CN203811955U - Array substrate and display device - Google Patents

Abstract

An embodiment of the utility model provides an array substrate and a display device. The array substrate comprises a plurality of pixel units. Each pixel unit comprises a color subunit and a black and white subunit; each color subunit at least comprises a first sub-pixel, a second sub-pixel and a third sub-pixel; each black and white subunit comprises at least one electrowetting sub-pixel or at least one electrophoresis sub-pixel. The array substrate and the display device have the advantages that electric energy can be saved, and energy consumption of the array substrate can be reduced. The embodiment of the utility model is used for manufacturing array substrates.

Description

A kind of array base palte and display device

Technical field

The utility model relates to display technique field, relates in particular to a kind of array base palte and display device.

Background technology

Along with the development of display technique, display screen has experienced from black and white to colored major transformation, to people, has brought abundant sensory experience.At present, conventional color monitor is display panels, and display panels can complete the demonstration of high grade picture, but in practical application, often need to show black and white screen, if show black and white screen with color monitor, can consume more energy, cause waste of energy.

Utility model content

Embodiment of the present utility model provides a kind of array base palte and display device, can saves energy, reduce the energy consumption of array base palte.

For achieving the above object, embodiment of the present utility model adopts following technical scheme:

On the one hand, provide a kind of array base palte, comprising: a plurality of pixel cells, described in each, pixel cell comprises colored subelement and black and white subelement;

Described colored subelement at least comprises the first sub-pixel, the second sub-pixel and the 3rd sub-pixel;

Described black and white subelement comprises the wetting sub-pixel of at least one electricity or at least one electro-phoretic sub-pixels.

Optionally, described black and white subelement comprises the wetting sub-pixel of at least one electricity;

Described pixel cell is rectangle, along described rectangular axis, described rectangle is divided into first and second portion, described axis is parallel with described rectangular length direction, and described colored subelement is positioned at described first, and described black and white subelement is positioned at described second portion.

Optionally, described black and white subelement comprises the wetting sub-pixel of at least one electricity, and described colored subelement comprises described the first sub-pixel, described the second sub-pixel and described the 3rd sub-pixel;

Described pixel cell is square, along described foursquare the first axis and the second axis, described square is divided into third part, the 4th part, the 5th part and the 6th part, described the first axis is vertical with described the second axis, and described black and white subelement is positioned at described third part, described the first sub-pixel, described the second sub-pixel and described the 3rd sub-pixel respectively correspondence are positioned at described the 4th part, described the 5th part and described the 6th part.

Optionally, described black and white subelement comprises the wetting sub-pixel of at least one electricity;

Described pixel cell is rectangle, along described rectangular length direction, described length direction is equally divided into the 7th part and the 8th part, the area of described the 8th part is greater than the area of described the 7th part, described black and white subelement is positioned at described the 7th part, and described colored subelement is positioned at described the 8th part.

Optionally, described array base palte is any one in twisted nematic TN structure, a senior super dimension conversion hysteria ADS structure and transverse electric field effect display type IPS structure.

Optionally, described black and white subelement comprises at least one electro-phoretic sub-pixels;

Described pixel cell is rectangle, along described rectangular axis, described rectangle is divided into Session 9 and the tenth part, described axis is parallel with described rectangular length direction, and described colored subelement is positioned at described Session 9, and described black and white subelement is positioned at described the tenth part.

Optionally, described black and white subelement comprises at least one electro-phoretic sub-pixels, and described colored subelement comprises described the first sub-pixel, described the second sub-pixel and described the 3rd sub-pixel;

Described pixel cell is square, along described foursquare the first axis and the second axis, described square is divided into the tenth part, the 12 part, the 13 part and the 14 part, described the first axis is vertical with described the second axis, and described black and white subelement is positioned at described the tenth part, described the first sub-pixel, described the second sub-pixel and described the 3rd sub-pixel respectively correspondence are positioned at described the 12 part, described the 13 part and described the 14 part.

Optionally, described black and white subelement comprises at least one electro-phoretic sub-pixels;

Described pixel cell is rectangle, along described rectangular length direction, described length direction is equally divided into the 15 part and the 16 part, the area of described the 16 part is greater than the area of described the 15 part, described black and white subelement is positioned at described the 15 part, and described colored subelement is positioned at described the 16 part.

Optionally, described array base palte is twisted nematic TN structure.

On the one hand, provide a kind of display device, comprise above-described any one array base palte.

The array base palte that the utility model provides and display device, when carrying out image demonstration, when described image is coloured image, adopt described colored subelement to show, when described image is black white image, described colored subelement is closed, and uses described black and white subelement to show, compared to prior art, when carrying out black white image demonstration, adopt the wetting sub-pixel of electricity or electro-phoretic sub-pixels that energy consumption is lower, saved electric energy, reduced the energy consumption of array base palte.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, to the accompanying drawing of required use in embodiment or description of the Prior Art be briefly described below, apparently, accompanying drawing in the following describes is only embodiment more of the present utility model, for those of ordinary skills, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

The structural representation one of a kind of array base palte that Fig. 1 provides for the utility model embodiment;

The structural representation two of a kind of array base palte that Fig. 2 provides for the utility model embodiment;

The structural representation three of a kind of array base palte that Fig. 3 provides for the utility model embodiment;

The structural representation four of a kind of array base palte that Fig. 4 provides for the utility model embodiment;

The structural representation five of a kind of array base palte that Fig. 5 provides for the utility model embodiment;

The structural representation six of a kind of array base palte that Fig. 6 provides for the utility model embodiment.

Reference numeral:

Array base palte-10, pixel cell-101, colored subelement-1011, black and white subelement-1012, the first sub-pixel-1011a, the second sub-pixel-1011b, three sub-pixel-1011c, wetting sub-pixel-the 1012a of electricity, electro-phoretic sub-pixels-1012b, first-101a, second portion-101b, third part-101c, four part-101d, five part-101e, six part-101f, seven part-101g, eight part-101h, Session 9-101i, ten part-101j, ten part-101k, 12 parts-101p, 13 parts-101m, 14 parts-101n, 15 parts-101q, 16 parts-101r.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is only the utility model part embodiment, rather than whole embodiment.Embodiment based in the utility model, those of ordinary skills are not making the every other embodiment obtaining under creative work prerequisite, all belong to the scope of the utility model protection.

The utility model embodiment provides a kind of array base palte 10, comprising: a plurality of pixel cells 101, described in each, pixel cell 101 comprises colored subelement 1011 and black and white subelement 1012.

Colored subelement 1011 at least comprises the first sub-pixel 1011a, the second sub-pixel 1011b and the 3rd sub-pixel 1011c, and colored subelement 1011 is for color display.

Described black and white subelement 1012 comprises the wetting sub-pixel 1012a of at least one electricity or at least one electro-phoretic sub-pixels 1012b, and black and white subelement 1012 is for showing black white image.

So, when carrying out image demonstration, when described image is coloured image, adopt described colored subelement to show, when described image is black white image, described colored subelement is closed, and uses described black and white subelement to show, compared to prior art, when carrying out black white image demonstration, adopt the wetting sub-pixel of electricity or electro-phoretic sub-pixels that energy consumption is lower, saved electric energy, reduced the energy consumption of array base palte.

Need to illustrate, the first, described colored subelement 1011 at least comprises three sub-pixels, be respectively the first sub-pixel 1011a, the second sub-pixel 1011b and the 3rd sub-pixel 1011c, can also comprise four pixels in practical application, the utility model embodiment does not limit this.

The second, described the first sub-pixel 1011a, described the second sub-pixel 1011b and described the 3rd sub-pixel 1011c can distinguish corresponding red pieces pixel, a kind of, the concrete corresponding relation in green sub-pixel and blue sub-pixel, the utility model embodiment does not limit.

The 3rd, described black and white subelement 1012 comprises the wetting sub-pixel 1012a of at least one electricity or at least one electro-phoretic sub-pixels 1012b, described in each the wetting sub-pixel 1012a of electricity can with described the first sub-pixel 1011a, the shape of the second sub-pixel 1011b or the 3rd sub-pixel 1011c is identical, equal and opposite in direction; Described in each electro-phoretic sub-pixels 1012b can with described the first sub-pixel 1011a, the shape of the second sub-pixel 1011b or the 3rd sub-pixel 1011c is identical, equal and opposite in direction, the utility model embodiment does not limit.

The 4th, when array base palte 10 carries out black and white screen demonstration, may show large-area high brightness white, when now if described black and white subelement 1012 cannot complete the white displays of high brightness, described colored subelement 1011 can suitably be opened, and auxiliary described black and white subelement 1012 completes the demonstration of high brightness white.

The utility model embodiment provides a kind of array base palte 10, comprising: a plurality of pixel cells 101, and described in each, pixel cell 101 comprises colored subelement 1011 and black and white subelement 1012; Described colored subelement at least comprises the first sub-pixel 1011a, the second sub-pixel 1011b and the 3rd sub-pixel 1011c, and described colored subelement 1011 is for color display.Described black and white subelement 1012 comprises the wetting sub-pixel 1012a of at least one electricity or at least one electro-phoretic sub-pixels 1012b, and described black and white subelement 1012 is for showing black white image.

Optionally, as shown in Figure 1, described black and white subelement 1012 can comprise the wetting sub-pixel 1012a of at least one electricity, described black and white subelement 1012 is as shown in region in Fig. 1 1012, described pixel cell 101 is rectangle, along described rectangular axis 20, described rectangle is divided into the 101a of first and second portion 101b, described axis 20 is as shown in dotted line in Fig. 1 20, described axis 20 is parallel with described rectangular length direction, described colored subelement 1011 is positioned at the 101a of first, described colored subelement 1011 is as shown in region in Fig. 1 1011, described black and white subelement 1012 is positioned at second portion.The utility model embodiment comprises the first sub-pixel 1011a with described colored subelement 1011, the second sub-pixel 1011b and the 3rd sub-pixel 1011c are that example describes, the first sub-pixel 1011a in the 101a of first, the second sub-pixel 1011b and the 3rd sub-pixel 1011c can carry out along the length direction of the described 101a of first order and arrange, wherein, size at the wetting sub-pixel 1012a of electricity described in manufacturing process can preset, in second portion 101b, can only comprise the wetting pixel 1012a of an electricity, also can comprise that a plurality of electricity soak pixel 1012a, the utility model embodiment does not limit this.Due to the area of black and white subelement 1012 in pixel cell 101 and the area of colored subelement 1011 equally large, can guarantee like this carrying out black and white screen while showing, array base palte 10 picture when large-area displays white is brighter.

Optionally, as shown in Figure 2, described black and white subelement 1012 comprises the wetting sub-pixel 1012a of at least one electricity, described black and white subelement 1012 is as shown in region in Fig. 2 1012, described colored subelement 1012 comprises described the first sub-pixel 1011a, described the second sub-pixel 1011b and described the 3rd sub-pixel 1011c, described colored subelement 1011 is as shown in region in Fig. 2 1011.Described pixel cell 101 is square, along described foursquare the first axis 30 and the second axis 40, described square is divided into third part 101c, the 4th part 101d, the 5th part 101e and the 6th part 101f, described the first axis 30 is as shown in dotted line in Fig. 2 30, described the second axis 40 is as shown in dotted line in Fig. 2 40, described the first axis 30 is vertical with described the second axis 40, described black and white subelement 1012 is positioned at third part 101c, described the first sub-pixel 1011a, described the second sub-pixel 1011b and described the 3rd sub-pixel 1011c respectively correspondence are positioned at the 4th part 101d, the 5th part 101e and the 6th part 101f.When showing black white image by described array base palte 10, described colour cell 1011 is closed, at this moment the sub-pixel of being only separated by between the wetting sub-pixel 1012a of the electricity of any two pixel cells 101, makes described array base palte 10 picture when large-area displays white brighter.

Optionally, as shown in Figure 3, described black and white subelement 1012 comprises the wetting sub-pixel 1012a of at least one electricity, and described black and white subelement 1012 is as shown in region in Fig. 3 1012, described pixel cell 101 rectangles, along described rectangular length direction, described length direction is equally divided into the 7th part 101g and the 8th part 101h, the area of described the 8th part 101h is greater than the area of described the 7th part 101g, described black and white subelement 1012 is positioned at the 7th part 101g, described colored subelement 1011 is positioned at the 8th part 101h, described colored subelement 1011 is as shown in region in Fig. 3 1011, the utility model embodiment comprises the first sub-pixel 1011a with described colored subelement 1011, the second sub-pixel 1011b and the 3rd sub-pixel 1011c are that example describes, the first sub-pixel 1011a in the 8th part 101a, the second sub-pixel 1011b and the 3rd sub-pixel 1011c can carry out along the length direction of described the 8th part 101a order and arrange.

Example, when described black and white subelement 1012 comprises the wetting sub-pixel 1012a of at least one electricity, described array base palte 10 can be TN (Twisted Nematic, twisted nematic) structure, ADS (Advanced-Super Dimensional Switching, a senior super dimension conversion hysteria) any one in structure and IPS (in-plane switching, transverse electric field effect display type).

Optionally, as shown in Figure 4, described black and white subelement 1012 comprises at least one electro-phoretic sub-pixels 1012b, and described black and white subelement 1012 is as shown in region in Fig. 1 1012.Described pixel cell 101 is rectangle, along described rectangular axis 50, described rectangle is divided into Session 9 101i and the tenth part 101j, described axis 50 is parallel with described rectangular length direction, described colored subelement 1011 is positioned at described Session 9 101i, described colored subelement 1011 is as shown in region in Fig. 4 1011, and described black and white subelement 1012 is positioned at described the tenth part 101j.The utility model embodiment comprises the first sub-pixel 1011a with described colored subelement 1011, the second sub-pixel 1011b and the 3rd sub-pixel 1011c are that example describes, the first sub-pixel 1011a in Session 9 101i, the second sub-pixel 1011b and the 3rd sub-pixel 1011c can carry out along the length direction of described Session 9 101i order and arrange, wherein, size at the 1012b of electro-phoretic sub-pixels described in manufacturing process can preset, in second portion 101b, can only comprise the wetting pixel 1012a of an electricity, also can comprise that a plurality of electricity soak pixel 1012a, the utility model embodiment does not limit this.Due to the area of black and white subelement 1012 in pixel cell 101 and the area of colored subelement 1011 equally large, can guarantee like this carrying out black and white screen while showing, array base palte 10 picture when large-area displays white is brighter.

Optionally, as shown in Figure 5, described black and white subelement 1012 comprises described at least one electro-phoretic sub-pixels 1012b that black and white subelement 1012 is as shown in region in Fig. 5 1012, described colored subelement comprises described the first sub-pixel 1011a, described the second sub-pixel 1011b and described the 3rd sub-pixel 1011c, described colored subelement 1011 is as shown in region in Fig. 5 1011.Described pixel cell 101 is square, along described foursquare the first axis 60 and the second axis 70, described square is divided into the tenth a part of 101k, the 12 part 101p, the 13 part 101m and the 14 part 101n, described the first axis 60 is vertical with described the second axis 70, described the first axis 60 is as shown in dotted line in Fig. 5 60, described the second axis 70 is as shown in dotted line in Fig. 5 70, described black and white subelement 1012 is positioned at described the tenth a part of 101k, described the first sub-pixel 1011a, described the second sub-pixel 1011b and described the 3rd sub-pixel 1011c respectively correspondence are positioned at described the 12 part 101p, described the 13 part 101m and described the 14 part 101n.When showing black white image by described array base palte 10, described colour cell 1011 is closed, at this moment the sub-pixel of being only separated by between the wetting sub-pixel 1012a of the electricity of any two pixel cells 101, makes described array base palte 10 picture when large-area displays white brighter.

Optionally, as shown in Figure 6, described black and white subelement 1012 comprises at least one electro-phoretic sub-pixels 1012b, and described black and white subelement 1012 is as shown in region in Fig. 6 1012; Described pixel cell 101 rectangles, along described rectangular length direction, described length direction is equally divided into the 15 part 101q and the 16 part 101r, the area of described the 16 part 101r is greater than the area of described the 15 part 101q, described black and white subelement 1012 is positioned at described the 15 part 101q, described colored subelement 1011 is positioned at described the 16 part 101r, and described colored subelement 1011 is as shown in region in Fig. 6 1011.The utility model embodiment comprises the first sub-pixel 1011a with described colored subelement 1011, the second sub-pixel 1011b and the 3rd sub-pixel 1011c are that example describes, the first sub-pixel 1011a in the 16 part 101r, the second sub-pixel 1011b and the 3rd sub-pixel 1011c can carry out along the length direction of described the 16 part 101r order and arrange.

Optionally, when described black and white subelement 1012 comprises at least one electro-phoretic sub-pixels 1012b, described array base palte 10 can be TN structure.

The array base palte that the utility model embodiment provides, when carrying out image demonstration, when described image is coloured image, adopt described colored subelement to show, when described image is black white image, described colored subelement is closed, and uses described black and white subelement to show, compared to prior art, when carrying out black white image demonstration, adopt the wetting sub-pixel of electricity or electro-phoretic sub-pixels that energy consumption is lower, saved electric energy, reduced the energy consumption of array base palte.

The utility model embodiment provides a kind of display device, comprises array base palte 10, and described array base palte 10 comprises a plurality of pixel cells 101, and described in each, pixel cell 101 comprises colored subelement 1011 and black and white subelement 1012; Described colored subelement at least comprises the first sub-pixel 1011a, the second sub-pixel 1011b and the 3rd sub-pixel 1011c, and described colored subelement 1011 is for color display.Described black and white subelement 1012 comprises the wetting sub-pixel 1012a of at least one electricity or at least one electro-phoretic sub-pixels 1012b, and described black and white subelement 1012 is for showing black white image.

The display device that the utility model embodiment provides, when carrying out image demonstration, when described image is coloured image, adopt described colored subelement to show, when described image is black white image, described colored subelement is closed, and uses described black and white subelement to show, compared to prior art, when carrying out black white image demonstration, adopt the wetting sub-pixel of electricity or electro-phoretic sub-pixels that energy consumption is lower, saved electric energy, reduced the energy consumption of array base palte.

The above; it is only embodiment of the present utility model; but protection domain of the present utility model is not limited to this; anyly be familiar with those skilled in the art in the technical scope that the utility model discloses; can expect easily changing or replacing, within all should being encompassed in protection domain of the present utility model.Therefore, protection domain of the present utility model should be as the criterion with the protection domain of described claim.

Claims (10)

1. an array base palte, is characterized in that, comprising: a plurality of pixel cells, and described in each, pixel cell comprises colored subelement and black and white subelement;

Described colored subelement at least comprises the first sub-pixel, the second sub-pixel and the 3rd sub-pixel; Described black and white subelement comprises the wetting sub-pixel of at least one electricity or at least one electro-phoretic sub-pixels.

2. array base palte according to claim 1, is characterized in that, described black and white subelement comprises the wetting sub-pixel of at least one electricity;

Described pixel cell is rectangle, along described rectangular axis, described rectangle is divided into first and second portion, described axis is parallel with described rectangular length direction, and described colored subelement is positioned at described first, and described black and white subelement is positioned at described second portion.

3. array base palte according to claim 1, is characterized in that, described black and white subelement comprises the wetting sub-pixel of at least one electricity, and described colored subelement comprises described the first sub-pixel, described the second sub-pixel and described the 3rd sub-pixel;

Described pixel cell is square, along described foursquare the first axis and the second axis, described square is divided into third part, the 4th part, the 5th part and the 6th part, described the first axis is vertical with described the second axis, and described black and white subelement is positioned at described third part, described the first sub-pixel, described the second sub-pixel and described the 3rd sub-pixel respectively correspondence are positioned at described the 4th part, described the 5th part and described the 6th part.

4. array base palte according to claim 1, is characterized in that, described black and white subelement comprises the wetting sub-pixel of at least one electricity;

Described pixel cell is rectangle, along described rectangular length direction, described length direction is equally divided into the 7th part and the 8th part, the area of described the 8th part is greater than the area of described the 7th part, described black and white subelement is positioned at described the 7th part, and described colored subelement is positioned at described the 8th part.

5. according to the array base palte described in claim 2 to 4 any one claim, it is characterized in that, described array base palte is any one in the senior super dimension conversion hysteria ADS structure of twisted nematic TN structure and transverse electric field effect display type IPS structure.

6. array base palte according to claim 1, is characterized in that, described black and white subelement comprises at least one electro-phoretic sub-pixels;

Described pixel cell is rectangle, along described rectangular axis, described rectangle is divided into Session 9 and the tenth part, described axis is parallel with described rectangular length direction, and described colored subelement is positioned at described Session 9, and described black and white subelement is positioned at described the tenth part.

7. array base palte according to claim 1, is characterized in that, described black and white subelement comprises at least one electro-phoretic sub-pixels, and described colored subelement comprises described the first sub-pixel, described the second sub-pixel and described the 3rd sub-pixel;

Described pixel cell is square, along described foursquare the first axis and the second axis, described square is divided into the tenth part, the 12 part, the 13 part and the 14 part, described the first axis is vertical with described the second axis, and described black and white subelement is positioned at described the tenth part, described the first sub-pixel, described the second sub-pixel and described the 3rd sub-pixel respectively correspondence are positioned at described the 12 part, described the 13 part and described the 14 part.

8. array base palte according to claim 1, is characterized in that, described black and white subelement comprises at least one electro-phoretic sub-pixels;

Described pixel cell is rectangle, along described rectangular length direction, described length direction is equally divided into the 15 part and the 16 part, the area of described the 16 part is greater than the area of described the 15 part, described black and white subelement is positioned at described the 15 part, and described colored subelement is positioned at described the 16 part.

9. according to the array base palte described in claim 6 to 8 any one claim, it is characterized in that, described array base palte is TN structure.

10. a display device, is characterized in that, comprises the array base palte described in claim 1 to 9 any one claim.