CN107741871A - The method that terminal, display screen and control display screen are shown - Google Patents

Abstract

This application discloses a kind of method that control display screen is shown, including：A circular arc boost line is set at the edge of display screen, display screen is divided into complete viewing area, non-display area and transition viewing area by circular arc boost line, wherein the multiple contiguous pixels units intersected with circular arc boost line and multiple transition pixel units form transition viewing area；Each contiguous pixels unit is divided into Part I and Part II by circular arc boost line, and the area of Part I accounts for the ratio of the contiguous pixels unit, and then to define the pixel cell more than or equal to preset value be valid pixel unit；The aperture opening ratio of the above ratio-dependent contiguous pixels unit；The aperture opening ratio of each transition pixel unit is more than the aperture opening ratio of the contiguous pixels unit of same row, and the aperture opening ratio of the pixel cell less than complete viewing area.Above scheme smooth very well sawtooth sense can occur with improvement screen edge, optimize visual effect.The application also provides a kind of display screen by above method setting and the terminal including the display screen.

Description

The method that terminal, display screen and control display screen are shown

Technical field

The application is related to field of structural design, is shown more particularly to a kind of terminal, display screen and control display screen Method.

Background technology

With the development of science and technology, smart mobile phone update is more and more faster, while wearable electronic product becomes more next It is more popular.As consumer improves constantly to the quality requirements of electronic product, the screen accounting of the electronic product such as smart mobile phone is bigger It is more welcome.Therefore only set in the top section position of display screen and image first-class device, the other positions at top are also made aobvious Show area.It is rectangle that often the top of display screen, which is used to set the position for imaging first-class device, is gone out between rectangular edges and viewing area Now make consumer feel bad sawtooth sense, influence visual effect.

The content of the invention

The application provides the method that a kind of terminal, display screen and control display screen are shown, can improve screen edge and go out The phenomenon of existing sawtooth sense.

The application use a technical scheme be：A kind of method that control display screen is shown is provided, comprised the following steps：

A circular arc boost line is set in the close marginal position of display screen, display screen has been divided into by the circular arc boost line Full viewing area, non-display area and transition viewing area, and the circular arc boost line is located at the non-display area, or positioned at described Outside display screen, wherein multiple contiguous pixels units for intersecting with the circular arc boost line and adjacent with the circular arc boost line Multiple transition pixel units close to the viewing area completely are collectively forming transition viewing area, and the center of circle of the circular arc boost line In the viewing area completely；

Each contiguous pixels unit is divided into first close to the viewing area completely by the circular arc boost line Point and the Part II close to the non-display area, the ratio that the area of the Part I accounts for the contiguous pixels unit be more than etc. It is valid pixel unit then to define the pixel cell in preset value, and it is inactive pixels unit otherwise to define the pixel cell；

The opening of the ratio-dependent of the whole contiguous pixels unit contiguous pixels unit is accounted for the area of the Part I Rate；

The aperture opening ratio of each transition pixel unit is more than the aperture opening ratio of the contiguous pixels unit of same row, and small Aperture opening ratio in same row positioned at the pixel cell of viewing area completely.

The application also provides a kind of display screen, including:

Positioned at the complete viewing area of the display screen middle position, positioned at the display screen marginal position non-display area And positioned at the transition viewing area of viewing area and the non-display area completely, the non-display area with set camera and/ Or receiver, and/or person's photo-sensing device；

The transition viewing area includes multiple contiguous pixels units and multiple respectively with being set near the contiguous pixels unit The transition pixel unit put, plurality of adjacent contiguous pixels unit formation arc-shaped, and the contiguous pixels unit are opened Mouth rate is more than 0 and is less than 1, and the aperture opening ratio of each transition pixel unit is more than the opening of the contiguous pixels unit of same row Rate, and the aperture opening ratio less than same row positioned at the pixel cell of viewing area completely.

The application also provides a kind of display screen, including:

Positioned at the complete viewing area of the display screen middle position, positioned at the display screen marginal position non-display area And positioned at the transition viewing area of viewing area and the non-display area completely, the non-display area with set camera and/ Or receiver, and/or person's photo-sensing device；

The transition viewing area include multiple contiguous pixels units and it is multiple respectively near the contiguous pixels unit The transition pixel unit of setting, plurality of adjacent contiguous pixels unit form arc-shaped, and in the transition viewing area The aperture opening ratio method as described above of pixel cell determines.

The application also provides a kind of terminal, and the terminal includes above-described display screen.

Above scheme by being located at middle complete viewing area and the shape between the non-display area at edge on a display screen Into transition viewing area, the transition viewing area includes contiguous pixels and transition pixel.For contiguous pixels unit, its aperture opening ratio is got over Big brightness is bigger, and in same row pixel cell, the aperture opening ratio of transition pixel unit is more than the aperture opening ratio of contiguous pixels.By with The pixel cell brightness that upper method sets transition viewing area gradually increases and smooth very well sawtooth can occurs with improvement screen edge Sense, optimize visual effect.

Brief description of the drawings

In order to illustrate more clearly of the technical scheme in the embodiment of the present application, make required in being described below to embodiment Accompanying drawing is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the present application, for For those of ordinary skill in the art, on the premise of not paying creative work, other can also be obtained according to these accompanying drawings Accompanying drawing.

Fig. 1 is the schematic flow sheet for the embodiment of method one that the application control display screen is shown；

Fig. 2 is the part-structure schematic diagram of display screen in the embodiment of the application one；

Fig. 3 is the structural representation of display screen in the embodiment of the application one；

Fig. 4 is the structural representation of display screen in another embodiment of the application；

Fig. 5 is the structural representation of display screen in the another embodiment of the application；

Fig. 6 is the structural representation of display screen in the application another embodiment；

Fig. 7 is the effective structural representation of contiguous pixels unit in transition viewing area shown in Fig. 2；

Fig. 8 is the structural representation of effective contiguous pixels unit in transition viewing area in another embodiment；

Fig. 9 is that the structure of effective contiguous pixels unit or transition pixel unit in transition viewing area in another embodiment is shown It is intended to；

Figure 10 is the display effect that the control method shown in a part of application drawing 1 of the display screen shown in Fig. 2 is presented；

Figure 11 is the structural representation of the embodiment terminal of the application one.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present application, the technical scheme in the embodiment of the present application is carried out clear, complete Site preparation describes.It is understood that specific embodiment described herein is only used for explaining the application, rather than the limit to the application It is fixed.It also should be noted that for the ease of description, the part related to the application illustrate only in accompanying drawing and not all knot Structure.Based on the embodiment in the application, what those of ordinary skill in the art were obtained under the premise of creative work is not made Every other embodiment, belong to the scope of the application protection.

Term " first " in the application, " second ", " the 3rd " are only used for describing purpose, and it is not intended that instruction or dark Show relative importance or the implicit quantity for indicating indicated technical characteristic.Thus, " first ", " second ", " are defined At least one this feature can be expressed or be implicitly included to three " feature.In the description of the present application, " multiple " be meant that to It is few two, such as two, three etc., unless otherwise specifically defined.The directional instruction of institute is (all in the embodiment of the present application Such as up, down, left, right, before and after ...) it is only used for explaining the phase under a certain particular pose (as shown in drawings) between each part To position relationship, motion conditions etc., if the particular pose changes, directionality instruction also correspondingly changes therewith Become.In addition, term " comprising " and " having " and their any deformations, it is intended that cover non-exclusive include.Such as comprising The step of process of series of steps or unit, method, system, product or equipment are not limited to list or unit, and It is alternatively also to include the step of not listing or unit, or alternatively also includes for these processes, method, product or equipment Intrinsic other steps or unit.

Referenced herein " embodiment " is it is meant that the special characteristic, structure or the characteristic that describe can wrap in conjunction with the embodiments It is contained at least one embodiment of the application.Each position in the description occur the phrase might not each mean it is identical Embodiment, nor the independent or alternative embodiment with other embodiments mutual exclusion.Those skilled in the art explicitly and Implicitly understand, embodiment described herein can be combined with other embodiments.

Referring to Fig. 1, the schematic flow sheet of the embodiment of method one show for the application control display screen, this method including with Lower step, referring also to Fig. 2, for the part-structure schematic diagram of display screen in the embodiment of the application one.

101:A circular arc boost line 10 is set in the close marginal position of display screen 100, circular arc boost line 10 is by display screen 100 are divided into complete viewing area 20, non-display area 30 and transition viewing area 40.What is intersected with circular arc boost line 10 is multiple critical Pixel cell 42 and the 44 common shape of multiple transition pixel units of the close complete viewing area 20 adjacent with circular arc boost line 10 Into transition viewing area 40, and the center of circle of circular arc boost line 10 is located in non-display area 30, or outside display screen 100.

Specifically, display screen 100 can be the display of mobile phone, video camera, Ipad, wrist-watch or other Intelligent worn devices Screen.Corresponding different end product, display screen 100 can have different shapes, such as rectangle, circle, similar round, ellipse Or other shapes.Wherein non-display area 30 is located at the marginal position of display screen 100, can be used for wiring etc. below.This implementation In example, the non-display area 30 of display screen 100 is located at the top or bottom of display screen 100.Referring also to Fig. 3, with smart mobile phone Exemplified by, the length of the non-display area 30 shown in Fig. 3 is less than the width of display screen 100, and non-display area 30 is located at display screen 100 and pushed up The centre position in portion.Further, the non-display area 30 is provided with two corners, and the position of two corners sets circular arc boost line 10, to form transition viewing area 40 and complete viewing area 20.Specifically, non-display area 30 can be used for set camera, and/or The device such as receiver, and/or person's photo-sensing device.In other embodiment, the non-display area 30 positioned at the top of display screen 100 can also Close or against display screen 100 one of long side is set, as shown in Figure 4 and Figure 5.It should be noted that when non-aobvious Show that only existing an arm of angle when area 30 is set against the long side of display screen 100 needs to set circular arc boost line, such as Fig. 5 institutes Show.

As shown in fig. 6, in another embodiment, non-display area 30 can also be located at the bottom of display screen 100, such as display screen 100 when be applied to wearable device product.

Specifically, viewing area 20 is located at the centre position of display screen 100 completely, the major part of display screen 100 also occupies Area, transition viewing area 40 is between complete viewing area 20 and non-display area 30.The viewing area of display screen 100 by showing completely Area 20 and transition viewing area 40 are formed.Contiguous pixels unit 42 intersects with circular arc boost line 10, therefore the display screen 100 is aobvious The edge for showing at least one corner location in area is arc-shaped.

Specifically, include the step of the marginal position of display screen 100 sets circular arc boost line 10：According to below equation meter Calculate the radius of circular arc boost line 10：

L=R1/h；

R2=L × h；

Wherein R1 is the radius of target of circular arc boost line 10, and R2 is the real radius of circular arc boost line 10, and h is in display screen The height of pixel cell, as shown in Figure 5.Radius of target is the radius that user is proposed according to actual product shape.

With continued reference to Fig. 2：

102：Each contiguous pixels unit 42 is divided into the Part I close to complete viewing area 20 by circular arc boost line 10 422 and the Part II 424 close to non-display area 30, the area of Part I 422 accounts for the gross area of contiguous pixels unit 42 It is valid pixel unit that ratio then defines the contiguous pixels unit 42 more than or equal to preset value, otherwise defines the contiguous pixels unit 42 be inactive pixels unit.

Specifically, the ratio preset value is 10%-40%.In each contiguous pixels unit 42 i.e. in transition viewing area 40 The area of Part I 422 accounts for the ratio of the gross area of the contiguous pixels unit more than or equal to any one in 10%-40% It is valid pixel unit that numerical value, which defines the contiguous pixels unit 42,.It is different for different product demands, the ratio preset value. In one embodiment, the ratio preset value is 20%.

103：The ratio-dependent of the whole contiguous pixels unit 42 contiguous pixels unit 42 is accounted for the area of Part I 422 Aperture opening ratio.The area of Part I 422 is bigger in i.e. each contiguous pixels unit 42, then its aperture opening ratio is bigger, that is, should The luminosity of contiguous pixels unit 42 is bigger.

104：The aperture opening ratio of each transition pixel unit 44 is set more than the aperture opening ratio of the contiguous pixels unit 42 of same row, And it is located at the aperture opening ratio of the pixel cell of complete viewing area 20 less than same row.

In different embodiments, in same row pixel cell, the number of transition pixel unit 44 is for 1 or multiple.One is real Apply in example, from contiguous pixels unit 42 to transition pixel unit 44 again to neighbouring transition pixel unit 44 in same column pixel cell The aperture opening ratio between first pixel cell in complete viewing area 20 is gradually incremented by.Above transition in other embodiment Can be equal difference change, so that the aperture opening ratio change of transition viewing area 40 to complete 20 each pixel cell of viewing area is more equal It is even.

Specifically, the split shed rate of viewing area 20 is that whole viewing area split shed rate is maximum completely, and viewing area 20 completely In each pixel cell aperture opening ratio it is equal.Due to being physically-isolated, pixel cell after all between pixel cell on hardware Density is higher, and effective photosensitive area of pixel cell is necessarily smaller, therefore the aperture opening ratio of in fact each pixel cell is impossible Reach 100%.The aperture opening ratio of each pixel cell is 1 in viewing area 20 completely defined herein.Therefore, transition viewing area 40 Contiguous pixels unit 42 necessarily be less than complete viewing area 20 in pixel cell aperture opening ratio, non-display area 30 and completely display Multiple contiguous pixels units 42 and multiple transition pixel unit 44 of the aperture opening ratio more than 0 less than 1 are set to be used as centre between area 20 Luminance transition, and in same row pixel cell, the brightness of transition pixel unit 44 is more than the brightness of contiguous pixels unit 42, passes through Arrangement above can substantially improve the phenomenon that sawtooth sense occurs in screen edge.

Specifically, the number of transition pixel unit 44 is determined by following methods in each row pixel cell：

Referring to Fig. 2 and Fig. 3, the quantity of transition pixel unit 44 is equal to this and shows effect pixel cell and effective picture of adjacent column Plain element number is only poor, and the quantity for showing effect pixel cell is more than the quantity of the valid pixel unit of adjacent column.Wherein have It is effective pixel cell in transition viewing area 40 and complete viewing area 20 to imitate pixel cell.Specifically, it is with the row of Fig. 2 the 7th Example, for the rim portion of the right side half of the non-display area, the 20th of its relative left side of the 21st row shows effect pixel cell 1 more, Therefore the number of the transition pixel unit 44 of the 21st row is 1.

Again in the case of Fig. 2 the 2nd row, for the left-half of the non-display area, the 2nd arranges the 3rd relatively on the right of it It is more 2 to show effect pixel cell.Therefore the number of the transition pixel unit 44 of the 2nd row is 2.

Further, in another embodiment, in same row pixel cell, if the aperture opening ratio of contiguous pixels unit 42 be less than etc. In first threshold, and the quantity of the row transition pixel unit 44 is less than or equal to Second Threshold, then increases the row transition pixel unit 44 quantity, so that from contiguous pixels unit 42 to first in complete viewing area 20 of neighbouring transition pixel unit 44 Aperture opening ratio even variation between pixel cell.

So that Fig. 2 the 6th arranges the contiguous pixels 42 of the 11st row as an example, as seen from Figure 2, the first of the contiguous pixels unit 42 The ratio that the area of part 422 accounts for the gross area of contiguous pixels unit 42 is smaller, it is assumed that the ratio is 20%.Therefore, the 6th row are relative The 7th on the right of it shows the quantity 1 more of effect pixel cell.Now, the 7th row transition pixel unit 44 is 1, that is to say, that mistake Viewing area 40 is crossed into the transition of complete viewing area 20, the 6th row are from contiguous pixels unit 42 to transition pixel unit 44 again to complete Full viewing area 20 is close to the aperture opening ratio situation of change of the first pixel cell of transition viewing area 40：0.2,0.6,1.This change Amplitude some are big, in order to further improve the present situation of the sawtooth sense of the edge of display screen 100 appearance.Can be in critical picture The plain aperture opening ratio of unit 42 is less than or equal to first threshold, and the quantity of the transition pixel unit 44 of the row is less than or equal to Second Threshold When, increase the quantity of the row transition pixel unit 44, specific 44 increased number of transition pixel unit, do not limit here.

In one embodiment, first threshold 0.2-0.4, Second Threshold is 1 or 2.

Referring also to Fig. 7, in an embodiment, for effective contiguous pixels unit 42 in transition viewing area 40, with each Contiguous pixels unit 42 is located at area of the circular arc boost line 10 close to non-display area 30, i.e. the position of Part II 424 is set black Matrix, to reduce the aperture opening ratio of effective contiguous pixels unit 42.

Referring also to Fig. 8, in another embodiment, effective contiguous pixels unit 42a is intersected using 2 black matrix 50a to be blocked Close to the part of non-display area 30, to reduce the aperture opening ratio of effective contiguous pixels unit 42.

Referring also to Fig. 9, in another embodiment, effective contiguous pixels unit 42b, blocked with black matrix 50b effectively critical Arbitrary portion area in pixel cell 42.The area being blocked is located at circular arc boost line equal to effective contiguous pixels unit 42b 10 close to non-display area 30 area.Similarly, for transition pixel unit 44, the transition pixel is blocked with black matrix 50b Arbitrary portion area in unit 44, the accounting of the area being blocked and the gross area of transition pixel unit 44 are equal to the transition picture The aperture opening ratio of plain unit 44.

Display screen 100 is formed by above method, positioned at the complete viewing area 20 of the centre of display screen 100 and positioned at edge Non-display area 30 between form transition viewing area 40.Contiguous pixels 42 in transition viewing area 40 only have its Part I 422 area account for the gross area of contiguous pixels unit 42 ratio be more than or equal to preset value can be just effective contiguous pixels unit, Otherwise it is invalid contiguous pixels unit.For effective contiguous pixels unit 42, the area of Part I 422 accounts for whole effectively critical Bigger effective of the aperture opening ratio of the ratio-dependent of pixel cell 42 effective contiguous pixels unit 42, i.e. Part I area 422 The brightness of contiguous pixels unit 42 is bigger.But also multiple transition are set between complete viewing area 20 in contiguous pixels unit 42 Pixel cell 44, make contiguous pixels unit 42 to transition pixel unit 44, then gradually increase change to the complete brightness of viewing area 20, There is sawtooth sense with smooth and improvement screen edge, optimize visual effect, the part application above control method of display screen 100 The display effect presented afterwards is as shown in Figure 10.

The application also provides a kind of display screen, as shown in figures 3 to 6.The display screen includes being located at 100 central position of display screen The complete viewing area 20 put, positioned at display screen 100 marginal position non-display area 30 and positioned at complete viewing area 20 and non- The transition viewing area 40 of viewing area 30.Non-display area 30 setting camera, and/or receiver, and/or person's photo-sensing device.Cross Crossing viewing area 40 includes multiple contiguous pixels units 42 and multiple transition pixels with the neighbour setting of contiguous pixels unit 42 respectively Unit 44, plurality of adjacent contiguous pixels unit 42 forms arc-shaped, and the aperture opening ratio of contiguous pixels unit 42 is small more than 0 In 1, the aperture opening ratio of each transition pixel unit 44 is more than the aperture opening ratio of the contiguous pixels unit 42 of same row, and is less than same row Positioned at the aperture opening ratio of the pixel cell of complete viewing area 20.

Further, in an embodiment, in same row pixel cell, from contiguous pixels unit 42 to transition pixel unit 44 again Gradually passed to the aperture opening ratio between first pixel cell in complete viewing area 20 of the neighbouring transition pixel unit 44 Increase.

Specifically, the concrete structure of display screen 100 and the setting of black matrix, as described by above example, this does not go to live in the household of one's in-laws on getting married State.

The embodiment of the application one also provides a kind of display screen 100, as shown in figures 3 to 6.The display screen 100 each reality as more than To apply described by example, whether each contiguous pixels unit 42 is valid pixel unit in transition viewing area 40 on the display screen 100, and Set for the aperture opening ratio of effective contiguous pixels unit 42 and transition pixel unit 44 by the method for above example introduction.

Specifically, for the display screen 100 that viewing area is arc-shaped, whole terminal is also made outer with circular arc rim See, now the corner of display screen 100 of rectangle is corner cut or forms circular arc chamfering, to coordinate the shape of terminal.If certainly eventually Hold sufficiently large for the position of placing display screen, corner cut or rounding processing can not also be done to the corner of the display screen of rectangle.

Referring to Figure 11, the embodiment of the application one also provides a kind of terminal 300, and the terminal 300 includes above-mentioned display screen 100. Specific terminal 300 can be with mobile phone, IPad, Intelligent worn device, digital audio ＆ video players, electronic reader, portable game Machine and vehicle electronic device.

Further, in an embodiment, terminal 300 also includes the camera for the non-display area 30 being arranged in above-described embodiment 60th, receiver 70 and photo-sensing device 80, the both sides of non-display area 30 are viewing area, and camera can also be two.Other realities Apply in example, be arranged at non-display area can also be at least one of in camera 60, receiver 70 and photo-sensing device 80 Individual part, or miscellaneous part is replaced into, this is not specifically limited.

Presently filed embodiment is the foregoing is only, not thereby limits the scope of the claims of the application, it is every to utilize this The equivalent structure or equivalent flow conversion that application specification and accompanying drawing content are made, or directly or indirectly it is used in other correlations Technical field, similarly it is included in the scope of patent protection of the application.

Claims (17)

1. a kind of method that control display screen is shown, it is characterised in that comprise the following steps：

A circular arc boost line is set in the close marginal position of display screen, display screen is divided into completely aobvious by the circular arc boost line Show area, non-display area and transition viewing area, and the circular arc boost line is located at the non-display area, or positioned at the display Screen is outer, wherein multiple contiguous pixels units for intersecting with the circular arc boost line and adjacent with the circular arc boost line close Multiple transition pixel units of the viewing area completely are collectively forming transition viewing area, and the center of circle of the circular arc boost line is located at In the viewing area completely；

The circular arc boost line by each contiguous pixels unit be divided into close to it is described completely viewing area Part I and Close to the Part II of the non-display area, the area of the Part I accounts for the ratio of the contiguous pixels unit more than or equal to pre- If it is valid pixel unit that value, which then defines the contiguous pixels unit, it is inactive pixels unit otherwise to define the contiguous pixels unit；

The ratio-dependent of whole contiguous pixels unit itself the gross area effective critical picture is accounted for the area of the Part I The aperture opening ratio of plain unit；

The aperture opening ratio of each transition pixel unit is set more than the aperture opening ratio of the contiguous pixels unit of same row, and it is small Aperture opening ratio in same row positioned at the pixel cell of viewing area completely.

2. the method for control display according to claim 1, it is characterised in that

It is described to include in the step of corner location one circular arc boost line of picture of display screen：

The radius of the circular arc boost line is calculated according to below equation：

L=R1/h；

R2=L × h；

Wherein R1 is the radius of target of the circular arc boost line, and R2 is the real radius of the circular arc boost line, and h is pixel cell Height.

3. the method for control display according to claim 1, it is characterised in that from the contiguous pixels list in same column pixel Member to the transition pixel unit arrives first pixel cell in complete viewing area of the neighbouring transition pixel unit again Between aperture opening ratio gradually be incremented by.

4. the method for control display according to claim 3, it is characterised in that the quantity of the transition pixel unit is equal to This shows effect pixel cell and the valid pixel element number of adjacent column is only poor, and the quantity for showing effect pixel cell is more than institute State the quantity of the valid pixel unit of adjacent column.

5. the method for control display according to claim 4, it is characterised in that in same row pixel cell, if critical The aperture opening ratio of pixel cell is less than or equal to first threshold, and the quantity of the transition pixel unit is less than or equal to Second Threshold, then Increase the quantity of the row transition pixel unit, so that from contiguous pixels unit to the neighbouring transition pixel unit positioned at completely aobvious Show the aperture opening ratio even variation between first pixel cell in area.

6. the method for control display according to claim 1, it is characterised in that the preset ratio is 10%-40%.

7. the method for control display according to claim 6, it is characterised in that the preset ratio is 20%.

A kind of 8. display screen, it is characterised in that including:

Positioned at the complete viewing area of the display screen middle position, positioned at the display screen marginal position non-display area and Positioned at the viewing area completely and the transition viewing area of the non-display area, the non-display area sets camera, and/or listened Cylinder, and/or person's photo-sensing device；

The transition viewing area includes multiple contiguous pixels units and multiple respectively with setting near the contiguous pixels unit Transition pixel unit, plurality of adjacent contiguous pixels unit form arc-shaped, and the aperture opening ratio of the contiguous pixels unit It is less than 1 more than 0, the aperture opening ratio of each transition pixel unit is more than the aperture opening ratio of the contiguous pixels unit of same row, And the aperture opening ratio less than same row positioned at the pixel cell of viewing area completely.

9. display screen according to claim 8, it is characterised in that in same row pixel cell, from the contiguous pixels list Member to the transition pixel unit arrives first pixel cell in complete viewing area of the neighbouring transition pixel unit again Between aperture opening ratio gradually be incremented by.

10. display screen according to claim 8, it is characterised in that for the transition pixel unit, blocked with black matrix Arbitrary portion area in the transition pixel unit, the accounting of the area being blocked and the transition pixel unit gross area Equal to the aperture opening ratio of the transition pixel unit.

11. display screen according to claim 8, it is characterised in that the display screen is rectangle, and the corner of the rectangle For corner cut or circular arc chamfering.

12. display screen according to claim 8, it is characterised in that the display screen is circular, similar round or ellipse.

A kind of 13. display screen, it is characterised in that including:

Positioned at the complete viewing area of the display screen middle position, positioned at the display screen marginal position non-display area and Positioned at the viewing area completely and the transition viewing area of the non-display area, the non-display area sets camera, and/or listened Cylinder, and/or person's photo-sensing device；

The transition viewing area includes multiple contiguous pixels units and multiple neighbour settings with the contiguous pixels unit respectively Transition pixel unit, plurality of adjacent contiguous pixels unit forms arc-shaped, and the pixel in the transition viewing area Method of the aperture opening ratio of unit as described in claim 1-7 determines.

14. display screen according to claim 13, it is characterised in that for effective pixel in the contiguous pixels unit Unit, the circular arc boost line is located at contiguous pixels unit black matrix is set close to the area of the non-display area, to reduce The aperture opening ratio of the contiguous pixels.

15. display screen according to claim 13, it is characterised in that for effective pixel in the contiguous pixels unit Unit, the arbitrary portion area in the contiguous pixels unit is blocked with black matrix, the area being blocked has equal to described Effect contiguous pixels unit is located at area of the circular arc boost line close to the non-display area.

16. a kind of terminal, it is characterised in that the terminal includes the display screen as described in claim any one of 8-15.

17. terminal according to claim 16, it is characterised in that the terminal includes being arranged at taking the photograph for the non-display area As head, and/or receiver, and/or photo-sensing device.