creative work, can be with Other accompanying drawings are obtained according to these accompanying drawings.

Sectional view when Fig. 1 aligns accurate for the color membrane substrates of display device of the prior art with array base palte；

Sectional view when Fig. 2 is offset to the left for the color membrane substrates of display device of the prior art relative to array base palte；

The layout viewing of chromatic photoresist in the color membrane substrates that Fig. 3 is provided by the embodiment of the present invention；

The sectional view of the first structure of the color membrane substrates that Fig. 4 is provided by the embodiment of the present invention；

The sectional view of second of structure of the color membrane substrates that Fig. 5 is provided by the embodiment of the present invention；

The sectional view of the third structure of the color membrane substrates that Fig. 6 is provided by the embodiment of the present invention.

Embodiment

In order to facilitate the understanding of the purposes, features and advantages of the present invention, below in conjunction with present invention implementation Accompanying drawing in example, the technical scheme in the embodiment of the present invention is clearly and completely described.Obviously, described embodiment Only a part of embodiment of the invention, rather than whole embodiments.Based on the embodiment in the present invention, the common skill in this area All other embodiment that art personnel are obtained on the premise of creative work is not made, belongs to the model that the present invention is protected Enclose.

The embodiments of the invention provide a kind of color membrane substrates, including：In the multiple pixels arranged in array, each pixel Include the chromatic photoresist row of three row side by side in the chromatic photoresist differed including three colors, a row pixel, positioned at both sides Chromatic photoresist row include the chromatic photoresist of two kinds of colors, and the spaced arrangement of chromatic photoresist of two kinds of colors.

The color membrane substrates that the present embodiment is provided, the arrangement of its chromatic photoresist is different from arrangement of the prior art, same In three row chromatic photoresists row in row pixel, the chromatic photoresist row positioned at both sides include the coloured silk of two kinds of colors and spaced arrangement Coloured light hinders, and makes at one in the pixel cell that four pixels are constituted, a kind of the same side of the chromatic photoresist of color is by original It is adjacent with a kind of chromatic photoresist of color change into it is adjacent with the chromatic photoresist of two kinds of colors so that when color membrane substrates relative to battle array When row substrate misplaces and occurs colour contamination, a kind of sub-pix of color can seal in other two kinds of colors, by the two kinds of face sealed in Color is far smaller than with the influence after the color addition of the sub-pix in itself to sub-pix color to display seals in single face Influence during color, even if therefore color membrane substrates and array base palte contraposition it is bad, be also not in colour contamination, improve the display of picture Quality.

The arrangement of the chromatic photoresist of the color membrane substrates provided below the present embodiment is specifically introduced.As shown in figure 3, The color membrane substrates may include：Chromatic photoresist.Chromatic photoresist preferably includes：Red photoresistance R, green photoresistance G and blue light resistance B； Red photoresistance R belongs to red sub-pixel, and green photoresistance G belongs to green sub-pixels, and blue light resistance B belongs to blue subpixels；It is different The sub-pix of color is arranged in array, a red sub-pixel, a green sub-pixels and a blue subpixels side by side Constitute a pixel A 11；Four adjacent pixel As 11 are a pixel cell A1.In the present embodiment, in same row pixel A 11 Include three row chromatic photoresists row, the chromatic photoresist row positioned at both sides include red photoresistance R and blue light resistance B, positioned at centre Chromatic photoresist row include green photoresistance G.Rephrase the statement, in odd-line pixels A11, chromatic photoresist is arranged according to RGBRGB order Row, in even rows A11, chromatic photoresist is arranged according to BGRBGR order.Region where chromatic photoresist is viewing area Domain.

It can be seen from above-mentioned color membrane substrates in the pixel cell A1 that four pixel As 11 are constituted, red photoresistance R's Right side is adjacent with green photoresistance G and blue light resistance B, and green photoresistance G right side is adjacent with red photoresistance R and blue light resistance B, blueness Photoresistance B right side is adjacent with red photoresistance R and green photoresistance G.

So that the display of picture needs is entirely red as an example, if color membrane substrates are offset to the left relative to array base palte, black matrix" can not Green photoresistance G and blue light resistance B is blocked completely, in this case, when the picture from right side perspective, partly by green light The green glow and part for hindering G can seal in red sub-pixel region by blue light resistance B blue light.The green glow and blue light sealed in can be with Part feux rouges in red sub-pixel region is superimposed as white light, and the white light is superimposed with remaining feux rouges again, and shown color is still For red；By the green glow and blue light amount that are sealed in are few, thus it is minimum on final shown red colourity influence, add Human eye perceives the limited in one's ability of colourity difference, it can be considered that final shown red is identical with the red for needing to show 's.

And adjacent with red photoresistance in the prior art is only green photoresistance, color membrane substrates are relative to array base palte to left avertence Move and from right side perspective during picture, red sub-pixel only seals in green light in region, the green light and red sub- picture After feux rouges superposition in plain region, shown color can be caused partially yellow.Therefore, green is sealed in a red sub-pixel and blue Color far smaller than only seals in influence during green to the red influence shown needed for the red sub-pixel.

Because each color chromatic photoresist is adjacent therefore above-mentioned with the chromatic photoresist of other two kinds of colors in the present embodiment Principle is equally applicable to show the situation of other colors, that is to say, that other two kinds of colors are sealed in a kind of sub-pix of color The influence of color to being shown needed for the sub-pix far smaller than only seals in influence during a kind of color, so that the present embodiment is carried The color membrane substrates of confession solve the problems, such as the colour contamination of right side perspective when color membrane substrates are offset to the left relative to array base palte.

Offset to the left relative to array base palte for color membrane substrates and when during the picture from left side perspective, due to black The barrier effect of colour moment battle array 301, the light for not having other colors is sealed in the sub-pix of another color, therefore color film base Left side perspective and in the absence of colour contamination when plate is offset to the left relative to array base palte, in actual observation, if color membrane substrates are relative to battle array Skew to the left occurs for row substrate, then the possibility for colour contamination occur in left side perspective is also extremely low.

Based on above-mentioned principle, in the pixel cell A1 that four pixel As 11 are constituted, red photoresistance R left side and green Photoresistance G and blue light resistance B are adjacent, and green photoresistance G left side is adjacent with red photoresistance R and blue light resistance B, a blue light resistance B left side Side is adjacent with red photoresistance R and green photoresistance G, if color membrane substrates are offset to the right relative to array base palte, and is seen from left side perspective When examining picture, a kind of sub-pix of color can equally seal in two kinds of other colors, therefore the color film base that the present embodiment is provided Plate can solve the problem that the colour contamination problem of left side perspective when color membrane substrates are offset to the right relative to array base palte simultaneously.

Also, color membrane substrates are offset to the right and from right side perspective during picture relative to array base palte, and picture is not present Colour contamination.

It should be noted that so-called " color membrane substrates are offset to the left relative to array base palte " and " color membrane substrates are relative to battle array Row substrate is offset to the right " refer to that on the line direction along pixel A 11 relative to array base palte left and right skew occurs for color membrane substrates；By It is larger in alignment situation influence to display picture colour contamination of the color membrane substrates with array base palte on the line direction along pixel A 11, Therefore, it is generally the case that the contraposition of color membrane substrates and array base palte is bad also to refer to this drift condition more.It is to be understood that Width of the line direction of pixel A 11 along the chromatic photoresist of bar shaped, the length of the column direction of pixel A 11 along the chromatic photoresist of bar shaped Spend direction.

To sum up, the color membrane substrates that the present embodiment is provided can solve the problem that color membrane substrates are bad caused with array base palte contraposition Colour contamination problem, improve image display quality.

The principle that this implementation only improves colour contamination by taking the arrangement of above-mentioned chromatic photoresist as an example to it is illustrated, the present invention's In other embodiments, the arrangement of chromatic photoresist can also be：In same row pixel A 11 in three included row chromatic photoresists row, position Chromatic photoresist row in both sides include blue light resistance and green photoresistance, include red photoresistance positioned at middle chromatic photoresist row, or Person, the chromatic photoresist row positioned at both sides include red photoresistance and green photoresistance, include blue light positioned at middle chromatic photoresist row Resistance, equally can solve the problem that color membrane substrates and array base palte align it is bad caused by colour contamination problem, its principle with it is detailed above Solve the problems, such as align it is bad caused by colour contamination principle it is similar, will not be repeated here.

The color membrane substrates that the present embodiment is provided also include：Black matrix" 301.Black matrix" 301 is preferred to be may include：It is many First black matrix" bar and a plurality of second black matrix" bar along column direction of the bar along line direction, the first black matrix" bar and second It is in fenestral fabric that black matrix" bar, which interweaves, and the grid defined is a subpixel regions.Black matrix" 301 is used to cover The elements such as TFT (Thin Film Transistor, thin film transistor (TFT)), gate line, data wire on array base palte.

Further to improve image quality, in the present embodiment it is preferred can also in same one-row pixels two neighboring colourama Compensation photoresistance is set between resistance, is compensated with the color to sub-pix under oblique viewing angle, makes the color of sub-pix actual displayed The color of display required for being more nearly.

If specifically, two neighboring chromatic photoresist is respectively in title one-row pixels A11：First chromatic photoresist and the second colour Photoresistance, the then color membrane substrates that the present embodiment is provided also include：On black matrix" 301 and it is located side by side at two neighboring colour The first compensation photoresistance and the second compensation photoresistance between photoresistance, the first compensation photoresistance is close to the first chromatic photoresist, and the first compensation Photoresistance is identical with the color of the second chromatic photoresist, and the second compensation photoresistance is close to the second chromatic photoresist, and the second compensation photoresistance and the The color of one chromatic photoresist is identical.

As shown in figure 4, if the first chromatic photoresist 408 is red photoresistance, second chromatic photoresist 409 is green photoresistance, Then the first compensation photoresistance 410 is green photoresistance, and the second compensation photoresistance 411 is red photoresistance.Exemplified by needing to show complete red picture, When color membrane substrates 42 are offset to the left relative to array base palte 41, from right side perspective during display picture, the first chromatic photoresist 408 Green glow and blue light can be sealed in region；Can be by the second compensation photoresistance 411, so as to produce a part of red along the light of right side perspective Light enters the region of the first chromatic photoresist 408, and the feux rouges produced by the second compensation photoresistance 411 and the green glow and blue light that are sealed in are folded Addition is white light, so as to be had no effect to the feux rouges of script in the region of the first chromatic photoresist 408.Say from another point of view, Feux rouges produced by second compensation photoresistance 411 is compensated the red shown by the first chromatic photoresist 408 so that first is color Red shown by coloured light resistance 408 further increases display quality closer to the red for needing to show.

Same reason, when color membrane substrates 42 are offset to the right relative to array base palte 41, shows picture from left side perspective During face, green glow is produced by the first compensation photoresistance 410 along the light of left side perspective, can be to the green of the second chromatic photoresist 409 Compensate, the green for making the green shown by the second chromatic photoresist 409 be shown closer to needs further increases display matter Amount.

As shown in figure 5, if the first chromatic photoresist 408 is red photoresistance, the second chromatic photoresist 409 is blue light resistance, then the One compensation photoresistance 410 is blue light resistance, during realizing that color membrane substrates 42 are offset to the left relative to array base palte 41 under right side perspective To the red compensation shown by red photoresistance, the second compensation photoresistance 411 is red photoresistance, with realize color membrane substrates 42 relative to To the blue compensation shown by blue light resistance under left side perspective when array base palte 41 is offset to the right.

As shown in fig. 6, if the first chromatic photoresist 408 is blue light resistance, the second chromatic photoresist 409 is green photoresistance, then the One compensation photoresistance 410 is green photoresistance, during realizing that color membrane substrates 42 are offset to the left relative to array base palte 41 under right side perspective To the blue compensation shown by blue light resistance, the second compensation photoresistance 411 is blue light resistance, with realize color membrane substrates 42 relative to To the green compensation shown by green photoresistance under left side perspective when array base palte 41 is offset to the right.

To sum up, the color membrane substrates that the present embodiment is provided pass through between the two neighboring chromatic photoresist in same one-row pixels The compensation photoresistance of two different colours is set on black matrix" 301, makes the compensation photoresistance for being located at left side in two compensation photoresistances Color is identical with the color of the chromatic photoresist positioned at right side, positioned at the color and the colourama positioned at left side of the compensation photoresistance on right side The color of resistance is identical, so as to compensate for the color under oblique viewing angle shown by each sub-pix, each sub-pix is actually shown The color of display, further increases image quality required for the color shown is more nearly.

Further, in the present embodiment, the length of the first compensation photoresistance 410 and the first chromatic photoresist 408 preferably equal, The length of second compensation photoresistance 411 and the second chromatic photoresist 409 preferably equal, preferably to realize under oblique viewing angle to first The compensation of color shown by the chromatic photoresist 409 of chromatic photoresist 408 and second.

In addition, further, the first compensation photoresistance 410 and second compensate photoresistance 411 width sum be preferably less than or Equal to the width of the black matrix" between the first chromatic photoresist 408 and the second chromatic photoresist 409, not influence display performance On the basis of, play above-mentioned compensating action.

It should be noted that the present embodiment does not have for the thickness of the first compensation photoresistance 410 and the second compensation photoresistance 411 Body is limited, preferably can according to the difference of color membrane substrates 42 and the aligning accuracy of array base palte 41 (i.e. color membrane substrates 42 relative to The offset of array base palte 41), the first compensation photoresistance 410 and second compensate the factors such as photoresistance 411 width of itself, regarded in inclination Under angle under the minimum principle of colour cast, it is adjusted by modes such as calculating, experiments.

The color membrane substrates 42 that this implementation is provided may also include：First underlay substrate 407, for for follow-up chromatic photoresist, The formation of the elements such as black matrix" 301, compensation photoresistance provides basis.

The present embodiment additionally provides a kind of display device, including the color membrane substrates 42 that the present embodiment is provided.

The display device that this implementation is provided also includes：The array base palte 41 being oppositely arranged with color membrane substrates 42, and be located at Liquid crystal 43 between color membrane substrates 42 and array base palte 41.

Wherein, array base palte 41 is preferred may include：Second underlay substrate 401；On the second underlay substrate 401 One insulating barrier 402；Pixel electrode 403 and data wire 404 on the first insulating barrier 402；It is covered in the sum of pixel electrode 403 According to the second insulating barrier 405 on line 404；Public electrode 406 on the second insulating barrier 405.Pixel electrode 403 it is preferred can For face electrode, public electrode 406 it is preferred be strip electrode, multi-dimensional electric field can be formed therebetween, realized to liquid crystal 43 Deflection corresponding control.

It should be noted that above-described display device be ADS (Advanced Super Dimension Switch, Advanced super dimension switch) type liquid crystal display device, the display device that the present embodiment is provided can also be TN (Twisted Nematic, twisted-nematic) type, MVA (Multi-domain Vertical Alignment, multidomain vertical orientation) type, PVA (In-Plane Switching, plane turns by (Patterned Vertical Alignment, image vertical orientation) type, IPS Change) type, the liquid crystal display device of FFS (Fringe Field Switching, boundary electric field switching) type such as type or ADS types.

In addition, the display device including above-mentioned color membrane substrates 42 in the present embodiment can for liquid crystal panel, Electronic Paper, It is OLED (Organic Light-Emitting Diode, Organic Light Emitting Diode) panel, mobile phone, tablet personal computer, television set, aobvious Show any product or part with display function such as device, notebook computer, DPF, navigator.

By the color membrane substrates 42 that the present embodiment is provided, to can solve the problem that color membrane substrates 42 are aligned with array base palte 41 bad Caused colour contamination problem, therefore the picture of display device that the present embodiment is provided is smaller relative to prior art colour contamination, shows Show that quality is higher.

The embodiment of the present invention is the foregoing is only, but protection scope of the present invention is not limited thereto, it is any Those familiar with the art the invention discloses technical scope in, the change or replacement that can be readily occurred in, all should It is included within the scope of the present invention.Therefore, protection scope of the present invention should using the scope of the claims as It is accurate.

Claims (12)

1. a kind of color membrane substrates, including：Include three colors not in the multiple pixels arranged in array, each pixel Identical chromatic photoresist, it is characterised in that include the chromatic photoresist row of three row side by side, the coloured silk positioned at both sides in a row pixel Coloured light resistance row include the chromatic photoresist of two kinds of colors, and the spaced arrangement of chromatic photoresist of described two colors；

At one in the pixel cell that four pixels are constituted, the left side and right side of a kind of chromatic photoresist of color are with other two The chromatic photoresist for planting color is adjacent；

The color membrane substrates also include black matrix", and two neighboring chromatic photoresist is respectively in pixel described in a line：First is colored Photoresistance and the second chromatic photoresist；

The color membrane substrates also include：On the black matrix" and it is located side by side between the two neighboring chromatic photoresist First compensation photoresistance and the second compensation photoresistance, the first compensation photoresistance is close to first chromatic photoresist, and described first mends Repay photoresistance identical with the color of second chromatic photoresist, the second compensation photoresistance is close to second chromatic photoresist, and institute State the second compensation photoresistance identical with the color of first chromatic photoresist.

2. color membrane substrates according to claim 1, it is characterised in that the three row chromatic photoresists row in a row pixel In, include a kind of chromatic photoresist of color positioned at middle chromatic photoresist row.

3. color membrane substrates according to claim 2, it is characterised in that the chromatic photoresist row positioned at both sides include red Photoresistance and blue light resistance, the chromatic photoresist row for being located at centre include green photoresistance.

4. color membrane substrates according to claim 2, it is characterised in that the chromatic photoresist row positioned at both sides include blueness Photoresistance and green photoresistance, the chromatic photoresist row for being located at centre include red photoresistance.

5. color membrane substrates according to claim 2, it is characterised in that the chromatic photoresist row positioned at both sides include red Photoresistance and green photoresistance, the chromatic photoresist row for being located at centre include blue light resistance.

6. color membrane substrates according to claim 1, it is characterised in that first chromatic photoresist is red photoresistance, described Second chromatic photoresist is green photoresistance, and the first compensation photoresistance is green photoresistance, and the second compensation photoresistance is red photoresistance.

7. color membrane substrates according to claim 1, it is characterised in that first chromatic photoresist is red photoresistance, described Second chromatic photoresist is blue light resistance, and the first compensation photoresistance is blue light resistance, and the second compensation photoresistance is red photoresistance.

8. color membrane substrates according to claim 1, it is characterised in that first chromatic photoresist is blue light resistance, described Second chromatic photoresist is green photoresistance, and the first compensation photoresistance is green photoresistance, and the second compensation photoresistance is blue light resistance.

9. the color membrane substrates according to any one of claim 1~8, it is characterised in that the first compensation photoresistance with it is described The equal length of first chromatic photoresist, the equal length of the second compensation photoresistance and second chromatic photoresist.

10. the color membrane substrates according to any one of claim 1~8, it is characterised in that the first compensation photoresistance with it is described The black that the width sum of second compensation photoresistance is less than or equal between first chromatic photoresist and second chromatic photoresist The width of matrix.

11. a kind of display device, it is characterised in that including the color membrane substrates described in any one of claim 1~10.

12. display device according to claim 11, it is characterised in that the type of the display device is TN types, MVA Type, PVA types, IPS types, FFS types or ADS types.