CN103885180B

CN103885180B - Electronic equipment

Info

Publication number: CN103885180B
Application number: CN201210564160.XA
Authority: CN
Inventors: 郑效盼; 翁飞军; 吴斐
Original assignee: Lenovo Beijing Ltd
Current assignee: Lenovo Beijing Ltd
Priority date: 2012-12-21
Filing date: 2012-12-21
Publication date: 2016-10-05
Anticipated expiration: 2032-12-21
Also published as: CN103885180A

Abstract

The invention discloses and a kind of include fixed cell, luminescence unit, the electronic equipment of the first and second display units.Luminescence unit produces the first ray sets according to the first image.When user's wearable electronic device, fixed cell maintains the relative position of electronic equipment and user, and the first and second display units lay respectively in the viewing area of the first and second eyes of user.First display unit includes the first optical module, and the propagation regions being arranged at the first ray sets propagated in the first direction is interior sub-for first in the first ray sets ray sets to reflex to second direction and maintains the second sub-ray sets in the first ray sets to propagate in the first direction.Second display unit includes the second optical module, and the propagation regions being arranged at the second sub-ray sets is interior so that the 3rd sub-ray sets in the second sub-ray sets is reflexed to second direction.When user's wearable electronic device, the first and second eyes lay respectively at first and the 3rd the propagation regions of sub-ray sets so that the first image can be seen.

Description

Electronic equipment

Technical field

The present invention relates to the field of electronic equipment, more particularly it relates to an binocular can be realized Display and the electronic equipment of lighting.

Background technology

The application of head mounted display is more and more extensive, is obtained for extensively application from army to civilian.? In the application of head mounted display, miniaturization and the lighting of head mounted display are always research emphasis. By minimizing in done effort, for example, optical waveguide technique has been achieved for necessarily being in progress.And how Realize Binocular displays and make whole system lighting be current research emphasis.

Fig. 1 illustrates the schematic diagram of the head mounted display 100 according to prior art.For convenience of description, Illustrate only the display unit of head mounted display the 101st, 101 ', wherein, described display unit in FIG 101st, 101 ' have employed optical waveguide technique, display unit 101 includes speculum 102 and part reflective semitransparent film 103, Display unit 101 ' includes speculum 102 ' and part reflective semitransparent film 103 ', display unit the 101st, 101 ' difference Two eyes of corresponding user.As it can be seen, two image source (not shown) provide image to believe simultaneously Number, the eyes of user are traveled to through display unit, owing to the picture signal of image source is consistent, institute So that same image can be formed in the eyes of user.Specifically, O₁、O₂It is that two image sources are produced Raw light, they be respectively perpendicular incide display unit the 101st, 101 ' surface, and through in display unit Speculum the 102nd, 102 ' and part reflective semitransparent film the 103rd, 103 ' reflection after, vertical exit arrives user's Eyes.In FIG, the light being sent by each image source only has after part reflective semitransparent film reflection Half light can outgoing from optical module, so the efficiency of light energy utilization is relatively low.Further, since it is left and right Both sides are respectively provided with an image source, so the weight of this head mounted display is relatively big, and manufacturing cost Higher.

For the problems referred to above, it is proposed that another solution, it is simply that image source is placed on two displays single The centre position of unit, the light that image source sends travels to, on two display units, be then passed through two respectively Individual display unit, light enters the eyes of people.But, owing to image source is arranged on centre position, so Weight on user's bridge of the nose is heavier, thus does not meets the needs of ergonomic.

It is therefore desirable to provide one can realize that Binocular displays can realize again lighting and meet ergonomic The head mounted display of needs.

Content of the invention

According to embodiments of the present invention, providing a kind of electronic equipment, described electronic equipment includes: fixing single Unit, for when described user wears described electronic equipment, maintains described electronic equipment and described use The relative position relation of person；Luminescence unit, for producing corresponding first ray sets according to the first image； First display unit, when described user wears described electronic equipment, described first display unit is positioned at In the viewing area of first eyes of described user, described first display unit includes the first optical module, It is arranged in the propagation regions of the first ray sets propagated in the first direction, for by described first light The first sub-ray sets in set reflexes to second direction, and maintain in described first ray sets Two sub-ray sets are propagated in the first direction；Second display unit, when described user wears described electronics During equipment, described second display unit is positioned at the viewing area of second eyes of described user, described Second display unit includes the second optical module, is arranged at the second sub-light propagated along described first direction In the propagation regions of set, for reflexing to the 3rd sub-ray sets in described second sub-ray sets Described second direction；Wherein, when described user wears described electronic equipment, the institute of described user State the first eyes and be located along the propagation regions of the first sub-ray sets that described second direction is propagated so that institute State the first eyes and can see described first image；And described second eyes of described user are located along described The propagation regions of the 3rd sub-ray sets that second direction is propagated so that described second eyes can be seen described First image.

Additionally, electronic equipment according to embodiments of the present invention, also include: the 3rd optical module, described Three optical modules are arranged at the biography of the light propagated along the third direction parallel and contrary with described second direction Broadcast in region, if the light edge for the transmitting of described luminescence unit is parallel with described second direction and contrary Third direction propagate, then described light is reflexed to described first direction.

Additionally, electronic equipment according to embodiments of the present invention, wherein, described first optical module and second The reflectivity of optical module meets following condition: Y=X/ (1-X), and wherein, X represents the first optical module Reflectivity, Y represents the reflectivity of the second optical module.

Additionally, electronic equipment according to embodiments of the present invention, wherein, the printing opacity of described first optical module Rate meets the first predetermined condition, and the reflectivity of described first optical module meets the second predetermined condition, and institute The reflectivity stating the second optical module meets the 3rd predetermined condition.

Additionally, electronic equipment according to embodiments of the present invention, wherein, described first predetermined condition is printing opacity Rate Z is 40%-60%, described second predetermined condition be reflectivity be 1-Z, described 3rd predetermined condition is 40%-100%。

According to another embodiment of the present invention, provide a kind of electronic equipment.Described electronic equipment includes: fixing Unit, for when described user wears described electronic equipment, maintains described electronic equipment and described makes The relative position relation of user；Luminescence unit, for producing corresponding first light collection according to the first image Close；First display unit, when described user wears described electronic equipment, described first display unit Being positioned at the viewing area of first eyes of described user, described first display unit includes the first optics Assembly, is arranged in the propagation regions of the first ray sets propagated in the first direction, for by described the The first sub-ray sets in one ray sets reflexes to second direction, and maintains described first ray sets In the second sub-ray sets propagate in the first direction；Second display unit, when described user wears institute When stating electronic equipment, described second display unit is positioned at the viewing area of second eyes of described user, Described second display unit includes the second optical module, be arranged in the described second sub-ray sets in institute State the 3rd son that the second sub-ray sets keeps propagating after the 3rd optical module reflection along described first direction In the propagation regions of ray sets, for by anti-for the 4th sub-ray sets in described 3rd sub-ray sets Being incident upon described second direction, wherein, described 3rd optical module is arranged on described first and second optics groups Between part；Wherein, when described user wears described electronic equipment, described the first of described user Eyes are located along the propagation regions of the first sub-ray sets that described second direction is propagated so that described first Eyes can see described first image；And described second eyes of described user are located along described second party Propagation regions to the 4th sub-ray sets propagated so that described second eyes can see described first figure Picture.

Additionally, electronic equipment according to embodiments of the present invention, also include: the 4th optical module, described Four optical modules are arranged at the biography of the light propagated along the third direction parallel and contrary with described second direction Broadcast in region, if the light edge for the transmitting of described luminescence unit is parallel with described second direction and contrary Third direction propagate, then described light is reflexed to described first direction.

Additionally, electronic equipment according to embodiments of the present invention, wherein, described fixed cell includes: first Stator unit, is arranged at the side away from the second display unit for first display unit, as described user When wearing described electronic equipment, described first stator unit contacts with first ear of user；The Two stator unit, are arranged at the side away from the first display unit for second display unit, when described use When person wears described electronic equipment, described second stator unit contacts with second ear of user； It with the 3rd stator unit, is arranged between the first display unit and the second display unit, when described use When person wears described electronic equipment, described 3rd stator unit contacts with user's nose.

Additionally, electronic equipment according to embodiments of the present invention, wherein, described 3rd optical module includes One to the 4th sub-optical module, described first sub-optical module is arranged at the light propagated along described first direction In the propagation regions of line, for the light propagated along described first direction is reflexed to fourth direction；Described Second sub-optical module, is arranged at along the propagation regions of the light of described fourth direction propagation, and being used for will The light propagated along described fourth direction reflexes to the 5th direction；Described 3rd sub-optical module, is arranged at Along the propagation regions of the light of described 5th direction propagation, for the light will propagated along described 5th direction Line reflection is to the 6th direction；And described 4th sub-optical module, it is arranged at and propagate along described 6th direction Light propagation regions in, for by along described 6th direction propagate light reflex to described first party To.

Additionally, electronic equipment according to embodiments of the present invention, wherein, described first and second sub-optics groups Part be arranged on described 3rd stator unit near the side of the first display unit, described third and fourth Sub-optical module is arranged on the opposite side near the second display unit of described 3rd stator unit, described The reflecting surface of the first and second sub-optical modules is relative, described second and the 3rd reflecting surface of sub-optical module Relatively, the reflecting surface of described third and fourth sub-optical module is relatively for propagating in the first direction The 3rd sub-ray sets in second sub-ray sets is walked around described 3rd stator unit and is reflexed to described Second optical module.

Electronic equipment according to embodiments of the present invention, owing to using optical waveguide technique and only arranging in side Image source, so electronic equipment according to embodiments of the present invention can either realize that Binocular displays is capable of again Lighting and the needs meeting ergonomic.

It being understood that general description above and detailed description below are both exemplary, and And be intended to provide further illustrating of claimed technology.

Brief description

Fig. 1 is the schematic diagram illustrating the head mounted display 100 according to prior art；

Fig. 2 is the schematic diagram illustrating head mounted display 200 according to an embodiment of the invention；And

Fig. 3 is the schematic diagram illustrating head mounted display 300 according to another embodiment of the present invention.

Detailed description of the invention

Hereinafter, by preferred embodiments of the present invention will be described in detail with reference to the annexed drawings.

Fig. 2 is the schematic diagram illustrating head mounted display 200 according to an embodiment of the invention.

For convenience of explanation, illustrate only the display unit of head mounted display 200 in fig. 2 the 201st, 201 ', in addition, head mounted display 200 also includes luminescence unit and fixed cell (not shown), wherein Luminescence unit is arranged on the side of electronic equipment 200, in fig. 1 it is assumed that be arranged on display unit 201 Side, for producing corresponding ray sets O according to picture signal P, described ray sets O passes through One plane of display unit 201 incides in display unit 201, and along a direction (hereinafter, For convenience of description, this direction will be referred to as " first direction ") propagate.For example, described picture signal P can To be (for example, all from external equipment by the video input interface of configuration in head mounted display 200 Such as multimedia equipments such as PC, smart mobile phone, panel computer, game machines) picture signal that receives, it is possible to To be the picture signal being produced by playing the video file of storage in this head mounted display 200. But, the above-mentioned way of example that is merely by, so that the present invention to be described, the invention is not restricted to aforesaid way, In embodiments of the present invention, light, example can also be produced according to the picture signal providing by other means As, can by network interface from internet, cellular network (such as 2G network, 3G network, 4G net Network), wireless lan (wlan) etc. receive picture signal.Fixed cell is for wearing head user The relative position relation between this head mounted display 200 and this user is maintained during head mounted displays 200, Additionally, the 201st, described display unit 201 ' have employed optical waveguide technique.

First eyes of display unit the 201st, 201 ' difference correspondence users and the second eyes, say, that When user wears head mounted display 200, display unit 201 is positioned at first eyes of this user Viewing area in, and display unit 201 ' is positioned at the viewing area of second eyes of this user.Aobvious Show that unit 201 includes optical module 203, be arranged at the propagation of the ray sets O propagating in the first direction In region, this optical module 203 has reflection and transmission function, its light that will propagate in the first direction Sub-ray sets O in set O₁Reflex to second direction (the sub-light collection wherein propagated in a second direction Close O₁From display unit 201 with when user wears head mounted display 200 with the first of user A relative plane of eyes (hereinafter referred to " the first plane ") outgoing), and maintain ray sets Sub-ray sets O in O₂Continue to propagate (namely being transmitted through optical module 203) in the first direction, its In, when user wears head mounted display 200, first eyes of described user are located along second The sub-ray sets O that direction is propagated₁Propagation regions in so that first eyes of user it can be seen that figure As P.Display unit 201 ' includes optical module 203 ', is arranged at the sub-light collection propagated in the first direction Close O₂Propagation regions in, this optical module 203 ' has albedo, for by sub-ray sets O₂ In sub-ray sets O₃Reflex to described second direction (the sub-ray sets wherein propagated in a second direction O₃From display unit 201 with when user wears head mounted display 200 with the Second Sight of user A relative plane of eyeball (hereinafter referred to " the second plane ") outgoing), wherein, when user wears During head mounted display 200, second eyes of user are located along the sub-ray sets that second direction is propagated O₃Propagation regions in so that second eyes of user can also be seen that image P.

Additionally, optical module 203 ' also can have transmission capacity.

Additionally, the light intensity in order to make the eyes of user receive is identical, optical module 203 can be made Reflectivity X meets following condition: Y=X/ (1-X) with the reflectivity of optical module 203 '.

Additionally, the light transmittance of optical module 203 and reflectivity meet the first predetermined condition and second pre-respectively Fixed condition, and the reflectivity of optical module 203 ' meets the 3rd predetermined condition.Wherein, optical module 203 With 203 ' reflectivity be not less than 40%.For example, the first predetermined condition be light transmittance Z be 40%-60%, Second predetermined condition be reflectivity be 1-Z, and the 3rd predetermined condition is 40%-100%.

If additionally, the light that described luminescence unit is launched is along the third party parallel and contrary with second direction To propagation, then head mounted display 200 can also include an optical module, and this optical module is arranged at edge In the propagation regions of the light that the third direction parallel and contrary with second direction is propagated, for by described edge The light that third direction is propagated reflexes to described first direction so that described light can travel to optical module 203。

As described above, in head mounted display according to embodiments of the present invention, display unit uses light wave Waveguide technology, and luminescence unit is arranged on the side of head mounted display, therefore, real according to the present invention The head mounted display executing example can not only realize Binocular displays, and due to only with a luminous list Unit, such that it is able to realize lighting and reduce manufacturing cost.

Seeing Fig. 3, head mounted display 300 includes display unit the 301st, 301 ', and it is constructed having The structure similar with glasses, wherein the 301st, display unit 301 ' includes optical module the 303rd, 303 ' respectively. In the head mounted display 300 with the structure similar with glasses, fixed cell includes three stators Unit, is i.e. similar to the first stator unit and the second stator unit of leg of spectacles shape and is similar to 3rd stator unit of nose support shape, wherein, the first stator unit can be perpendicular to display unit 301 The first plane and be arranged at the side away from display unit 301 ' for the display unit 301, wear user The first ear contacts with this user during head mounted display 300.Second stator unit can be vertical It is arranged at the side away from display unit 301 for the display unit 301 ' in the second plane of display unit 301 ', When user wears head mounted display 300, the second ear with this user contacts.3rd fixes Subelement is arranged between display unit 301 and display unit 301 ', wears wear-type user and shows During device 300, the nose with user contacts.Here, it is assumed that the first eyes and the first ear are positioned at same Side, and the second eyes and the second ear are positioned at opposite side.

In the head mounted display 300 shown in Fig. 3, in order to make by optical module 303 transmission Light walks around fixed cell (the i.e. the 3rd sub-fixed cell), also sets up between display unit 301 and 301 ' One optical module 304 being made up of sub-optical module 304-1,304-2,304-3 and 304-4.Except Arrange outside optical module 304 between display unit 301 and 301 ', the head mounted display 300 of Fig. 3 Structure identical with the structure of the head mounted display 200 of Fig. 2.Therefore, in order to avoid unnecessary weight Multiple, at this in addition to optical module 304 is described in detail, will no longer other assemblies be said Bright.

Seeing Fig. 3, sub-optical module 304-1 and 304-2 is arranged on the close display of the 3rd stator unit The side of unit 301, sub-optical module 304-3 and 304-4 is arranged on the close aobvious of the 3rd stator unit Showing the opposite side of unit 301 ', the reflecting surface of sub-optical module 304-1 with 304-2 is relative, sub-optics group The reflecting surface of part 304-2 with 304-3 is relative, and the reflecting surface of sub-optical module 304-3 with 304-4 is relative So as the second sub-ray sets O that will propagate in the first direction₂In the 3rd sub-ray sets O₂₄Set around Cross the 3rd stator unit and reflex to optical module 303 '.Specifically, sub-optical module 304-1 sets It is disposed along the light O that described first direction is propagated₂Propagation regions in, for will pass along described first direction The light O broadcasting₂Reflex to fourth direction；Sub-optical module 304-2, is arranged at and passes along described fourth direction The light O broadcasting₂₁Propagation regions in, for the light O that will propagate along described fourth direction₂₁Reflex to Five directions；Sub-optical module 304-3, is arranged at the light O propagating along described 5th direction₂₂Propagation zone In territory, for the light O that will propagate along described 5th direction₂₂Reflex to the 6th direction；And sub-optics Assembly 304-4, is arranged at the light O propagating along described 6th direction₂₃Propagation regions in, for by edge The light O that described 6th direction is propagated₂₃Reflex to first direction.

As described above, in order to allow user feel more comfortable when wearing head mounted display, according to this (i.e. the 3rd son between two display units is fixing for the fixed cell of the head mounted display of bright embodiment Unit) be configured to the structure corresponding with the structure of people's nose, and in order to avoid fixed cell stop from The light of one display unit transmission travels to another display unit, additionally sets between two display units Put an optical module so that walking around fixing between two display units from the next light of a display unit transmission Unit, therefore, head mounted display according to embodiments of the present invention is possible not only to realize Binocular displays, and And meet the needs of ergonomic, and further, since use a luminescence unit, thus real according to the present invention The head mounted display executing example can reduce manufacturing cost and realize lighting.

It should be noted that in this manual, term " include ", "comprising" or its any other become Body is intended to comprising of nonexcludability, so that include the process of a series of key element, method, article Or equipment not only includes those key elements, but also includes other key elements being not expressly set out, or Also include the key element intrinsic for this process, method, article or equipment.There is no more restriction In the case of, the key element being limited by statement " including ... ", it is not excluded that in the mistake including described key element Journey, method, article or equipment there is also other identical element.

Above the present invention is described in detail, the principle to the present invention for the specific case used herein And embodiment is set forth, the explanation of above example is only intended to help to understand the method for the present invention And core concept；Simultaneously for one of ordinary skill in the art, according to the thought of the present invention, All will change in detailed description of the invention and range of application, in sum, this specification content should not It is interpreted as limitation of the present invention.

Claims

1. a wearable electronic equipment, comprising:

Fixed cell, for when user wears described electronic equipment, maintains described electronic equipment and institute State the relative position relation of user；

Luminescence unit, for producing corresponding first ray sets according to the first image；

First display unit, when described user wears described electronic equipment, described first display unit Being positioned at the viewing area of first eyes of described user, described first display unit includes the first optics Assembly, is arranged in the propagation regions of the first ray sets propagated in the first direction, for by described the The first sub-ray sets in one ray sets reflexes to second direction, and maintains described first ray sets In the second sub-ray sets propagate in the first direction；

Second display unit, when described user wears described electronic equipment, described second display unit Being positioned at the viewing area of second eyes of described user, described second display unit includes the second optics Assembly, be arranged in the described second sub-ray sets at described second sub-ray sets through the 3rd optics group Keeping after part reflection along the propagation regions of the 3rd sub-ray sets of described first direction propagation, being used for will The 4th sub-ray sets in described 3rd sub-ray sets reflexes to described second direction, wherein, described 3rd optical module is arranged between described first and second optical modules；

Wherein, when described user wears described electronic equipment, described first eyes of described user It is located along the propagation regions of the first sub-ray sets that described second direction is propagated so that described first eyes Described first image can be seen；And described second eyes of described user are located along described second direction and pass The propagation regions of the 4th sub-ray sets broadcast so that described second eyes can see described first image.

2. electronic equipment as claimed in claim 1, also includes:

4th optical module, it is parallel with described second direction and contrary that described 4th optical module is arranged at edge Third direction propagate light propagation regions in, if for described luminescence unit launch light edge The third direction parallel and contrary with described second direction is propagated, then described light is reflexed to described first Direction.

3. electronic equipment as claimed in claim 1, wherein, described fixed cell includes:

First stator unit, is arranged at the side away from the second display unit for first display unit, works as institute State user when wearing described electronic equipment, the first ear phase of described first stator unit and user Contact；

Second stator unit, is arranged at the side away from the first display unit for second display unit, works as institute State user when wearing described electronic equipment, the second ear phase of described second stator unit and user Contact；With

3rd stator unit, is arranged between the first display unit and the second display unit, makes when described When user wears described electronic equipment, described 3rd stator unit contacts with user's nose.

4. electronic equipment as claimed in claim 3, wherein, described 3rd optical module include first to 4th sub-optical module, described first sub-optical module is arranged at the light along the propagation of described first direction In propagation regions, for the light propagated along described first direction is reflexed to fourth direction；Described second Sub-optical module, is arranged at along the propagation regions of the light of described fourth direction propagation, and being used for will be along institute The light stating fourth direction propagation reflexes to the 5th direction；Described 3rd sub-optical module, is arranged at along institute State in the propagation regions of the light that the 5th direction is propagated, anti-for the light will propagated along described 5th direction It is incident upon the 6th direction；And described 4th sub-optical module, it is arranged at the light propagated along described 6th direction In the propagation regions of line, for the light propagated along described 6th direction is reflexed to described first direction.

5. electronic equipment as claimed in claim 4, wherein, described first and second sub-optical modules set Put the side near the first display unit at described 3rd stator unit, described third and fourth sub-light Learn assembly be arranged on described 3rd stator unit near the opposite side of the second display unit, described first Relative with the reflecting surface of the second sub-optical module, described second is relative with the reflecting surface of the 3rd sub-optical module, Second son relatively for propagating in the first direction for the reflecting surface of described third and fourth sub-optical module The 3rd sub-ray sets in ray sets is walked around described 3rd stator unit and is reflexed to described second light Learn assembly.

6. electronic equipment as claimed in claim 1, wherein, described first optical module and the second optics The reflectivity of assembly meets following condition: Y=X/ (1-X),

Wherein, X represents the reflectivity of the first optical module, and Y represents the reflectivity of the second optical module.