CN105044913A - Transmissive glasses and image display method based on application environment - Google Patents

Abstract

The invention provides a pair of transmissive glasses and image display method based on application environment. The pair of transmissive glasses includes: a frame, and imaging lenses and a control module which are mounted on the frame, and an electrochromism module, wherein the control module includes an image output unit which corresponds to the imaging lenses. The electrochromism module is in electrical connection with the control module and is mounted on one side the imaging lenses facing opposite eyes of a user. The pair of transmissive glasses can display picture information which can be realized by ordinary transmissive glasses and at the same time can enable the user to observe the surroundings, and can also, when the user needs to watch private content or a movie, and the like, change the color of the lenses from light to dark and adjust display content at the same time, and thus enable the user to be immersed in watching private content or movie and protect user privacy. In addition, the transmissive glasses can also adapt to changes of the environment by adjusting contrast ratio of the image information.

Description

A kind of based on applied environment penetration glasses and method for displaying image

Technical field

The present invention relates to penetration intelligent glasses display technique field, particularly relate to a kind of based on applied environment penetration glasses and method for displaying image.

Background technology

The use of intelligent glasses is one of the trend in future, and according to the different demands of user, the function of intelligent glasses gets over diversification.Current intelligent glasses mainly comprise two types, and one is immersion, and another kind is penetration.Immersion has superiority on virtual reality, display effect also than penetrate look good.Penetrate depending on the image of display can be allowed to be combined with actual scenery, the change of context can be differentiated.On the wisdom glasses of penetration, if some modes can be utilized to allow penetration wisdom glasses reach the effect being similar to immersion wisdom glasses, so will be more extensive in the scene of application.

In recent years, electrochromic material has obtained more and more concern, electrochromism refers to that the phenomenon of stable, reversible color change occurs the optical properties (reflectivity, transmitance, absorptivity etc.) of material under the effect of extra electric field, shows as the reversible change of color and transparency in appearance.Electrochromic material is applied in glasses can bring beyond thought effect, as the automatic anti-glare rearview mirror prepared with electrochromic material, can electronic induction system be passed through, according to the intensity of the intensity adjustment reflected light of ambient light, reach abblendbar effect.

Summary of the invention

For the defect existed in existing penetration intelligent glasses technology, the object of the invention is to provide a kind of based on applied environment penetration glasses, transparency or the image display contrast of eyeglass can be regulated, immersion effect can either be brought simultaneously to have again the effect of general penetration glasses.

The present invention's provided technical scheme that solves the problem is: a kind ofly comprise mirror holder based on applied environment penetration glasses, and the imaging eyeglass be installed on described mirror holder and control module; Described control module comprises image output unit, and described image output unit is corresponding with described imaging eyeglass; Also comprise the electrochromic module be electrically connected with described control module, described electrochromic module is installed in described imaging eyeglass eyes one side dorsad.

Further, described control module also comprises:

The touch control unit be electrically connected with described electrochromic module, for controlling the voltage condition of described electrochromic module;

The power supply be electrically connected with described touch control unit, described image output unit is connected with described power supply;

The optical sensor be electrically connected with described image output unit, for the environmental light brightness around perception;

The light regulon be electrically connected with described optical sensor, for receiving the feedback information of described optical sensor and regulating the contrast of described image output unit output image according to described feedback information.

Further, described mirror holder comprises picture frame; Described imaging eyeglass is lens, and described lens are embedded on described picture frame, and the image for being exported by described image output unit carries out amplification display.

Further, described electrochromic module comprises two tin indium conductive layers and is arranged at the glass in the two arbitrary outsides of tin indium conductive layer, and between described tin indium conductive layer, successively away from the first electrochromic layer, electrolyte conductive layer, the second electrochromic layer that described glass is arranged.

Present invention also offers the display packing of described penetration glasses picture picture, comprise the steps:

Described image output unit output image is on described imaging eyeglass;

When described touch control unit switches to manual adjustment mode, described electrochromic module is in manual adjustment mode, by described touch control unit by controlling the transmittance of described electrochromic module from 0 ~ 100% change.

Further, when described touch control unit switches to automatic shaping modes; Described electrochromic module is in automatic shaping modes, described brightness is sent to described smooth regulon, the contrast of described smooth regulon image output unit output image according to described brightness regulation by described optical sensor perception surrounding environment luminance brightness.

Further, under automatic shaping modes, described electrochromic module transmittance is 100%.

Further, described mirror holder comprises picture frame; Described imaging eyeglass is lens, and described lens are embedded on described picture frame, and the image for being exported by described image output unit carries out amplification display.

Further, described electrochromic module comprises the glass, tin indium conductive layer, the first electrochromic layer, electrolyte conductive layer, the second electrochromic layer that set gradually from inside to outside.

There is provided herein a kind of based on applied environment penetration glasses and method for displaying image, electrochromic module is added in described penetration glasses, the transparency of described eyeglass can be regulated by the voltage swing controlling electrochromic module, both general penetration glasses can be realized and surrounding environment object can be observed in display graphics information simultaneously, again can in needs viewing privacy content, under the scenes such as film, eyeglass changed into dark and adjust displaying contents simultaneously, reach the object with immersion effect and protection privacy, and the penetration glasses that the present invention proposes can also by the change regulating the contrast of image information to meet various environment.

Accompanying drawing explanation

The following description carried out in conjunction with the drawings, the above-mentioned and other side of embodiments of the invention, feature and advantage will become clearly, in accompanying drawing:

Fig. 1 is the penetration Glasses structure decomposing schematic representation of the embodiment of the present invention;

Fig. 2 is control module and the electrochromic module connection layout of the embodiment of the present invention;

Fig. 3 is the electrochromic module structural representation of the embodiment of the present invention;

Fig. 4 is the process flow diagram of the method for displaying image of the embodiment of the present invention.

Embodiment

Below, embodiments of the invention are described in detail with reference to the accompanying drawings.But, the present invention can be implemented in many different forms, and the present invention should not be interpreted as being limited to the specific embodiment of setting forth here.On the contrary, provide these embodiments to be to explain principle of the present invention and practical application thereof, thus enable others skilled in the art understand various embodiment of the present invention and be suitable for the various amendments of certain expected application.In the accompanying drawings, identical label will be used to indicate identical element all the time.

With reference to Fig. 1, introduce the penetration glasses in the present invention for common mirror holder, the penetration glasses of the present embodiment comprise mirror holder 1, control module 2, imaging eyeglass 3 and electrochromic module 4.

Wherein, described mirror holder 1 comprises picture frame 11 and temple 12.In other embodiments, Design of glasses frame can also be other patterns by those skilled in the art, such as, and the mirror holder pattern that the satisfied user having worn spectacles wears.

Described imaging eyeglass 3 is positioned on described picture frame 11 corresponding with eyes of user (not shown), and described control module 2 is positioned in described temple 12 corresponding with described imaging eyeglass 3.Composition graphs 2 again, described control module 2 comprise for give whole control module power power supply 21, for providing the image output unit 22 of graphical information, it is connected with described power supply 21; Described image output unit 22 can be that active light-emitting type chip is as LCD or non-active illuminated chip, if non-active illuminated chip then comprises light source and display chip, described light source can be LED or LASER Light Source, and described display chip can be LCoS or DLP.Described image output unit 22 sends image information, when described image output unit 22 is less than the focal length of described imaging eyeglass 3 to the distance of described imaging eyeglass 3, image information forms the virtual image of a upright amplification in human eye front through described imaging eyeglass 3, whole process is similar to projector, and human eye just very clearly can watch the image information that described image output unit 22 sends.Preferably, described imaging eyeglass 3 is imaging len, and it can be stripe prisms, planoconvex lens or convex lens.

With reference to Fig. 3, described electrochromic module 4 comprises the glass 41 set gradually towards surround lighting incident direction, two-layer tin indium conductive layer 42 and the first electrochromic layer 43 be made up of oxidation electrochromic material between described two-layer tin indium conductive layer 42, electrolyte conductive layer 44, the second electrochromic layer 45 of being made up of reduction electrochromic material.Certainly, in other embodiments, those skilled in the art are known, the material of the first electrochromic layer 43 and the second electrochromic layer 45 can be exchanged, namely, described first electrochromic layer 43 also can be made up of reduction electrochromic material, and equally, the second electrochromic layer 45 also can be made up of oxidation electrochromic material.Between described two-layer tin indium conductive layer 42, add certain voltage, there is redox reaction in electrochromic material, off-color material causes its color to change because of electron exchange under voltage effect.In other words, user can control different electron exchange situations under regulating different voltage by touch control unit, thus controls color.Described electrolyte conductive layer 44 is made up of special conductive material, as included lithium perchlorate, perchloric acid is received etc. solution or solid electrolyte material.Described electrochromic module 4 is connected with described control module 2 by the wire (figure does not mark) be imbedded in described mirror holder 1.

Described electrochromic module 4 is positioned at the one side of described imaging eyeglass 3 eyes dorsad, and it is electrically connected with described power supply 21 by the touch control unit 25 of described control module 2; Described touch-control module 25 can manually boot described electrochromic module 4 and start working, and realizes manual adjustments function.

In order to realize manual adjustments function, described control module 2 also comprises the touch control unit 25 be connected with described electrochromic module 4, for controlling the voltage condition of described electrochromic module.Described touch control unit 25 is also connected with described power supply 21, and the effect of touch control unit 25 is wherein equivalent to switch and voltage regulator.When described touch control unit 25 switches to manual adjustment mode, described electrochromic module 4 starts and is in manual adjustment mode, the voltage between described two-layer tin indium conductive layer 42 can be regulated by described touch control unit 25, under described voltage effect, there is redox reaction and cause its color to change in described electrochromic layer 43 and electrochromic layer 45; When needs viewing privacy information, or game, film etc. need to remove environmental scenery, or under the state that external light source reflection is stronger, by touch control unit 25, described electrochromic layer can be adjusted to the effect that black has obtained covering outer scenery or external disturbance light source.

In actual mechanical process, such as, described touch control unit 25 is soft-touch control, it comprises a touch panel (figure does not mark), when double-clicking described touch panel, described touch control unit 25 switches to manual adjustment mode, and described electrochromic module 4 starts and is in manual adjustment mode.Described touch switch is opened and by described electrochromic module 4 and the conducting of described power supply 21, and described power supply 21 provides voltage for described electrochromic module 4; When along surround lighting incident direction in the enterprising line slip of described touch panel time, if sliding distance is more than 1 centimeter, is then carried in voltage on described electrochromic module 4 and raises, otherwise described voltage is constant; When deviating from described surround lighting incident direction in the enterprising line slip of described touch panel, if sliding distance is more than 1 centimeter, then the voltage be carried on described electrochromic module 4 reduces, otherwise described voltage is constant.

When long by described touch panel more than the schedule time threshold value time, described soft-touch control is closed, and described touch control unit 25 switches to automatic shaping modes, and described electrochromic module 4 is in automatic shaping modes.Described electrochromic module 4 disconnects with described power supply 21.Here in order to promote Consumer's Experience, the voltage be carried on described electrochromic module 4 can be carried out classification, such as, described on-load voltage is divided into 4 grades, 0 grade represents the non-on-load voltage of described electrochromic module 4, do not open corresponding to described touch switch, described electrochromic module 4 transmittance is 100%; When along surround lighting incident direction on described touch panel sliding distance more than 1 centimeter, the voltage be then carried on described electrochromic module 4 is upgraded to 1 grade from 0 grade, described electrochromic module 4 transmittance reduces, darkens, the rest may be inferred, when being carried in the voltage on described electrochromic module 4 and being raised to 4 grades, described electrochromic module 4 transmittance is 0, color is black.

Above-mentioned for the switching mode that soft-touch control is double-clicked or length is pressed, can also have the conversion of other modes in the middle of other embodiments, such as, when double-clicking described touch panel, described touch control unit 25 switches to automatic shaping modes; When length is by described touch panel, described touch control unit 25 switches to manual adjustment mode.

The described electrochromic module 4 of the present embodiment can also be set to automatic shaping modes.In order to realize automatic regulation function, described control module 2 also comprises the optical sensor 23 be connected with described image output unit 22 and the light regulon 24 be connected with described optical sensor 23; Described optical sensor 23 is for perception surrounding environment luminance brightness, and described smooth regulon 24 is for receiving the feedback information of described optical sensor 23 and regulating the contrast of described image output unit 22 output image according to described feedback information.

With reference to Fig. 4, the present embodiment also provides the method for displaying image of this penetration glasses, and described method comprises:

S1, described image output unit 22 output image are on described imaging eyeglass 3;

S2, when described touch control unit 25 is by touch-control, described electrochromic module 4 is in manual adjustment mode, and described touch control unit 25 regulates the transmittance of described electrochromic module 4 from 0 ~ 100% change by the voltage swing controlling described electrochromic module 4;

S3, when described touch control unit 25 preset stand-by period in not by touch-control; Described electrochromic module 4 is in automatic shaping modes, described brightness is sent to described smooth regulon 24, the contrast of described smooth regulon 24 image output unit 22 output image according to described brightness regulation by described optical sensor 23 perception surrounding environment luminance brightness.

In the present invention under automatic shaping modes, in order to provide a comfortable viewing environment to user, reach by regulating the contrast of image information the visual effect matched with surrounding environment; Under automatic shaping modes, the transmittance of described electrochromic module 4 is 100%, and user not only can watch image information simultaneously but also can observe the environment of surrounding.Under manual adjustment mode, the voltage mainly controlling described electrochromic module 4 by described touch control unit 25 changes its color; When needs viewing privacy information, or game, film etc. need to remove environmental scenery, or under the state that external light source reflection is stronger, by described touch control unit 25, described electrochromic layer can be adjusted to the effect that black has obtained covering outer scenery or external disturbance light source.

The above is only the embodiment of the application; it should be pointed out that for those skilled in the art, under the prerequisite not departing from the application's principle; can also make some improvements and modifications, these improvements and modifications also should be considered as the protection domain of the application.

Claims (9)

1., based on applied environment penetration glasses, comprise mirror holder, and the imaging eyeglass be installed on described mirror holder and control module; Described control module comprises image output unit, and described image output unit is corresponding with described imaging eyeglass; It is characterized in that, also comprise the electrochromic module be electrically connected with described control module, described electrochromic module is installed in described imaging eyeglass eyes one side dorsad.

2. glasses according to claim 1, is characterized in that, described control module also comprises:

The touch control unit be electrically connected with described electrochromic module, for controlling the voltage condition of described electrochromic module;

The power supply be electrically connected with described touch control unit, described image output unit is connected with described power supply;

The optical sensor be electrically connected with described image output unit, for the environmental light brightness around perception;

The light regulon be electrically connected with described optical sensor, for receiving the feedback information of described optical sensor and regulating the contrast of described image output unit output image according to described feedback information.

3. glasses according to claim 1, is characterized in that, described mirror holder comprises picture frame; Described imaging eyeglass is lens, and described lens are embedded on described picture frame, and the image for being exported by described image output unit carries out amplification display.

4. glasses according to claim 1, it is characterized in that, described electrochromic module comprises two tin indium conductive layers and is arranged at the glass in the two arbitrary outsides of tin indium conductive layer, and between described tin indium conductive layer, successively away from the first electrochromic layer, electrolyte conductive layer, the second electrochromic layer that described glass is arranged.

5., according to claim 2 based on a display packing for applied environment penetration glasses picture picture, it is characterized in that, comprise the steps:

Described image output unit output image is on described imaging eyeglass;

When described touch control unit switches to manual adjustment mode, described electrochromic module is in manual adjustment mode, by described touch control unit by controlling the transmittance of described electrochromic module from 0 ~ 100% change.

6. display packing according to claim 5, is characterized in that, when described touch control unit switches to automatic shaping modes; Described electrochromic module is in automatic shaping modes, described brightness is sent to described smooth regulon, the contrast of described smooth regulon image output unit output image according to described brightness regulation by described optical sensor perception surrounding environment luminance brightness.

7. method according to claim 6, is characterized in that, under automatic shaping modes, described electrochromic module transmittance is 100%.

8. glasses according to claim 5, is characterized in that, described mirror holder comprises picture frame; Described imaging eyeglass is lens, and described lens are embedded on described picture frame, and the image for being exported by described image output unit carries out amplification display.

9. glasses according to claim 5, is characterized in that, described electrochromic module comprises the glass, tin indium conductive layer, the first electrochromic layer, electrolyte conductive layer, the second electrochromic layer that set gradually from inside to outside.