CN107507519A - 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, comprise the following steps：First, second, and third circular arc boost line is set in the close marginal position of display screen, display screen is divided into complete viewing area, non-display area and transition viewing area by first, second, third circular arc boost line, and the center of circle of first, second, third circular arc boost line is located in complete viewing area；It is wherein intersecting or multiple transition pixel units of between second, third circular arc boost line form transition viewing area with least one in first, second, third circular arc boost line；The pixel aperture ratio for setting the transition pixel unit in transition viewing area is more than 0 aperture opening ratio for being less than pixel cell in 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, such as intelligent wristwatch.According to traditional design concept, the shape design of watch is most of to be all intended to circular, class It is circular or ellipse.But the shape of most of intelligent wristwatch is all to use square or class squared design at present, has lost biography The taste of system.Because if the intelligent wristwatch that smart mobile phone or intelligent wristwatch are made to circular, similar round or ellipse is then difficult Make us feeling bad sawtooth sense to overcome screen edge to occur, 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 Existing sawtooth sense, optimizes visual effect.

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

The first circular arc boost line, the second circular arc boost line and three-arc auxiliary are set in the close marginal position of display screen Line, the first circular arc boost line include first end and the second end, and one end of the second circular arc boost line and the first circular arc are auxiliary The first end of index contour is tangent, and the other end and relatively described second end are closer to the display screen center；The three-arc auxiliary One end of line and the second end of the first circular arc boost line are tangent, and the relatively described first end of the other end is closer to the display screen Center；And second, third described circular arc boost line is intersecting sets, the first, second, third circular arc boost line is by display screen Complete viewing area, non-display area and transition viewing area are divided into, and, the center of circle of the first, second, third circular arc boost line Positioned at described completely in viewing area；Wherein with least one in the first, second, third circular arc boost line it is intersecting or Multiple transition pixel units between second, third described circular arc boost line form transition viewing area；

The pixel aperture ratio for setting the transition pixel unit in the transition viewing area is less than the complete viewing area more than 0 The aperture opening ratio of middle pixel cell.

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 completely between viewing area and the non-display area；

Multiple adjacent transition pixel units form arc-shaped in the transition viewing area, and in the transition viewing area The aperture opening ratio method as described above of transition pixel unit determines.

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

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 multiple transition pixel units, and the wherein aperture opening ratio of transition pixel unit is more than 0 Less than 1.By the pixel cell brightness of above method setting transition viewing area, gradually increase being capable of smooth very well and improvement screen There is sawtooth sense in edge, optimizes 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 that the display that a part for the display screen shown in Fig. 2 is presented by the control method of the embodiment of the application one is imitated Fruit is schemed；

Fig. 6 is the part-structure schematic diagram of display screen in another embodiment of the application；

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

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

Fig. 9 is the structural representation of effective transition pixel unit in transition viewing area in another embodiment；

Figure 10 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 100 in the embodiment of the application one.

101:Display screen 100 close marginal position set the first circular arc boost line 10, the second circular arc boost line 10a and Three-arc boost line 10b, display screen is divided into complete viewing area 20, non-display area 30 and transition viewing area 40, and First, second, third circular arc boost line 10,10a, 10b center of circle are located in complete viewing area 20.

Specifically, referring to Fig. 2, the first circular arc boost line 10 includes the end 14 of first end 12 and second in an embodiment, second Circular arc boost line 10a one end and the first end 12 of the first circular arc boost line 10 are tangent, the second circular arc boost line 10a other end With respect to the first circular arc boost line 10 the second end 14 closer to the center of display screen 100.Three-arc boost line 10b one end with Second end 14 of the first circular arc boost line 10 is tangent, and the three-arc boost line 10b other end is with respect to the first circular arc boost line 10 First end 12 closer to the center of display screen 100, and second, third circular arc boost line 10,10a, 10b are intersecting sets.Wherein Multiple transition pixel units 42 for intersecting with least one in first, second, third circular arc boost line 10,10a, 10b or The multiple transition pictures not intersected simultaneously and with any one in first, second, third circular arc boost line 10,10a, 10b Plain unit 42 forms transition viewing area 40.

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.

Referring also to Fig. 3, by taking mobile phone or Ipad display screen as an example, the display screen 100 is rectangle, including four sides Angle, and four corner locations include non-display area 30 and transition viewing area 40.Complete viewing area 20 is located in display screen 100 Between position, also occupies most of area of display screen 100, transition viewing area 40 is located at complete viewing area 20 and non-display area 30 Between.The viewing area of display screen 100 is made up of complete viewing area 20 and transition viewing area 40.Transition pixel unit 42 is with first Circular arc boost line 10 is intersecting, therefore the edge of the corner location of viewing area at least four of the display screen 100 is arc-shaped.

Referring to Fig. 4, it is possible to understand that other embodiment in, such as circular wrist-watch, then the edge of whole viewing area is circle Arcuation, i.e. transition viewing area 40, which enclose, is set as ring week, can be specifically circular or ellipse etc..

Specifically, in an embodiment, according to below equation calculate first, second and three-arc boost line 10,10a, 10b radius：

L=R1/h；

R2=L × h；

Wherein R1 is the radius of target of the first circular arc boost line 10, and R2 is the real radius of the first circular arc boost line 10；Or Person R1 is the second circular arc boost line 10a radius of target, and R2 is the second circular arc boost line 10a real radius；Or R1 is the Three-arc boost line 10b radius of target, R2 are three-arc boost line 10b real radius；H is 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.Alternatively, in an embodiment, the First, second and three-arc boost line 10,10a, 10b radius it is equal.In other embodiment, first, second and the 3rd Circular arc boost line 10,10a, 10b radius can also be unequal.

102：The pixel aperture ratio of transition pixel unit 42 in setting transition viewing area 40 is less than complete viewing area more than 0 The aperture opening ratio of pixel cell in 20.

Forming display screen 100 by above method includes positioned at the complete viewing area 20 of the centre of display screen 100 and is located at Transition viewing area 40 is formd between the non-display area 30 at edge.The transition viewing area 40 includes multiple transition pixel units 42, Smooth very well sawtooth sense can occur with improvement screen edge, optimize visual effect, the part application control above of display screen 100 The display effect presented after method processed is as shown in Figure 5.

With continued reference to Fig. 2, in the embodiment shown in Fig. 2, transition pixel unit 42 includes three kinds, the first：Only with first The intersecting transition pixel unit 42a of circular arc boost line 10.Be for second at the same only with first, second circular arc boost line 10,10a phases Hand over, either simultaneously only with first, three-arc boost line 10,10b the transition pixel unit 42b intersected or simultaneously with first, The second and intersecting transition pixel unit 42b of three-arc boost line 10,10a, 10b.The third is only auxiliary with the second circular arc The index contour 10a or transition pixel unit 42c only intersected with three-arc boost line 10b, or simultaneously only with the second circular arc Transition pixel unit 42c intersecting boost line 10a and three-arc boost line 10b.

Specifically, the first circular arc boost line 10 divides each transition pixel unit 42 intersected with the first circular arc boost line 10 It is segmented into the Part I 422 close to complete viewing area 20 and the Part II 424 close to non-display area 30.If Part I 422 Area account for the first ratio of the transition pixel unit 42 itself gross area and then define this as transition more than or equal to the first preset value Plain unit 42 is effective transition pixel unit, and it is invalid transition pixel unit otherwise to define the transition pixel unit 42.Specifically, In the present embodiment, the first preset value is 20%.Alternatively, in other embodiment, the first preset value is any in 20%-40% One value.

In one embodiment, for the first transition pixel unit 42a defined above, if transition pixel unit 42a First ratio then sets aperture opening ratio of first ratio as transition pixel unit 42a more than or equal to the first preset value.

In one embodiment, for second of transition pixel unit 42b defined above, if transition pixel unit 42b positions Area between first, second circular arc boost line 10,10b or between first, three-arc boost line 10,10c The second ratio for accounting for transition pixel unit 42b itself gross areas is more than or equal to the second preset value, then defines the second ratio to be somebody's turn to do Transition pixel unit 42b aperture opening ratio；Otherwise, if while transition pixel 42b is that have with what the first circular arc boost line 10 intersected The transition pixel unit 42b of effect, then transition pixel unit 42b aperture opening ratio be equal to Part I area account for the transition pixel The ratio of itself gross area of unit 42b.For invalid transition pixel unit, its aperture opening ratio is 0.Specifically, in the present embodiment, the Two preset values are 20%.Alternatively, in other embodiment, the second preset value is any one value in 20%-40%.

In one embodiment, for the third transition pixel unit 42c defined above, second or three-arc boost line 10a, 10b are by each only with the second circular arc boost line or only intersecting transition element 42c with three-arc boost line and being divided into and lean on The nearly Part III 426 of viewing area 20 completely and the Part IV 428 close to non-display area 30, Part III 426 and the 4th Area is larger in points 428, and one and the accounting of transition pixel unit 42c itself gross areas determine transition pixel unit 42c Aperture opening ratio.Because the second circular arc boost line 10a and three-arc boost line 10b is set adjacent to complete viewing area 20, therefore only The neighbouring pictures of transition pixel unit 42c for intersecting with the second circular arc boost line 10a or only intersecting with three-arc boost line 10b The aperture opening ratio for having a pixel cell in plain unit is 1, the i.e. pixel cell in complete viewing area 20, therefore using so Method can avoid only with the second circular arc boost line 10a intersecting or only with three-arc boost line 10b intersect transition picture Plain unit 42c aperture opening ratios differ with aperture opening ratio 1 farther out, avoid neighbouring pixel cell between aperture opening ratio there is the phenomenon of cataclysm, Preferably to eliminate the sawtooth sense that display platen edge occurs.

Further, in another embodiment, the transition pixel is defined if the 3rd ratio is more than or equal to the 3rd preset value Unit 42c aperture opening ratio is 1.Alternatively, any one value in the 3rd preset value 75%-85%.

Specifically, for the transition pixel unit 42c only intersected with second, third circular arc boost line 10a, 10b simultaneously, should Transition pixel unit 42c aperture opening ratio with only intersect with the second circular arc boost line 10a or only with three-arc boost line 10b phases The method that the type of friendship is same is set, that is, selects the second circular arc boost line 10a or three-arc boost line 10b to be carried out for boundary Judge and set, this is not repeated.

Referring also to Fig. 6, in another embodiment, with respect to the embodiment shown in Fig. 2, in the display screen 100a in the present embodiment The second circular arc boost line 10a other end is bigger with respect to the spacing between the second end 14 of the first circular arc boost line 10, the 3rd circle The arc boost line 10b other end is bigger with respect to the spacing between the first end 12 of the first circular arc boost line 10.In this case, phase To the embodiment shown in Fig. 2, also there is another transition pixel unit 42, wherein the 4th kind is：Not with first, second with And any one article of intersecting transition pixel unit 42d in three-arc boost line 10,10a, 10b.

In one embodiment, for the 4th kind of transition pixel unit 42d defined above, transition pixel 42d aperture opening ratio Aperture opening ratio more than same row close to first transition pixel unit 42 of non-display area 30, while less than same row near complete The transition pixel unit 42c of full viewing area 20 aperture opening ratio.Further, alternatively, these three transition pixel units 42 of the above, 42d, 42c aperture opening ratio equal difference change.

Referring also to Fig. 7, in an embodiment, for effective transition pixel unit 42 in transition viewing area 40, with each Transition pixel 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 transition pixel unit 42.

Referring also to Fig. 8, in another embodiment, effective transition pixel unit 42 intersects to block using 2 black matrix 50a to be leaned on The part of nearly non-display area 30, to reduce the aperture opening ratio of effective transition pixel unit 42.

Referring also to Fig. 9, in another embodiment, effective transition pixel unit 42, effective transition picture is blocked with black matrix 50b Arbitrary portion area in plain unit 42.The area being blocked is located at circular arc boost line 10 equal to effective transition pixel unit 42 and leaned on The area of nearly non-display area 30.

Similarly, for transition pixel unit 42a, 42b, 42c, 42d, it can use and the transition picture is blocked with black matrix 50b Arbitrary portion area in plain unit 42a, 42b, 42c, 42d, the area being blocked and transition pixel unit 42a, 42b, The accounting of 42c, 42d gross area is equal to the transition pixel unit 42a, 42b, 42c, 42d aperture opening ratio.

The embodiment of the present application also provides a kind of display screen 100, as shown in figures 2-6.The display screen 100 such as various embodiments above Described, whether each transition pixel unit 42 is valid pixel unit in transition viewing area 40 on the display screen 100, and for The aperture opening ratio of effective transition pixel unit 42 is set 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 10, the embodiment of the present application also provides a kind of terminal 300, and the terminal 300 includes above-mentioned display screen 100.Tool The terminal 300 of body can be with mobile phone, IPad, Intelligent worn device, digital audio ＆ video players, electronic reader, handheld game machine With vehicle electronic device, digital camera and printer etc..

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 (16)

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

The first circular arc boost line, the second circular arc boost line and three-arc boost line are set in the close marginal position of display screen, The first circular arc boost line includes first end and the second end, one end of the second circular arc boost line and the first circular arc boost line First end it is tangent, relatively described second end of the other end is closer to the display screen center；The one of the three-arc boost line End is tangent with the second end of the first circular arc boost line, and the relatively described first end of the other end is closer in the display screen The heart；And the intersecting setting of second, third described circular arc boost line, the first, second, third circular arc boost line divide display screen For complete viewing area, non-display area and transition viewing area, the center of circle of the first, second, third circular arc boost line is located at institute State in complete viewing area；Wherein with least one in the first, second, third circular arc boost line it is intersecting or simultaneously with The multiple transition pixel units not intersected with any one in the first, second, third circular arc boost line form transition Viewing area；

The pixel aperture ratio for setting the transition pixel unit in the transition viewing area is more than 0 less than picture in the viewing area completely The aperture opening ratio of plain unit.

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

Each transition pixel unit intersected with the first circular arc boost line is divided into close by the first circular arc boost line The Part I of viewing area completely and the Part II close to the non-display area, if the area of the Part I accounts for this First ratio of itself gross area of transition pixel unit then defines this as transition element unit is effective more than or equal to the first preset value Transition pixel unit, it is invalid transition pixel unit otherwise to define the transition pixel unit；

For the transition pixel unit only intersected with the first circular arc boost line, the area of the Part I accounts for the transition pixel list First ratio of itself first gross area is more than or equal to the aperture opening ratio that the first preset value then sets the transition pixel with the first ratio；Its In, the aperture opening ratio of invalid transition pixel unit is 0.

3. the method for control display according to claim 2, it is characterised in that first preset value is 20%-40% In any one value.

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

For have area between the first, second circular arc boost line or positioned at described first, three-arc Transition pixel unit between boost line, if area of the transition pixel unit between the first, second circular arc boost line Or the area between described first, three-arc boost line accounts for the second ratio of itself gross area of the transition pixel unit More than or equal to the second preset value, then the aperture opening ratio that second ratio is the transition pixel unit is defined；Otherwise, if while the mistake It is the effective transition pixel unit intersected with first boost line to cross pixel, then the aperture opening ratio of the transition pixel unit is equal to The area of the Part I accounts for the ratio of itself gross area of the transition pixel unit.

5. the method for control display according to claim 4, it is characterised in that second preset value is 20%-40% In any one value.

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

For the transition pixel unit only intersected in transition viewing area with the second circular arc boost line, or only with three-arc boost line Intersecting transition pixel unit, described second or three-arc boost line each transition element is divided into close to described The Part III and the Part IV close to the non-display area of complete viewing area, and with the Part III and Part IV The accounting of itself gross area of area larger one with the transition pixel unit determines the aperture opening ratio of the transition pixel unit.

7. the method for control display according to claim 6, it is characterised in that if the 3rd ratio is pre- more than or equal to the 3rd If the aperture opening ratio that value then defines the transition pixel unit is 1.

8. the method for control display according to claim 7, it is characterised in that in the 3rd preset value 75%-85% Any one value.

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

For the transition pixel unit not intersected with any one article in first, second and three-arc boost line, then set The aperture opening ratio of the fixed transition pixel is more than aperture opening ratio of the same row close to first transition pixel unit of non-display area, while small Aperture opening ratio in same row near the transition pixel unit of complete viewing area.

10. the method for control display according to claim 1, it is characterised in that described first, second and three-arc The radius of boost line is equal.

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

The radius of described first, second and three-arc boost line is calculated according to below equation：

L=R1/h；

R2=L × h；

Wherein R1 is the radius of target of the first circular arc boost line, and R2 is the real radius of the first circular arc boost line；Or Person R1 is the radius of target of the second circular arc boost line, and R2 is the real radius of the second circular arc boost line；Or R1 is The radius of target of the three-arc boost line, R2 are the real radius of the three-arc boost line；H is the height of pixel cell Degree.

A kind of 12. 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 transition viewing area completely between viewing area and the non-display area；

Multiple adjacent transition pixel units form arc-shaped, and the transition in the transition viewing area in the transition viewing area Method of the aperture opening ratio of pixel cell as described in claim any one of 1-11 determines.

13. display screen according to claim 12, it is characterised in that be more than for the aperture opening ratio in the transition viewing area 0 is less than the transition pixel unit of the aperture opening ratio of pixel cell in the viewing area completely, and the transition is blocked with black matrix Arbitrary portion area in pixel cell, the ratio of itself gross area of the area being blocked with the transition pixel unit are equal to The aperture opening ratio of the transition pixel unit.

14. display screen according to claim 12, it is characterised in that the display screen is rectangle, and the side of the rectangle Angle is corner cut or circular arc chamfering.

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

16. a kind of terminal, it is characterised in that the terminal includes the display screen as described in claim any one of 12-15.