CN103901618A - Electronic equipment and display method - Google Patents

Electronic equipment and display method Download PDF

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Publication number
CN103901618A
CN103901618A CN201210587099.0A CN201210587099A CN103901618A CN 103901618 A CN103901618 A CN 103901618A CN 201210587099 A CN201210587099 A CN 201210587099A CN 103901618 A CN103901618 A CN 103901618A
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China
Prior art keywords
electronic equipment
optical devices
image display
display device
image
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Granted
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CN201210587099.0A
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Chinese (zh)
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CN103901618B (en
Inventor
刘俊峰
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Lenovo Beijing Ltd
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Lenovo Beijing Ltd
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Priority to CN201710494705.7A priority Critical patent/CN107065200A/en
Priority to CN201210587099.0A priority patent/CN103901618B/en
Publication of CN103901618A publication Critical patent/CN103901618A/en
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    • GPHYSICS
    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS OR APPARATUS
    • G02B27/00Optical systems or apparatus not provided for by any of the groups G02B1/00 - G02B26/00, G02B30/00
    • G02B27/01Head-up displays
    • G02B27/017Head mounted
    • GPHYSICS
    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS OR APPARATUS
    • G02B27/00Optical systems or apparatus not provided for by any of the groups G02B1/00 - G02B26/00, G02B30/00
    • G02B27/01Head-up displays
    • G02B27/017Head mounted
    • G02B27/0172Head mounted characterised by optical features
    • GPHYSICS
    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS OR APPARATUS
    • G02B27/00Optical systems or apparatus not provided for by any of the groups G02B1/00 - G02B26/00, G02B30/00
    • G02B27/02Viewing or reading apparatus
    • GPHYSICS
    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS OR APPARATUS
    • G02B27/00Optical systems or apparatus not provided for by any of the groups G02B1/00 - G02B26/00, G02B30/00
    • G02B27/01Head-up displays
    • G02B27/017Head mounted
    • G02B2027/0178Eyeglass type

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Optics & Photonics (AREA)
  • Controls And Circuits For Display Device (AREA)
  • Control Of Indicators Other Than Cathode Ray Tubes (AREA)

Abstract

The embodiment of the invention provides electronic equipment and a display method applied to the electronic equipment. The electronic equipment comprises an image processing unit used for obtaining a first image to be displayed, a display unit and a display adjusting unit. The display unit comprises an image display device used for displaying the first image obtained through the image processing unit, and the image display device at least comprises a light emitting component, and an optical device which corresponds to at least a part of the image display device; the display adjusting unit is used for adjusting the image display device or the optical device.

Description

Electronic equipment and display packing
Technical field
Embodiments of the invention relate to a kind of electronic equipment and can be applied to the display packing of described electronic equipment.
Background technology
Along with scientific and technological development, the various terminal electronic equipment of for example personal computer, portable computer, smart mobile phone, multimedia player, e-book and so on are proposed.User can use easily these terminal devices to watch video, browsing page, carry out video/audio call etc.Along with these electronic equipments are widely used, display technique has also become current study hotspot.Traditional display device more and more can not meet user's needs, in order to improve user's viewing experience, has proposed in recent years to have the electronic equipment of transparent display device.In such electronic equipment, user can watch the shown content of display device simultaneously, sees through this transparent display device and watches environment around.
But because display device is transparent, user is easy to be subject to the interference of surround lighting in the time of the image of watching this display device to show, this causes being difficult to see clearly content shown in display device in user's situation that for example light is stronger around.
Summary of the invention
The display packing that the object of the embodiment of the present invention is to provide a kind of electronic equipment and is applied to electronic equipment, to address the above problem.
One embodiment of the present of invention provide a kind of electronic equipment, comprising: graphics processing unit, and configuration obtains first image that will show; Display unit, comprising: image display device, and configuration shows the first image that graphics processing unit obtains, wherein image display device at least comprises: light emission parts, and optical devices, arrange accordingly with at least a portion of image display device; Vision-control unit, configuration regulates image display device or optical devices.
Another embodiment of the present invention provides a kind of electronic equipment, comprising: graphics processing unit, and configuration obtains first image that will show; Display unit, comprise: image display device, configuration shows the first image that graphics processing unit obtains, wherein image display device at least comprises: light emission parts, and optical devices, arrange accordingly with at least a portion of image display device, wherein optical devices are photosensitive type optical devices, photosensitive type optical devices, according to environment light intensity, change the transmittance of himself.
Another embodiment of the present invention provides a kind of display packing, is applied to electronic equipment.Electronic equipment can comprise: display unit, wherein display unit comprises: image display device, at least comprises: light emission parts, and optical devices, arrange accordingly with at least a portion of image display device.Described method comprises: the first image that acquisition will show; By image display device show the first image; During image display device shows the first image, image display device or optical devices are regulated.
According in the electronic equipment of the embodiment of the present invention, display unit at least comprises the optical devices that at least a portion of image display device for carrying out image demonstration and image display device arranges accordingly.By according to the electronic equipment of the embodiment of the present invention and display packing, can regulate image display device or described optical devices according to the oneself state of surround lighting, electronic equipment, user's input instruction etc., so that user clearly watches image shown in display unit.
Brief description of the drawings
In order to be illustrated more clearly in the technical scheme of the embodiment of the present invention, will the accompanying drawing of required use in the description of embodiment be briefly described below.Accompanying drawing in the following describes is only exemplary embodiment of the present invention.
Fig. 1 shows the block diagram of electronic equipment according to an embodiment of the invention.
Fig. 2 shows the key diagram of an illustrative case of the electronic equipment shown in Fig. 1.
Fig. 3 shows in the time that electronic equipment is wear-type electronic equipment, the key diagram of a signal situation of image display device.
Fig. 4 shows the key diagram of another illustrative case of the electronic equipment shown in Fig. 1.
Fig. 5 shows the key diagram of the another illustrative case of the electronic equipment shown in Fig. 1.
Fig. 6 shows the block diagram of electronic equipment according to an embodiment of the invention.
Fig. 7 shows the exemplary process diagram of display packing according to an embodiment of the invention.
The blooming piece that Fig. 8 provides for the embodiment of the present invention is applied in the structural representation of voltage.
The blooming piece that Fig. 9 provides for the embodiment of the present invention is not applied to the structural representation of voltage.
Embodiment
Hereinafter, describe the preferred embodiments of the present invention in detail with reference to accompanying drawing.Note, in this instructions and accompanying drawing, there is substantially the same step and represent with the identical Reference numeral of element, and will be omitted the repetition of explanation of these steps and element.
In following examples of the present invention, the concrete form of electronic equipment includes but not limited to hand-held electric equipment and the wear-type electronic equipment etc. of such as tablet computer, portable computer, personal digital assistant, smart mobile phone, game machine, portable media player and so on.
Fig. 1 shows the block diagram of electronic equipment 100 according to an embodiment of the invention.As shown in Figure 1, electronic equipment 100 comprises graphics processing unit 110, display unit 120 and vision-control unit 130, and wherein display unit 120 comprises image display device 121 and optical devices 122.
Particularly, graphics processing unit 110 can obtain first image that will show.For example, the first image can be, about picture, video image, text, and the picture signal of the combination of picture, text and picture etc.In electronic equipment 100, independently storage unit can be set, to store these image files.Alternatively, electronic equipment 100 also can receive the image file that will show from the electronic equipment by the connected for example computing machine of wired or wireless mode, smart mobile phone, multimedia player and so on.For example, electronic equipment 100 also can comprise communication unit, receives the image file that will show with the electronic equipment from for example computing machine, smart mobile phone, multimedia player and so on.
Image display device 121 shows the first image that graphics processing unit 110 obtains.According to an example of the present invention, electronic equipment 100 also can comprise data line.Data line can obtain graphics processing unit 110 first image that will show and be sent to image display device 121.Alternatively, according to another example of the present invention, also can pass through wireless transmission method, the first image that demonstration graphics processing unit 110 is obtained is sent to image display device 121.Image display device 121 at least comprises light emission parts.For example, image display device 121 can be laser projection device or liquid crystal indicator etc.
Optical devices 122 arrange accordingly with at least a portion of image display device 121.According to an example of the present invention, optical devices 122 can comprise with at least a portion of image display device 121 slide is set accordingly.In addition, another example according to the present invention is according to an example of the present invention, and optical devices 122 can comprise with at least a portion of image display device 121 slide is set accordingly, and cover the blooming piece on slide.In example of the present invention, at least a portion of the image display device 121 corresponding with optical devices 122 can be transparent.
Fig. 2 shows the key diagram of an illustrative case of the electronic equipment shown in Fig. 1.In the example shown in Fig. 2, electronic equipment 200 is hand-held electronic equipment, and electronic equipment 200 comprise with electronic equipment 100 in graphics processing unit 110, the similar graphics processing unit of display unit 120 and vision-control unit 130, display unit and vision-control unit.Therefore do not repeat them here.
As shown in Figure 2, the display unit of electronic equipment 200 comprises image display device and optical devices 222, and wherein image display device comprises the first image display part 221 that comprises light emission parts.The first image display part 221 shows the first image from graphics processing unit.In the example shown in Fig. 2, the first image display part can be the display screen of touch display screen curtain of for example LCDs or the touch that can detect user input and so on.In addition, the first image display part can be transparent image display part.
As shown in Figure 2, optical devices 222 and the first image display part 221 arrange accordingly.Preferably, optical devices 222 are arranged on the second surface relative with the first surface of the first image display part 221 accordingly with the first image display part 221, and wherein the first surface of the first image display part 221 is the display surface that shows image to user.
In addition, the first surface of the first image display part 221 can be positioned in the first equipment surface of electronic equipment 200.Electronic equipment 200 also can comprise input block, and input block also can be arranged in the first equipment surface of electronic equipment 200, so that user carries out input operation in the time watching the shown image of display unit.In addition, be can detect user's the touch display screen curtain of touch input time in image display part 221, the first surface of image display part 221 can be the input surface that can detect user's touch input.
According to an example of the present invention, optical devices 222 can comprise the cover glass for the protection of image display part 221.Can change ground, optical devices 222, except comprising the cover glass for the protection of image display part 221, also can comprise the blooming piece covering on cover glass.
In addition, as mentioned above, electronic equipment 100 can also be wear-type electronic equipment.In the case, electronic equipment also can comprise fixed cell and picture frame, and wherein, electronic equipment 100 can be worn on by fixed cell user's head, and picture frame is connected with fixed cell.And image display device 121 can comprise: the second image display part, the first optical system, the first light guide member and the second light guide member.
Particularly, the second image display part can be arranged in picture frame or fixed cell and comprise light emission parts.The second image display part can show the first image.The second image display part can be the display screen that for example size is less, can be also for example laser emission part in laser projection device.The first optical system can receive the light sending from the second image display part, and the light sending from the second image display part is carried out to light path converting, to form the first amplification virtual image.That is to say, the first optical system has positive refractive power.Thereby user can know and watch the first image, and the size of the image watched of user is not subject to the restriction of the size of display unit.Optical system can comprise with convex lens.Alternatively, for the interference that reduces aberration, avoids dispersion etc. to cause imaging, bring user better visual experience, optical system also can form lens subassembly by the multiple lens that comprise convex lens and concavees lens.
The first light guide member can will be sent to the second light guide member through the light of the first optical system.The second light guide member can be arranged in optical devices, and the light that the second light guide member can transmit the first light guide member reflects to the user's who wears wear-type electronic equipment eyes.
Fig. 3 shows in the time that electronic equipment is wear-type electronic equipment, the key diagram of a signal situation of image display device.As shown in Figure 3, receive 320 light that send from the second image display part 310 in the first optical system, and the light sending from the second image display part 310 is carried out light path converting, the first light guide member 330 can will be sent to the second light guide member 340 through the light of the first optical system 320.The second light guide member 340 can be arranged in optical devices 350.And the second light guide member 340 can receive the light transmitting by the first light guide member 330, and the light that the first light guide member 330 is transmitted reflects to the user's who wears wear-type electronic equipment eyes.In the example depicted in fig. 3, optical devices 350 can comprise lens component, and the second light guide member 340 can be arranged in lens component.
Fig. 4 shows the key diagram of another illustrative case of the electronic equipment shown in Fig. 1.In the example depicted in fig. 4, electronic equipment 400 is wear-type electronic equipment, and electronic equipment 400 comprise with electronic equipment 100 in the similar graphics processing unit of graphics processing unit 110 and vision-control unit 130 and vision-control unit, and the display unit that has and describe in conjunction with Fig. 1 and Fig. 3 above.Therefore do not repeat them here.
As shown in Figure 4, electronic equipment 400 also comprises picture frame 410 and fixed cell, and wherein, fixed cell comprises the first sway brace 430, the second sway brace 440 and the 3rd retaining part (not shown).The first sway brace 430 comprises the first pontes and the first retaining part, and wherein the first pontes connects picture frame 410 and the first retaining part (as shown in the dash area in the first sway brace 430); The second sway brace 440 comprises the second coupling part and the second retaining part, and wherein the second coupling part connects picture frame 410 and the second retaining part (as shown in the dash area in the second sway brace 440); The 3rd retaining part is arranged on picture frame 410, and in the time that electronic equipment 400 is worn on user's head, the 3rd retaining part contacts with user's the bridge of the nose.The first retaining part, the second retaining part and the 3rd retaining part configure the head that wear-type electronic equipment is remained on to user.
Similar with the display unit of describing in conjunction with Fig. 1 above, the display unit in electronic equipment 400 comprises image display device and optical devices 420.According to an example of the present invention, optical devices 420 can be lens component.Alternatively, according to another example of the present invention, optical devices 420, except comprising lens component, also can comprise the blooming piece covering in lens component.Preferably blooming piece covers the outside of lens component, and wherein lens component outside refers in the time that electronic equipment is worn on user's head, a side that deviates from user's head of lens component.
The image display device that display unit in electronic equipment 400 comprises is similar with the image display device of describing in conjunction with Fig. 3, therefore do not repeat them here.In addition, as shown in Figure 4, according to an example of the present invention, picture frame parts 410 can comprise the first pile crown part 411 being connected with the first sway brace and the part of the picture frame parts of the first pile crown part 412(as shown in the circle of Fig. 4 that are connected with the second sway brace).The second image display part that image display device comprises and the first optical system can be arranged in the first pile crown part 411 and/or the first pile crown part 412.
In addition, in the example depicted in fig. 4, graphics processing unit can be arranged in the first sway brace 430 and/or the second sway brace 440.Preferably, graphics processing unit can be arranged in the first retaining part of the first sway brace 430 and/or the second retaining part of the second sway brace 440.Comprise and connect graphics processing unit and image display device at electronic equipment 400, be sent to the situation of data line of image display device from graphics processing unit with the image that will show, data line can be arranged in the first sway brace 430 and/or the second sway brace 440.
Fig. 5 shows the key diagram of the another illustrative case of the electronic equipment shown in Fig. 1.In the example depicted in fig. 5, electronic equipment 500 is wear-type electronic equipment, and electronic equipment 500 comprise with electronic equipment 400 in graphics processing unit, display unit and vision-control unit class like graphics processing unit, display unit and vision-control unit.Therefore do not repeat them here.
As shown in Figure 5, electronic equipment 500 also comprises picture frame 510 and 520, and fixed cell, and wherein, fixed cell comprises headband parts 530 and link 540 and 550.Picture frame 510 is connected with 570 with the optical devices 560 in display unit respectively with 520.When tape member 530 is worn on user's head right overhead, headband parts 530 can flexible deformation, makes the first end of headband parts and the second end press respectively user's left ear and auris dextra.In addition link 540 and 550 connector tape members 530 and picture frame 510 and 520.
Return to Fig. 1, vision-control unit 130 regulates image display device or optical devices, thus the brightness of the image of seeing described in adjustment user, so that user can clearly watch the shown image of image-display units.Below the sample situation that vision-control unit 130 is regulated image display device or optical devices is described.In example described below, comprise with at least a portion of image display device 121 and arranging accordingly slide at optical devices 122, regulate the transmittance of optical devices 130 adjustable slides.And comprise at optical devices 122, with at least a portion of image display device 121, slide is set accordingly, and cover in the situation of the blooming piece on slide, regulate the also transmittance of adjustable blooming piece of optical devices 130.
According to an example of the present invention, regulate optical devices 130 by the arrangement mode of adjustable liquid crystal display, the transmittance of optical devices 122 is regulated.
Or, regulate optical devices 130 to comprise control device array, regulate optical devices 130 by the unlatching of every sub-control device in control set for adjusting array or close, the transmittance of optical devices 122 is regulated.
As an embodiment of the present embodiment, optical devices 122 can be display panels or blooming piece etc., as: PDLC(Polymer Dispersed Liquid Crystal, Polymer Dispersed Liquid Crystal) blooming piece.
Concrete, in PDLC blooming piece, comprise liquid crystal and polymkeric substance, as shown in Figure 8, in the time applying voltage for PDLC blooming piece, the optical axis of liquid crystal particle is perpendicular to PDLC blooming piece surface, consistent with direction of an electric field, the optical index of liquid crystal particle mates substantially with the refractive index of polymkeric substance, without obvious interface, has formed a basic medium uniformly, so scattering can not occur incident light, PDLC blooming piece is transparence; As shown in Figure 9, when without PDLC blooming piece during without impressed voltage, between PDLC blooming piece, there is not regular electric field, the direction of optic axis of liquid crystal particle is random, present disordered state, the refractive index n 1 of its liquid crystal particle does not mate with the refractive index n 2 of polymkeric substance, makes incident ray by strong scattering, and PDLC blooming piece is opaque or translucent.
If optical devices 122 are PDLC blooming piece, the transparency of optical devices 122 is carried out to linear regulation, the transmittance of optical devices 122 can be any number between 0% to 100%.
Or, regulate optical devices 130 to comprise control device array, regulate optical devices 130 by the unlatching of every sub-control device in control set for adjusting array or close, the transmittance of optical devices 122 is regulated.
As an embodiment of the present embodiment, regulate optical devices 130 can comprise shutter array, in the time that the each shutter in shutter array is all opened, light can see through from optical devices 122, and now, the transmittance of optical devices 122 can be maximal value; In the time that the each shutter in shutter array is all closed, light cannot see through from optical devices 122, and now, the transmittance of optical devices 122 can be minimum value.
If regulate optical devices 130 can comprise shutter array, optical devices 122 transmittances are thought any one numerical value in above-mentioned maximal value and minimum value only, the transparency of optical devices 122 are carried out to discrete adjustment.
According to an example of the present invention, vision-control unit 130 can regulate optical devices.Vision-control unit 130 can comprise light detection part and the first transmittance adjustment member.Light detection part can testing environment light intensity, and generates testing result.The first transmittance adjustment member is connected with optical devices 122, and the testing result generating according to light detection means, regulates the transmittance of optical devices 122.
For example, in the time that light detection part detects environment light intensity higher than the first predetermined threshold, can determine that environment light intensity is higher, and regulate optical devices 122, make optical devices 122 there is lower transmittance, to stop most of environment optical transmission.Thereby in the time that environment light intensity is higher, can, when protection user's eyes are not subject to tetanic penetrating, make user can see the shown image of display device clearly.
And in the time that light detection part detects environment light intensity lower than the first predetermined threshold, can determine that environment light intensity is not high, and regulate optical devices 122, make optical devices 122 there is the higher transmittance higher than lower transmittance, to make at least most of surround lighting can pass through optical devices 122.Thereby in the time that environment light intensity is not high, make user in can seeing the shown image of display device clearly, can see environment around clearly.
According to another example of the present invention, vision-control unit 130 can regulate optical devices.Vision-control unit 130 can comprise the first parameter acquiring parts and the second transmittance adjustment member.The first parameter acquiring parts can obtain the first equipment status parameter of electronic equipment.The second transmittance adjustment member is connected with optical devices 122, and can, according to the first equipment status parameter, regulate the transmittance of optical devices 122.For example, the first equipment status parameter can comprise the electrical parameter of the electric weight of the power supply unit current residual luminance parameter and/or the instruction electronic equipment of brightness of the light that sends from light emission parts of instruction.
For example, the luminance parameter that comprises the brightness of indicating the light sending from light emission parts at the first equipment status parameter, the luminance parameter obtaining when the first parameter acquiring parts is during higher than the second predetermined threshold, the brightness that can determine the light sending from light emission parts is higher, and regulate optical devices 122, make optical devices 122 there is higher transmittance, to make at least most of surround lighting can pass through optical devices 122.Thereby make user in can seeing the shown image of display device clearly, can see environment around clearly.
And the luminance parameter obtaining when the first parameter acquiring parts is during lower than the second predetermined threshold, the brightness that can determine the light sending from light emission parts is not high, and regulate optical devices 122, make optical devices 122 there is lower transmittance, to stop most of environment optical transmission.Even thereby make user in the case of the brightness of the light that sends from light emission parts is not high, also can see the shown image of display device clearly.
Again for example, the electrical parameter of electric weight that comprises the power supply unit current residual in instruction electronic equipment at the first equipment status parameter, the electrical parameter obtaining when the first parameter acquiring parts is during higher than the 3rd predetermined threshold, the electric weight that can determine the power supply unit current residual in electronic equipment is more, and regulate optical devices 122, make optical devices 122 there is higher transmittance, to make at least most of surround lighting can pass through optical devices 122.Thereby make user in can seeing the shown image of display device clearly, can see environment around clearly.
And the electrical parameter obtaining when the first parameter acquiring parts is during lower than the 3rd predetermined threshold, the electric weight that can determine the power supply unit current residual in electronic equipment is few, and regulate optical devices 122, make optical devices 122 there is lower transmittance, to stop most of environment optical transmission, to coordinate the brightness of the light from sending from light emission parts.Even thereby the electric weight that makes the power supply unit current residual of user in electronic equipment is few, the brightness of the light that sends from light emission parts not high, also can see the shown image of display device clearly.
According to another example of the present invention, vision-control unit 130 can regulate image display device 121.In the case, vision-control unit 130 can comprise the second parameter acquiring parts and brightness regulation parts.The second parameter acquiring parts can obtain the second equipment status parameter of electronic equipment.Brightness regulation parts, are connected with image display device, and can be according to the second equipment status parameter, the brightness of the light that control light emission parts send.For example, the second equipment status parameter can comprise the electrical parameter of the printing opacity parameter of the transmittance of indicating optical devices and/or the electric weight of the power supply unit current residual of instruction in electronic equipment.
For example, the printing opacity parameter that comprises the transmittance of indicating optical devices at the second equipment status parameter, the printing opacity parameter of obtaining when the second parameter acquiring parts is during higher than the 4th predetermined threshold, the transmittance that can determine optical devices is higher, and regulate image display device 121, to make the higher brightness that has of light that image display device 121 light emission parts send.Thereby make user in can seeing the shown image of display device clearly, can see environment around clearly.
And the printing opacity parameter of obtaining when the second parameter acquiring parts is during lower than the 4th predetermined threshold, the transmittance that can determine optical devices is lower, and regulate image display device 121, to make the lower brightness that has of light that image display device 121 light emission parts send, to save the power consumption of image display device.
Again for example, the electrical parameter of electric weight that comprises the power supply unit current residual in instruction electronic equipment at the second equipment status parameter, the electrical parameter obtaining when the second parameter acquiring parts is during higher than the 5th predetermined threshold, the electric weight that can determine the power supply unit current residual in electronic equipment is more, and regulate image display device 121, to make the higher brightness that has of light that image display device 121 light emission parts send.Thereby make user can clearly watch the shown image of display device.
And the printing opacity parameter of obtaining when the second parameter acquiring parts is during lower than the 5th predetermined threshold, the electric weight that can determine the power supply unit current residual in electronic equipment is few, and regulate image display device 121, to make the lower brightness that has of light that image display device 121 light emission parts send, to save the power consumption of image display device.
In addition,, according to an example more of the present invention, electronic equipment 100 also can comprise input block.Input block can receive the regulating command from user.Vision-control unit 130 can regulate image display device or optical devices according to the regulating command from user.
According in the electronic equipment of the present embodiment, display unit at least comprises the optical devices that at least a portion of image display device for carrying out image demonstration and image display device arranges accordingly.By according to the electronic equipment of the embodiment of the present invention, can regulate image display device or described optical devices according to the oneself state of surround lighting, electronic equipment, user's input instruction etc., so that user clearly watches image shown in display unit.
Fig. 6 shows the block diagram of electronic equipment 600 according to another embodiment of the present invention.As shown in Figure 6, electronic equipment 100 comprises graphics processing unit 610 and display unit 620, and wherein display unit 620 comprises image display device 621 and optical devices 622.Similar with electronic equipment 100, electronic equipment 600 can be hand-held electronic equipment or wear-type electronic equipment.Below in conjunction with Fig. 2, Fig. 4 and Fig. 5 to have been described in detail according to the form of the electronic equipment of the embodiment of the present invention, therefore do not repeat them here.
Particularly, graphics processing unit 610 can obtain first image that will show.For example, the first image can be, about picture, video image, text, and the picture signal of the combination of picture, text and picture etc.In electronic equipment 600, independently storage unit can be set, to store these image files.Alternatively, electronic equipment 600 also can receive the image file that will show from the electronic equipment by the connected for example computing machine of wired or wireless mode, smart mobile phone, multimedia player and so on.For example, electronic equipment 600 also can comprise communication unit, receives the image file that will show with the electronic equipment from for example computing machine, smart mobile phone, multimedia player and so on.
Image display device 621 shows the first image that graphics processing unit 610 obtains.According to an example of the present invention, electronic equipment 600 also can comprise data line.Data line can obtain graphics processing unit 610 first image that will show and be sent to image display device 621.Alternatively, according to another example of the present invention, also can pass through wireless transmission method, the first image that demonstration graphics processing unit 610 is obtained is sent to image display device 621.Image display device 621 at least comprises light emission parts.For example, image display device 621 can be laser projection device or liquid crystal indicator etc.
Optical devices 622 arrange accordingly with at least a portion of image display device 621.Optical devices 622 are photosensitive type optical devices.Photosensitive type optical devices can, according to environment light intensity, change the transmittance of himself.According to an example of the present invention, optical devices 622 can comprise with at least a portion of image display device 621 photosensitive type slide is set accordingly.In addition, another example according to the present invention is according to an example of the present invention, and optical devices 622 can comprise with at least a portion of image display device 621 slide is set accordingly, and cover the photosensitive type blooming piece on slide.In example of the present invention, at least a portion of the image display device 621 corresponding with optical devices 622 can be transparent.
For example, in the time that environment light intensity is higher, light photosensitive type optical devices can have lower transmittance, to stop most of environment optical transmission.And in the time that environment light intensity is not high, light photosensitive type optical devices can have the higher transmittance higher than lower transmittance, to make at least most of surround lighting can pass through optical devices.
The display packing of embodiments of the invention is described with reference to Fig. 7 below.Fig. 7 is the process flow diagram of having described according to the display packing 700 of the embodiment of the present invention.Display packing 700 can be applicable to the electronic equipment that comprises display unit, and wherein display unit can comprise the image display device that at least comprises light emission parts, and the optical devices that arrange accordingly with at least a portion of image display device.Each step in display packing 700 can be carried out by the corresponding module in the electronic equipment in above-mentioned Fig. 1 respectively, therefore, succinct in order to describe, and no longer specifically describes.
As shown in Figure 7, in step S701, the first image that acquisition will show.For example, the first image can be, about picture, video image, text, and the picture signal of the combination of picture, text and picture etc.In electronic equipment, independently storage unit can be set, to store these image files.In step S701, can obtain pre-stored image file.Alternatively, electronic equipment also can receive the image file that will show from the electronic equipment by the connected for example computing machine of wired or wireless mode, smart mobile phone, multimedia player and so on.For example, electronic equipment also can comprise communication unit, receives the image file that will show with the electronic equipment from for example computing machine, smart mobile phone, multimedia player and so in step S701.
Then,, in step S702, show the first image obtaining by image display device.According to an example of the present invention, electronic equipment also can comprise data line.In step S702, data line can be sent to image display device by obtain first image that will show, thereby image display device can show the first image of acquisition.Alternatively, according to another example of the present invention, also can pass through wireless transmission method, the first image obtaining is sent to image display device, thereby image display device can show the first image of acquisition.
In step S703, during image display device shows the first image, image display device or optical devices are regulated., so that user can clearly watch the shown image of image-display units.Below will be in step S703, the sample situation that image display device or optical devices are regulated is described.In example described below, the optical devices in the display unit of electronic equipment comprise with at least a portion of image display device and arranging accordingly slide, the transmittance of adjustable slide in step S703.And comprise at optical devices, with at least a portion of image display device, slide is set accordingly, and cover in the situation of the blooming piece on slide, at the transmittance of step S703 also adjustable blooming piece.
According to an example of the present invention, in step S703, can regulate optical devices.Particularly, in step S703, can survey environment light intensity, and generate testing result, then, the testing result generating according to light detection means, the transmittance of adjusting optical devices.
For example, in the time environment light intensity being detected higher than the first predetermined threshold, can determine that environment light intensity is higher, and regulate optical devices, make optical devices there is lower transmittance, to stop most of environment optical transmission.Thereby in the time that environment light intensity is higher, can, when protection user's eyes are not subject to tetanic penetrating, make user can see the shown image of display device clearly.
And in the time environment light intensity being detected lower than the first predetermined threshold, can determine that environment light intensity is not high, and adjusting optical devices, make optical devices have the higher transmittance higher than lower transmittance, to make at least most of surround lighting can pass through optical devices.Thereby in the time that environment light intensity is not high, make user in can seeing the shown image of display device clearly, can see environment around clearly.
According to another example of the present invention, in step S703, can regulate optical devices.In step S703, can obtain the first equipment status parameter of electronic equipment, and can, according to the first equipment status parameter, regulate the transmittance of optical devices 122.For example, the first equipment status parameter can comprise the electrical parameter of the electric weight of the power supply unit current residual luminance parameter and/or the instruction electronic equipment of brightness of the light that sends from light emission parts of instruction.
For example, the luminance parameter that comprises the brightness of indicating the light sending from light emission parts at the first equipment status parameter, the luminance parameter obtaining when the first parameter acquiring parts is during higher than the second predetermined threshold, the brightness that can determine the light sending from light emission parts is higher, and adjusting optical devices, make optical devices there is higher transmittance, to make at least most of surround lighting can pass through optical devices.Thereby make user in can seeing the shown image of display device clearly, can see environment around clearly.
And the luminance parameter obtaining when the first parameter acquiring parts is during lower than the second predetermined threshold, the brightness that can determine the light sending from light emission parts is not high, and adjusting optical devices, make optical devices have lower transmittance, to stop most of environment optical transmission.Even thereby make user in the case of the brightness of the light that sends from light emission parts is not high, also can see the shown image of display device clearly.
Again for example, the electrical parameter of electric weight that comprises the power supply unit current residual in instruction electronic equipment at the first equipment status parameter, the electrical parameter obtaining when the first parameter acquiring parts is during higher than the 3rd predetermined threshold, the electric weight that can determine the power supply unit current residual in electronic equipment is more, and adjusting optical devices, make optical devices there is higher transmittance, to make at least most of surround lighting can pass through optical devices.Thereby make user in can seeing the shown image of display device clearly, can see environment around clearly.
And the electrical parameter obtaining when the first parameter acquiring parts is during lower than the 3rd predetermined threshold, the electric weight that can determine the power supply unit current residual in electronic equipment is few, and adjusting optical devices, make optical devices there is lower transmittance, to stop most of environment optical transmission, to coordinate the brightness of the light from sending from light emission parts.Even thereby the electric weight that makes the power supply unit current residual of user in electronic equipment is few, the brightness of the light that sends from light emission parts not high, also can see the shown image of display device clearly.
According to another example of the present invention, in step S703, can regulate image display device.In the case, in step S703, can obtain the second equipment status parameter of electronic equipment, and can be according to the second equipment status parameter, the brightness of the light that control light emission parts send.For example, the second equipment status parameter can comprise the electrical parameter of the printing opacity parameter of the transmittance of indicating optical devices and/or the electric weight of the power supply unit current residual of instruction in electronic equipment.
For example, the printing opacity parameter that comprises the transmittance of indicating optical devices at the second equipment status parameter, the printing opacity parameter of obtaining when the second parameter acquiring parts is during higher than the 4th predetermined threshold, the transmittance that can determine optical devices is higher, and adjusting image display device, to make the higher brightness that has of light that image display device light emission parts send.Thereby make user in can seeing the shown image of display device clearly, can see environment around clearly.
And the printing opacity parameter of obtaining when the second parameter acquiring parts is during lower than the 4th predetermined threshold, the transmittance that can determine optical devices is lower, and adjusting image display device, to make the lower brightness that has of light that image display device light emission parts send, to save the power consumption of image display device.
Again for example, the electrical parameter of electric weight that comprises the power supply unit current residual in instruction electronic equipment at the second equipment status parameter, the electrical parameter obtaining when the second parameter acquiring parts is during higher than the 5th predetermined threshold, the electric weight that can determine the power supply unit current residual in electronic equipment is more, and adjusting image display device, to make the higher brightness that has of light that image display device light emission parts send.Thereby make user can clearly watch the shown image of display device.
And the printing opacity parameter of obtaining when the second parameter acquiring parts is during lower than the 5th predetermined threshold, the electric weight that can determine the power supply unit current residual in electronic equipment is few, and adjusting image display device, to make the lower brightness that has of light that image display device light emission parts send, to save the power consumption of image display device.
In addition,, according to an example more of the present invention, electronic equipment 100 also can comprise input block.Input block can receive the regulating command from user.In step S703, can regulate image display device or optical devices according to the regulating command from user.
According in the electronic equipment of the present embodiment, display unit at least comprises the optical devices that at least a portion of image display device for carrying out image demonstration and image display device arranges accordingly.By according to the display packing of the embodiment of the present invention, can regulate image display device or described optical devices according to the oneself state of surround lighting, electronic equipment, user's input instruction etc., so that user clearly watches image shown in display unit.
Those of ordinary skill in the art can recognize, unit, the module of each example of describing in conjunction with embodiment disclosed herein, can realize with electronic hardware, computer software or the combination of the two, for the interchangeability of hardware and software is clearly described, composition and the step of each example described according to function in the above description in general manner.These functions are carried out with hardware or software mode actually, depend on application-specific and the design constraint of technical scheme.Professional and technical personnel can realize described function with distinct methods to each specifically should being used for, but this realization should not thought and exceeds scope of the present invention.
Although illustrated and described some embodiments of the present invention, it will be understood by those skilled in the art that without departing from the principles and spirit of the present invention, can carry out various amendments to these embodiment, such amendment should fall within the scope of the present invention.

Claims (18)

1. an electronic equipment, comprising:
Graphics processing unit, configuration obtains first image that will show;
Display unit, comprising:
Image display device, configuration shows the first image that described graphics processing unit obtains, wherein said image display device at least comprises: light emission parts, and
Optical devices, arrange accordingly with at least a portion of described image display device;
Vision-control unit, configuration regulates described image display device or described optical devices.
2. electronic equipment as claimed in claim 1, wherein said vision-control unit regulates described optical devices, and described vision-control unit comprises:
Light detection part, configuration carrys out testing environment light intensity, and generates testing result;
The first transmittance adjustment member, is connected with described optical devices, and configuration carrys out the testing result generating according to described light detection means, regulates the transmittance of described optical devices.
3. electronic equipment as claimed in claim 1, wherein said vision-control unit comprises:
The first parameter acquiring parts, the first equipment status parameter of described electronic equipment is obtained in configuration;
The second transmittance adjustment member, is connected with described optical devices, and configuration comes according to described the first equipment status parameter, regulates the transmittance of described optical devices.
4. electronic equipment as claimed in claim 3, wherein
Described the first equipment status parameter comprises the luminance parameter of the brightness of indicating the light sending from described light emission parts and/or indicates the electrical parameter of the electric weight of the power supply unit current residual described electronic equipment.
5. electronic equipment as claimed in claim 1, wherein said vision-control unit regulates described image display device, and described vision-control unit comprises:
The second parameter acquiring parts, the second equipment status parameter of described electronic equipment is obtained in configuration;
Brightness regulation parts, are connected with described image display device, and configuration comes according to described the second equipment status parameter, control the brightness of the light that described light emission parts send.
6. electronic equipment as claimed in claim 5, wherein
Described the second equipment status parameter comprises the printing opacity parameter of the transmittance of indicating described optical devices and/or indicates the electrical parameter of the electric weight of the power supply unit current residual in described electronic equipment.
7. the electronic equipment as described in any one in claim 1 to 6, described electronic equipment is hand-held electronic equipment, wherein
Described image display device comprises the first image display part that comprises described light emission parts, and configuration shows described the first image,
Described optical devices and the corresponding setting of described the first image display part.
8. electronic equipment as claimed in claim 7, wherein
Described optical devices are arranged on the second surface relative with the first surface of described the first image display part accordingly with described the first image display part, and the described first surface of wherein said the first image display part is the display surface that shows image to user.
9. the electronic equipment as described in any one in claim 1 to 6, described electronic equipment is wear-type electronic equipment, described electronic equipment also comprises:
Fixed cell, wherein said electronic equipment can be worn on by this fixed cell user's head;
Picture frame, is connected with described fixed cell;
Described optical devices are connected with described picture frame;
Described image display device comprises:
The second image display part, is arranged in described picture frame or described fixed cell and comprises described light emission parts, and configuration shows described the first image,
The first optical system, configuration receives the light sending from described the second image display part, and the light sending from described the second image display part is carried out to light path converting, to form the first amplification virtual image,
The first light guide member, the light through described the first optical system is sent to the second light guide member by configuration,
Described the second light guide member, is arranged in described optical devices, and the light that configuration transmits described the first light guide member reflects to the user's who wears described wear-type electronic equipment eyes.
10. electronic equipment as claimed in claim 9, wherein
Described fixed cell comprises:
The first sway brace, comprises the first pontes and the first retaining part, and wherein said the first pontes configures to connect described picture frame and described the first retaining part;
The second sway brace, comprises the second coupling part and the second retaining part, and wherein said the second coupling part configures to connect described picture frame and described the second retaining part;
The 3rd retaining part, is arranged on described picture frame, and in the time that described electronic equipment is worn on user's head, described the 3rd retaining part contacts with user's the bridge of the nose;
Described the first retaining part, described the second retaining part and described the 3rd retaining part configure the head that described wear-type electronic equipment is remained on to user.
11. electronic equipments as claimed in claim 9, wherein
Described optical devices comprise lens component and cover the blooming piece in described lens component outside,
Wherein said lens component outside refers in the time that described electronic equipment is worn on user's head, a side that deviates from user's head of described lens component;
Described the second light guide member, is arranged in described lens component; And
Described vision-control unit regulates the transmittance of described blooming piece.
12. 1 kinds of electronic equipments, comprising:
Graphics processing unit, configuration obtains first image that will show;
Display unit, comprising:
Image display device, configuration shows the first image that described graphics processing unit obtains, wherein said image display device at least comprises: light emission parts, and
Optical devices, arrange accordingly with at least a portion of described image display device,
Wherein said optical devices are photosensitive type optical devices,
Described photosensitive type optical devices, according to environment light intensity, change the transmittance of himself.
13. 1 kinds of display packings, are applied to electronic equipment, and described electronic equipment comprises:
Display unit, comprising:
Image display device, at least comprises: light emission parts, and
Optical devices, arrange accordingly with at least a portion of described image display device, and described method comprises:
The first image that acquisition will show;
Show the first image obtaining by described image display device;
During described image display device shows described the first image, described image display device or described optical devices are regulated.
14. display packings as claimed in claim 13, wherein saidly regulate and comprise described image display device or described optical devices:
Testing environment light intensity, and generate testing result; And
According to the testing result of described light detection means generation, regulate the transmittance of described optical devices.
15. display packings as claimed in claim 13, wherein saidly regulate and comprise described image display device or described optical devices:
Obtain the first equipment status parameter of described electronic equipment; And
According to described the first equipment status parameter, regulate the transmittance of described optical devices.
16. display packings as claimed in claim 15, wherein
Described the first equipment status parameter comprises the luminance parameter of the brightness of indicating the light sending from described light emission parts and/or indicates the electrical parameter of the electric weight of the power supply unit current residual described electronic equipment.
17. display packings as claimed in claim 13, wherein saidly regulate and comprise described image display device or described optical devices:
Obtain the second equipment status parameter of described electronic equipment; And
According to described the second equipment status parameter, control the brightness of the light that described light emission parts send.
18. display packings as claimed in claim 17, wherein
Described the second equipment status parameter comprises the printing opacity parameter of the transmittance of indicating described optical devices and/or indicates the electrical parameter of the electric weight of the power supply unit current residual in described electronic equipment.
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