CN103294369A - Display method and electronic equipment - Google Patents
Display method and electronic equipment Download PDFInfo
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- CN103294369A CN103294369A CN 201210055789 CN201210055789A CN103294369A CN 103294369 A CN103294369 A CN 103294369A CN 201210055789 CN201210055789 CN 201210055789 CN 201210055789 A CN201210055789 A CN 201210055789A CN 103294369 A CN103294369 A CN 103294369A
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Abstract
The invention discloses a display method and electronic equipment. The method is applied to the electronic equipment. The electronic equipment is provided with a flexible display screen; the flexible display screen is provided with an unfolding state and a folding state; when the flexible display screen is in the unfolding state, the flexible display screen is provided with a first display region; and when the flexible display screen is in the folding state, the first display region at least forms a first sub display region and a second sub display region through at least one folding line. The method comprises the steps as follows: when the flexible display screen is in the folding state, detecting a state of the first sub display region; and determining a display direction of a display object in the first sub display region according to the state of the first sub display region.
Description
Technical field
The present invention relates to the display technique field, relate in particular to a kind of display packing and electronic equipment.
Background technology
In order to satisfy the growing demand of user, various electronic equipments are developed out, the electronic equipment that for example has flexible display screen, concrete example is as being flexible mobile phone, flexible flat computer etc., owing to electronic equipment can fold, bend or curl, so even the user has bent electronic equipment because of carelessness, do not worry to damage electronic equipment, so have the favor that the electronic equipment of flexible display screen has obtained the user yet.
Yet, the inventor finds in realizing process of the present invention, after flexible display screen of the prior art is folded, each viewing area still is at displaying contents according to original display direction, so when many people use electronic equipment, having the display direction of displaying contents in the corresponding viewing area of user at least is the demand of watching that does not meet the user, so display effect is poor, and poor user experience.
Summary of the invention
The invention provides a kind of display packing and electronic equipment, in order to after solving the flexible display screen that exists in the prior art and being folded, the display direction of sub-viewing area is not suitable for and the display effect that causes is poor, the problem of poor user experience.
One aspect of the present invention provides a kind of display packing, be applied to an electronic equipment, described electronic equipment has a flexible display screen, described flexible display screen has extended configuration and folded state, when described flexible display screen is in described extended configuration, described flexible display screen has one first viewing area, when described flexible display screen is in described folded state, described first viewing area forms the first sub-viewing area and the second sub-viewing area at least by at least one fold line, described method comprises: when described flexible display screen is in described folded state, detect the state of the described first sub-viewing area; Determine to show in the described first sub-viewing area display direction of object according to the state of the described first sub-viewing area.
Preferably, described method also comprises: when described flexible display screen is in described folded state, detect the state of the described second sub-viewing area; Determine to show in the described second sub-viewing area display direction of object according to the state of the described second sub-viewing area.
Preferably, the state of the described first sub-viewing area of described detection is specially: the positional information that detects the described relatively first sub-viewing area of user.
Preferably, described state according to the described first sub-viewing area determines to show in the described first sub-viewing area display direction of object, specifically comprises: the display direction of determining to show in the described first sub-viewing area object according to described positional information.
Preferably, described flexible display screen is provided with a plurality of sensors, and the state of the described first sub-viewing area of described detection specifically comprises: the data that receive the sensor transmission that is positioned at the described first sub-viewing area; Determine the gravity direction of the described first sub-viewing area according to described data.
Preferably, described state according to the described first sub-viewing area determines to show in the described first sub-viewing area display direction of object, is specially: determine to show in the described first sub-viewing area that the display direction of object is consistent with described gravity direction.
Preferably, described method also comprises: whether in described first viewing area have new sub-viewing area produce, described new sub-viewing area is different from the described first sub-viewing area and the described second sub-viewing area if detecting; If have new sub-viewing area to produce, then determine to show in the described new sub-viewing area display direction of object.
The present invention provides a kind of electronic equipment on the other hand, comprise: flexible display screen, have extended configuration and folded state, when described flexible display screen is in described extended configuration, described flexible display screen has one first viewing area, when described flexibility is flat when being in described folded state, described first viewing area forms the first sub-viewing area and the second sub-viewing area at least by at least one fold line; First detecting unit is used for detecting the state of the described first sub-viewing area when described flexible display screen is in described folded state; And processing unit, determine in the described first sub-viewing area to show the display direction of object according to the state of the described first sub-viewing area.
Preferably, described first detecting unit also is used for when described flexible display screen is in described folded state, detect the state of the described second sub-viewing area, and determine to show in the described second sub-viewing area display direction of object according to the state of the described second sub-viewing area.
Preferably, described first detecting unit is specifically for detection of the positional information of the described relatively first sub-viewing area of user.
Preferably, described processing unit specifically is used for determining according to described positional information the display direction of demonstration object in the described first sub-viewing area.
Preferably, described electronic equipment also comprises a plurality of sensors, is arranged on the described flexible display screen, for detection of the state of described flexible display screen.
Preferably, described first detecting unit specifically is used for receiving the data of the sensor transmission that is positioned at the described first sub-viewing area, and is used for determining according to described data the gravity direction of the described first sub-viewing area.
Preferably, described processing unit specifically is used for determining to show in the described first sub-viewing area that the display direction of object is consistent with described gravity direction.
Preferably, described electronic equipment also comprises second detecting unit, for detection of whether there being new sub-viewing area to produce in described first viewing area, described new sub-viewing area is different from the described first sub-viewing area and the described second sub-viewing area, if there is new sub-viewing area to produce, described processing unit then determines to show in the described new sub-viewing area display direction of object.
Preferably, the flexibility of described flexible display screen is along with the flexibility of described electronic equipment changes and changes.
Beneficial effect of the present invention is as follows:
The display direction that shows object in one of them sub-viewing area that flexible display screen after one embodiment of the invention is determined to fold forms, for example by detecting the state of sub-viewing area, determine display direction according to state then, so that display direction adapts to the state of sub-viewing area, so show in the sub-viewing area after folding that object has suitable display direction, so strengthened display effect, improved user's experience.
Further, also the display direction that shows object in other the sub-viewing area is adjusted in one embodiment of the invention, so show in each the sub-viewing area after folding that object has suitable display direction, so further strengthened display effect, has improved user's experience.
Further again, in one embodiment of the invention, whether flexible display screen on have new sub-viewing area produce, produce in case detect new sub-viewing area if detecting in real time, just can determine to show in the new sub-viewing area display direction of object, so can guarantee display effect timely.
Further, in one embodiment of the invention, detect the position relation between user and the sub-viewing area, determine to show in the sub-viewing area display direction of object then according to the position relation, so can more humane, more adapt to the adjustment display direction of actual conditions.
Further, in one embodiment of the invention, at flexible display screen a plurality of sensors are set, each sensor can detect the residential quarter screen area on the flexible display screen, the data that detect according to sensor are determined the gravity direction of sub-viewing area then, determine then to show in the sub-viewing area that the display direction of object is consistent with gravity direction, so this mode is simple and practical, it is fast that speed is set, and can meet great majority and use scene.
Description of drawings
Fig. 1 is the display packing process flow diagram in one embodiment of the invention;
Fig. 2 a-Fig. 2 g is the definite display direction synoptic diagram in one embodiment of the invention;
Fig. 3 a-Fig. 3 b is the definite display direction synoptic diagram in another embodiment of the present invention;
Fig. 4 a-Fig. 4 b is the definite display direction synoptic diagram in yet another embodiment of the invention;
Fig. 5 is the Organization Chart of the electric terminal in one embodiment of the invention.
Embodiment
First embodiment of the invention provides a kind of display packing, this method is applied on the electronic equipment, this electronic equipment has a flexible display screen, flexible display screen has extended configuration and folded state, when flexible display screen is in extended configuration, flexible display screen has one first viewing area, when flexible display screen is in folded state, first viewing area forms the first sub-viewing area and the second sub-viewing area at least by at least one fold line, and this electronic equipment for example is mobile phone, panel computer or notebook computer etc.
For more detailed description the present invention, lift concrete example below and come specific description, wherein electronic equipment is example with the bar phone.
Please refer to Fig. 2 a, for example mobile phone 20 comprises a flexible display screen 201, and flexible display screen 201 has first viewing area 202, show one in first viewing area 202 and show object 203, and be the word document for example, writing " claims " several words above.For example under the state of Fig. 2 a, when being extended configuration, whether detect flexible display screen 201 is bent, for example by the both sides up and down at flexible display screen 201 gravity sensor or airborne sensor are set, judge by the Gravity changer of flexible display screen 201 whether flexible display screen 201 is bent, in another embodiment, angular transducer can also be arranged on the right and left of flexible display screen 201, as long as flexible display screen 201 bendings, angular transducer will sense, and can produce detection information.
Further, when detecting flexible display screen 201 by bending, whether the bending degree of determining flexible display screen 201 satisfies predetermined condition, for fear of maloperation, just first viewing area 202 is divided into different sub-viewing areas when having only bending degree to reach predetermined condition, in the present embodiment, predetermined condition is the bending degree of the first of flexible display screen 201 flexible display screen 201 can be blocked by the second portion of flexible display screen 201 time, for example the bending degree of predetermined condition is in 160 degree-180 degree scopes, so as long as the bending degree of flexible display screen 201 is less than 160 degree, can be judged as and satisfy predetermined condition, please refer to Fig. 2 b, angle between first 204 and the second portion 205 is 60 degree, and namely the bending degree of flexible display screen 201 satisfies predetermined condition, and at this moment first 204 is blocked by second portion 205.
When the bending degree of flexible display screen 201 satisfies predetermined condition, just first viewing area 202 is divided into the first sub-viewing area 206 and the second sub-viewing area 207, wherein, the first sub-viewing area 206 and the second sub-viewing area 207 are separate.
Please continue the 2b with reference to figure, for example be to determine according to fold line 208 first viewing area 202 to be divided into the first sub-viewing area 206 and the second sub-viewing area 207 then by a fold line 208 in first viewing area 202.Wherein, determine that fold line 208 can be by arranging the position that sensor detects fold line 208 at flexible display screen, concrete rule of dividing for example is to determine sub-viewing area by the border of fold line 208 and flexible display screen 201.
Please also refer to Fig. 2 a-Fig. 2 c, when first viewing area 202 is divided into the first sub-viewing area 206 and the second sub-viewing area 207, to show that object 203 dwindles, namely be presented in the first sub-viewing area 206 with the size that is fit to the first sub-viewing area 206.Therefore, even flexible display screen 201 is bent, the user still can see the full content of the demonstration object 203 before the bending in the first sub-viewing area 206, so even flexible display screen 202 is bent, also do not influence user's use.
Further, when first viewing area 202 is divided into the first sub-viewing area 206 and the second sub-viewing area 207, can show that also object 203 dwindles, and namely is presented in the second sub-viewing area 207 with the size that is fit to the second sub-viewing area 207.Please refer to Fig. 2 c.Therefore, when flexible display screen 201 is divided into two sub regions by bending, first viewing area 202, the demonstration object 203 that originally was presented in first viewing area 202 can be presented at respectively in two sub-viewing areas, so the user can also see the full content of the demonstration object 203 that bending is preceding in the second sub-viewing area 207.
As seen from the above description, first viewing area 202 during extended configuration is after folding, by fold line 208 first viewing area 202 is divided into the first sub-viewing area 206 and the second sub-viewing area 207, and after folding, in the first sub-viewing area 206 and the second sub-viewing area 207, can show object 203, but no matter the demonstration object 203 among Fig. 2 b might as well, still the demonstration object 203 among Fig. 2 c might as well, though the demonstration that has been reduced all, but the display direction of the demonstration object 203 among the display direction of the demonstration object 203 among Fig. 2 c in the first sub-viewing area 206 and Fig. 2 b in the second sub-viewing area 207, all consistent with the display direction of first viewing area, 202 interior demonstration objects 203 among Fig. 2 a, so when the user watches demonstration object 203 on the second sub-viewing area 207, the custom of watching that just in time meets the user, so the user can not feel under the weather, but shown in Fig. 2 c, when the user watches demonstration object 203 in the first sub-viewing area 206, will feel to put upside down the sensation of 180 degree, so read very inconvenient, so need the demonstration object 203 in the first sub-viewing area 206 be redefined in this case.
Therefore, present embodiment provides a kind of display packing, please refer to Fig. 1, and Fig. 1 is the display packing process flow diagram in the present embodiment, and this method comprises:
Step 101: when flexible display screen is in folded state, detect the state of the first sub-viewing area;
Step 102: the display direction of determining to show in the first sub-viewing area object according to the state of the first sub-viewing area.
Below will continue to use the example in detail of front and how determine display direction.
Wherein, in step 101, be example with the first sub-viewing area 206 for example, detect the state of the first sub-viewing area 206, in the present embodiment, be specially the positional information that detects the user relative first sub-viewing area 206, for example be to take the user by a camera, detect the user near borderline which limit of the first sub-viewing area 206, for example shown in Fig. 2 c, detect the user near the border 209 of mobile phone 20, so can judge that the user is near the border 210 of the first sub-viewing area 206, judge that namely the user stands in 209 next doors, border to watch the first sub-viewing area 206, execution in step 102 then, and just the display direction with the demonstration object 203 in the first sub-viewing area 206 is defined as: the bottom that shows object 203 is towards the border 209, show that the top of object 203 is towards fold line 208, shown in Fig. 2 d, so, just the user can normally watch the demonstration object 203 in the first sub-viewing area 206.
In another embodiment, detect the positional information of the user relative first sub-viewing area 206, can not use camera to take the user, but the position of detection user handheld mobile phone 20, for example when user's hand position is both bounded sides in the first sub-viewing area 206, can detect hand-held position is in both bounded sides, can also detect simultaneously thumb towards being opposite with border 209, so can determine the user and be the position that stands near border 209, so just the display direction with the demonstration object 203 in the first sub-viewing area 206 is defined as: the bottom that shows object 203 shows that the top of object 203 is towards fold line 208 towards the border 209.
In practice, when the one-man uses mobile phone 20, after flexible display screen 201 is folded, if what at first watch after the user is folding is the second sub-viewing area 207, can determine the state of the second sub-viewing area 207 by said method, it is the position relation between user and second viewing area 207, so showing the display direction of object 203 in the second sub-viewing area 207 does not just adjust, still keep the display direction among Fig. 2 b, and the display direction of the demonstration object 203 in the first sub-viewing area 206 also still keeps as the display direction among Fig. 2 c, because have only a user watching, so as long as show the display direction of object in the sub-viewing area that the adjustment user watches.
Further, when the user rotates to the state of mobile phone 20 from Fig. 2 b state among Fig. 2 e, namely spin upside down, at this moment user's position does not change, namely watch the visual angle not change, because originally showing the display direction of objects 203 in the first sub-viewing area 206 just just in time is the visual angle of watching that meets the user, thus determine that display direction does not need to adjust, as long as keep original display direction.If but the user is when the state of mobile phone 20 from Fig. 2 b rotated to state among Fig. 2 f, upset namely, at this moment user's position does not change, namely watch the visual angle not change, but the display direction that shows object 203 in the first sub-viewing area 206 originally among Fig. 2 f can allow the user feel to put upside down the sensation of 180 degree, determine the state of the first sub-viewing area 206 so utilize said method, determine show objects 203 in the first sub-viewing area 206 display direction should for: show that the top of object 203 is towards fold line 208, shown in Fig. 2 g.
As two or more users simultaneously when using mobile phone 20, for example as shown in Fig. 2 c, there is another user also to watch the first sub-viewing area 206 at the same time, so will the display direction that show objects 203 in the first sub-viewing area 206 be adjusted into state shown in Fig. 2 d according to said method.
In above each embodiment, be to adjust in the sub-viewing area display direction that shows object according to the positional information between user and the sub-viewing area, below lift an example of adjusting display direction according to gravity direction again and describe.
Please refer to Fig. 3 a, be provided with a plurality of sensors 302 on the border of flexible display screen 301, for example be airborne sensor or gravity sensor, the quantity of sensor 302 is wanted to guarantee that each zone of flexible display screen 301 can both be detected, when flexible display screen 301 is folded into state shown in Fig. 3 b, shown in Fig. 3 b, flexible display screen 301 is divided into the first sub-viewing area 305 by first fold line 308 and second fold line 309, the second sub-viewing area 306 and the 3rd sub-viewing area 307, wherein, Reference numeral 303 expression supporting surfaces, namely the first sub-viewing area 305 is to be positioned on the supporting surface 303, and the second sub-viewing area 306 erects away from supporting surface 303, it highly for example is the height of perpendicular line 304, the 3rd sub-viewing area 307 for example is to be parallel to the first sub-viewing area 305, and still the height from supporting surface 303 also is the height of perpendicular line 304.
When the state that is folded into as Fig. 3 b, sensor 302 detects the variation of gravity, and detected data are sent to the processing unit of electronic equipment, central processing unit for example, processing unit receives these data, distinguish out the sensor in each sub-viewing area, and the data that the sensor in the corresponding sub-viewing area transmits are analyzed, determine the gravity direction of sub-viewing area, and then according to the gravity direction of sub-viewing area, determine the display direction that shows object in the sub-viewing area, for example determine to show in the sub-viewing area that the display direction of object is consistent with its gravity direction.For example the display direction of the first sub-viewing area 305 interior alphabetical A is shown in Fig. 3 b, and the display direction of letter b is vertical with the display direction of alphabetical A just in time in the second sub-viewing area 306, equally, the display direction of letter C is identical with the display direction of alphabetical A in the 3rd sub-viewing area 307.
Determined after the display direction according to the method described above, when a subscriber station is watched the demonstration object of flexible display screen 301 in the left side of flexible display screen 301, shown in Fig. 3 b, this user just in time can watch the demonstration object in the second sub-viewing area 306, because show the display direction of object in the second sub-viewing area 306, just in time meeting watching of user is accustomed to and physiologic habit, and for the user who stands near the lower boundary of flexible display screen 301, they can watch the demonstration object in the first sub-viewing area 305 and the second sub-viewing area 307 easily.
It is not king-sized situation that embodiment among Fig. 3 a and Fig. 3 b is fit to flexible display screen, and when flexible display screen was bigger, sensor only was arranged on the edge, possible some zone will detect less than, so followingly provide another kind of embodiment again.
Shown in Fig. 4 a, flexible display screen 401 has been divided into a plurality of zonules, a sensor 402 is set below each zonule, for example be gravity sensor or airborne sensor, the quantity of the quantity of zonule and sensor 402 is wanted to guarantee that each zone of flexible display screen 401 can both be detected.
When flexible display screen 401 is folded into state shown in Fig. 4 b, please refer to Fig. 4 b, flexible display screen 401 has been folded into five sub-viewing areas, the first sub-viewing area 403, the second sub-viewing area 404, the 3rd sub-viewing area 405, the 4th sub-viewing area 406 and the 5th sub-viewing area 407, wherein, Reference numeral 408 expression supporting surfaces, namely the 3rd sub-viewing area 405 is to be positioned on the supporting surface 408, and the second sub-viewing area 404 and the 4th sub-viewing area 406 erect away from supporting surface 408, it highly for example is the height of perpendicular line 409, the first sub-viewing area 403 and the 5th sub-viewing area 407 also are away from supporting surface 408, stick up aloft.
When the state that is folded into as Fig. 4 b, sensor 402 detects the variation of gravity, and detected data are sent to the processing unit of electronic equipment, central processing unit for example, processing unit receives these data, distinguish out the sensor in each sub-viewing area, and the data that the sensor in the corresponding sub-viewing area transmits are analyzed, determine the gravity direction of sub-viewing area, and then according to the gravity direction of sub-viewing area, determine the display direction that shows object in the sub-viewing area, for example determine to show in the sub-viewing area that the display direction of object is consistent with its gravity direction.For example the display direction of the first sub-viewing area 403 interior alphabetical A is shown in Fig. 4 b, and the display direction of letter b is opposite with the display direction of alphabetical A just in time in the second sub-viewing area 404, equally, the display direction of letter C is vertical with the direction of alphabetical A in the 3rd sub-viewing area 307, the display direction of alphabetical D is identical with the display direction of alphabetical A in the 4th sub-viewing area 406, and the display direction of letter e is identical with the display direction of letter b in the 5th sub-viewing area.
Determined after the display direction according to the method described above, when a subscriber station is watched demonstration object on the flexible display screen 401 in the left side of flexible display screen 401, shown in Fig. 4 b, this user just in time can watch demonstration object in the first sub-viewing area 403 and the demonstration object in the 4th sub-viewing area 406, because show the display direction of object and the display direction of the demonstration object in the 4th sub-viewing area 406 in the first sub-viewing area 403, just in time meeting watching of user is accustomed to and physiologic habit, and for the user who stands near the lower boundary of flexible display screen 401, they can watch the demonstration object in the 3rd sub-viewing area 405 easily, and be positioned at the user on flexible display screen 401 right sides, just in time can watch demonstration object in the second sub-viewing area 404 and the demonstration object in the 5th sub-viewing area 407, because show the display direction of object and the display direction of the demonstration object in the 5th sub-viewing area 407 in the second sub-viewing area 404, just in time meet watching of user and be accustomed to and physiologic habit.Therefore, flexible display screen can satisfy a plurality of users and goes from different perspectives to watch simultaneously.
In addition, the operation of the display direction of demonstration object can be carried out in any stage in above-mentioned definite sub-viewing area, for example when wanting to adjust display direction, the user just opens the function of adjusting, whether perhaps detect has new sub-viewing area to produce in first viewing area, wherein this new sub-viewing area is different from original sub-viewing area, the for example first sub-viewing area and the first sub-viewing area, when in case when detecting new sub-viewing area and producing, just determine the display direction of demonstration object in this new sub-viewing area according to the method in the previous embodiment.
More than each embodiment can implement separately, the enforcement of also can interosculating, those skilled in the art can select according to actual needs.
Another embodiment of the present invention also provides a kind of electronic equipment, for example is used for realizing the display packing of previous embodiment.Please refer to Fig. 5, Fig. 5 is the Organization Chart of present embodiment electronic equipment.
As shown in Figure 5, electronic equipment comprises: flexible display screen 501, have extended configuration and folded state, when flexible display screen 501 is in extended configuration, flexible display screen 501 has one first viewing area (for example first viewing area 202 among Fig. 2 a), when flexible display screen 501 was in folded state, first viewing area formed the first sub-viewing area (for example 206 among Fig. 2 c) and the second sub-viewing area (for example 207 among Fig. 2 b) at least by at least one fold line; First detecting unit 502 is used for detecting the state of the first sub-viewing area when flexible display screen 501 is in folded state; And processing unit 503, determine in the first sub-viewing area to show the display direction of object according to the state of the first sub-viewing area.
Wherein, first detecting unit 502 also is used for detecting the state of the second sub-viewing area when flexible display screen 501 is in folded state, and determines to show in the second sub-viewing area display direction of object according to the state of the second sub-viewing area.
Further, specifically for detection of the positional information of the relative first sub-viewing area of user, further, processing unit 503 is concrete for the display directions of determining to show in the first sub-viewing area object according to positional information for first detecting unit 502.
In another embodiment, electronic equipment also comprises a plurality of sensors, is arranged on the flexible display screen 501, for detection of the state of flexible display screen 501.First detecting unit, the 502 concrete data that are used for receiving the sensor transmission that is positioned at the first sub-viewing area reach the gravity direction that is used for determining according to the data that sensor transmits the first sub-viewing area; Further, processing unit 503 is concrete consistent with gravity direction for the display direction of determining demonstration object in the first sub-viewing area.
In another embodiment, electronic equipment also comprises: second detecting unit, for detection of whether there being new sub-viewing area to produce in first viewing area, new sub-viewing area is different from the first sub-viewing area and the second sub-viewing area, if there is new sub-viewing area to produce, 503 display directions of determining to show in the new sub-viewing area object of processing unit.
In above each embodiment, the flexible display screen of electronic equipment and main frame are flexible (for example embodiment of Fig. 2 a), so whole electric equipment can bend or folding, so when electronic equipment took place by flexible the variation, flexible display screen was ensued variation; Certainly electronic equipment also can be (for example embodiment among Fig. 3 a) that main frame and flexible display screen are separated from each other, that is, flexible display screen oneself can bend or be folding.So the change information that will bend or fold in the time of only need be with the bending of flexible display screen or folding the variation sends to host process and gets final product.
More than electronic equipment among each embodiment can implement separately, the enforcement of also can interosculating, those skilled in the art can select according to actual needs.
The electronic equipment that various variation patterns in the display packing in the previous embodiment and instantiation are equally applicable to present embodiment, by aforementioned detailed description to display packing, those skilled in the art can clearly know the implementation method of electronic equipment in the present embodiment, so succinct for instructions is not described in detail in this.
The display direction that shows object in one of them sub-viewing area that flexible display screen after one embodiment of the invention is determined to fold forms, for example by detecting the state of sub-viewing area, determine display direction according to state then, so that display direction adapts to the state of sub-viewing area, so show in the sub-viewing area after folding that object has suitable display direction, so strengthened display effect, improved user's experience.
Further, also the display direction that shows object in other the sub-viewing area is adjusted in one embodiment of the invention, so show in each the sub-viewing area after folding that object has suitable display direction, so further strengthened display effect, has improved user's experience.
Further again, in one embodiment of the invention, whether flexible display screen on have new sub-viewing area produce, produce in case detect new sub-viewing area if detecting in real time, just can determine to show in the new sub-viewing area display direction of object, so can guarantee display effect timely.
Further, in one embodiment of the invention, detect the position relation between user and the sub-viewing area, determine to show in the sub-viewing area display direction of object then according to the position relation, so can more humane, more adapt to the adjustment display direction of actual conditions.
Further, in one embodiment of the invention, at flexible display screen a plurality of sensors are set, each sensor can detect the residential quarter screen area on the flexible display screen, the data that detect according to sensor are determined the gravity direction of sub-viewing area then, determine then to show in the sub-viewing area that the display direction of object is consistent with gravity direction, so this mode is simple and practical, it is fast that speed is set, and can meet great majority and use scene.
Obviously, those skilled in the art can carry out various changes and modification to the present invention and not break away from the spirit and scope of the present invention.Like this, if of the present invention these are revised and modification belongs within the scope of claim of the present invention and equivalent technologies thereof, then the present invention also is intended to comprise these changes and modification interior.
Claims (16)
1. display packing, be applied to an electronic equipment, described electronic equipment has a flexible display screen, described flexible display screen has extended configuration and folded state, and when described flexible display screen was in described extended configuration, described flexible display screen had one first viewing area, when described flexible display screen is in described folded state, described first viewing area forms the first sub-viewing area and the second sub-viewing area at least by at least one fold line, it is characterized in that described method comprises:
When described flexible display screen is in described folded state, detect the state of the described first sub-viewing area;
Determine to show in the described first sub-viewing area display direction of object according to the state of the described first sub-viewing area.
2. the method for claim 1 is characterized in that, described method also comprises:
When described flexible display screen is in described folded state, detect the state of the described second sub-viewing area;
Determine to show in the described second sub-viewing area display direction of object according to the state of the described second sub-viewing area.
3. the method for claim 1 is characterized in that, the state of the described first sub-viewing area of described detection is specially: the positional information that detects the described relatively first sub-viewing area of user.
4. method as claimed in claim 3, it is characterized in that, described state according to the described first sub-viewing area determines to show in the described first sub-viewing area display direction of object, specifically comprises: the display direction of determining to show in the described first sub-viewing area object according to described positional information.
5. the method for claim 1 is characterized in that, described flexible display screen is provided with a plurality of sensors, and the state of the described first sub-viewing area of described detection specifically comprises:
Reception is positioned at the data of the sensor transmission of the described first sub-viewing area;
Determine the gravity direction of the described first sub-viewing area according to described data.
6. method as claimed in claim 5, it is characterized in that, described state according to the described first sub-viewing area determines to show in the described first sub-viewing area display direction of object, is specially: determine to show in the described first sub-viewing area that the display direction of object is consistent with described gravity direction.
7. the method for claim 1 is characterized in that, described method also comprises:
Whether in described first viewing area have new sub-viewing area produce, described new sub-viewing area is different from the described first sub-viewing area and the described second sub-viewing area if detecting;
If have new sub-viewing area to produce, then determine to show in the described new sub-viewing area display direction of object.
8. an electronic equipment is characterized in that, comprising:
Flexible display screen, have extended configuration and folded state, when described flexible display screen is in described extended configuration, described flexible display screen has one first viewing area, when described flexibility is flat when being in described folded state, described first viewing area forms the first sub-viewing area and the second sub-viewing area at least by at least one fold line;
First detecting unit is used for detecting the state of the described first sub-viewing area when described flexible display screen is in described folded state; And
Processing unit is determined in the described first sub-viewing area to show the display direction of object according to the state of the described first sub-viewing area.
9. electronic equipment as claimed in claim 8, it is characterized in that, described first detecting unit also is used for when described flexible display screen is in described folded state, detect the state of the described second sub-viewing area, and determine to show in the described second sub-viewing area display direction of object according to the state of the described second sub-viewing area.
10. electronic equipment as claimed in claim 8 is characterized in that, described first detecting unit is specifically for detection of the positional information of the described relatively first sub-viewing area of user.
11. electronic equipment as claimed in claim 10 is characterized in that, described processing unit specifically is used for determining according to described positional information the display direction of demonstration object in the described first sub-viewing area.
12. electronic equipment as claimed in claim 8 is characterized in that, described electronic equipment also comprises a plurality of sensors, is arranged on the described flexible display screen, for detection of the state of described flexible display screen.
13. electronic equipment as claimed in claim 12, it is characterized in that, described first detecting unit specifically is used for receiving the data of the sensor transmission that is positioned at the described first sub-viewing area, and is used for determining according to described data the gravity direction of the described first sub-viewing area.
14. electronic equipment as claimed in claim 13 is characterized in that, described processing unit specifically is used for determining to show in the described first sub-viewing area that the display direction of object is consistent with described gravity direction.
15. electronic equipment as claimed in claim 8, it is characterized in that, described electronic equipment also comprises second detecting unit, for detection of whether there being new sub-viewing area to produce in described first viewing area, described new sub-viewing area is different from the described first sub-viewing area and the described second sub-viewing area, if there is new sub-viewing area to produce, described processing unit then determines to show in the described new sub-viewing area display direction of object.
16. electronic equipment as claimed in claim 8 is characterized in that, the flexibility of described flexible display screen is along with the flexibility of described electronic equipment changes and changes.
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| Application Number | Priority Date | Filing Date | Title |
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| CN201210055789.1A CN103294369B (en) | 2012-03-05 | 2012-03-05 | A kind of display methods and electronic equipment |
| US13/769,624 US9851811B2 (en) | 2012-02-20 | 2013-02-18 | Electronic device and method for controlling the same |
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| CN201210055789.1A CN103294369B (en) | 2012-03-05 | 2012-03-05 | A kind of display methods and electronic equipment |
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| CN103294369A true CN103294369A (en) | 2013-09-11 |
| CN103294369B CN103294369B (en) | 2018-02-27 |
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| CN201210055789.1A Active CN103294369B (en) | 2012-02-20 | 2012-03-05 | A kind of display methods and electronic equipment |
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