CN103369068A - Display screen display method and electronic device - Google Patents

Abstract

The invention discloses a display screen display method and an electronic device. The method and device relate to the field of screen display and are invented to facilitate viewing of contents of the display screen for users and to improve use experience of the users. The method includes: acquiring space parameter values of the display screen; and adjusting the display of a target object in the display screen according to the space parameter values. The display screen display method and the electronic device are mainly used for control of the display of the display object.

Description

Method and electronic equipment that display screen shows

Technical field

The present invention relates to the screen display field, relate in particular to method and electronic equipment that a kind of display screen shows.

Background technology

Along with the progress of science and technology, the design of digital product is renovated day by day.Take mobile phone as example, except traditional bar phone, also having occurred can 180 ° of upset even the side flip mobile phone of 360 ° of upsets, and the mobile phone that has transparent display screen.The transparent display screen mobile phone shows the mobile phone content simultaneously at the tow sides of display screen, and the user can see the mobile phone content of demonstration at the tow sides of transparent display screen.These futuramic digital products greatly make things convenient for and have enriched people's life.

Side flip mobile phone displaying contents in the display screen upset keeps relative static with display screen, is not easy to the user after the display screen upset and checks.For the mobile phone that has transparent display screen, after 180 ° of display screen upsets, originally back to user's display screen one facing to the user, because displaying contents is relative static with the display screen maintenance, so the display screen upset can occur towards user's display screen one side, oppositely show the situation of mobile phone content.These situations all can check that displaying contents brings inconvenience to the user, reduce user's experience.

Summary of the invention

Method and electronic equipment that the embodiment of the invention provides a kind of display screen to show can be adjusted the angle and direction that display screen shows along with the upset of display screen, can make things convenient for the user to check screen content, improve user's experience.

On the one hand, the method that the embodiment of the invention provides a kind of display screen to show comprises:

Obtain the spatial parameter value of display screen;

Adjust the demonstration of destination object in the described display screen according to described spatial parameter value.

On the other hand, the embodiment of the invention provides a kind of electronic equipment, and described electronic equipment comprises:

The first noumenon;

Display unit, be arranged on the described the first noumenon, described display unit comprises the first viewing area and the second viewing area, described the first viewing area is positioned at the first side of described the first noumenon, described the second viewing area is positioned at the second side of described the first noumenon, and described the first side and described the second side are opposite both sides;

Detecting unit is for the spatial parameter value of obtaining described display unit;

Processing unit links to each other with described detecting unit, is used for adjusting according to the spatial parameter value that described detecting unit obtains the demonstration of described display unit destination object.

Method and electronic equipment that the display screen that the embodiment of the invention provides shows can obtain the spatial parameter value of electronic equipment, and show the angles of display of object according to this spatial parameter value adjustment, so that the user checks displaying contents.In addition, for transparent display screen formula electronic equipment, can also show that the direction of object is positive and negative according to the spatial parameter value adjustment, make the user behind turning display screen, can check displaying contents by forward, improve the user and experience.

Description of drawings

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

Fig. 1 is the flow chart of the method that display screen shows in the embodiment of the invention;

Fig. 2 is the schematic diagram that display screen shows in the embodiment of the invention;

Fig. 3 is the schematic diagram that display screen shows in the embodiment of the invention;

Fig. 4 is the schematic diagram that display screen shows in the embodiment of the invention;

Fig. 5 is the schematic diagram that display screen shows in the embodiment of the invention;

Fig. 6 is the schematic diagram that display screen shows in the embodiment of the invention;

Fig. 7 is the flow chart of the method that display screen shows in the another embodiment of the present invention;

Fig. 8 is the schematic diagram that display screen shows in the embodiment of the invention;

Fig. 9 is the schematic diagram that display screen shows in the embodiment of the invention;

Figure 10 is the schematic diagram that display screen shows in the embodiment of the invention;

Figure 11 is the schematic diagram that display screen shows in the embodiment of the invention;

Figure 12 is the schematic diagram that display screen shows in the embodiment of the invention;

Figure 13 is the schematic diagram that display screen shows in the embodiment of the invention;

Figure 14 is the schematic diagram that display screen shows in the embodiment of the invention;

Figure 15 is the schematic diagram that display screen shows in the embodiment of the invention;

Figure 16 is the structural representation of electronic equipment in the embodiment of the invention;

Figure 17 is the structural representation of electronic equipment in the embodiment of the invention;

Figure 18 is the structural representation of electronic equipment in the embodiment of the invention;

Figure 19 is the structural representation of electronic equipment in the embodiment of the invention.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the invention, the technical scheme in the embodiment of the invention is clearly and completely described, obviously, described embodiment only is the present invention's part embodiment, rather than whole embodiment.Based on the embodiment among the present invention, those of ordinary skills belong to the scope of protection of the invention not making the every other embodiment that obtains under the creative work prerequisite.

The embodiment of the invention based on flip-type electronic equipment be divided into equipment body and equipment lid, described equipment body and equipment lid are connected through the hinge and can overturn.Described equipment body comprises the function elements such as keyboard, battery, memory, communication system.Described equipment lid comprises the function elements such as display screen, microphone, receiver.Wherein said display screen comprises common display screen, double-display screen and transparent display screen.

The method that the embodiment of the invention provides a kind of display screen to show, as shown in Figure 1, described method comprises the steps:

101, obtain the spatial parameter value of display screen.

Described spatial parameter value can be the spatial parameter value of the relatively a certain preset reference system/thing of described display screen.

For the straight-plate-type electronic equipment, as shown in Figure 2, the display location of straight plate electronic equipment is on electronic equipment, and the spatial parameter value of obtaining display screen is the spatial parameter value of obtaining electronic equipment absolute presupposition referential.In Fig. 2, preset reference system can be perpendicular to the longitudinal axis (the follow-up standard axle that is called) on sea level.

The described spatial parameter value of obtaining electronic equipment absolute presupposition referential is specially: obtain electronic equipment with respect to the spatial parameter component of standard axle.

For flip-type electronic equipment, as shown in Figure 3, the first noumenon links to each other by hinge with the second body, and the display screen of flip-type electronic equipment is arranged on the first noumenon, and the spatial parameter value of obtaining display screen is the spatial parameter value of obtaining the first noumenon absolute presupposition reference substance.In Fig. 3, described preset reference thing is the second body.

Optionally, for flip-type electronic equipment, also can according to the mode of obtaining the display screen spatial parameter value for straight plate electronic equipment shown in Figure 2, obtain the spatial parameter value of display screen on the first noumenon, this implementation is identical with implementation shown in Figure 2, repeats no more herein.

102, adjust the demonstration of destination object in the display screen according to spatial parameter value.

According to the spatial parameter value of obtaining in the step 101, adjust the demonstration of destination object in the display screen according to default mapping relations.Described destination object is displaying contents, and the described demonstration of adjusting destination object in the display screen according to default mapping relations is for adjusting the angles of display of displaying contents according to default mapping relations.As an example of straight plate electronic equipment shown in Figure 2 example (flip-type electronic equipment shown in Figure 3 in like manner), as shown in Figure 4, adjust the angles of display of displaying contents for adjusting the angle of the relative display screen of displaying contents.Concrete, in Fig. 4 (a), the direction of font is towards the upper limb of display screen in the displaying contents, and behind the angles of display of adjusting displaying contents, shown in Fig. 4 (b), the direction of font is towards the right border of display screen in the described displaying contents.

Described default mapping relations are used for characterizing the corresponding relation of spatial parameter value and angles of display, described default mapping relations can be preset in the electronic equipment by equipment manufacturers, can carry out the secondary setting according to use habit by the user, the embodiment of the invention does not limit the corresponding relation that spatial parameter value and angles of display are set yet.

Especially, for transparent display screen formula electronic equipment, described demonstration according to destination object in the spatial parameter value adjustment display screen also comprises: the display direction of adjusting displaying contents according to spatial parameter value.Described transparent display screen refers to that two opposite sides respectively has a size and the identical display screen of characteristic on electronic equipment, these two display screens are except both forward and reverse directions, the position of electronic equipment is identical relatively, and two display screens light transmittance each other can reach the limit value that industry is generally acknowledged the transparent display screen light transmittance.Take bar phone as example, as shown in Figure 5, the first sub-display screen and the second sub-display screen are separately positioned on the tow sides of electronic equipment, and the identical and light transmittance each other of its size reaches the industry limit value.

Described display direction according to spatial parameter value adjustment displaying contents is: according to the spatial parameter value of obtaining in the step 101, adjust the display direction of displaying contents according to default mapping relations.Concrete, as shown in Figure 6, take straight plate electronic equipment as example.In Fig. 6 (a), the display direction of displaying contents is for showing (namely oppositely showing for the second sub-display screen) for the first sub-display screen forward, after adjusting the display direction of displaying contents according to spatial parameter value according to default mapping relations, shown in Fig. 6 (b), the display direction of displaying contents is changed to: displaying contents oppositely shows (namely showing for the second sub-display screen forward) for the first sub-display screen.

Described default mapping relations are used for characterizing the corresponding relation of spatial parameter value and display direction, described default mapping relations can be preset in the electronic equipment by equipment manufacturers, can carry out the secondary setting according to use habit by the user, the embodiment of the invention does not limit equally to the corresponding relation that spatial parameter value and display direction are set yet.

The implementation that destination object shows in the above-mentioned adjustment display screen describes as an example of straight plate electronic equipment example, for flip-type electronic equipment, adjusts the implementation that destination object shows in the display screen identical with above-mentioned implementation, repeats no more herein.

Need to prove, adjust the demonstration of destination object in the display screen according to spatial parameter value, do not change demonstration contents of object itself, show that the content of object is as the criterion with electronic equipment self data content storage or that obtain from the outside.

The method that the display screen that the embodiment of the invention provides shows can be obtained the spatial parameter value of electronic equipment, and shows the angles of display of object according to this spatial parameter value adjustment, makes displaying contents be convenient to the user and checks.In addition, for the electronic equipment of transparent display screen formula, can also show according to the spatial parameter value adjustment display direction of object, be convenient to user's forward behind turning display screen and check displaying contents, improve user's experience.

Further, the method that the embodiment of the invention also provides a kind of display screen to show, described method is further expanding method shown in Figure 1.As shown in Figure 7, described method comprises the steps:

701, obtain the space angle value of display screen.

Can obtain by being arranged on angular transducer on the electronic equipment space angle value of electronic equipment for straight plate electronic equipment shown in Figure 2.This space angle value is the angle difference of the current locus of electronic equipment and preset reference system.For example, as shown in Figure 8, the long side direction that straight plate electronic equipment is set is X-direction, and the direction perpendicular to the long limit of straight plate electronic equipment and broadside is Y direction simultaneously.When the current locus of electronic equipment as shown in Figure 8 the time, the X-axis of electronic equipment and the angle of standard axle are 0 °, and the angle of Y-axis and standard axle is 90 °.The described space angle value of obtaining display screen is the angle value of obtaining X-axis and standard axle and the angle value of Y-axis and standard axle.

The display screen of straight plate electronic equipment is arranged on the electronic equipment, and the space angle value of obtaining display screen is the space angle value of obtaining electronic equipment.Angular transducer can be arranged on the electronic equipment casing or within the electronic equipment.Angular transducer setting position of (or interior) on electronic equipment does not have difference for the effect of obtaining display screen space angle value in addition, can be arranged on the optional position, and the embodiment of the invention is not done restriction to its setting position.

For flip-type electronic equipment shown in Figure 3, the implementation of the described space angle value of obtaining display screen is identical with the implementation that straight plate electronic equipment obtains the space angle value, repeats no more herein.In addition, for flip-type electronic equipment, the setting position of angular transducer is in (or within) on the first noumenon, namely be arranged on the body that comprises display screen, the particular location of its setting does not have difference equally for the effect of obtaining display screen space angle value, can be arranged on the optional position of the first noumenon, the embodiment of the invention is not done restriction to its setting position.

In addition, can also obtain the triaxial pressure component value of display screen in default three-dimensional coordinate space by gravity sensor, obtain three shaft angle degree component values according to default force value and the mapping relations of angle value, thereby obtain the space angle value of display screen.

Further, for flip-type electronic equipment shown in Figure 3, the described space angle value of obtaining display screen also comprises: the space angle value of obtaining display screen absolute presupposition reference substance.Described preset reference thing is the second body, and angular transducer is arranged on the hinge that connects the first and second bodies.Described angular transducer obtains the angle difference between the first and second bodies by obtaining the first noumenon with respect to the number of turns of the second body rotation, obtains thus the space angle value.

Further, described angular transducer is divided into the first angular transducer and the second angular transducer, and the first angular transducer and the second angular transducer are separately positioned on the first and second bodies.As shown in Figure 9, the relative hinge of the setting position place longitudinal axis axial symmetry of the first angular transducer (a) and the second angular transducer (b).The first angular transducer obtains air line distance between first and second angular transducer, the i.e. distance of ab among Fig. 9 by responding to the second angular transducer.Then in conjunction with the vertical range of known a to the vertical range of the hinge place longitudinal axis and b to the hinge place longitudinal axis, calculate angle difference between described the first and second bodies by the cosine law.Concrete, in Fig. 9,2 of ab are at a distance of 34.6mm (millimeter), and 2 vertical ranges to the hinge place longitudinal axis of ab are 20mm.According to the cosine law (X^2=Y^2+Z^2-2YZcosA, wherein Y^2 and Z^2 be respectively 2 of ab to the vertical range of the hinge place longitudinal axis square, X^2 be the ab distance between two points square), the cosine value that can calculate angle between the first and second bodies (being angle A) is-0.5, and then the angle value that can obtain between the first and second bodies is 120 °.

Further, for display screen and electronic equipment body portion from electronic equipment, as shown in figure 10, display screen and electronic equipment embed respectively among the first housing and the second housing, use by wireless transmission method.The first angular transducer and the second angular transducer are arranged at respectively on the first and second housings, and setting position is identical with setting position shown in Figure 9, repeats no more herein.The first angular transducer and the second angular transducer obtain the angle difference between display screen and the electronic equipment by obtaining the angle difference between the first and second housings, and electronic equipment obtains this angle difference by the electronic contact that is arranged on the housing.Perhaps angular transducer is arranged on the hinge that connects first and second housing, obtains the angle difference between display screen and the electronic equipment.

Optionally, the first and second angular transducers shown in Fig. 9 or Figure 10 can also obtain respectively display screen and reference substance (the second body among Fig. 9 or the electronic equipment among Figure 10) with respect to the relative angle value of preset reference system, and two relative angle values are done difference, obtain between first and second body, perhaps the angle difference between display screen and the electronic equipment.

702, adjust the angles of display of destination object in the display screen according to the space angle value.

The angles of display of adjustment aim object is for the angles of display before adjusting, can the displaying contents font be set to initial angles of display value towards the direction of display screen upper limb, the angles of display of adjustment aim object is from initial angles of display value, carries out clockwise or counterclockwise the angle rotation.

For, straight plate electronic equipment shown in Figure 2, can be by the mapping relations of table 1, angle appearance to displaying contents is adjusted, wherein, dependent variable is the angle difference of display screen and referential, and in embodiments of the present invention, dependent variable is the angle of X-axis (axle at place, the long limit of electronic equipment) and standard axle.

Dependent variable	Angles of display (relatively initial angles of display)
		0°	0°
45°	45°
		90°	90°
135°	135°
		180°	180°
225°	225°
		270°	270°
315°	315°

360°

360°

Table 1

The effect that each dependent variable causes in the table 1 angles of display changes as shown in figure 11 (take dependent variable as 90 ° as example).Need to prove, the angular surveying direction of the dependent variable in the table 1 should with the adjustment opposite direction of angles of display.For example, if dependent variable is the (direction that identifies Figure 11 a), the angle value (be the direction b that Figure 11 identify) of angles of display for beginning to be rotated counterclockwise from initial angles of display then when standard axle turns to the angle changing value of X-axis clockwise.

In addition, for avoiding among Figure 12, although exist angle difference still not need to adjust the situation of angles of display between X-axis and the standard axle, can also add the angle value between Y-axis and the standard axle in the mapping relations rule, namely keep 90 ° when constant when the angle value between Y-axis and the standard axle, corresponding relation according to table 1 is adjusted angles of display, when the angle value between Y-axis and the standard axle is not 90 °, does not adjust angles of display.

For flip-type electronic equipment shown in Figure 3, can be according to the mapping relations shown in the table 2, angle appearance to displaying contents is adjusted, it should be noted that, dependent variable in the table 2 is the angle difference of display screen and reference substance, and in embodiments of the present invention, this dependent variable is first and second body, the perhaps angle difference between first and second housing, different from dependent variable in the table 1.

Dependent variable	Angles of display (relatively initial angles of display)
		0°	0°
45°	45°
		90°	90°
135°	135°
		180°	180°
225°	225°
		270°	270°
315°	315°
		360°	360°

Table 2

The effect that dependent variable causes in the table 2 angles of display changes as shown in figure 13 (take dependent variable as 90 ° as example).

Further, for flip-type electronic equipment shown in Figure 3, can also according to the angle (being the angle of X-axis and standard axle) of display screen and referential, adjust angles of display according to the mapping relations shown in the table 1.Specific implementation repeats no more with reference to the implementation of adjusting straight plate electronic equipment angles of display herein.

Further, according to table 1 or table 2 adjustment angles of display the time, can also preset the first residue threshold value, described first residue threshold value can be 5 °.When adjusting angles of display, when dependent variable greater than mapping relations in limit value during with first residue threshold value sum, just the angles of display adjustment displaying contents corresponding according to this limit value.For example angles of display keeps 45 ° (angles of display when dependent variable is 45 °) constant when dependent variable reaches 90 °, when dependent variable during greater than 95 °, just angles of display is adjusted to 90 ° by 45 °.

Adjust the employed mapping relations of angles of display of displaying contents in the embodiment of the invention, a kind of in the multiple available mapping relations is not limited to this in the practical application.In addition, in actual applications, can also be 10 °, 5 ° with the granularity refinement of mapping relations, perhaps can be according to the continuous variation of dependent variable, the continuous setup angles of display, the embodiment of the invention does not limit the granularity of mapping relations.

In an application scenarios of the embodiment of the invention, when display screen is transparent screen, can also adjust according to the space angle value display direction of display screen.For example shown in Figure 14, it is reference direction that the direction that standard axle makes progress with respect to the sea level is set.When electronic equipment is turned to Y-axis and is parallel to standard axle (as shown in figure 14), be set to forward towards the display direction of the first sub-display screen of reference direction and show (this moment dorsad the display direction of the second sub-display screen of reference direction for oppositely showing), when the user checked the first sub-display screen, displaying contents showed for forward for the user.Lie low for the user and to use the special circumstances of electronic equipment, can be set to towards the display direction of the first sub-display screen of reference direction reverse demonstration (this moment, the display direction of the second sub-display screen of reference direction was that forward shows dorsad), satisfy the different demands of different user with this.

Further, when the space angle value of obtaining when being the flip-type electronic equipment display screen with respect to the relative angle value of reference substance, the described display direction of adjusting display screen according to the space angle value also comprises: the display direction of adjusting display screen according to default mapping relations.Described mapping relations are used for characterizing the corresponding relation of relative angle value and display direction.As shown in table 3, wherein, dependent variable is the relative angle value, and display direction checks that take the user the first sub-display screen is as standard.Display effect as shown in figure 15 (take dependent variable as 135 ° as example).

Dependent variable

Display direction is (to check that the first sub-display screen is as mark

	Accurate)
		0°	Forward shows
90°	Oppositely show
		180°	Forward shows
270°	Oppositely show
		360°	Oppositely show

Table 3

Further, when adjusting display direction according to table 3, can also preset the second surplus threshold value, described first residue threshold value can be 10 °.When adjusting display direction, when dependent variable greater than mapping relations in limit value during with the second surplus threshold value sum, just the display direction adjustment displaying contents corresponding according to this limit value.For example when dependent variable reaches 90 °, still keep the first sub-display screen forward to show constant, when dependent variable during greater than 95 °, just be adjusted into the first sub-display screen and oppositely show.

The method that the display screen that the embodiment of the invention provides shows can be obtained the spatial parameter value of electronic equipment, and shows the angles of display of object according to this spatial parameter value adjustment, makes displaying contents be convenient to the user and checks.In addition, for the electronic equipment of transparent display screen formula, can also show according to the spatial parameter value adjustment display direction of object, be convenient to user's forward behind turning display screen and check displaying contents, improve user's experience.

With reference to the realization of embodiment of the method shown in Figure 7, the embodiment of the invention provides a kind of electronic equipment, as shown in figure 16, in order to realize embodiment of the method shown in Figure 7, described electronic equipment comprises: the first noumenon 1601 display units 1602, detecting unit 1603 and processing unit 1604, wherein

Described display unit 1602, be arranged on the described the first noumenon 1601, described display unit 1602 comprises: the first viewing area 16021 and the second viewing area 16022, described the first viewing area 16021 is positioned at the first side of described the first noumenon 1601, described the second viewing area 16022 is positioned at the second side of described the first noumenon 160, and described the first side and described the second side are opposite both sides.

Described detecting unit 1603 is for the space angle value of obtaining described display unit 1602.

For straight plate electronic equipment, can obtain by being arranged on detecting unit 1603 on the electronic equipment space angle value of electronic equipment.This space angle value is the angle difference of the current locus of electronic equipment and preset reference system.For example, the long side direction that straight plate electronic equipment is set is X-direction, and the direction perpendicular to the long limit of straight plate electronic equipment and broadside is Y direction simultaneously.The described space angle value of obtaining described display unit 1602 is the angle value of obtaining X-axis and standard axle and the angle value of Y-axis and standard axle.

In addition, described detecting unit 1603 can also obtain the triaxial pressure component value of described display unit 1602 in default three-dimensional coordinate space by gravity sensing, obtain three shaft angle degree component values according to default force value and the mapping relations of angle value, thereby obtain the space angle value of described display unit 1602.

Described processing unit 1604 links to each other with described detecting unit 1603 and is used for adjusting according to the space angle value that described detecting unit 1603 obtains the demonstration of described display unit 1602 destination objects.

Further, the light transmittance of described the second viewing area 16022 and the satisfied default light transmittance threshold value of light transmittance that described the first viewing area 16021 is arrived in described the second viewing area 16022 are arrived in described the first viewing area 16021.Described default light transmittance threshold value can be 60% to 80%.

Further, as shown in figure 17, described detecting unit 1603 is arranged on the described the first noumenon 1601, is used for obtaining the space angle value of described the first noumenon 1601 and preset reference system.

In straight plate electronic equipment, described display unit 1602 is arranged on the electronic equipment, and the space angle value of obtaining described display unit 1602 is the space angle value of obtaining electronic equipment.Described detecting unit 1603 can be arranged on the electronic equipment casing or within the electronic equipment.Described detecting unit 1603 setting position of (or interior) on electronic equipment does not have difference for the effect of obtaining described display unit 1602 space angle values in addition, can be arranged on the optional position, and the embodiment of the invention is not done restriction to its setting position.

Further, as shown in figure 18, described electronic equipment also comprises:

The second body 1801, described the first noumenon 1601 links to each other by hinge 1802 with described the second body 1801.

Further, described detecting unit 1603 is arranged on the described hinge 1802, is used for obtaining the space angle value of described the first noumenon 1601 and described the second body 1801.

Further, to flip-type electronic equipment, described detecting unit 1603 also is used for obtaining the space angle value of described display unit 1602 absolute presupposition reference substances.Described preset reference thing is described the second body 1801, and described detecting unit 1603 is arranged on the hinge 1802 that connects the first and second bodies.Described detecting unit 1603 obtains the angle difference between described the first noumenon 1601 and described the second body 1602 by obtaining described the first noumenon 1601 with respect to the number of turns of described the second body 1801 rotations, obtains thus the space angle value.

Further, described detecting unit 1603 is arranged on the described the first noumenon 1601, is used for obtaining the space angle value of described the first noumenon 1601 and described the second body 1801.

Further, as shown in figure 19, described detecting unit 1601 comprises the first detection sub-unit 1901 and the second detection sub-unit 1902, wherein,

Described the first detection sub-unit 1901 and described the second detection sub-unit 1902 lay respectively on described the first noumenon 1601 and described the second body 1801, and described the first detection sub-unit 1901 is symmetrical with described the second detection sub-unit 1902 relative described hinge 1802 place axis shaft.

Further, the described detecting unit 1601 concrete distances that are used for obtaining described the first detection sub-unit 1901 and described the second detection sub-unit 1902, be clipped to the distance of described hinge 1802 place axis according to this distance and described the first detection sub-unit 1901 and described the second detection sub-unit in 1902 minutes, obtain the space angle value of described the first noumenon 1601 and described the second body 1801.

Described the first detection sub-unit 1901 is obtained air line distance between described the first detection sub-unit 1901 and described the second detection sub-unit 1902 by responding to described the second detection sub-unit 1902, then in conjunction with the vertical range of known described the first detection sub-unit 1901 to the vertical range of the described hinge 1802 place longitudinal axis and described the second detection sub-unit 1902 to the described hinge 1802 place longitudinal axis, calculate angle difference between described the first noumenon 1601 and described the second body 1801 by the cosine law.

Further, described the first detection sub-unit 1901 is used for obtaining the first sub-space angle value of described the first noumenon 1601 and preset reference system.

Described the second detection sub-unit 1902 is used for obtaining the second sub-space angle value of described the second body 1801 and preset reference system.

Described detecting unit 1603 is used for according to the described first sub-space angle value and the described second sub-space angle value, obtains the space angle value of described the first noumenon 1601 and described the second body 1801.

Described the first detection sub-unit 1901 and described the second detection sub-unit 1902 can also be obtained respectively described display unit 1602 and referential matter for the relative angle value of preset reference system.1603 pairs of two relative angle values of described detecting unit are done difference, obtain the angle difference between described the first noumenon 1601 and described the second body 1801.

Further, described processing unit 1604 specifically is used for according to described space angle value and default mapping relations, adjusts the angles of display of destination object in the described display unit 1602.

The angles of display of adjustment aim object is for the angles of display before adjusting, can the displaying contents font be set to initial angles of display value towards the direction of described display unit 1602 upper limbs, the angles of display of adjustment aim object is from initial angles of display value, carries out clockwise or counterclockwise the angle rotation.

For straight plate electronic equipment, can be by the mapping relations of table 1, angle appearance to displaying contents is adjusted, wherein, dependent variable is the angle difference of described display unit 1602 and referential, in embodiments of the present invention, dependent variable is the angle of X-axis (axle at place, the long limit of electronic equipment) and standard axle.

Need to prove, the angular surveying direction of the dependent variable in the table 1 should with the adjustment opposite direction of angles of display.For example, if dependent variable is that then angles of display is the angle value that begins to be rotated counterclockwise from initial angles of display when turning to clockwise the angle changing value of X-axis from standard axle.

For flip-type electronic equipment, can be according to the mapping relations shown in the table 2, angle appearance to displaying contents is adjusted, it should be noted that, dependent variable in the table 2 is the angle difference of described display unit 1602 and reference substance, in embodiments of the present invention, this dependent variable is the angle difference between described the first noumenon 1601 and described the second body 1801, and is different from dependent variable in the table 1.

Further, described processing unit 1604 also be used for when described space angle value greater than described mapping relations limit value during with the first residue threshold value sum preset, according to described space angle value and described mapping relations, adjust the angles of display of destination object in the described display unit 1602.

Described first residue threshold value can be 5 °.When adjusting angles of display, when dependent variable greater than mapping relations in limit value during with first residue threshold value sum, described display unit 1602 is the angles of display adjustment displaying contents corresponding according to this limit value.For example angles of display keeps 45 ° (angles of display when dependent variable is 45 °) constant when dependent variable reaches 90 °, when dependent variable during greater than 95 °, just angles of display is adjusted to 90 ° by 45 °.

Further, described processing unit 1604 also is used for according to described space angle value and default mapping relations, adjusts the display direction of destination object in described the first viewing area 16021 and described the second viewing area 16022.

Described processing unit 1604 can also be adjusted according to the space angle value display direction of display screen.When described detecting unit 1603 was described terrain body 1601 with respect to the relative angle value of described the second body 1801 when the space angle value of obtaining, described processing unit 1604 can be adjusted according to default mapping relations the display direction of described display unit 1602.Described mapping relations are used for characterizing the corresponding relation of relative angle value and display direction.As shown in table 3, wherein, dependent variable is the relative angle value, and display direction checks that take the user described the first viewing area 16021 is as standard.

It is reference direction that the direction that standard axle makes progress with respect to the sea level can be set in addition.When electronic equipment is turned to Y-axis and is parallel to standard axle, described processing unit 1604 can also be set to towards the display direction of described first viewing area 16021 of reference direction forward and show (this moment dorsad the display direction of described second viewing area 16022 of reference direction for oppositely showing), when the user checked described the first viewing area 16021, displaying contents showed for forward for the user.Lie low for the user and to use the special circumstances of electronic equipment, can be set to towards the display direction of described first viewing area 16021 of reference direction reverse demonstration (this moment, the display direction of described second viewing area 16022 of reference direction was that forward shows dorsad), satisfy the different demands of different user with this.

Described processing unit 1604 also is used for, when described space angle value greater than described mapping relations in limit value during with default the second surplus threshold value sum, according to described space angle value and described mapping relations, adjust the display direction of destination object in described the first viewing area 16021 and described the second viewing area 16022.

Further, when adjusting display direction according to table 3, can also preset the second surplus threshold value, described first residue threshold value can be 10 °.When adjusting display direction, when dependent variable greater than mapping relations in limit value during with the second surplus threshold value sum, described processing unit 1604 is the display direction adjustment displaying contents corresponding according to this limit value.For example when dependent variable reaches 90 °, still keep described the first viewing area 16021 forwards to show constant, when dependent variable during greater than 95 °, just be adjusted into described the first viewing area 16021 and oppositely show.

Adjust the employed mapping relations of angles of display of displaying contents in the embodiment of the invention, a kind of in the multiple available mapping relations is not limited to this in the practical application.In addition, in actual applications, can also be 10 °, 5 ° with the granularity refinement of mapping relations, perhaps can be according to the continuous variation of dependent variable, continuous setup angles of display and/or display direction, the embodiment of the invention does not limit the granularity of mapping relations.

The embodiment of the invention describes as spatial parameter value with the space angle value, spatial parameter value described in the practical application also includes but are not limited to space gravity value, and the present invention shows that to can be used as the spatial parameter value adjustment parameter of object display effect does not limit.

The electronic equipment that the embodiment of the invention provides can obtain spatial parameter value, and shows the angles of display of object according to this spatial parameter value adjustment, makes displaying contents be convenient to the user and checks.In addition, for the electronic equipment of transparent display screen formula, can also show according to the spatial parameter value adjustment display direction of object, be convenient to user's forward behind turning display screen and check displaying contents, improve user's experience.

Electronic equipment described in the embodiment of the invention includes but are not limited to straight plate, slip lid, renovates (comprising side flip) formula mobile phone, panel computer.Have the strong electronic equipment of Presentation Function and mobility and all should be contained in the electronic equipment category described in the embodiment of the invention.

Through the above description of the embodiments, the those skilled in the art can be well understood to the present invention and can realize by the mode that software adds essential common hardware, can certainly pass through hardware, but the former is better execution mode in a lot of situation.Based on such understanding, the part that technical scheme of the present invention contributes to prior art in essence in other words can embody with the form of software product, this computer software product is stored in the storage medium that can read, floppy disk such as computer, hard disk or CD etc., comprise some instructions with so that computer equipment (can be personal computer, server, the perhaps network equipment etc.) carry out the described method of each embodiment of the present invention.

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

Claims (23)

1. an electronic equipment is characterized in that, comprising:

The first noumenon;

Display unit, be arranged on the described the first noumenon, described display unit comprises the first viewing area and the second viewing area, described the first viewing area is positioned at the first side of described the first noumenon, described the second viewing area is positioned at the second side of described the first noumenon, and described the first side and described the second side are opposite both sides;

Detecting unit is for the spatial parameter value of obtaining described display unit;

Processing unit links to each other with described detecting unit, is used for adjusting according to the spatial parameter value that described detecting unit obtains the demonstration of described display unit destination object.

2. electronic equipment according to claim 1 is characterized in that, the light transmittance that described the first viewing area is arrived to light transmittance and described second viewing area of described the second viewing area in described the first viewing area satisfies default light transmittance threshold value.

3. electronic equipment according to claim 1 and 2 is characterized in that, described detecting unit is arranged on the described the first noumenon, is used for obtaining the space parameter value of described the first noumenon and preset reference system.

4. electronic equipment according to claim 1 and 2 is characterized in that, described electronic equipment also comprises:

The second body, described the first noumenon links to each other by hinge with described the second body.

5. electronic equipment according to claim 4 is characterized in that, described detecting unit is arranged on the described hinge, is used for obtaining the space parameter value of described the first noumenon and described the second body.

6. described electronic equipment according to claim 4 is characterized in that, described detecting unit is arranged on the described the first noumenon, is used for obtaining the space parameter value of described the first noumenon and described the second body.

7. electronic equipment according to claim 4 is characterized in that, described detecting unit comprises the first detection sub-unit and the second detection sub-unit, wherein,

Described the first detection sub-unit and described the second detection sub-unit lay respectively on described the first noumenon and described the second body, and described the first detection sub-unit is symmetrical with the relative described hinge of described the second detection sub-unit place axis shaft.

8. electronic equipment according to claim 7 is characterized in that, described detecting unit specifically is used for obtaining the distance of described the first detection sub-unit and described the second detection sub-unit;

Divide the distance that is clipped to described hinge place axis according to described distance and described the first detection sub-unit and described the second detection sub-unit, obtain the space parameter value of described the first noumenon and described the second body.

9. electronic equipment according to claim 7 is characterized in that, described the first detection sub-unit is used for obtaining the first sub-space parameter value of described the first noumenon and preset reference system;

Described the second detection sub-unit is used for obtaining the second sub-space parameter value of described the second body and preset reference system;

Described detecting unit is used for according to the described first sub-space parameter value and the described second sub-space parameter value, obtains the space parameter value of described the first noumenon and described the second body.

10. electronic equipment according to claim 1 and 2 is characterized in that, described processing unit specifically is used for according to described spatial parameter value and default mapping relations, adjusts the angles of display of destination object in the described display unit.

11. electronic equipment according to claim 10, it is characterized in that, described processing unit also is used for, when described spatial parameter value greater than described mapping relations in limit value during with default first residue threshold value sum, according to described spatial parameter value and described mapping relations, adjust the angles of display of destination object in the described display unit.

12. electronic equipment according to claim 2 is characterized in that, described processing unit also is used for according to described spatial parameter value and default mapping relations, adjusts the display direction of destination object in described the first viewing area and described the second viewing area.

13. electronic equipment according to claim 12, it is characterized in that, described processing unit also is used for, when described spatial parameter value greater than described mapping relations in limit value during with default the second surplus threshold value sum, according to described spatial parameter value and described mapping relations, adjust the display direction of destination object in described the first viewing area and described the second viewing area.

14. the electronic equipment on described according to claim 1 is characterized in that described spatial parameter value is the space angle value.

15. the method that display screen shows is characterized in that, comprising:

Obtain the spatial parameter value of display screen;

Adjust the demonstration of destination object in the described display screen according to described spatial parameter value.

16. method according to claim 15 is characterized in that, the described spatial parameter value of obtaining display screen comprises:

Obtain the space parameter value of described display screen and preset reference system; Perhaps,

Obtain the space parameter value of described display screen and preset reference thing.

17. method according to claim 16 is characterized in that, obtains the space parameter value of described display screen and preset reference thing, comprising:

Obtain the distance of described display screen and described preset reference thing, according to this distance and two predeterminable ranges, obtain the space parameter value of described display screen and described preset reference thing.

18. method according to claim 16 is characterized in that, obtains the space parameter value of described display screen and preset reference thing, comprising:

Obtain the first sub-space parameter value of described display screen and described preset reference system;

Obtain the second sub-space parameter value of described preset reference thing and described preset reference system;

According to the described first sub-space parameter value and the described second sub-space parameter value, obtain the space parameter value of described display screen and described preset reference thing.

19. method according to claim 15 is characterized in that, the described demonstration of adjusting destination object in the described display screen according to described spatial parameter value comprises:

According to described spatial parameter value and default mapping relations, adjust the angles of display of destination object in the described display screen.

20. method according to claim 19, it is characterized in that, described according to described spatial parameter value and default mapping relations, adjust the angles of display of destination object in the described display screen, comprise: when described spatial parameter value greater than described mapping relations in limit value during with default first residue threshold value sum, according to described spatial parameter value and described mapping relations, adjust the angles of display of destination object in the described display screen.

21. method according to claim 15 is characterized in that, the described demonstration of adjusting destination object in the described display screen according to described spatial parameter value comprises:

According to described spatial parameter value and default mapping relations, adjust the display direction of destination object in the described display screen.

22. method according to claim 21 is characterized in that, and is described according to described spatial parameter value and default mapping relations, adjusts the display direction of destination object in the described display screen, comprising:

When described spatial parameter value greater than described mapping relations in limit value during with default the second surplus threshold value sum, according to described spatial parameter value and described mapping relations, adjust the display direction of destination object in the described display screen.

23. method according to claim 15 is characterized in that, described spatial parameter value is the space angle value.

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