CN204129444U - Electronic equipment - Google Patents

Abstract

The utility model provides a kind of electronic equipment and display packing.Electronic equipment comprises: body apparatus, comprises for synthetic image and the processing unit performing display and control; To be connected with body apparatus and for the fixing stationary installation with the relative position relation of beholder; Be arranged in body apparatus and/or stationary installation, for the display unit of output image, comprise display module for showing image and for the light corresponding with image sent from display module being carried out light path converting to form the light path converting assembly of the amplification virtual image corresponding to image.Display unit comprises viewing area, when eye distance viewing area first distance of beholder, can perceive the first image-region, during distance second distance, can perceive the second image-region, the second image-region comprises the first image-region, and the first distance is greater than second distance; First content in image is presented at the first image-region, when making eye distance viewing area first distance of beholder, can perceive first content.

Description

Electronic equipment

Technical field

The utility model relates to the field of electronic equipment, and more specifically, the utility model relates to a kind of electronic equipment of built-in near-eye display system.

Background technology

At present, the Wearable electronic equipment of such as intelligent watch is only equipped with traditional display usually, such as liquid crystal display (LCD), display of organic electroluminescence, Organic Light Emitting Diode (OLED) display etc.Owing to being limited to the size of the Wearable electronic equipment of such as intelligent watch itself, the display area of its traditional monitor be equipped with is usually very little, can only show limited information.

Therefore, desirable to provide a kind of electronic equipment and display packing thereof, it can not by the restriction of the size of the Wearable electronic equipment of such as intelligent watch itself, more large scale and more high-resolution image or video display are provided, and simultaneously when beholder is in different viewing distance, user is provided the content of desired viewing adaptively, thus promotes relevant Consumer's Experience.

Utility model content

According to the utility model embodiment, provide a kind of electronic equipment, comprising: body apparatus, comprise for generating the first image and performing the processing unit of display and control; For the fixing relative position relation stationary installation with the beholder of described electronic equipment, be connected with described body apparatus; For exporting the first display unit of described first image, be arranged in described body apparatus and/or described stationary installation, wherein, described first display unit comprises the first viewing area, when the eye of beholder is apart from described first viewing area first Distance geometry second distance, can perceive different contents, described first distance is greater than described second distance.

In addition, according to the electronic equipment of the utility model embodiment, wherein said first display unit comprises the first display module for showing described first image, and for the light corresponding with described first image sent from described first display module is carried out light path converting to form the first optical module of the amplification virtual image corresponding to described first image, when the eye of beholder is apart from described first viewing area the first distance, the first image-region of image can be perceived, during apart from described first viewing area second distance, the second image-region of image can be perceived, described second image-region comprises described first image-region, and the first content in described first image is presented at described first image-region, make the eye of beholder apart from described in described first viewing area during the first distance, described first content can be perceived.

In addition, according to the electronic equipment of the utility model embodiment, wherein when the image of described first image that described first display unit exports remains unchanged, the eye of beholder is apart from described in described first viewing area during second distance, can perceive described second content, described first content is different from described second content.

In addition, according to the electronic equipment of the utility model embodiment, also comprise the first sensor unit of the relative position parameter of eye for sensing described beholder and described first viewing area, be arranged in described body apparatus and/or described stationary installation, when the eye of beholder remains unchanged apart from the distance of described first viewing area, and when described relative position parameter changes, described processing unit generates and controls the first more new images that described first display unit display comprises described first content, makes beholder still can perceive described first content.

In addition, according to the electronic equipment of the utility model embodiment, the second content in wherein said first image is presented at described second image-region, make the eye of beholder apart from described in described first viewing area during second distance, described second content can be perceived, the quantity of information of the first content of described first image in described first image-region that contains much information of described second content of described first image in described second image-region.

In addition, according to the electronic equipment of the utility model embodiment, also comprise second sensor unit of the eye for sensing beholder apart from the distance parameter of described first viewing area, be arranged in described body apparatus and/or described stationary installation, when sensing described distance and changing into described second distance from described first distance, described processing unit generates and controls described first display unit and shows the second image, the second content in wherein said second image is presented at described second image-region, make the eye of beholder apart from described in described first viewing area during second distance, described second content can be perceived, the quantity of information of the first content of described first image in described first image-region that contains much information of the second content of described second image in described second image-region.

In addition, according to the electronic equipment of the utility model embodiment, described first distance is greater than the first predetermined threshold, and described second distance is less than described first predetermined threshold.

In addition, according to the electronic equipment of the utility model embodiment, also comprise second sensor unit of the eye for sensing beholder apart from the distance parameter of described first viewing area, be arranged in described body apparatus and/or described stationary installation, when sensing described distance and changing into described first distance from described second distance, described processing unit generates and controls described first display unit display the 3rd image, beholder can perceive the 3rd image-region of image, described 3rd image-region is in first content described in the outer and part in described second image-region of described 3rd image-region when being included in described second distance, the eye of beholder apart from described in described first viewing area during the first distance, described first content can be perceived.

In addition, according to the electronic equipment of the utility model embodiment, wherein said stationary installation at least comprises a stationary state, under described stationary state, described stationary installation can as the proximate annular space of an annulus or first predetermined condition at least partially, and the column that described annulus or described proximate annular space can be centered around second predetermined condition is peripheral.

In addition, according to the electronic equipment of the utility model embodiment, also comprising the second display unit of the display for performing image, being arranged in described body apparatus and/or described stationary installation, wherein said first display unit and described second display unit are dissimilar display unit.

According to the electronic equipment of the utility model embodiment, realize not by the restriction of the size of the Wearable electronic equipment of such as intelligent watch itself, more large scale and more high-resolution image or video display are provided, and simultaneously when beholder is in different viewing distance, user is provided the content of desired viewing adaptively, thus promotes relevant Consumer's Experience.

It being understood that general description above and detailed description below both exemplary, and intention is to provide further illustrating of claimed technology.

Accompanying drawing explanation

Figure 1A to 1E is the structured flowchart of diagram according to the electronic equipment of the utility model embodiment;

Fig. 2 A to 2D is the schematic diagram of the nearly optics of the eye display system adopted in the electronic equipment of diagram according to the utility model embodiment;

Fig. 3 A to 3C is the schematic diagram of diagram according to the first display unit in the electronic equipment of the utility model embodiment;

Fig. 4 A and 4B is that general introduction diagram is according to the electronic equipment of the utility model embodiment and the schematic diagram showing state thereof;

Fig. 5 A to 5C specifically illustrates according to the electronic equipment of the utility model embodiment and the schematic diagram of display state first example thereof further;

Fig. 6 is the first pass figure that diagram corresponds to the display packing according to the utility model embodiment of the first example;

Fig. 7 A to 7C specifically illustrates according to the electronic equipment of the utility model embodiment and the schematic diagram of display state second example thereof further;

Fig. 8 is the second process flow diagram that diagram corresponds to the display packing according to the utility model embodiment of the second example;

Fig. 9 is the structured flowchart of diagram according to the first example of the first display unit of the utility model embodiment;

Figure 10 A and 10B is the structured flowchart of existing and the second example according to the first display unit of the utility model embodiment of diagram respectively;

Figure 11 is the structured flowchart of diagram according to the luminous sub-component in the first display unit of the utility model embodiment;

Figure 12 is the structured flowchart of diagram according to the display module in the first display unit of the utility model embodiment;

Figure 13 is the structured flowchart of diagram according to the display module in the first display unit of the utility model embodiment;

Figure 14 is the structured flowchart of diagram according to the display sub-component in the first display unit of the utility model embodiment;

Figure 15 A and 15B is the structured flowchart of diagram according to the 3rd example of the first display unit of the utility model embodiment;

Figure 16 A and 16B is the structured flowchart of diagram according to the electronic equipment of another embodiment of the utility model;

Figure 17 is the structured flowchart of general introduction according to the second display unit of the utility model embodiment;

Figure 18 A to Figure 18 C is the top-level view, bottom view and the lateral plan that illustrate according to the first example of the second display unit of the utility model embodiment;

Figure 19 A and Figure 19 B is the schematic diagram of diagram according to the second example of the second display unit of the utility model embodiment;

Figure 20 A and Figure 20 B is the schematic diagram of diagram according to the 3rd example of the second display unit of the utility model embodiment;

Figure 21 is the schematic diagram of diagram according to the 4th example of the second display unit of the utility model embodiment;

Figure 22 is the schematic diagram of diagram according to the 5th example of the second display unit of the utility model embodiment;

Figure 23 is the schematic diagram of diagram according to the 6th example of the second display unit of the utility model embodiment;

Figure 24 is the schematic diagram of diagram according to the 7th example of the second display unit of the utility model embodiment; And

Figure 25 A and Figure 25 B is the schematic diagram of diagram according to the 8th example of the second display unit of the utility model embodiment.

Embodiment

Below, preferred embodiment of the present utility model is described in detail with reference to accompanying drawing.

First, with reference to Figure 1A to 1E, the electronic equipment according to the utility model embodiment is described.Can the Wearable electronic equipment of such as intelligent watch according to the electronic equipment of the utility model embodiment.Certainly, those skilled in the art will readily understand, the electronic equipment according to the utility model embodiment is not limited thereto, but can comprise any electronic equipment wherein with display unit.Object for convenience of description, is described for the Wearable electronic equipment of such as intelligent watch below.

Figure 1A to 1E diagram is according to the structured flowchart of the electronic equipment of the utility model first embodiment.As shown in Figure 1A, body apparatus 101 and stationary installation 102 is comprised according to the electronic equipment 100 of the utility model embodiment.Stationary installation 102 is connected with described body apparatus 101.Described stationary installation 102 at least comprises a stationary state, under described stationary state, described stationary installation 102 can as an annulus at least partially or the proximate annular space of first predetermined condition at least partially, the column that described annulus or described proximate annular space can be centered around second predetermined condition is peripheral.

Particularly, Figure 1B with 1C illustrates two kinds of stationary states that described stationary installation 102 is connected with described body apparatus 101 respectively.Under the first stationary state as shown in Figure 1B, described stationary installation 102 and described body apparatus 101 form the annulus of closed loop, and wherein said stationary installation 102 and described body apparatus 101 form a part for annulus respectively.Under the second stationary state as shown in Figure 1 C, described stationary installation 102 forms the proximate annular space with little opening with described body apparatus 101, wherein said stationary installation 102 and described body apparatus 101 form a part for annulus respectively, and the width of the little opening in this proximate annular space is less than the diameter of described column.In a preferred embodiment of the present utility model, described body apparatus 101 is the dial plate part of intelligent watch, and described stationary installation 102 is the band portion of intelligent watch.The described annulus formed by described body apparatus 101 and described stationary installation 102 or described proximate annular space can be centered around around the wrist of the user of the intelligent watch as described column, and the diameter in described annulus or described proximate annular space is greater than the diameter of user's wrist and is less than the diameter of user's fist.

In addition, described annulus or described proximate annular space can certainly be formed separately by described stationary installation 102.As seen in figs.id and ie, (namely described body apparatus 101 can be arranged in described stationary installation 102, described body apparatus 101 is attached to described stationary installation 102 in the mode that face contacts), only there to be described stationary installation 102 self to be formed for the outer described annulus around described column (Fig. 1 D) or described proximate annular space (Fig. 1 E).Described stationary installation 102 is furnished with the fixed mechanism (not shown) of such as hasp, fastener, slide fastener etc.

Further, as shown in Figure 1A to 1E, described body apparatus 101 is furnished with processing unit 103 and the first display unit 104.Described processing unit 103 is for generating the first image and performing display and control.In electronic equipment 100 shown in Figure 1A to 1E, described first display unit 104 is arranged on described body apparatus 101.But those skilled in the art will readily understand, the utility model is not limited thereto, in another embodiment of the present utility model, described first display unit 104 also can be arranged in described stationary installation 102.In addition, in another embodiment of the present utility model, described first display unit 104 can also be arranged in described body apparatus 101 and described stationary installation 102.Such as, to describe in further detail as follows, to comprise light path converting assembly and display module further in described first display unit 104, this light path converting assembly can a part be arranged on described body apparatus 101, and another part is arranged in described stationary installation 102; This display module then can be arranged in described body apparatus 101 or described stationary installation 102 as required.

Further, as shown in Figure 1A to 1E, described first display unit 104 comprises the first viewing area 1041, and described first viewing area 1041 is the regions being actually observed picture material display by user.When the eye of beholder is apart from described first viewing area 1,041 first Distance geometry second distance, can perceive different contents, described first distance is greater than described second distance.

Principle and the embodiment of described first display unit 104 is specifically described hereinafter with reference to Fig. 2 A to 2D and Fig. 3 A to 3C.

Fig. 2 A illustrates the schematic diagram of the nearly optics of the eye display system adopted in the electronic equipment according to the utility model first embodiment.According in the electronic equipment of the utility model first embodiment, adopt nearly optics of the eye display system as described first display unit 104.As shown in Figure 2, the light corresponding to the image shown by it that the micro-display unit 201 in nearly optics of the eye display system sends receives via the light path converting assembly 202 of such as lens combination and carries out corresponding light path converting.As a result, the light after light path converting enters the pupil 203 of beholder, forms the virtual image of amplifying.

Fig. 2 B to 2D illustrates three kinds of embodiments based on schematic diagram as shown in Figure 2 A further.Particularly, the illustrated technical scheme of Fig. 2 B have employed folding and to spread out compound curved surface design, and wherein lens combination 204 corresponds to the light path converting assembly 202 shown in Fig. 2 A, thus reduces required eyeglass volume.The illustrated technical scheme of Fig. 2 C have employed Random Curved Surface Designing, and the free-form surface lens group 205 comprising curved surface 1, curved surface 2 and curved surface 3 corresponds to the light path converting assembly 202 shown in Fig. 2 A, thus further reduces required eyeglass volume.The illustrated technical scheme of Fig. 2 D then have employed parallel flat design, wherein except corresponding to the lens combination 206 of the light path converting assembly 202 shown in Fig. 2 A, also comprises light wave guide card 207.By utilizing light wave guide card 207, when the lens thickness needed for reducing, the exit direction (that is, the display direction of the virtual image of amplification) for the light forming the virtual image of amplifying carries out the control of such as translation.What those skilled in the art will readily understand is, the nearly optics of the eye display system adopted in electronic equipment according to the utility model first embodiment is not limited to shown in above Fig. 2 B to 2D, but can also adopt other embodiments of such as projection eyepiece design.

Fig. 3 A to 3C illustrates the schematic diagram according to the first display unit in the electronic equipment of the utility model embodiment.The above nearly optics of the eye display system described with reference to Fig. 2 A to 2D is adopted according to the first display unit 104 in the electronic equipment 100 of the utility model first embodiment.Described first display unit 104 comprises the first display module 301 and the first light path converting assembly 302 (the first light path converting assembly 302A to 302C in Fig. 3 A to 3C), and described first display module 301 is for showing the first image; Described first light path converting assembly 302 is for receiving the light corresponding with described first image sent from described first display module 301, and the light corresponding to described first image carries out light path converting, to form the amplification virtual image corresponding to described first image.

Particularly, in figure 3 a, described first display module 301 can be micro-display, and described first light path converting assembly 302A is formed by lens combination.This lens combination forms the amplification virtual image corresponding with described first image that described first display module 301 shows.

In figure 3b, described first display module 301 can be also micro-display, and described first light path converting assembly 302B is formed by the optical device carrying out multiple reflections in equipment.In the case, compared with the described first light path converting assembly 302A shown in Fig. 3 A, the space size needed for the first display unit 104 can be saved, thus be convenient to the Design and manufacture of the electronic equipment of miniaturization more.

In fig. 3 c, described first display module 301 can be micro-display too, and described first light path converting assembly 302C is formed by the variable focus lens package of carrying out flexible zoom in equipment under driver element (not shown) drives.In the case, compared with the described first light path converting assembly 302A shown in Fig. 3 A, dynamically can be adjusted the size of the amplification virtual image shown by described first display unit 104 by zoom, thus meet the different needs of user.

As shown in Fig. 3 A to 3C, the region that the picture material actually observing the first display unit 104 by user shows is above described first viewable portion 1041 described with reference to Figure 1A to 1C.

Fig. 4 A and 4B is that general introduction diagram is according to the electronic equipment of the utility model embodiment and the schematic diagram showing state thereof.

As shown in Figure 4 A, described first display unit 101 comprises the first viewing area 1041, when the eye 30 of described beholder is apart from described first viewing area 1,041 first distance L1, can perceive the first image-region 1041 of image ₁.Now, the first content 1042 of the first image shown by described first display unit 104 is presented at described first image-region 1041 ₁in, make the eye 30 of described beholder can the first content 1042 of the first image described in perception apart from during described first viewing area 1,041 first distance L1.

As shown in Figure 4 B, when the eye 30 of described beholder is apart from described first viewing area 1041 second distance L2, the second image-region 1041 of image can be perceived ₂.Described second image-region 1041 ₂comprise described first image-region 1041 ₁, described first distance L1 is greater than described second distance L2.Now, the second content 1043 in described first image is presented at described second image-region 1041 ₂, make the eye 30 of described beholder apart from described in described first viewing area during second distance L2, described second content 1043 can be perceived, described second image-region 1041 ₂in the containing much information in described first image-region 1041 of described second content 1043 of described first image ₁in the quantity of information of first content 1042 of described first image.

In the example that such as Fig. 4 A and Fig. 4 B summarizes, eye 30 along with described beholder moves closer to described first viewing area 1041, the image-region of its energy perception expands, and when the display image that described first display unit 104 exports is constant, in image-region, the quantity of information of perceived content also increases thereupon.

Can further according to the using state of beholder according to the electronic equipment of the utility model embodiment and display packing, the display adjusting image is adaptively to ensure the content that user can watch desired by perception.

Fig. 5 A to 5C specifically illustrates according to the electronic equipment of the utility model embodiment and the schematic diagram of display state first example thereof further.

As shown in Fig. 5 A to 5C, the electronic equipment according to the utility model embodiment is configured with first sensor unit 105 further.Described first sensor unit 105 is arranged in described body apparatus 101 and/or described stationary installation 102, for the relative position parameter of the eye 30 with described first viewing area 1041 that sense described beholder.In embodiment of the present utility model, described relative position parameter includes but not limited to the parameters such as such as distance, direction.

State shown in Fig. 5 A is identical with Fig. 4 A, when namely the eye 30 of described beholder is apart from described first viewing area 1,041 first distance L1, can perceive the first image-region 1041 of image ₁.Now, the first content 1042 of the first image shown by described first display unit 104 is presented at described first image-region 1041 ₁in, make the eye 30 of described beholder can the first content 1042 of the first image described in perception apart from during described first viewing area 1,041 first distance L1.

In Fig. 5 B and 5C, the eye 30 that described first sensor unit 105 senses described beholder there occurs change with the relative position parameter of described first viewing area 1041, and wherein when the eye 30 of described beholder remains unchanged apart from the distance of described first viewing area 1041, described processing unit 103 generates and controls the first more new images that described first display unit 104 display comprises described first content 1042, makes described beholder still can perceive described first content 1042.In a preferred embodiment of the present utility model, described first content 1042 is that user uses the content of wishing during electronic equipment always to watch.That is, described first content 1042 has higher viewing priority relative to the other guide in the first image of described first display unit 104 display.Such as, described first content 1042 can include but not limited to the contents such as time, notice, weather forecast, p.m.entry.

Particularly, as shown in Figure 5 B, the eye 30 of described beholder is not mobile relative to described first viewing area 1041, and the direction of visual lines that the eye 30 that described first sensor unit 105 senses described beholder watches described first viewing area 1041 attentively changes.In the example shown in Fig. 5 B, the right side of described first viewing area 1041 is watched in the direction that the eye 30 of described beholder watches described first viewing area 1041 attentively attentively from the zero turn radius watching described first viewing area 1041 attentively.In response to this, described processing unit 103 generates and controls the first more new images that described first display unit 104 display comprises described first content 1042, the first described first content 1042 more in new images is made correspondingly to be presented at the right side of described first viewing area 1041, can by 30 perception of the eye of described beholder.

Further, as shown in Figure 5 C, there is translation relative to described first viewing area 1041 in the eye 30 that described first sensor unit 105 senses described beholder.In the example shown in Fig. 5 C, the eye 30 of described beholder relative to described first viewing area 1041 to right translation.In response to this, described processing unit 103 generates and controls the first more new images that described first display unit 104 display comprises described first content 1042, the first described first content 1042 more in new images is made correspondingly to be presented at the right side of described first viewing area 1041, can by 30 perception of the eye of described beholder.So, only just can provide enough large viewing area for described beholder with the first single display unit of configuration, and the change according to the eye of described beholder and the relative position relation of viewing area provides renewable display image adaptively, ensure that the content with higher viewing priority can always by beholder's perception.Compared with the even multiple display unit of configuration two, achieve displaying scheme flexibly with lower cost.

Fig. 6 is the first pass figure that diagram corresponds to the display packing according to the utility model embodiment of the first example.As shown in Figure 6, comprise the following steps according to the first pass of the display packing of the utility model embodiment.

In step s 601, described processing unit 103 generates or obtains the first picture signal for showing.After this, process enters step S602.

In step S602, described first display unit 104 performs the display of described first image based on described first picture signal.After this, process enters step S603.

In step S603, described first sensor unit 105 senses the eye 30 of described beholder and the relative position parameter of described first viewing area 1041.After this, process enters step S604.

In step s 604, judge whether the relative position parameter sensed changes.

If obtain positive result in step s 604, the relative position parameter namely sensed changes, then process enters step S605.

In step s 605, described processing unit 103 generates and controls the first more new images that described first display unit 104 display comprises described first content 1042.Shown in Fig. 5 B and 5C, when the eye 30 of described beholder remains unchanged apart from the distance of described first viewing area 1041, be no matter that direction of visual lines that the eye 30 of described beholder watches described first viewing area 1041 attentively changes or the eye 30 of described beholder, relative to described first viewing area 1041, translation occurs, can make the first described first content 1042 more in new images can by 30 perception of the eye of described beholder.

On the contrary, if obtain negative decision in step s 604, the relative position parameter namely sensed does not change, then the processing returns to step S602.

Fig. 7 A to 7C specifically illustrates according to the electronic equipment of the utility model embodiment and the schematic diagram of display state second example thereof further.

As shown in Fig. 7 A to 7C, be configured with the second sensor unit 106 further according to the electronic equipment of the utility model embodiment.Described second sensor unit 106 is arranged in described body apparatus 101 and/or described stationary installation 102, for sensing the distance parameter of eye 30 apart from described first viewing area 1041 of described beholder.In embodiment of the present utility model, described second sensor unit 106 can adopt the such as distance measuring method such as infrared distance measurement, brightness range finding, and the distance parameter measured can be converted to the actual range of eye 30 apart from described first viewing area 1041 of described beholder.

State shown in Fig. 7 A is identical with Fig. 5 A with Fig. 4 A, when namely the eye 30 of described beholder is apart from described first viewing area 1,041 first distance L1, can perceive the first image-region 1041 of image ₁.Now, the first content 1042 of the first image shown by described first display unit 104 is presented at described first image-region 1041 ₁in, make the eye 30 of described beholder can the first content 1042 of the first image described in perception apart from during described first viewing area 1,041 first distance L1.

In figure 7b, described second sensor unit 106 senses described distance and changes into described second distance L2 from the described first distance L1 shown in Fig. 7 A.Described processing unit 103 generates and controls described first display unit 104 and shows the second image, and the second content 1044 in wherein said second image is presented at described second image-region 1041 ₂, make the eye 30 of described beholder apart from described in described first viewing area 1041 during second distance L2, described second content 1044 can be perceived.As shown in Figure 7 B, described second image-region 1041 ₂in the containing much information in described first image-region 1041 of the second content 1044 of described second image ₁in the quantity of information of first content 1042 of described first image.

In fig. 7 c, described second sensor unit 106 senses described distance and changes into described first distance L1 from the described second distance L2 shown in Fig. 7 B further.Described processing unit 103 generates and controls described first display unit 104 and shows the 3rd image, and described beholder can perceive the 3rd image-region 1041 of image ₃, described 3rd image-region 1041 ₃described 3rd image-region 1041 is in when being included in described second distance L2 ₃outer and described second image-region 1041 ₂in a part described in first content, make the eye 30 of described beholder apart from described in described first viewing area 1041 during the first distance L1, described first content 1045 can be perceived.

As mentioned above, when shown in Fig. 4 A and 4B, the display image that described first display unit 104 exports remains unchanged apart from the distance change of described first viewing area 1041 along with the eye 30 of described beholder.Unlike this, in the second example shown in Fig. 7 A to Fig. 7 C, described first display unit 104 export display image along with described beholder eye 30 apart from described first viewing area 1041 distance change correspondingly there occurs change.Further, when the display image exported changes, the eye 30 of described beholder is still kept can to perceive the first content with higher viewing priority.Such as, when described distance changes into the first distance L1 described in Fig. 7 C from the described second distance L2 shown in Fig. 7 B further, user can described 3rd image-region 1041 of perception ₃can described second image-region 1041 of perception than during described second distance L2 ₂little.Therefore, in the 3rd image generated along with distance change, described 3rd image-region 1041 will be in ₃first content described in an outer part is brought to described 3rd image-region 1041 ₃in, the eye 30 of described beholder is not omitted apart from perceiving whole first contents during the first distance L1 described in described first viewing area 1041.In the second example shown in Fig. 7 A to Fig. 7 C, described first distance L1 is greater than the first predetermined threshold, and described second distance L2 is less than described first predetermined threshold.

Fig. 8 is the second process flow diagram that diagram corresponds to the display packing according to the utility model embodiment of the second example.As shown in Figure 8, comprise the following steps according to the second flow process of the display packing of the utility model embodiment.

In step S801, described processing unit 103 generates or obtains the first picture signal for showing.After this, process enters step S802.

In step S802, described first display unit 104 performs the display of described first image based on described first picture signal.After this, process enters step S803.

In step S803, described second sensor unit 106 senses the distance parameter of eye 30 apart from described first viewing area 1041 of described beholder.After this, process enters step S804.

In step S804, judge whether that the distance sensed becomes second distance L2 from the first distance L1.

If obtain positive result in step S804, namely sense distance and become second distance L2 from the first distance L1, then process enters step S805.

In step S805, described processing unit 103 generates and controls described first display unit 104 and shows the second image.Described in Fig. 7 B, the second content 1044 in described second image is presented at described second image-region 1041 ₂, make the eye 30 of described beholder apart from described in described first viewing area 1041 during second distance L2, described second content 1044 can be perceived, described second image-region 1041 ₂in the containing much information in described first image-region 1041 of the second content 1044 of described second image ₁in the quantity of information of first content 1042 of described first image.

On the contrary, if obtain negative decision in step S804, namely do not sense distance and change, then the processing returns to step S802.

After step S805, process enters step S806.

In step S806, judge whether that the distance sensed becomes the first distance L1 from second distance L2 further.

If obtain positive result in step S806, namely sense distance and become the first distance L1 from second distance L2, then process enters step S807.

In step S807, described processing unit 103 generates and controls described first display unit 104 and shows the 3rd image.Described in Fig. 7 C, described beholder can perceive the 3rd image-region 1041 of image ₃, described 3rd image-region 1041 ₃described 3rd image-region 1041 is in when being included in described second distance L2 ₃outer and described second image-region 1041 ₂in a part described in first content, make the eye 30 of described beholder apart from described in described first viewing area 1041 during the first distance L1, described first content 1045 can be perceived.

On the contrary, if obtain negative decision in step S806, namely do not sense distance and change further, then the processing returns to step S805.

Below, describe in further detail according to the first display unit in the electronic equipment of the utility model embodiment with reference to Fig. 9 to Figure 15.

Fig. 9 is the structured flowchart of diagram according to the display unit of the utility model embodiment.In order to succinctly illustrated, in Fig. 9, only diagram comprises the first display unit 901 of display module 100 and light path converting assembly 200, and the inside configuration of described display module 100 and light path converting assembly 200 and light path do not illustrate in fig .9.

As shown in Figure 9, the light forming described first image in described display module 100 is in the first plane 300, and is in the second plane 400 from the light of the formation of the outgoing of described light path converting assembly 200 virtual image corresponding with described first image.There is the first angle in described first plane 300 and described second plane 400.In a preferred embodiment of the present utility model, described first angle is 90 degree.In the case, the first size La of described display module on the direction perpendicular to described first plane is made to be less than the second size Lb of described display module on the direction being parallel to described first plane.Therefore, when described first display unit 901 is arranged in Wearable electronic equipment, such as, when electronic equipment is intelligent glasses, (namely described display module 100 is arranged in the framework of the side of intelligent glasses, leg of spectacles) in, so configuration makes the thickness of the framework for arranging described display module 100 thinner.Similarly, when electronic equipment is intelligent watch, described display module 100 is arranged in the watchband of the side of intelligent watch, and so configuration makes the thickness of the watchband for arranging described display module 100 thinner.Therefore, reduce according to the thickness that the described display module 100 of the 8th embodiment of the present utility model achieves on specific direction, and thus realize being arranged in the thickness reduction in the corresponding direction of the first display unit 901.

Figure 10 A and 10B is the structured flowchart of the existing and display unit according to the utility model embodiment of diagram respectively.Similar according to the first display unit 901 of the utility model embodiment with as shown in Figure 9, the first display unit 902 according to embodiment of the present utility model comprises display module 100 and light path converting assembly 200 equally.As shown in Figure 10 A, in existing display module 100A, specifically comprise light source subassemblies 111, even photonic component 112 and display sub-component 12, described light source subassemblies 111 overlaps by wherein said even photonic component 112 on the transmit direction of the original light corresponding with described first image, and the pointolite that described light source subassemblies 111 is launched evenly is turned to backlight by described even photonic component 112.Unlike this, as shown in Figure 10 B, according in the first display unit 902 of the utility model embodiment, shown display module 100B specifically comprises luminous sub-component 11 and display sub-component 12.Described luminous sub-component 11 for generation of and launch planar backlight (light as shown in dotted arrow in Figure 10 B), namely described planar backlight is positioned at above with reference to the first plane described in Fig. 9.Described display sub-component 12 is arranged in the irradiation area of described planar backlight, for according to described first image, produces the original light (as by Figure 10 B light solid arrow shown in) corresponding with described first image.

Therefore, as shown in Figure 10 B according in the first display unit 902 of the utility model embodiment, substitute the array mode of a single point light source as shown in Figure 10 A and the even photosystem of optics with the single luminous sub-component 11 of plane of departure backlight, thus make to reduce according to the thickness of display module 100 on the transmit direction of the original light corresponding with described first image of the second display unit 902 of embodiment of the present utility model.

Figure 11 is the structured flowchart of diagram according to the luminous sub-component in the first display unit of the utility model embodiment.Luminous sub-component 11 as shown in figure 11 can be a kind of embodiment of the luminous sub-component according to the plane of departure backlight in the first display unit 902 of the utility model embodiment shown in Figure 10 B.Light source part 101 and light guide member 102 is specifically comprised according to the luminous sub-component 11 in the display unit of the utility model embodiment.Particularly, described light source part 101 is for second direction emission of light (light as shown in dotted arrow in Figure 11), described light guide member 102 is arranged in the irradiation area of described light, and described light forms described backlight (light as shown in solid arrow in Figure 11) by described light guide member 102.That is, described light guide member 102 is by being converted to planar backlight using the light launched as the described light source part 101 of a single point light source, and namely described planar backlight is positioned at above with reference to the first plane described in Fig. 9.In a preferred embodiment of the present utility model, described light source subassembly 101 can be LED light source, and described luminous sub-component 11 can also comprise blooming piece.By the THICKNESS CONTROL of whole luminous sub-component 11 within such as 1.5mm, and control within 14 degree by the lighting angle of the planar backlight after the conversion of described light guide member 102, the maximum angle namely making the exit direction and described second direction forming described backlight by described light guide member 102 is 7 degree.Therefore, same direction (that is, described second direction) can be regarded as by the transmit direction of the planar backlight after the conversion of described light guide member 102 is approximate, avoid the generation to the parasitic light being different from described second direction outgoing.

Therefore, in the luminous sub-component 11 of the display unit according to embodiment of the present utility model, the light emission direction of described light source part 101 change from described light guide member 102 after light emission direction different (namely, on the direction vertical with backlight emission direction, described light source part 101 is arranged in described light guide member 102 side), thus make to compare with the situation of light guide member with arranged superposed light source part on backlight emission direction, the thickness of display module 100 on the transmit direction of the original light corresponding with described second image according to the display unit 903 of the utility model embodiment reduces.

Figure 12 is the structured flowchart of diagram according to the display module in the first display unit of the utility model embodiment.As shown in figure 12, luminous sub-component 51, display sub-component 52 and beam splitting sub-component 53 is comprised according to the display module 100 in the first display unit of the utility model embodiment.Particularly, described luminous sub-component 51 is for launching backlight (light as shown in dotted arrow in Figure 12).As mentioned above, described luminous sub-component 51 can be the luminous sub-component of the plane of departure backlight above with reference to Figure 10 and Figure 11 description.From the backlight transmission of described luminous sub-component 51 by described beam splitting sub-component 53.In a preferred embodiment of the present utility model, described beam splitting sub-component 53 is polarization beam splitting sub-component (PBS).The backlight of the P polarization that described luminous sub-component 51 is launched is transmitted through at the PBS as described beam splitting sub-component 53, to irradiate described display sub-component 52.Described display sub-component 52 is arranged in the irradiation area of the backlight being transmitted through described beam splitting sub-component 53, for according to described first image, produces the original light (light as shown in Figure 12 solid arrow) corresponding with described first image.Further, the original light (be modulated to S polarized light after) corresponding with described first image from described display sub-component 52 reflects at the PBS place as described beam splitting sub-component 53, with the described light path converting assembly that leads via described beam splitting sub-component 53.

Figure 13 is the structured flowchart of diagram according to the display module in the first display unit of the utility model embodiment.As shown in figure 13, luminous sub-component 61, display sub-component 62 and beam splitting sub-component 63 is comprised according to the display module 100 in the first display unit of the utility model embodiment.Particularly, described display sub-component 62, for according to described first image, produces the display corresponding with described first image.Described luminous sub-component 61 is for producing the original light corresponding with described first image based on described display.That is, the OLED display device of emissive type is may be embodied as according to the luminous sub-component 61 in the first display unit of the utility model embodiment and display sub-component 62, described display sub-component 62 is for the control sub-component according to the first Computer image genration display drive signals that will show, and described luminous sub-component 61 is the light emitting layer performing luminescence display based on the display drive signals received.Be similar to situation about describing with reference to Figure 12, described beam splitting sub-component 63 is for the described light path converting assembly that led by the original light corresponding with described first image from described luminous sub-component 61.In a preferred embodiment of the present utility model, described beam splitting sub-component 63 is polarization beam splitting sub-component (PBS).

Therefore, in the display module 100 of the first display unit according to the utility model embodiment, described display sub-component and luminous sub-component is integrated is arranged in described beam splitting sub-component side, makes the size of described first display unit on the direction producing described original light be less than the size of the first display unit on the direction of original light as described in producing as described under described display sub-component and the integrated situation (situation as shown in reference to Figure 12) being arranged in described beam splitting sub-component both sides of luminous sub-component.

Figure 14 is the structured flowchart of diagram according to the display sub-component in the first display unit of the utility model embodiment.Display sub-component 12 shown in Figure 14 can be used for the display module described with reference to Figure 10 to Figure 13.As shown in figure 14, described display sub-component 12 comprises micro-display unit 701, circuit board component 702 and substrate element 703.Particularly, described micro-display unit 701 is configured by multiple pixel unit array, and each pixel cell is for generation of the original light corresponding with described first image.Described circuit board component 702 produces the original light corresponding with described first image for providing control signal according to described first image with the pixel cell controlled in described micro-display unit 701.Described substrate element 703 is for configuring described micro-display unit 701 and circuit board component 702 thereon.Bending strength and the fracture toughness of described substrate element 703 can be represented by following equalities:

${\mathrm{\σ}}_f=\sqrt{\frac{2E{\mathrm{\γ}}_f}{C}}$ (equation 1)

$K_{\mathrm{ZC}}=\sqrt{2Z{\mathrm{\γ}}_f}$ (equation 2)

Wherein σ _ffor bending strength, K _zCfor fracture toughness, E are elastic modulus, γ _ffor energy to failure and C is crack size.As can be seen from above-mentioned equation 1 and 2, in order to improve the strength of materials, energy to failure and elastic modulus must be improved, to reduce discontinuity size.Reach toughness of material, energy to failure and elastic modulus must be improved.In the prior art, substrate element is prepared by the metal base of such as aluminium usually, and its thickness often reaches 1.6mm.The modular ratio metal of the nonmetallic materials of such as stupalith is large many, often exceeds 1 times to several times.

Therefore, in the display sub-component of the first display unit according to the utility model embodiment, described substrate element 703 is prepared by the nonmetallic materials meeting predetermined strength, the substrate element thickness that the Thickness Ratio of described substrate element 703 is prepared by the metal material meeting predetermined strength is low (such as, being low to moderate 0.25mm).

Figure 15 A and 15B is the structured flowchart of diagram according to the 3rd example of the first display unit of the utility model embodiment.As shown in figs. 15a and 15b specifically comprise display module 100 and light path converting assembly 200 according to the first display unit of the utility model embodiment.

Particularly, described display module 100 comprises display sub-component 12 and beam splitting sub-component 13 (as shown in fig. 15), the above display module describing this type with reference to Figure 13.Alternately, described display module 100 comprises luminous sub-component 11, display sub-component 12 and beam splitting sub-component 13 (as shown in fig. 15b), the above display module describing this type with reference to Figure 12.At this, the repeated description for display module 100 and light path thereof will be omitted.

As shown in figs. 15a and 15b, described light path converting assembly 200 comprises collimation sub-component 21 and waveguide sub-component 22 further.Described collimation sub-component 21 is for collimating the original light corresponding with described first image from described display module 100 as the collimated ray corresponding with described first image and importing described waveguide sub-component 22.Particularly, described collimation sub-component 21 comprises the first collimating components 201 and the second collimating components 202 positioned opposite, and the polarization beam splitting parts 203 be arranged between described first collimating components 201 and the second collimating components 202, the light corresponding with described first image from described display module 100 initially reflects to described first collimating components 201 via described polarization beam splitting parts 203, then via described first collimating components 201 and the second collimating components 202 collimation after through by described polarization beam splitting parts 203 as the collimated ray outgoing corresponding with described first image.The collimated ray corresponding with described first image from described collimation sub-component 21 leads described ad-hoc location by described waveguide sub-component 22, and wherein corresponding with described first image collimated ray is for the formation of the virtual image corresponding with described first image.In a preferred embodiment of the present utility model, described first collimating components 201 and the second collimating components 202 can be the single lens or lens combination that design as required.Adjustment described first collimating components 201 of configuration and the lens of the second collimating components 202 or the relative position of lens combination, can realize the size adjustment of the virtual image corresponding with described first image.

In addition, as shown in figs. 15a and 15b, described waveguide sub-component 22 comprises the first reflection part 204 and/or the second reflection part 205 further, by arranging position and the angle of the first reflection part 204 and/or the second reflection part 205, can control to lead described ad-hoc location outgoing from the collimated ray corresponding with described first image of described collimation sub-component 21.In a first case, described collimation sub-component 21 and described display module 100 are in the first side relative to plane residing for described waveguide sub-component 22, when arranging by the first reflection part 204 as shown in figs. 15a and 15b, and can to described first side outgoing.In a second situation, when arranging by the second reflection part 203 as shown in figs. 15a and 15b, the collimated ray corresponding with described first image can to the second side outgoing of plane residing for described waveguide sub-component 22, and described first side and the second side are the opposition sides relative to plane residing for described waveguide sub-component.Particularly, when described first display unit is such as applied to wear-type electronic equipment, the configuration example of above-mentioned first situation can be adopted, make the collimated ray corresponding with described first image to described first side outgoing, namely make described collimated ray to the eye outgoing of user of wearing wear-type electronic equipment.When described first display unit is such as applied to Wrist belt-type electronic equipment, the configuration example of above-mentioned first situation can be adopted, make the collimated ray corresponding with described first image to described second side outgoing, namely make described collimated ray to wearing and watching the eye outgoing of the user of Wrist belt-type electronic equipment.Further, to further describe as follows, the exit direction configuring described first display unit can be needed according to viewing, such as can control the rotation of described first reflection part 204 and/or the second reflection part 205, to control described first reflection part 204 and/or the second reflection part 205 exit direction, realize the switching of the two-way display of described first display unit.

Therefore, according in the first display unit of the utility model embodiment, the folding imaging optical path realizing between described first collimating components 201 and the second collimating components 202 by utilizing described polarization beam splitting parts 203 in described collimation sub-component 21, thus reduce the overall dimensions of described first display unit.

Figure 16 A is the schematic diagram of diagram according to the electronic equipment of another embodiment of the utility model.As shown in figure 16, the electronic equipment 1000 carrying out another embodiment according to the utility model also comprises the second display unit 107, for performing the display of image, it is arranged in described body apparatus 101 and/or described stationary installation 102, and wherein said first display unit 104 and described second display unit 107 are dissimilar display unit.

As shown in fig 16b, described first display unit 104 has the first viewing area 1041, and described second display unit 107 has the second viewing area 1071, and the edge adjacent with described second viewing area 1071, described first viewing area 1041 is curve.As from Figure 16 A and 16B finding, in order to configure described first display unit 104 and described second display unit 107 in electronic equipment 1000 simultaneously, described second display unit 107 demand fulfillment is unconventional form and narrow frame.

Below, described second display unit 107 is further described with reference to Figure 17 to Figure 25 B.

Can be that such as liquid crystal display, light-emitting diode display, plasma scope etc. need for it provides the second display unit of drive singal according to the second display unit of the utility model embodiment.

Figure 17 is the structured flowchart of general introduction according to the second display unit of the utility model embodiment.The second display unit 107 as shown in figure 17 comprises array of display cells 10, many first kind drive wires 20, many Equations of The Second Kind drive wires 30 and display driver assemblies 40.Particularly, described array of display cells 10 comprises multiple display subelement 10 ₁₁10 _nn.It is easily understood that the array of display cells 10 be made up of multiple display subelement is as shown in figure 17 only schematic, wherein the number of multiple display subelement and concrete distribution thereof can depend on design and use demand and change.Described many first kind drive wires 20 each (20 ₁20 _n) with described many Equations of The Second Kind drive wires 30 each (30 ₁30 _n) intersect, its intersection point and described multiple display subelement (10 ₁₁10 _nn) in each display subelement corresponding, to provide display drive signals for each display subelement described.Described display driver assembly 40 is connected with described many first kind drive wires and many Equations of The Second Kind drive wires, to provide display drive signals for described many first kind drive wires and many Equations of The Second Kind drive wires.

Different from the configuration mode that many first kind drive wires in prior art and many Equations of The Second Kind drive wires are connected respectively to horizontal driving units and vertical drive units, the second display unit 107 according to the utility model embodiment only comprises single display driver assembly 40, thus saved and arrange wiring space needed for display driver assembly and simplify design complexities.In addition, according in the second display unit 107 of the utility model embodiment, described many first kind drive wires 20 and many Equations of The Second Kind drive wires 30 are divided at least two drive wire groups, and each group in described at least two drive wire groups is connected to described display driver assembly 40.The mode that this grouping connects drive wire will greatly reduce the edge wiring of the second display unit 107, make the frame encapsulating it fully can narrow and can be adapted to different frame shapes neatly.Below, the concrete configuration of the second display unit according to the utility model embodiment is described in further detail with reference to Figure 18 A to Figure 25 B.

Figure 18 A to Figure 18 C is the top-level view, bottom view and the lateral plan that illustrate according to the first example of the second display unit of the utility model embodiment.Particularly, Figure 18 A is the top-level view of the second display unit 107A according to the utility model first embodiment.It is easily understood that the number of drive wire as shown in Figure 18 A and wire laying mode are only schematic, the second display unit 107A according to the utility model embodiment is not limited thereto.As shown in Figure 18 A, described many first kind drive wires and many Equations of The Second Kind drive wires are divided into multiple drive wire group (being divided into 4 groups shown in Figure 18 A).As from Figure 18 A finding, adopt the wire laying mode that so divides into groups, be tending towards concentrated in the wiring area at the edge of the second display unit 107A, thus be convenient to narrowing further of the frame of the second display unit 107A.That is, in the electronic equipment of configuration according to the second display unit 107A of the utility model embodiment, the second display unit 107A can the form of adaptive electronic equipment as required.Specifically, by carrying out packet configuration for the wiring of the second display unit 107A, the edge that the form based on electronic equipment can be suitable for the second display unit 107A connected up is selected as being configured with the region of connecting up and dividing into groups, and the edge form based on electronic equipment not being possessed the second display unit 107A of wiring space selects do not have laying-out and wiring to divide into groups.At this, the edge not possessing the second display unit 107A of wiring space may be the edge that the edge of the second display unit 107A overlaps substantially with the housing of electronic equipment own.Alternatively, the edge not possessing the second display unit 107A of wiring space may be that the housing of electronic equipment own is irregular form thus the edge that connects up is carried out in inconvenience.Below, concrete example is described with reference to the accompanying drawings.

Further, Figure 18 B is the bottom view of the second display unit 107A according to the utility model embodiment.As shown in figure 18b, described second display unit 107A also comprises multiple line concentration assembly 50, each group in multiple drive wire group is divided into be connected to described display driver assembly 40 via in described multiple line concentration assembly 50 by described many first kind drive wires and many Equations of The Second Kind drive wires, one in described multiple line concentration assembly 50 is organized with each in described at least two drive wire groups the input end subnumber be connected is M, the output terminal subnumber be connected with described display driver assembly 40 is N, and M>N.In the embodiment shown in Figure 18 B, the input end subnumber that described line concentration assembly 50 is connected with a drive wire group is 3, and the output terminal subnumber be connected with described display driver assembly 40 is 2.Through being connected the wire laying mode of display driver assembly by line concentration assembly after adopting so grouping, the wiring quantity performed needed for display driver can be reduced further.Certainly, easy understand is, the second display unit according to the utility model embodiment is not limited thereto, but the drive wire group after grouping can be directly connected to described display driver assembly 40 and without the need to described multiple line concentration assembly 50.

Further, Figure 18 C is the lateral plan of the second display unit 107A according to the utility model embodiment.As shown in figure 18 c, the side on the residing surface of described array of display cells 10 is visible side, and described many first kind drive wires 20 and many Equations of The Second Kind drive wires 30 at least partially and described display driver assembly 40 be arranged in the opposite side on described surface.Particularly, described display driver assembly 40 is in the bottom surface 70 of described second display unit 107A, described second display unit 107A also comprises and connects the described residing edge on surface of array of display cells 10 and the side 60 of described bottom surface 70, arranges described many first kind drive wires 20 and many Equations of The Second Kind drive wires 30 along described side 60.In the lateral plan shown in Figure 18 C, the projection in described many first kind drive wires 20 and the part of many Equations of The Second Kind drive wires 30 on surface residing for described array of display cells 10 face (that is, bottom surface 70) vertical with visual orientation is distance L apart from the edge on the described residing surface of array of display cells 10.Described distance L is satisfied is less than a predetermined threshold.Can arrange according to design and display demand at predetermined threshold, such as it can be set to 10mm, 5mm, 1mm.Even when dividing into groups wiring, this distance L can be 0.That is, at the not lower folding of drive wire so that the edge be connected with described display driver assembly 40, the wiring of drive wire can not be there is, and at the edge of this part, the frame of the described residing surface of array of display cells 10 except viewing area is the narrowest.

Figure 19 A and Figure 19 B is the schematic diagram of diagram according to the second example of the second display unit of the utility model embodiment.According in the second display unit 107B and 107C of the utility model embodiment, described many first kind drive wires and many Equations of The Second Kind drive wires are divided into each group in multiple drive wire group only can comprise described first kind drive wire or described Equations of The Second Kind drive wire, or described many first kind drive wires and many Equations of The Second Kind drive wires are divided into each group in multiple drive wire group can comprise described first kind drive wire and described Equations of The Second Kind drive wire.Particularly, as shown in Figure 19 A, according in the second display unit 107B of the utility model embodiment, described many first kind drive wires and many Equations of The Second Kind drive wires are divided into each group in multiple drive wire group only can comprise described first kind drive wire (such as, by 20 ₁, 20 ₂, 20 ₃form grouping and by 20 _n-2, 20 _n-1, 20 _nform grouping) or described Equations of The Second Kind drive wire (such as, by 30 ₁, 30 ₂, 30 ₃form grouping and by 30 _n-2, 30 _n-1, 30 _nthe grouping formed).In contrast to this, as shown in Figure 19 B, according in the second display unit 107C of the utility model embodiment, described many first kind drive wires and many Equations of The Second Kind drive wires are divided into each group in multiple drive wire group to comprise described first kind drive wire and described Equations of The Second Kind drive wire (such as, by 20 ₁, 20 ₂, 20 ₃, 30 ₁, 30 ₂, 30 ₃form grouping and by 20 _n-2, 20 _n-1, 20 _n, 30 _n-2, 30 _n-1, 30 _nthe grouping formed).As from Figure 19 A and 19B finding, adopt the wire laying mode that so divides into groups, the packet mode of described many first kind drive wires and many Equations of The Second Kind drive wires is more flexible, can select the drive wire forming grouping, and do not limit by the classification of drive wire itself according to design and display demand.

Figure 20 A and Figure 20 B is the schematic diagram of diagram according to the 3rd example of the second display unit of the utility model embodiment.According in the second display unit 107D and 107E of the utility model embodiment, described many first kind drive wires and many Equations of The Second Kind drive wires are divided into each group in multiple drive wire group can only comprise adjacent drive wire, or described many first kind drive wires and many Equations of The Second Kind drive wires are divided into each group in multiple drive wire group can comprise non-conterminous drive wire.Particularly, as shown in FIG. 20 A, according in the second display unit 107D of the utility model embodiment, described many first kind drive wires and many Equations of The Second Kind drive wires are divided into each group in multiple drive wire group only can comprise adjacent drive wire (such as, by adjacent 20 ₁, 20 ₂, 20 ₃; 20 _n-2, 20 _n-1, 20 _n; 30 ₁, 30 ₂, 30 ₃and 30 _n-2, 30 _n-1, 30 _nthe grouping formed).In contrast to this, as shown in fig. 20b, according in the second display unit 107E of the utility model embodiment, described many first kind drive wires and many Equations of The Second Kind drive wires are divided into each group in multiple drive wire group can comprise non-conterminous drive wire (such as, by non-conterminous 20 ₁, 20 ₃, 20 ₅; 20 _n-4, 20 _n-2, 20 _n; 30 ₁, 30 ₃, 30 ₅and 30 _n-4, 30 _n-2, 30 _nthe grouping formed).As from Figure 20 A and 20B finding, adopt the wire laying mode that so divides into groups, the grouping of described many first kind drive wires and many Equations of The Second Kind drive wires is not limited to adjacent driven line to divide into groups, but non-conterminous drive wire can be selected to divide into groups according to design and display demand, thus the narrow frame portion of selection second display unit is avoided to carry out the wiring of drive wire.

Figure 21 is the schematic diagram of diagram according to the 4th example of the second display unit of the utility model embodiment.According in the second display unit 107F of the utility model embodiment, comprising at least one drive wire at least one class drive wire in described many first kind drive wires and many Equations of The Second Kind drive wires is curve.As shown in figure 21, described many first kind drive wires 20 each (20 ₁20 _n) be curve, described many Equations of The Second Kind drive wires 30 each (30 ₁30 _n) be straight line.It is easily understood that the number of drive wire as shown in figure 21 and wire laying mode are only schematic, the second display unit according to the utility model embodiment is not limited thereto.In another preferred embodiment of the present utility model, can be described many Equations of The Second Kind drive wires (30 ₁30 _n) be curve, or described many first kind drive wires (20 ₁20 _n) and described many Equations of The Second Kind drive wires (30 ₁30 _n) in one or more drive wire be curve.

As shown in figure 21, the edge of the viewing area of described second display unit 107F is divided into two parts, the edge of the described viewing area corresponding with described many first kind drive wires that described display driver assembly 40 connects and many Equations of The Second Kind drive wires is arranged in the Part I of described two parts, namely in Figure 21 by the marginal portion shown in thick line, and the edge not arranging the described viewing area of described many first kind drive wires and many Equations of The Second Kind drive wires be connected with described display driver assembly 40 is Part II.In the embodiment shown in Figure 21, described Part I and described Part II have two intersection points, and namely described Part I and described Part II are respectively two independently continuous boundary regions, and it only intersects at respective end points.It is easily understood that, scope of the present utility model is not limited thereto, described Part I and described Part II can be divided into multiple subdivision respectively, and multiple subdivisions of described Part I and described Part II can be alternately distributed mutually, shown in Figure 18 A to Figure 20 B.Due to described many first kind drive wires (20 ₁20 _n) be curve, make Part I edge described in it can be tending towards concentrated.That is, the edge length of the described viewing area that described Part I is corresponding is less than 50% of the edge total length of described viewing area.Such as, in the example shown in Figure 21, the edge length being furnished with described viewing area corresponding to the described Part I of drive wire is 1/3 of the edge total length of described viewing area.Therefore, larger fringe region without the need to carrying out drive wire wiring can be provided for the second display unit 107F, thus be convenient to narrowing further of the frame of the second display unit 107F.That is, in the electronic equipment of configuration according to the second display unit 107F of the utility model embodiment, the second display unit 107F can the form of adaptive electronic equipment as required.Specifically, the configuration that at least one drive wire is curve is comprised by adopting at least one class drive wire in described many first kind drive wires and many Equations of The Second Kind drive wires, drive wire can be suitable for the curved edge of the second display unit connected up to the form based on electronic equipment, and the edge form based on electronic equipment not being possessed the second display unit of wiring space selects do not have laying-out and wiring.At this, the edge not possessing the second display unit of wiring space may be the edge that the edge of the second display unit overlaps substantially with the housing of electronic equipment own.Alternatively, the edge not possessing the second display unit of wiring space may be that the housing of electronic equipment own is irregular form thus the edge that connects up is carried out in inconvenience.

In addition, as shown in figure 21, the shape as the drive wire of curve is mated mutually with the shape at the second display unit edge.In the second display unit 107F shown in Figure 21, the edge shape of described second display unit 107F is oval.It is easily understood that depend on application demand, the edge shape according to the second display unit of the utility model embodiment is not limited to ellipse, but can be the various rules or irregularly shaped such as such as circle.Shape as the drive wire of curve can realize the edge matching better with various rule or erose second display unit.

Particularly, as described many first kind drive wires (20 of curve ₁20 _n) identical with the curvature of described second display unit 107F corresponding edge.Particularly, in the example shown in Figure 21, described many first kind drive wires (20 ₁20 _n) there is phase concentric and the successively outside radial curve group in center for forming one group with the part edge of described second display unit 107F, the part edge of wherein said second display unit 107F is the outermost layer curve of the curve group of this group nested, concentric.Described many Equations of The Second Kind drive wires (30 ₁30 _n) then approximate can be radial to extraradial many straight lines from the described center of circle.Described many Equations of The Second Kind drive wires (30 ₁30 _n) extended line can intersect in the described center of circle.In addition, described many Equations of The Second Kind drive wires (30 ₁30 _n) two groups symmetrical relative to the centre section of described second display unit 107F can be divided into, such as, drive wire 30 ₁, 30 ₂, 30 ₃with drive wire 30 _n-2, 30 _n-1, 30 _n.

In addition, as shown in figure 21, described many first kind drive wires (20 ₁20 _n) on the face vertical with the display direction of described array of display cells, be projected as many curves of equidistantly arranging.In an embodiment of the present utility model, the surface at described array of display cells place may according to application its electronic equipment form and there is fluctuating.Such as, when described second display unit is applied on the dial plate as the intelligent watch of convex surface, the surface at described array of display cells place can be the convex surface corresponding with dial plate.Described convex surface is the display direction of described array of display cells to the outside to the direction of user, described many first kind drive wires (20 ₁20 _n) in the plane vertical with this display direction, be projected as many curves of equidistantly arranging.

Figure 22 is five example schematic diagram of diagram according to the second display unit of the utility model embodiment.According in the second display unit 107G of the utility model embodiment, described many first kind drive wires 20 each (20 ₁20 _n) and described many Equations of The Second Kind drive wires 30 each (30 ₁30 _n) be curve.Particularly, be similar to shown in Figure 21, described many first kind drive wires (20 ₁20 _n) there is phase concentric and the successively outside radial curve group in center for forming one group with the part edge of described second display unit 107G, the part edge of wherein said second display unit 107G is the outermost layer curve of the curve group of this group nested, concentric.Described many Equations of The Second Kind drive wires (30 ₁30 _n) be then approximately divided into the two suite lines symmetrical relative to the centre section of described second display unit 107G, such as, drive wire 30 ₁, 30 ₂, 30 ₃with drive wire 30 _n-2, 30 _n-1, 30 _n.Wherein, drive wire (30 is often organized ₁, 30 ₂, 30 ₃) or (30 _n-2, 30 _n-1, 30 _n) for mutually nested and there is the part of one group of incircle at common point of contact.

Therefore, with as shown in figure 21 according to compared with the second display unit 107F of the utility model embodiment, by described many first kind drive wires 20 and described many Equations of The Second Kind drive wires 30 are all configured to curve, can reduce to be furnished with the length at the edge of described viewing area corresponding to the described Part I of drive wire further.Such as, in the example shown in Figure 22, the edge length being furnished with described viewing area corresponding to the described Part I of drive wire is 1/4 of the edge total length of described viewing area.

Figure 23 is the schematic diagram of diagram according to the 6th example of the second display unit of the utility model embodiment.According in the second display unit 107H of the utility model embodiment, described many first kind drive wires 20 each (20 ₁20 _n) formed circular, described many Equations of The Second Kind drive wires 30 each (30 ₁30 _n) be straight line.Particularly, in the example shown in Figure 23, described many first kind drive wires (20 ₁20 _n) be the concentric circles group with the edge nested, concentric of described second display unit 107H, the edge of wherein said second display unit 107H is the outermost layer circumference of this group concentric circles group.Described many Equations of The Second Kind drive wires (30 ₁30 _n) then can be from the together circle center of described concentric circles group to extraradial many straight lines, described many straight lines are many diameters of outermost layer circumference.Therefore, compare with the second display unit 107F with 107G as shown in figure 21 and figure, by described many first kind drive wires 20 are set to circle, the housing of the wiring that can make drive wire ideally adaptive the second circular display unit.

Figure 24 is the schematic diagram of diagram according to the 7th example of the second display unit of the utility model embodiment.According in the second display unit 107I of the utility model embodiment, described many first kind drive wires and many Equations of The Second Kind drive wires are divided at least one drive wire in multiple drive wire group at least one group to be curve.Particularly, as shown in figure 24, drive wire 20 ₁, 20 ₂, 20 ₃, 20 _n-2, 20 _n-1, 20 _nfor curve.In addition, described many first kind drive wires (20 ₁20 _n) and many Equations of The Second Kind drive wires (30 ₁30 _n) be divided into multiple drive wire group (being divided into 4 groups shown in Figure 24).As from Figure 24 finding, adopt the mode that the packet configuration of drive wire like this combines with curved configuration, with adopt merely packet configuration (as shown in Figure 18 to Figure 20 B) and adopt merely the situation of curved configuration (if Figure 21 is to 23 Suo Shi) and compare, the wiring area at the edge of the second display unit can be made more to be tending towards concentrated, be convenient to narrowing further of the frame of the second display unit, make the housing of the wiring of drive wire adaptive second display unit more neatly simultaneously.

Figure 25 A and Figure 25 B is eight example schematic diagram of diagram according to the second display unit of the utility model embodiment.According in the second display unit 107J and 107K of the utility model embodiment, the edge on the described residing surface of array of display cells 40 is curve at least partially, and described edge is at least divided into the first marginal portion and second edge portion, described first marginal portion and described second edge portion have different curvature.Particularly, as shown in fig. 25 a, described edge is divided into the second curved edge part of top first curved edge part and bottom, and these two parts have different curvature.Similarly, as shown in Figure 25 B, the second straight edge sections of described edge upper part first curved edge part and bottom, these two parts obviously also have different curvature.As from Figure 25 A and 25B finding, adopt wire laying mode like this, corresponding to the wiring not arranging many drive wires in described first marginal portion of the narrow frame needing to realize accommodation second display unit in Figure 25 A and 25B, and by corresponding drive wire 30 ₁, 30 ₂, 30 ₃, 30 _n-2, 30 _n-1, 30 _npacket layout is not needing to realize in the described second edge portion of narrow frame, makes to connect up easily to be adapted to the different frame shape needed.More specifically, such as, when the second display unit is as shown in figs. 25 a and 25b applied to the electronic equipment of such as intelligent watch, the edge that the dial plate of intelligent watch engages with watchband is the described second edge portion not needing to realize narrow frame, and the edge that the dial plate of intelligent watch does not engage with watchband is described first marginal portion.In the example of Figure 25 A and 25B, have selected one of lower edges part as the part of arranging wiring grouping.It is easily understood that the utility model is not limited thereto, one of left and right edges part can also be selected as the part of arranging wiring grouping.

Above, electronic equipment according to the utility model embodiment and display packing thereof is described referring to figs. 1 through Figure 25 B, it can not by the restriction of the size of the Wearable electronic equipment of such as intelligent watch itself, more large scale and more high-resolution image or video display are provided, and simultaneously when beholder is in different viewing distance, user is provided the content of desired viewing adaptively, thus promotes relevant Consumer's Experience.

It should be noted that, in this manual, term " comprises ", " comprising " or its any other variant are intended to contain comprising of nonexcludability, thus make to comprise the process of a series of key element, method, article or equipment and not only comprise those key elements, but also comprise other key elements clearly do not listed, or also comprise by the intrinsic key element of this process, method, article or equipment.When not more restrictions, the key element limited by statement " comprising ... ", and be not precluded within process, method, article or the equipment comprising described key element and also there is other identical element.

Finally, also it should be noted that, above-mentioned a series of process not only comprises with the order described here temporally process that performs of sequence, and comprises process that is parallel or that perform respectively instead of in chronological order.

Through the above description of the embodiments, those skilled in the art can be well understood to the mode that the utility model can add required hardware platform by software and realize, and can certainly all be implemented by hardware.Based on such understanding, what the technical solution of the utility model contributed to background technology can embody with the form of software product in whole or in part, this computer software product can be stored in storage medium, as ROM/RAM, magnetic disc, CD etc., comprising some instructions in order to make a computer equipment (can be personal computer, server, or the network equipment etc.) perform the method described in some part of each embodiment of the utility model or embodiment.

Be described in detail the utility model above, apply specific case herein and set forth principle of the present utility model and embodiment, the explanation of above embodiment just understands method of the present utility model and core concept thereof for helping; Meanwhile, for one of ordinary skill in the art, according to thought of the present utility model, all will change in specific embodiments and applications, in sum, this description should not be construed as restriction of the present utility model.

Claims (10)

1. an electronic equipment, comprising:

Body apparatus, comprises for generating the first image and performing the processing unit of display and control;

For the fixing relative position relation stationary installation with the beholder of described electronic equipment, be connected with described body apparatus;

For exporting the first display unit of described first image, be arranged in described body apparatus and/or described stationary installation,

Wherein, described first display unit comprises the first viewing area, and when the eye of beholder is apart from described first viewing area first Distance geometry second distance, can perceive different contents, described first distance is greater than described second distance.

2. electronic equipment as claimed in claim 1, wherein said first display unit comprises the first display module for showing described first image, and for the light corresponding with described first image sent from described first display module is carried out light path converting to form the first optical module of the amplification virtual image corresponding to described first image

When the eye of beholder is apart from described first viewing area the first distance, the first image-region of image can be perceived, during apart from described first viewing area second distance, the second image-region of image can be perceived, described second image-region comprises described first image-region, and

First content in described first image is presented at described first image-region, makes the eye of beholder apart from described in described first viewing area during the first distance, can perceive described first content.

3. electronic equipment as claimed in claim 2, wherein when the image of described first image that described first display unit exports remains unchanged, the eye of beholder is apart from described in described first viewing area during second distance, can perceive the second content, described first content is different from described second content.

4. electronic equipment as claimed in claim 2, also comprising the first sensor unit of the relative position parameter of eye for sensing described beholder and described first viewing area, being arranged in described body apparatus and/or described stationary installation,

When the eye of beholder remains unchanged apart from the distance of described first viewing area, and when described relative position parameter changes, described processing unit generates and controls the first more new images that described first display unit display comprises described first content, makes beholder still can perceive described first content.

5. electronic equipment as claimed in claim 4, the second content in wherein said first image is presented at described second image-region, make the eye of beholder apart from described in described first viewing area during second distance, described second content can be perceived, the quantity of information of the first content of described first image in described first image-region that contains much information of described second content of described first image in described second image-region.

6. electronic equipment as claimed in claim 4, also comprise second sensor unit of the eye for sensing beholder apart from the distance parameter of described first viewing area, be arranged in described body apparatus and/or described stationary installation, when sensing described distance and changing into described second distance from described first distance, described processing unit generates and controls described first display unit and shows the second image, the second content in wherein said second image is presented at described second image-region, make the eye of beholder apart from described in described first viewing area during second distance, described second content can be perceived, the quantity of information of the first content of described first image in described first image-region that contains much information of the second content of described second image in described second image-region.

7. electronic equipment as claimed in claim 1, described first distance is greater than the first predetermined threshold, and described second distance is less than described first predetermined threshold.

8. as claim 5 to 7 arbitrary as described in electronic equipment, also comprise second sensor unit of the eye for sensing beholder apart from the distance parameter of described first viewing area, be arranged in described body apparatus and/or described stationary installation, when sensing described distance and changing into described first distance from described second distance, described processing unit generates and controls described first display unit display the 3rd image, beholder can perceive the 3rd image-region of image, described 3rd image-region is in described 3rd image-region outer and a part of first content in the second image-region when being included in described second distance, the eye of beholder apart from described in described first viewing area during the first distance, described first content can be perceived.

9. as claim 1 to 7 arbitrary as described in electronic equipment, wherein said stationary installation at least comprises a stationary state, under described stationary state, described stationary installation can as the proximate annular space of an annulus or first predetermined condition at least partially, and the column that described annulus or described proximate annular space can be centered around second predetermined condition is peripheral.

10. as claim 1 to 7 arbitrary as described in electronic equipment, also comprise the second display unit of the display for performing image, be arranged in described body apparatus and/or described stationary installation, wherein said first display unit and described second display unit are dissimilar display unit.