CN105785749A

CN105785749A - Display method and electronic device

Info

Publication number: CN105785749A
Application number: CN201410822530.4A
Authority: CN
Inventors: 张宇
Original assignee: Lenovo Beijing Ltd
Current assignee: Lenovo Beijing Ltd
Priority date: 2014-12-24
Filing date: 2014-12-24
Publication date: 2016-07-20
Anticipated expiration: 2034-12-24
Also published as: CN105785749B

Abstract

The invention discloses a display method and an electronic device. The display method is characterized in that control information used for display of a first image can be generated; a response to the control information is provided, and under the control of the control information, a display module group is used to display and output the first image; during the responding to the control information, which is used to control the display and the output of the first image by the display module group, the working mode of the display module group can be determined, and the first image can be displayed and output based on the working mode determined by the display module group; when the display module group is in the first display mode, the first display area of the display assembly can be used to display the first image; when the display module group is in the second display mode, the second display area of the display assembly can be used to display the first image; and the second display area is greater than the first display area, and in addition, the second display area includes the first display area.

Description

A kind of display packing and electronic equipment

Technical field

The present invention relates to the information processing technology, be specifically related to a kind of display packing and electronic equipment.

Background technology

Present Intelligent wearable electronic equipment such as intelligent watch or intelligent glasses etc. can show that more more fully information is to meet user's demand to intelligent electronic device.But, above-mentioned Intelligent wearable electronic equipment needs just to make user observe complete display picture within the scope of certain viewing distance, once viewing distance is farther out, then user can only observe part display picture.

Summary of the invention

For solving the technical problem of existing existence, the embodiment of the present invention provides a kind of display packing and electronic equipment, it is possible to be automatically adjusted the size of display image.

For reaching above-mentioned purpose, the technical scheme of the embodiment of the present invention is achieved in that

Embodiments provide a kind of display packing, it is applied in electronic equipment, described electronic equipment includes body apparatus, fixing device, display module and processing unit, described processing unit is arranged in described body apparatus or described fixing device, and described processing unit is used for generating the first image and performing display controlling；Described fixing device is connected with described body apparatus, and described fixing device is for the relative position relation of the fixing beholder with described electronic equipment；Described display module is arranged on described body apparatus and/or described fixing device, is used for exporting described first image, and wherein said display module includes display module and light conducting subassembly, and described display module is used for showing described first image；Described smooth conducting subassembly is for carrying out light path converting by first light beam corresponding with described first image sent from described display module, to form the second light beam of the amplification virtual image corresponding to described first image；Described display packing includes:

Generate the control information of the first image for showing and respond described control information, controlling described display module displays and export described first image；

Described response described control information control described display module displays export described first image time, it is determined that the mode of operation of described display module and export described first image based on the display of described display module determined mode of operation；

Wherein, when described display module is in the first display pattern, control to show described first image in the first viewing area of described display module；

When described display module is in the second display pattern, controlling to show described first image in the second viewing area of described display module, described second viewing area is more than described first viewing area, and described second viewing area includes described first viewing area.

The embodiment of the present invention additionally provides a kind of electronic equipment, and described electronic equipment includes: processing unit, display module and pattern determining unit；Wherein,

Described processing unit, for generating the control information for the first image shown；And respond described control information, control described display module displays and export described first image；When described response described control information controls described display module displays described first image of output, the display module determined mode of operation display determined based on described pattern determining unit exports described first image；Wherein, when described display module is in the first display pattern, control to show described first image in the first viewing area of described display module；When described display module is in the second display pattern, controlling to show described first image in the second viewing area of described display module, described second viewing area is more than described first viewing area, and described second viewing area includes described first viewing area；

Described pattern determining unit, for when described processing unit responds described control information control described display module displays described first image of output, it is determined that the mode of operation of described display module；

Described display module, is used for showing described first image；First light corresponding with described first image is carried out light path converting, second light that amplifies the virtual image corresponding to form described first image.

The display packing of embodiment of the present invention offer and electronic equipment, by showing that the mode of operation of module adjusts the size of the viewing area of the first image, and then the size of perception picture that the observer that can automatically adjust described electronic equipment perceives, when achieving observer without regulating viewing distance, it is automatically adjusted the size of perception picture, guarantee that observer is able to observe that complete display content, be greatly improved the experience of user.Further, by showing that module displays can carry more, more fully details；So, the electronic equipment that the embodiment of the present invention provides can not be subject to the restriction of size own, it is provided that more the information of large scale and higher resolution shows.

Accompanying drawing explanation

Fig. 1 is the schematic flow sheet of the display packing of the embodiment of the present invention one；

Fig. 2 is a kind of schematic diagram of the electronic equipment in the embodiment of the present invention；

Fig. 3 a and Fig. 3 c is the composition structural representation of the display module in the embodiment of the present invention；

Fig. 4 a and Fig. 4 b is the schematic diagram of the viewing area of the display module in the embodiment of the present invention；

Fig. 5 is the schematic flow sheet of the display packing of the embodiment of the present invention two；

Fig. 6 a and Fig. 6 b is the schematic diagram of the display pattern in the embodiment of the present invention two；

Fig. 7 a and Fig. 7 b is the display schematic diagram of the first interactive mode in the embodiment of the present invention two；

Fig. 8 a and Fig. 8 b is the display schematic diagram of the second interactive mode in the embodiment of the present invention two；

Fig. 9 is the schematic flow sheet of the display packing of the embodiment of the present invention three；

Figure 10 is the composition structural representation of the electronic equipment of the embodiment of the present invention four；

Figure 11 is the composition structural representation of the electronic equipment of the embodiment of the present invention five；

Figure 12 is the composition structural representation of the electronic equipment of the embodiment of the present invention six.

Detailed description of the invention

Below in conjunction with drawings and the specific embodiments, the present invention is further detailed explanation.

Embodiment one

Embodiments providing a kind of display packing, described display packing is applied in electronic equipment.Fig. 1 is the schematic flow sheet of the display packing of the embodiment of the present invention one；As it is shown in figure 1, described method includes:

Step 101: generate the control information for the first image shown, and respond described control information, controls display module displays and exports described first image.

The electronic equipment of the display packing application of the present embodiment can be the electronic equipment of Wearable, and as a kind of preferred embodiment, described electronic equipment can be intelligent watch.Fig. 2 is a kind of schematic diagram of the electronic equipment in the embodiment of the present invention；As shown in Figure 2, described electronic equipment includes body apparatus 21, fixing device, display module 24 and processing unit, described processing unit is arranged in described body apparatus 21 or described fixing device, and described processing unit is used for generating the first image and performing display controlling；Described fixing device is connected with described body apparatus 21, and described fixing device is for the relative position relation of the fixing beholder with described electronic equipment；Described display module 24 is arranged on described body apparatus 21 and/or described fixing device, is used for exporting described first image, and wherein said display module 21 includes display module and light conducting subassembly, and described display module is used for showing described first image；Described smooth conducting subassembly is for carrying out light path converting by first light beam corresponding with described first image sent from described display module, to form the second light beam of the amplification virtual image corresponding to described first image；

Concrete, Fig. 3 a and Fig. 3 c is the composition structural representation of the display module in the embodiment of the present invention；Described display module in the embodiment of the present invention is optical projection system, as shown in Figure 3 a, described display module 24 includes Part I 13 and Part II, the Part I 13 of wherein said display module is light conducting subassembly, and the Part II of described display module includes display module 15 and collimator assembly 14；Wherein:

Described display module 15, is used for showing output the second content to be displayed, projects the first light beam in light beam mode and export to collimator assembly 14；Described collimator assembly 14, for being processed by described first light beam projecting output in described light beam mode, converts described second light beam to and exports to light conducting subassembly 13；Described smooth conducting subassembly 13 is also called light path converting assembly, described smooth conducting subassembly is made up of transparent material, described smooth conducting subassembly 13, for being undertaken described second light beam conducting in the material constituting described smooth conducting subassembly, wherein said smooth conducting subassembly includes reflector element, described reflector element is arranged on the described specific region beyond part, and described reflector element, for changing described second light beam conduction orientation in described transparent material, projects with second direction；Described smooth conducting subassembly is provided with the described specific region is described display module second display output area of described reflector element.

The electronic equipment of Fig. 3 b and Fig. 3 c respectively embodiment of the present invention shows the composition structural representation of module；As shown in Fig. 3 b and Fig. 3 c, described display module 15 in described display module 24 includes beam splitting unit 151 and display unit 152, described collimator assembly 14 includes the second collimation unit 141 and the first collimation unit 142 and polarization beam-splitting unit 143, and described smooth conducting subassembly 13 includes Wave guide unit 131 and reflector element 132.Wherein the display module 15 in Fig. 3 c also includes luminescence unit 150.Described first light beam projecting output in described light beam mode is processed by described collimator assembly 15, converts described second light beam to and exports to light conducting subassembly.

Specifically, described collimator assembly 15 includes the first collimation unit 142 and the second collimation unit 141 positioned opposite, and it is arranged in the polarization beam-splitting unit 143 between described first collimation unit 142 and the second collimation unit 141, described first light beam from the output of described display module 15 begins to be reflected towards described first collimation unit 142 via described polarization beam-splitting unit 143, after then collimating via described first collimation unit 142 and the second collimation unit 141 through by described polarization beam-splitting unit 143 as described second beam exit.

Here, described first collimation unit 142 and the second collimation unit 141 can be the single lens or battery of lens that design as required.

Described smooth conducting subassembly 13, for being undertaken described second light beam conducting in the material constituting described smooth conducting subassembly 13, finally exports to observer；Described smooth conducting subassembly 13 includes Wave guide unit 131 and reflector element 132, can be controlled from described second light beam by the position and angle arranging reflector element 132, and described ad-hoc location outgoing of leading.In the first case, described collimator assembly 14 and described display module 15 are in the first side relative to plane residing for described Wave guide unit 131, when arranging the reflector element 132 as shown in Fig. 3 b and Fig. 3 c, can to second side outgoing of plane residing for described Wave guide unit 131 with described second light beam, described first side and the second side are the opposition sides relative to plane residing for described Wave guide unit 131.

Specifically, when described display module is such as applied to intelligent watch, above-mentioned configuration example can be adopted so that with described second light beam to described second side outgoing, namely make described second light beam to the eye outgoing of the user wearing and watching wrist carried electronic equipment.Further describe ground, it is possible to need to configure the exit direction of described display module according to viewing, for instance the rotation of described reflector element 132 can be controlled, in order to control described reflector element 132 exit direction, it is achieved the switching of the bi-directional display of described display module.In the embodiment of the present invention, described reflector element 132 can be the single prism or prism group that design as required.

In the embodiment of the present invention, described display module 24 has display output area, and described display output area is that described reflector element 132 is arranged on beyond the specific region in part.In general, observer (user) sees that the physical size of reflector element 132 is greater than being equal to the size of described display output area, and the display unit 152 in described display module 24 is smaller in size than the size of described display output area.It should be noted that accompanying drawing is intended merely to the technical scheme helping skilled in the art to understand the application, it it is not the electronic equipment state in use that provides of the embodiment of the present invention；Such as this electronic equipment is in fixed support body when using, and when described supporter is wrist, user lifts arm and is placed at the moment by described electronic equipment, it is seen then that user watches, with positive angle, the information that this electronic equipment provides.

In the present embodiment, described electronic equipment generates described control information, described control information is used for showing described first image, composition structure and displaying principle based on above-mentioned display module, in embodiments of the present invention, described control information sends first light beam corresponding with described first image for controlling described display module 15；Namely control the display unit 152 in described display module 15 and send first light beam corresponding with described first image.

Step 102: described response described control information control described display module displays export described first image time, it is determined that the mode of operation of described display module and export described first image based on the display of described display module determined mode of operation.

When described display module is in the second display pattern, control to show described first image in the second viewing area of described display module；Described second viewing area is more than described first viewing area, and described second viewing area includes described first viewing area.

In the present embodiment, described based on described display module determined mode of operation display export described first image be specially based on shown in Fig. 3 b or Fig. 3 c display module, first light beam corresponding with described first image sent from described display module is carried out light path converting with formed described first image corresponding amplify the virtual image the second light beam, thus export described first image.

Concrete, for the display module shown in Fig. 3 b or Fig. 3 c, described display module 24 controls to show described first image in the first viewing area of described display module 15, or control to show described first image in the second viewing area of described display module 15, namely the first viewing area of described display module 24 display unit 152 that controls described display module 15 shows described first image, or control to show described first image in the second viewing area of the display unit 152 of described display module 15；In the present embodiment, described display unit 152 is the physical device that can project output first light beam corresponding with described first image, described display unit 152 has a viewing area, and described display unit 152 can control the size of described viewing area based on the mode of operation residing for described display module；Preferably, described viewing area is in the central area of described display unit 152, and namely the central point of described viewing area overlaps with the central point of described display unit 152.Namely, in the present embodiment, when described display module 24 is in the first display pattern, controls to show in the first viewing area of described display module 15 described first image, namely control to show described first image in the first viewing area of described display unit 152；When described display module 24 is in the second display pattern, controls to show in the second viewing area of described display module 15 described first image, namely control to show described first image in the second viewing area of described display unit 152；Described second viewing area is more than described first viewing area, and described second viewing area includes described first viewing area.

Fig. 4 a is the schematic diagram of the first viewing area of the display module in the embodiment of the present invention；Fig. 4 b is the schematic diagram of the second viewing area of the display module in the embodiment of the present invention；As shown in figures 4 a and 4b, when described display module 24 is in the first display pattern, described first viewing area is less than whole viewing areas of described display unit 152；When described display module 24 is in the second display pattern, described second viewing area is less than or equal to whole viewing areas of described display unit 152 (described second viewing area shown in Fig. 4 b is less than whole viewing areas of described display unit 152)；In the present embodiment, described first viewing area and described second viewing area are in the central area of described display unit 152, namely the central point of described first viewing area and described second viewing area overlaps with the central point of described display unit 152, therefore, described second viewing area includes described first viewing area.

Adopt the technical scheme of the embodiment of the present invention, by showing that the mode of operation of module adjusts the size of the viewing area of the first image, and then the size of perception picture that the observer that can automatically adjust described electronic equipment perceives, when achieving observer without regulating viewing distance, it is automatically adjusted the size of perception picture, guarantee that observer is able to observe that complete display content, be greatly improved the experience of user.Further, by showing that module displays can carry more, more fully details；So, the electronic equipment that the embodiment of the present invention provides can not be subject to the restriction of size own, it is provided that more the information of large scale and higher resolution shows.

Embodiment two

Based on the display packing described in embodiment one, the embodiment of the present invention additionally provides a kind of display packing, described display packing is applied in electronic equipment, the display module of described electronic equipment includes viewing area, and described viewing area is used for the virtual image that the observer of described electronic equipment by the first image described in the perception of described viewing area is.Fig. 5 is the schematic flow sheet of the display packing of the embodiment of the present invention two；As it is shown in figure 5, described display packing includes:

Step 501: generate the control information of the first image for showing and respond described control information, controls described display module displays and exports described first image.

The electronic equipment of the display packing application of the present embodiment can be the electronic equipment of Wearable, and as a kind of preferred embodiment, described electronic equipment can be intelligent watch.As shown in Figure 2, described electronic equipment includes body apparatus 21, fixing device, display module 24 and processing unit, described processing unit is arranged in described body apparatus 21 or described fixing device, and described processing unit is used for generating the first image and performing display controlling；Described fixing device is connected with described body apparatus 21, and described fixing device is for the relative position relation of the fixing beholder with described electronic equipment；Described display module 24 is arranged on described body apparatus 21 and/or described fixing device, is used for exporting described first image, and wherein said display module 21 includes display module and light conducting subassembly, and described display module is used for showing described first image；Described smooth conducting subassembly is for carrying out light path converting by first light beam corresponding with described first image sent from described display module, to form the second light beam of the amplification virtual image corresponding to described first image；When the intelligent watch that described electronic equipment is shown in Fig. 2, viewing area described in the present embodiment can be the viewing area 20 of described intelligent watch dial plate, the virtual image that namely observer of described electronic equipment can be by the first image described in viewing area 20 perception of described intelligent watch dial plate.Certainly, described electronic equipment is that intelligent watch is only used as embodiment of the present invention one, and as other embodiments, described electronic equipment can also be intelligence ring；When described electronic equipment is intelligence ring, described viewing area is the viewing area that originally can present as gemmy ring care surface in described intelligence ring, and namely the observer of described electronic equipment can pass through the virtual image that the first image described in the viewing area perception that the ring care surface of described intelligent ring presents is.

Concrete, described display module in the embodiment of the present invention is optical projection system, as shown in Figure 3 a, described display module 24 includes Part I 13 and Part II, the Part I 13 of wherein said display module is light conducting subassembly, and the Part II of described display module includes display module 15 and collimator assembly 14；Wherein:

As shown in Fig. 3 b and Fig. 3 c, described display module 15 in described display module 24 includes beam splitting unit 151 and display unit 152, described collimator assembly 14 includes the second collimation unit 141 and the first collimation unit 142 and polarization beam-splitting unit 143, and described smooth conducting subassembly 13 includes Wave guide unit 131 and reflector element 132.Wherein the display module 15 in Fig. 3 c also includes luminescence unit 150.Described first light beam projecting output in described light beam mode is processed by described collimator assembly 15, converts described second light beam to and exports to light conducting subassembly.

Step 502: when described response described control information controls described display module displays described first image of output, obtain sensed parameter by the sensor of described electronic equipment, determine the mode of operation of described display pattern based on described sensed parameter；Wherein, described sensed parameter is for characterizing observer's interactive mode relative to described electronic equipment of described electronic equipment.

Wherein, when the observer that described sensed parameter characterizes described electronic equipment is the first interactive mode relative to the interactive mode of described electronic equipment, it is determined that the display pattern of described display module is described first display pattern；The observer of described electronic equipment is that the first interactive mode represents the described observer interactive mode that distance is the first distance range relative to described viewing area relative to the interactive mode of described electronic equipment；When perceiving the first perception picture when described observer is observed by described viewing area with described first interactive mode, the content being sized to first size and the first perception picture of described first perception picture is described first image；

When the observer that described sensed parameter characterizes described electronic equipment is the second interactive mode relative to the interactive mode of described electronic equipment, it is determined that the display pattern of described display module is described second display pattern；The observer of described electronic equipment is that the second interactive mode represents the described observer interactive mode that distance is second distance scope relative to described viewing area relative to the interactive mode of described electronic equipment, and described first distance range is more than described second distance scope；When perceiving the second perception picture when described observer is observed by described viewing area with described second interactive mode, the content being sized to the second size and the second perception picture of described second perception picture is described first image, and described first size is less than described second size.

Concrete, the first embodiment of this step is: the mode of operation of the display module of described electronic equipment is determined relative to the distance of described viewing area (viewing area 20 of described viewing area intelligent watch dial plate as shown in Figure 2) based on the observer of described electronic equipment.Then in the present embodiment, the sensor of described electronic equipment is range sensor, and described range sensor is fixedly installed on around described viewing area, and the distance parameter value gathered described in described range sensor characterizes the described observer distance relative to described viewing area.Determine that the mode of operation of described display pattern includes based on described sensed parameter described in then: when the distance parameter value that described range sensor gathers belongs to described first distance range, it is determined that the display pattern of described display module is described first display pattern；The display pattern determining described display module when the distance parameter value that described range sensor gathers belongs to described second distance scope is described second display pattern；Wherein, described first distance range is more than described second distance scope.

Here, when the observer of described electronic equipment meets the first distance range relative to the distance of described viewing area, it is determined that the observer of described electronic equipment is the first interactive mode relative to the interactive mode of described electronic equipment；When the observer of described electronic equipment meets second distance scope relative to the distance of described viewing area, it is determined that the observer of described electronic equipment is the second interactive mode relative to the interactive mode of described electronic equipment；Wherein, described first distance range is more than described second distance scope；It is to say, when viewing area described in the eye distance of the observer of described electronic equipment is nearer, the observer of described electronic equipment is the first interactive mode relative to the interactive mode of described electronic equipment；When viewing area described in the eye distance of the observer of described electronic equipment relatively far away from time, the observer of described electronic equipment is the second interactive mode relative to the interactive mode of described electronic equipment.

The second embodiment of this step is: the mode of operation of the display module of described electronic equipment is determined based on the angle of inclination of described electronic equipment.Then in the present embodiment, the sensor of described electronic equipment is gravity inductive transducer or gyro sensor, and described sensed parameter is the angle of inclination obtained by described gravity sensing unit or gyro sensor；When by described gravity sensing unit or gyro sensor, described electronic equipment detects that the angle of inclination of described electronic equipment reaches first threshold scope, it may be determined that described electronic equipment is in the first interactive mode；Such as when described electronic equipment is intelligent watch, described intelligent watch is worn in the wrist of user, when wrist is lifted to front by user, the angle of inclination of described electronic equipment reaches first threshold scope, then now determine that described electronic equipment is in the first interactive mode.When by described gravity sensing unit or gyro sensor, described electronic equipment detects that the angle of inclination of described electronic equipment reaches Second Threshold scope, it may be determined that described electronic equipment is in the second interactive mode；Again such as when wrist is lifted to time at the moment by user, the angle of inclination of described electronic equipment reaches Second Threshold scope, then now determine that described electronic equipment is in the second interactive mode.

The third embodiment of this step is: the mode of operation of the display module of described electronic equipment is determined based on the angle of inclination of the height residing for described electronic equipment and described electronic equipment.Then in the present embodiment, the sensor of described electronic equipment is height-gauge and gravity sensor, and described sensed parameter is the height value detected by described height-gauge and the angle of inclination of the described electronic equipment detected by described gravity sensor；When by described height-gauge, described electronic equipment detects that the angle of inclination that described electronic equipment height reaches the first altitude range and described electronic equipment reaches first threshold scope, it may be determined that described electronic equipment is in the first interactive mode；Such as when described electronic equipment is intelligent watch, described intelligent watch is worn in the wrist of user, when wrist is lifted to front by user, the height of described electronic equipment reaches the angle of inclination of the first altitude range and described electronic equipment and reaches first threshold scope, then now determine that described electronic equipment is in the first interactive mode.When by described height-gauge, described electronic equipment detects that the angle of inclination that described electronic equipment height reaches the second altitude range and described electronic equipment reaches Second Threshold scope, it may be determined that described electronic equipment is in the second interactive mode；Again such as when wrist is lifted to time at the moment by user, the height of described electronic equipment reaches the angle of inclination of the second altitude range and described electronic equipment and reaches Second Threshold scope, then now determine that described electronic equipment is in the second interactive mode.

The 4th kind of embodiment of this step is: whether the mode of operation of the display module of described electronic equipment is triggered based on the physical button on described electronic equipment or virtual key and determines.Then in the present embodiment, the sensor of described electronic equipment is button detection sensor or key press detecting circuit；Described sensed parameter is the trigger data detected by described button detection sensor or key press detecting circuit, when the instruction that the described trigger data detected is corresponding is the first preset instructions, it may be determined that described electronic equipment is in the first interactive mode；When the instruction that the described described trigger data detected is corresponding is the second preset instructions, it may be determined that described electronic equipment is in the second interactive mode.

The 5th kind of embodiment of this step is: the phonetic order that the mode of operation of the display module of described electronic equipment receives based on described electronic equipment is determined.Then in the present embodiment, the sensor of described electronic equipment is voice recognition unit；Described sensed parameter is the speech data detected by described voice recognition unit, when the instruction that the described speech data detected is corresponding is the first preset instructions, it may be determined that described electronic equipment is in the first interactive mode；When the instruction that the described speech data detected is corresponding is the second preset instructions, it may be determined that described electronic equipment is in the second interactive mode.

Based on the first embodiment above-mentioned, namely the mode of operation of the display module of described electronic equipment is based on the observer of described electronic equipment when determining relative to the distance of the viewing area of described electronic equipment, described electronic equipment controls the display output area of the display module of the display module in described electronic equipment, thus the size of the perceptual image characterizing described first picture material that the observer changing described electronic equipment perceives.Fig. 6 a is the schematic diagram of the first display pattern in the embodiment of the present invention two；Fig. 6 b is the schematic diagram of the second display pattern in the embodiment of the present invention two.For described electronic equipment for intelligent watch, and the viewing area 20 of the dial plate of described intelligent watch is viewing area.As shown in Figure 6 a, when the observer of described electronic equipment is L1 relative to the distance of described viewing area, described L1 meets described first distance range, then now, the observer of described electronic equipment is the first interactive mode relative to the interactive mode of described electronic equipment；The observer of described electronic equipment is the first perception picture 61 shown in Fig. 6 a by the described perception picture that described viewing area is observed；Wherein, the dotted line between the viewing area 20 of the eyes of described observer and the dial plate of described intelligent watch represents the direction of visual lines of the eyes of described observer, all identical in the examples below；It is the transmission direction of light beam between viewing area 20 and the described first perception picture of the dial plate of described intelligent watch, all identical in the examples below.In the present embodiment, the content of described first perception picture is described first image, then described observer observes the full content of described first image by the viewing area 20 of the dial plate of described intelligent watch.As shown in Figure 6 b, when the observer of described electronic equipment is L2 relative to the distance of described viewing area, described L2 meets described second distance scope, then now, the observer of described electronic equipment is the second interactive mode relative to the interactive mode of described electronic equipment；The observer of described electronic equipment is the second perception picture 62 shown in Fig. 6 b by the described perception picture that described viewing area is observed.Wherein, the second of described second perception picture 62 is sized larger than the first size of described first perception picture, and the content of described first perception picture 61 and described second perception picture 62 is described first image, that is, when the observer of described electronic equipment and the interactive mode of described electronic equipment are the first interactive mode, described observer observes a relatively small perception picture by described viewing area, and the content of described perception picture is the full content of described first image；When the observer of described electronic equipment and the interactive mode of described electronic equipment are the second interactive mode, described observer observes a relatively large perception picture by described viewing area, and the content of described perception picture is equally also the full content of described first image.

In above-mentioned second embodiment to the 5th embodiment, the mode of operation of the display module that the change of the distance of the observer of described electronic equipment and the viewing area of described electronic equipment can not trigger described electronic equipment switches between described first display pattern and described second display pattern, therefore, when the observer of described electronic equipment changes with the distance of the viewing area of described electronic equipment, the mode of operation of the display module of described electronic equipment is still in described first display pattern or described second display pattern.

When the display module of described electronic equipment is in the first display pattern, Fig. 7 a and Fig. 7 b is the display schematic diagram of the first interactive mode in the embodiment of the present invention two；For described electronic equipment for intelligent watch, and the viewing area 20 of the dial plate of described intelligent watch is viewing area.As shown in Figure 7a, when described electronic equipment display module be in the first display pattern, described electronic equipment observer be L1 relative to the distance of described viewing area time, described L1 meets described first distance range, first viewing area of the display module that described electronic equipment controls described display module exports the first image, then the observer of described electronic equipment is the first perception picture 71 shown in Fig. 7 a by the described perception picture that described viewing area is observed, the full content that content is described first image of described first perception picture 71.As shown in Figure 7b, when the display module of described electronic equipment is in the second display pattern, the observer of described electronic equipment be still L1 relative to the distance of described viewing area time, described L1 meets described first distance range, second viewing area of the display module that described electronic equipment controls described display module exports the first image, described second viewing area is more than described first viewing area, then export becoming large-sized of described first image, as shown in region 72, the size of the described perception picture that the observer of described electronic equipment is observed by described viewing area is still for the size of the first perception picture 71 shown in Fig. 7 a, that is, the observer of described electronic equipment observes the partial content of described first image by described viewing area.

When the display module of described electronic equipment is in the first display pattern, Fig. 8 a and Fig. 8 b is the display schematic diagram of the second interactive mode in the embodiment of the present invention two；For described electronic equipment for intelligent watch, and the viewing area 20 of the dial plate of described intelligent watch is viewing area.As shown in Figure 8 a, when described electronic equipment display module be in the second display pattern, described electronic equipment observer be L2 relative to the distance of described viewing area time, described L2 meets described second distance scope, second viewing area of the display module that described electronic equipment controls described display module exports the first image, then the observer of described electronic equipment is the first perception picture 81 shown in Fig. 8 a by the described perception picture that described viewing area is observed, the full content that content is described first image of described first perception picture 81.As shown in Figure 8 b, when the display module of described electronic equipment is in the first display pattern, the observer of described electronic equipment be still L2 relative to the distance of described viewing area time, described L2 meets described second distance scope, first viewing area of the display module that described electronic equipment controls described display module exports the first image, described first viewing area is less than described second viewing area, then the observer of described electronic equipment is the second perception picture 82 shown in Fig. 8 b by the described perception picture that described viewing area is observed, the full content that content is described first image of described second perception picture 82；The size being smaller in size than described first perception picture 81 of described second perception picture 82, that is, described observer is when viewing distance is constant, and when the display module of described electronic equipment is in the second display pattern, described observer observes the whole of described first image；When the display module of described electronic equipment is in the first display pattern, described observer it was similarly observed that the whole of described first image, and simply the size of perception picture diminishes.

Based on above-mentioned several embodiments, when the observer determining described electronic equipment is the first interactive mode relative to the interactive mode of described electronic equipment, described electronic equipment determines that the display pattern of described display module is the first display pattern；When the observer determining described electronic equipment is the second interactive mode relative to the interactive mode of described electronic equipment, described electronic equipment determines that the display pattern of described display module is the second display pattern.

The display module of the electronic equipment described in the present embodiment includes viewing area, described viewing area is used for the virtual image that the observer of described electronic equipment by the first image described in the perception of described viewing area is, when described electronic equipment is Wearable device (such as intelligent watch), shown in the viewing area 20 of described viewing area intelligent watch dial plate as shown in Figure 2.Further, the size of described viewing area is identical with the size perceiving the first perception picture with described first interactive mode when described observer is observed by described viewing area.

Concrete, when described observer is observed by described viewing area with described first interactive mode, as shown in Figure 6 a, namely, when described observer is observed by described viewing area with distance relatively far away from, described observer can observe, by described viewing area, the first perception picture characterizing the first image；For the display module shown in Fig. 3 b or Fig. 3 c, described display module 24 controls the viewing area of the display unit 152 of described display module 15 and shows described first image, when the viewing area of described display unit 152 reaches first threshold, described observer can observe the size size equal to described viewing area of the first perception picture characterizing the first image by described viewing area, namely the size perceiving the first perception picture during the observation of described viewing area is identical, namely the described first perception picture that described observer observes is full of described viewing area.On the other hand, when the viewing area of described display unit 152 is less than described first threshold, the size being smaller in size than described viewing area of the described first perception picture that described observer can be observed by described viewing area, namely viewing area described in the described first perception picture underfill observed of described observer, clear area is there is between described first perception picture and described viewing area, present in effect in vision, be equivalent to " black surround " of marginal existence one circle of described first perception picture.

Step 503: export described first image based on the display of described display module determined mode of operation.

As shown in figures 4 a and 4b, when described display module 24 is in the first display pattern, described first viewing area is less than whole viewing areas of described display unit 152；When described display module 24 is in the second display pattern, described second viewing area is less than or equal to whole viewing areas of described display unit 152 (described second viewing area shown in Fig. 4 b is less than whole viewing areas of described display unit 152)；In the present embodiment, described first viewing area and described second viewing area are in the central area of described display unit 152, namely the central point of described first viewing area and described second viewing area overlaps with the central point of described display unit 152, therefore, described second viewing area includes described first viewing area.

Embodiment three

Based on the display packing described in embodiment one, the embodiment of the present invention additionally provides a kind of display packing, described display packing is applied in electronic equipment, the display module of described electronic equipment includes viewing area, and described viewing area is used for the virtual image that the observer of described electronic equipment by the first image described in the perception of described viewing area is.Fig. 9 is the schematic flow sheet of the display packing of the embodiment of the present invention three；As it is shown in figure 9, described display packing includes:

Step 901: generate the control information of the first image for showing and respond described control information, controls display module displays and exports described first image.

The electronic equipment of the display packing application of the present embodiment can be the electronic equipment of Wearable, and as a kind of preferred embodiment, described electronic equipment can be intelligent watch.As shown in Figure 2, described electronic equipment includes body apparatus 21, fixing device, display module 24 and processing unit, described processing unit is arranged in described body apparatus 21 or described fixing device, and described processing unit is used for generating the first image and performing display controlling；Described fixing device is connected with described body apparatus 21, and described fixing device is for the relative position relation of the fixing beholder with described electronic equipment；Described display module 24 is arranged on described body apparatus 21 and/or described fixing device, is used for exporting described first image, and wherein said display module 21 includes display module and light conducting subassembly, and described display module is used for showing described first image；Described smooth conducting subassembly is for carrying out light path converting by first light beam corresponding with described first image sent from described display module, to form the second light beam of the amplification virtual image corresponding to described first image；

Step 902: detect the eye of described beholder and the relative position parameter of described viewing area.

In the present embodiment, described electronic equipment also includes first sensor, is arranged on described body apparatus and/or described fixing device, for detecting the eye of described beholder and the relative position parameter of described viewing area；Concrete, described first sensor can be provided in the image acquisition units on described electronic equipment or iris detection unit, for the eye of described beholder being detected and obtaining the eye of described beholder and the relative position parameter of described viewing area.

Step 903: when the eye that the described display module of described electronic equipment is in the first display pattern and described beholder remains unchanged apart from the distance of described viewing area, when described relative position parameter changes, generate and control described first image change in location on described display module so that described beholder still is able to perceive the first perception picture characterizing described first image.

Concrete, for the intelligent watch shown in Fig. 2, when the described display module of described electronic equipment is in the first display pattern and the described observer direction shown in arrow 201 by the observation of described viewing area, described observer is able to observe that the first perception picture characterizing described first image.And when described observer deviates the direction shown in described arrow 201 by the observation of described viewing area, do not inject the eyes of described observer owing to forming the second light beam amplifying the virtual image corresponding to described first image, then described observer can not observe described first perception picture by described viewing area.Therefore, display module as shown in Fig. 3 b and Fig. 3 c is example, when the described relative position parameter detected changes, described electronic equipment is based on the change of described relative position parameter, control described display unit 152 showing, the first viewing area of described first image changes accordingly, as shown in fig. 4 a, described first viewing area controlled in described display unit 152 changes accordingly based on described relative position parameter, such as described first viewing area to the left, the direction skew such as to the right.

In various embodiments of the present invention, electronic equipment described in described electronic equipment is Wearable electronic equipment；As shown in Figure 2, described Wearable electronic equipment includes: body apparatus 21, fixing device, display module 24 and processing unit, described processing unit is arranged in described body apparatus 21 or described fixing device, and described processing unit is used for generating the first image and performing display controlling；Described fixing device is connected with described body apparatus 21, and described fixing device is for the relative position relation of the fixing beholder with described electronic equipment；Described display module 24 is arranged on described body apparatus 21 and/or described fixing device, is used for exporting described first image, and wherein said display module 21 includes display module and light conducting subassembly, and described display module is used for showing described first image；Described smooth conducting subassembly is for carrying out light path converting by first light beam corresponding with described first image sent from described display module, to form the second light beam of the amplification virtual image corresponding to described first image；

Described fixing device for described electronic equipment is fixed on supporter and when described electronic equipment is fixed on described supporter by described fixing device described body apparatus and described fixing device constitute an annulus；

Described electronic equipment has the first cross section, described first cross section is when described electronic equipment is fixed on described supporter by described fixing device, is perpendicular to described supporter with described supporter for reference substance and carries out, for described electronic equipment, the ring that tangent plane is formed, and described first direction is the inside from the outside of described ring to described ring and the direction towards described Ring current distribution.

In the embodiment of the present invention, described electronic equipment is the electronic equipment of Wearable, and as a kind of preferred embodiment, described electronic equipment can be intelligent watch.Described first cross section can be understood as cross section shown in Fig. 2, from the cross section shown in Fig. 2, is that described body apparatus 21 surrounds a ring with fixing device, can penetrate supporter in this ring in described electronic equipment.When described ring is standard round, described first direction can be understood as the direction in circle extroversion circle towards the center of circle, described ring is unlikely to be a standard round, therefore aforesaid first direction is released simply to illustrate that the technical scheme of the embodiment of the present invention with standard round for illustrating, and fict situation, real situation is, assume when this intelligent watch is worn in wrist, owing to the wrist of human body is not inherently the cylinder of a standard, therefore, the ring that this intelligent watch is formed neither a standard round.

In an embodiment of the present invention, described supporter can be the wrist of user, it is also possible to for other body parts of user；Certain described supporter can also is that any object beyond user's body position, for instance can be arm artificial limb etc., it is also possible to be the hand rod on bus or metro operation car.

In the embodiment of the present invention, described electronic equipment is the electronic equipment of Wearable, and as a kind of preferred embodiment, described electronic equipment can also be intelligence ring.When described electronic equipment is intelligence ring, accordingly, described supporter can be finger.

In an embodiment of the present invention, described electronic equipment can include two fixing devices as shown in Figure 2, i.e. the first fixing device 22 and the second fixing device 23, wherein: the first end of the first fixing device 22 is flexibly connected the first end of described body apparatus 71, first end of the second fixing device 23 is flexibly connected the second end of described body apparatus 71, and the second end of the described first fixing device 22 cooperates with the described second the second end fixing device 23 and is fixed on described supporter by described electronic equipment.In the process being embodied as, those skilled in the art can pass through card and parts or adhering part etc., realizes cooperating between the second end of the described first fixing device 22 and the second end of the described second fixing device 23；Those skilled in the art can also pass through rotating shaft connection etc. and realize being flexibly connected between the first the first end and the first end of described body apparatus 71 fixing device 22, and realize being flexibly connected between the first end and second end of described body apparatus 71 of the second fixing device 23, repeat no more here.

Wherein, described display module 24 is optical projection system, and as shown in Figure 3 a, described display module 24 includes Part I 13 and Part II, the Part I 13 of wherein said display module is light conducting subassembly, and the Part II of described display module includes display module 15 and collimator assembly 14；Wherein:

Described display module 15, is used for showing output the second content to be displayed, projects the first light beam in light beam mode and export to collimator assembly 14；Described collimator assembly 14, for being processed by described first light beam projecting output in described light beam mode, converts described second light beam to and exports to light conducting subassembly 13；Described smooth conducting subassembly 13 is also called light path converting assembly, described smooth conducting subassembly is made up of transparent material, described smooth conducting subassembly 13, for being undertaken described second light beam conducting in the material constituting described smooth conducting subassembly, wherein said smooth conducting subassembly includes reflector element, described reflector element is arranged on the described specific region beyond part, and described reflector element, for changing described second light beam conduction orientation in described transparent material, projects with second direction；Described second direction is consistent with the outbound course of described first content to be displayed of the first display screen that described first shows module；Described smooth conducting subassembly is provided with the display output area that described specific region is described display module of described reflector element.

As shown in Fig. 3 b and Fig. 3 c, described display module 15 includes beam splitting unit 151 and display unit 152, described collimator assembly 14 includes the second collimation unit 141 and the first collimation unit 142 and polarization beam-splitting unit 143, and described smooth conducting subassembly 13 includes Wave guide unit 131 and reflector element 132.Wherein the display module 15 in Fig. 3 c also includes luminescence unit 150.Described first light beam projecting output in described light beam mode is processed by described collimator assembly 15, converts described second light beam to and exports to light conducting subassembly.

Specifically, described collimator assembly 15 includes the first collimation unit 142 and the second collimation unit 141 positioned opposite, and it is arranged in the polarization beam-splitting unit 143 between described first collimation unit 142 and the second collimation unit 141, described first light beam exported from described display module begins to be reflected towards described first collimation unit 142 via described polarization beam-splitting unit 143, after then collimating via described first collimation unit 142 and the second collimation unit 141 through by described polarization beam-splitting unit 143 as described second beam exit.

Described smooth conducting subassembly 13, for being undertaken described second light beam conducting in the material constituting described smooth conducting subassembly, finally exports to observer；Described smooth conducting subassembly 13 includes Wave guide unit 131 and reflector element 132, can be controlled from described second light beam by the position and angle arranging reflector element 132, and described ad-hoc location outgoing of leading.In the first case, described collimator assembly 14 and described display module 15 are in the first side relative to plane residing for described Wave guide unit 131, when arranging the reflector element 132 as shown in Fig. 3 b or Fig. 3 c, can to second side outgoing of plane residing for described Wave guide unit 131 with described second light beam, described first side and the second side are the opposition sides relative to plane residing for described Wave guide unit 131.

In the embodiment of the present invention, described display module 24 has display output area, and described display output area is that described reflector element is arranged on the described specific region exceeded in part.In general, observer (user) sees that the physical size of reflector element 132 is greater than being equal to the size of described display output area, and the display unit 152 in described display module 24 is smaller in size than the size of described display output area.It should be noted that Fig. 3 b or Fig. 3 c is intended merely to the technical scheme helping skilled in the art to understand the application, it it is not the electronic equipment state in use that provides of the embodiment of the present invention；Such as this electronic equipment is in fixed support body when using, and when described supporter is wrist, user lifts arm and is placed at the moment by described electronic equipment, it is seen then that user watches, with positive angle, the information that this electronic equipment provides.

Certainly, the display module shown in Fig. 3 a-Fig. 3 c is arranged in intelligent watch, and namely with intelligent watch for framework, not limiting can only with intelligent watch or intelligent wearable electronic equipment.

Embodiment four

The embodiment of the present invention additionally provides a kind of electronic equipment.Figure 10 is the composition structural representation of the electronic equipment of the embodiment of the present invention four；As shown in Figure 10, described electronic equipment includes: processing unit 32, display module 33 and pattern determining unit 31；Wherein,

Described processing unit 32, for generating the control information for the first image shown；And respond described control information, control the display of described display module 33 and export described first image；When described response described control information controls described display module 33 display described first image of output, the display module 33 determined mode of operation display determined based on described pattern determining unit 31 exports described first image；Wherein, when described display module 33 is in the first display pattern, control to show described first image in the first viewing area of described display module；When described display module 33 is in the second display pattern, controlling to show described first image in the second viewing area of described display module, described second viewing area is more than described first viewing area, and described second viewing area includes described first viewing area；

Described pattern determining unit 31, for when described processing unit 32 responds described control information control described display module 33 display described first image of output, it is determined that the mode of operation of described display module 33；

Described display module 33, is used for showing described first image；First light corresponding with described first image is carried out light path converting, second light that amplifies the virtual image corresponding to form described first image.

Skilled artisan would appreciate that, the function of each processing unit 32 in the electronic equipment of the embodiment of the present invention, can refer to the associated description of aforementioned display packing and understand, each processing unit 32 in the electronic equipment of the embodiment of the present invention, can realize by realizing the analog circuit of the function described in the embodiment of the present invention, it is also possible to realize by performing the operation on intelligent terminal of the software of the function described in the embodiment of the present invention.

Embodiment five

The embodiment of the present invention additionally provides a kind of electronic equipment.Figure 11 is the composition structural representation of the electronic equipment of the embodiment of the present invention five；As shown in figure 11, described electronic equipment includes: processing unit 32, display module 33, pattern determining unit 31 and sensor unit 34；Described display module 33 includes viewing area, and described viewing area is used for the virtual image that the observer of described electronic equipment by the first image described in the perception of described viewing area is；Wherein,

Described processing unit 32, for generating the control information of the first image for showing and responding described control information, controls the display of described display module 33 and exports described first image；When described response described control information controls described display module 33 display described first image of output, the display module 33 determined mode of operation display determined based on described pattern determining unit 31 exports described first image；Wherein, when described display module 33 is in the first display pattern, control to show described first image in the first viewing area of described display module；When described display module 33 is in the second display pattern, controlling to show described first image in the second viewing area of described display module, described second viewing area is more than described first viewing area, and described second viewing area includes described first viewing area；

Described sensor unit 34, is used for obtaining sensed parameter, and described sensed parameter is for characterizing observer's interactive mode relative to described electronic equipment of described electronic equipment；

Described pattern determining unit 31, for described processing unit 32 respond described control information control the display of described display module 33 export described first image time, the described sensed parameter obtained based on described sensor unit 34 determines the mode of operation of described display pattern；Wherein, when the observer that described sensed parameter characterizes described electronic equipment is the first interactive mode relative to the interactive mode of described electronic equipment, it is determined that the display pattern of described display module 33 is described first display pattern；When the observer that described sensed parameter characterizes described electronic equipment is the second interactive mode relative to the interactive mode of described electronic equipment, it is determined that the display pattern of described display module 33 is described second display pattern；

Wherein, the observer of described electronic equipment is that the first interactive mode represents the described observer interactive mode that distance is the first distance range relative to described viewing area relative to the interactive mode of described electronic equipment；When perceiving the first perception picture when described observer is observed by described viewing area with described first interactive mode, the content being sized to first size and the first perception picture of described first perception picture is described first image of described processing unit 32 output；

The observer of described electronic equipment is that the second interactive mode represents the described observer interactive mode that distance is second distance scope relative to described viewing area relative to the interactive mode of described electronic equipment, and described first distance range is more than described second distance scope；When perceiving the second perception picture when described observer is observed by described viewing area with described second interactive mode, the content being sized to the second size and the second perception picture of described second perception picture is described first image, and described first size is less than described second size.

According to another embodiment of the present embodiment, the size of described viewing area is identical with the size perceiving the first perception picture with described first interactive mode when described observer is observed by described viewing area.

Concrete, described sensor unit 34 is range sensor, is used for gathering distance parameter；Described range sensor is fixing to be located at around described viewing area, and the distance parameter value gathered described in described range sensor characterizes the described observer distance relative to described viewing area；

Described pattern determining unit 31, for when the distance parameter value that described range sensor gathers belongs to described first distance range, it is determined that the display pattern of described display module 33 is described first display pattern；The display pattern determining described display module 33 when the distance parameter value that described range sensor gathers belongs to described second distance scope is described second display pattern.

Embodiment six

The embodiment of the present invention additionally provides a kind of electronic equipment.Figure 12 is the composition structural representation of the electronic equipment of the embodiment of the present invention six；As shown in figure 12, described electronic equipment includes: processing unit 32, display module 33, pattern determining unit 31 and first sensor 35；Described display module 33 includes display module 331 and light conducting subassembly 332；Wherein,

Described processing unit 32, for generating the control information for the first image shown；And respond described control information, control the display of described display module 33 and export described first image；When described response described control information controls described display module 33 display described first image of output, the display module 33 determined mode of operation display determined based on described pattern determining unit 31 exports described first image；Wherein, when described display module 33 is in the first display pattern, control to show described first image in the first viewing area of described display module；When described display module 33 is in the second display pattern, controlling to show described first image in the second viewing area of described display module, described second viewing area is more than described first viewing area, and described second viewing area includes described first viewing area；It is additionally operable to when the eye that described display module 33 is in the first display pattern and described beholder remains unchanged apart from the distance of described viewing area, when the described relative position parameter obtained by described first sensor 35 is changed, generate and control described first image change in location on described display module so that described beholder still is able to perceive described first content；

Described display module 331, is used for showing described first image；

Described smooth conducting subassembly 332, for first light beam corresponding with described first image sent from described display module 331 is carried out light path converting, second light beam that amplify the virtual image corresponding to form described first image；

Described first sensor 35, for detecting the eye of described beholder and the relative position parameter of described viewing area.

Skilled artisan would appreciate that, the function of each processing unit in the electronic equipment of the embodiment of the present invention, can refer to the associated description of aforementioned display packing and understand, each processing unit in the electronic equipment of the embodiment of the present invention, can realize by realizing the analog circuit of the function described in the embodiment of the present invention, it is also possible to realize by performing the operation on intelligent terminal of the software of the function described in the embodiment of the present invention.

In the embodiment of the present invention four to embodiment six, processing unit in described electronic equipment and pattern determining unit are in actual applications, all can by the central processing unit (CPU in described electronic equipment, CentralProcessingUnit), digital signal processor (DSP, DigitalSignalProcessor) or programmable gate array (FPGA, Field-ProgrammableGateArray) realize；Display module in described electronic equipment in actual applications, can be realized by optical projection system；First sensor in described electronic equipment in actual applications, can be realized by the photographic head in described electronic equipment or iris authentication system；Sensor unit in described electronic equipment, can be realized by range sensor in actual applications.

Those skilled in the art are it should be appreciated that embodiments of the invention can be provided as method, system or computer program.Therefore, the present invention can adopt the form of hardware embodiment, software implementation or the embodiment in conjunction with software and hardware aspect.And, the present invention can adopt the form at one or more upper computer programs implemented of computer-usable storage medium (including but not limited to disk memory and optical memory etc.) wherein including computer usable program code.

The present invention is that flow chart and/or block diagram with reference to method according to embodiments of the present invention, equipment (system) and computer program describe.It should be understood that can by the combination of the flow process in each flow process in computer program instructions flowchart and/or block diagram and/or square frame and flow chart and/or block diagram and/or square frame.These computer program instructions can be provided to produce a machine to the processor of general purpose computer, special-purpose computer, Embedded Processor or other programmable data processing device so that the instruction performed by the processor of computer or other programmable data processing device is produced for realizing the device of function specified in one flow process of flow chart or multiple flow process and/or one square frame of block diagram or multiple square frame.

These computer program instructions may be alternatively stored in and can guide in the computer-readable memory that computer or other programmable data processing device work in a specific way, the instruction making to be stored in this computer-readable memory produces to include the manufacture of command device, and this command device realizes the function specified in one flow process of flow chart or multiple flow process and/or one square frame of block diagram or multiple square frame.

These computer program instructions also can be loaded in computer or other programmable data processing device, make on computer or other programmable devices, to perform sequence of operations step to produce computer implemented process, thus the instruction performed on computer or other programmable devices provides for realizing the step of function specified in one flow process of flow chart or multiple flow process and/or one square frame of block diagram or multiple square frame.

The above, be only presently preferred embodiments of the present invention, is not intended to limit protection scope of the present invention.

Claims

1. a display packing, it is applied in electronic equipment, described electronic equipment includes body apparatus, fixing device, display module and processing unit, described processing unit is arranged in described body apparatus or described fixing device, and described processing unit is used for generating the first image and performing display controlling；Described fixing device is connected with described body apparatus, and described fixing device is for the relative position relation of the fixing beholder with described electronic equipment；Described display module is arranged on described body apparatus and/or described fixing device, is used for exporting described first image, and wherein said display module includes display module and light conducting subassembly, and described display module is used for showing described first image；Described smooth conducting subassembly is for carrying out light path converting by first light beam corresponding with described first image sent from described display module, to form the second light beam of the amplification virtual image corresponding to described first image；Described display packing includes:

2. method according to claim 1, it is characterised in that described display module includes viewing area, described viewing area is used for the virtual image that the observer of described electronic equipment by the first image described in the perception of described viewing area is；

The described mode of operation determining described display module and based on described display module determined mode of operation display export described first image include:

Sensed parameter is obtained by the sensor of described electronic equipment；Described sensed parameter is for characterizing observer's interactive mode relative to described electronic equipment of described electronic equipment；The mode of operation of described display pattern is determined based on described sensed parameter；

3. method according to claim 2, it is characterised in that the size of described viewing area is identical with the size perceiving the first perception picture with described first interactive mode when described observer is observed by described viewing area.

4. method according to claim 3, it is characterized in that, described sensor is range sensor, and described range sensor is fixing to be located at around described viewing area, and the distance parameter value gathered described in described range sensor characterizes the described observer distance relative to described viewing area；

Described determine that the mode of operation of described display pattern includes based on described sensed parameter:

When the distance parameter value that described range sensor gathers belongs to described first distance range, it is determined that the display pattern of described display module is described first display pattern；

The display pattern determining described display module when the distance parameter value that described range sensor gathers belongs to described second distance scope is described second display pattern.

5. method according to claim 1, it is characterised in that described electronic equipment also includes first sensor, is arranged on described body apparatus and/or described fixing device, for detecting the eye of described beholder and the relative position parameter of described viewing area；

When the eye that the described display module of described electronic equipment is in the first display pattern and described beholder remains unchanged apart from the distance of described viewing area, when the described relative position parameter obtained by described first sensor is changed, described processing unit generates and controls described first image change in location on described display module so that described beholder still is able to perceive the first perception picture characterizing described first image.

6. an electronic equipment, described electronic equipment includes: processing unit, display module and pattern determining unit；Wherein,

7. electronic equipment according to claim 6, it is characterised in that described display module includes viewing area, described viewing area is used for the virtual image that the observer of described electronic equipment by the first image described in the perception of described viewing area is；

Described electronic equipment also includes sensor unit, is used for obtaining sensed parameter, and described sensed parameter is for characterizing observer's interactive mode relative to described electronic equipment of described electronic equipment；

Described pattern determining unit, the described sensed parameter for obtaining based on described sensor unit determines the mode of operation of described display pattern；Wherein, when the observer that described sensed parameter characterizes described electronic equipment is the first interactive mode relative to the interactive mode of described electronic equipment, it is determined that the display pattern of described display module is described first display pattern；When the observer that described sensed parameter characterizes described electronic equipment is the second interactive mode relative to the interactive mode of described electronic equipment, it is determined that the display pattern of described display module is described second display pattern；

Wherein, the observer of described electronic equipment is that the first interactive mode represents the described observer interactive mode that distance is the first distance range relative to described viewing area relative to the interactive mode of described electronic equipment；When perceiving the first perception picture when described observer is observed by described viewing area with described first interactive mode, the content being sized to first size and the first perception picture of described first perception picture is described first image of described processing unit output；

8. electronic equipment according to claim 7, it is characterised in that the size of described viewing area is identical with the size perceiving the first perception picture with described first interactive mode when described observer is observed by described viewing area.

9. electronic equipment according to claim 8, it is characterised in that described sensor unit is range sensor, is used for gathering distance parameter；Described range sensor is fixing to be located at around described viewing area, and the distance parameter value gathered described in described range sensor characterizes the described observer distance relative to described viewing area；

Described pattern determining unit, for when the distance parameter value that described range sensor gathers belongs to described first distance range, it is determined that the display pattern of described display module is described first display pattern；The display pattern determining described display module when the distance parameter value that described range sensor gathers belongs to described second distance scope is described second display pattern.

10. electronic equipment according to claim 6, it is characterised in that described electronic equipment also includes first sensor；Described display module includes display module and light conducting subassembly；

Described display module, is used for showing described first image；

Described smooth conducting subassembly, for first light beam corresponding with described first image sent from described display module is carried out light path converting, second light beam that amplify the virtual image corresponding to form described first image；

Described first sensor, for detecting the eye of described beholder and the relative position parameter of described viewing area；

Described processing unit, it is additionally operable to when the eye that described display module is in the first display pattern and described beholder remains unchanged apart from the distance of described viewing area, when the described relative position parameter obtained by described first sensor is changed, generate and control described first image change in location on described display module so that described beholder still is able to perceive described first content.

11. electronic equipment according to claim 6, it is characterised in that described electronic equipment is Wearable electronic equipment；Described Wearable electronic equipment includes: body apparatus, fixing device and body apparatus；

Described fixing device is connected with described body apparatus, described fixing device for described electronic equipment is fixed on supporter and when described electronic equipment is fixed on described supporter by described fixing device described body apparatus and described fixing device constitute an annulus；

Described fixing device is connected with described body apparatus, and described display module is arranged on described body apparatus and/or described fixing device；

Described display module is optical projection system, and the Part I of described display module is light conducting subassembly, and the Part II of described display module is display module and collimator assembly；

Described smooth conducting subassembly is made up of transparent material；

Described display module is used for showing output the first image, projects the first light beam output in light beam mode；

Described collimator assembly converts described second light beam output to for described first light beam projecting output in described light beam mode carries out process；

Described smooth conducting subassembly is for being undertaken described second light beam conducting in the transparent material constituting described smooth conducting subassembly, wherein said smooth conducting subassembly includes reflector element, described reflector element is arranged on the specific region beyond part, described reflector element, for changing described second light beam conduction orientation in described transparent material, projects with second direction；Described second direction is consistent with the outbound course of described first content to be displayed of the first display screen of described display module；Described smooth conducting subassembly is provided with the viewing area that described specific region is described display module of described reflector element.