CN109870818A - A high-brightness augmented reality 3D display device and method - Google Patents

Abstract

The invention discloses a kind of high brightness augmented reality 3D display device and methods, including diffusing reflection layer I, side backlight source, transluscent display panel and double-sided reflecting array of apertures；The light diffusing reflection that diffusing reflection layer issues side backlight source；Side backlight source provides light source for whole display device；Transluscent display panel is for showing 3D film source；Double-sided reflecting array of apertures is fitted closely by specular layer, substrate, diffusing reflection layer II；The virtual 3D rendering for being able to achieve high brightness is shown and real-world object imaging.

Description

A kind of high brightness augmented reality 3D display device and method

Technical field

The present invention relates to dimension display technologies and augmented reality display technology, in particular to a kind of high brightness augmented reality 3D Display device and method.

Background technique

In recent years, virtual reality/augmented reality is quickly grown, and wherein augmented reality can realize virtual graph simultaneously The fusion of picture and real-world object shows, and by the favor of researcher and consuming public.Current augmented reality equipment is general Store-through is the problems such as need to wear, virtual image brightness is low.

Integration imaging technology is a kind of true 3D display technology of naked eye, has naked eye viewing, without stereoscopic viewing visual fatigue, authentic The advantages that 3D reproduces.It is a development trend that integration imaging technology, which is applied to augmented reality, and better sight can be provided for user It sees experience, and the augmented reality 3D display effect of naked eye may be implemented.Conventional integration imaging shows that equipment uses lens array Or pinhole array carries out the reconstruction of virtual 3D rendering, wherein lens array cannot achieve the refraction problems of real scene light The perspective of real-world object is watched, and pinhole array not only blocks extraneous light, while also to most of light of display equipment Line blocks, and the usual brightness of the 3D rendering of reconstruction is extremely low.

Summary of the invention

The purpose of the present invention is to provide a kind of high brightness augmented reality 3D display device and methods, aobvious based on this method Showing device can be imaged with the virtual 3D rendering of exhibit high brilliance and to real-world object, obtain the augmented reality 3D display effect of high brightness Fruit.

To achieve the goals above, the present invention provides following technical schemes:

A kind of high brightness augmented reality 3D display device, as shown in Fig. 1, the device successively include diffusing reflection layer I, side type back Light source, transluscent display panel and double-sided reflecting array of apertures, realize the virtual 3D rendering of high brightness show and real-world object at Picture.

The diffusing reflection layer I is located at the rearmost end of whole display device, and the diffusing reflection layer I is by the side backlight source The light diffusing reflection of sending, while the light diffusing reflection that the double-sided reflecting array of apertures is reflected back.

The side backlight source is located at the centre of the diffusing reflection layer I and transluscent display panel, for entire display dress Offer light source is provided.

The transluscent display panel for showing that 3D film source, the Pixel Information of display are modulated the light passed through, Realize that image is shown.

Before the double-sided reflecting array of apertures is located at the transluscent display panel, as shown in Fig. 2, the double-sided reflecting Array of apertures is fitted closely by specular layer, substrate, diffusing reflection layer II, and specular layer and diffusing reflection layer II distinguish position In substrate two sides, specular layer is located at the outermost layer of whole device, to the light shiny reflex of real-world object, overflows anti- Layer II is penetrated towards device inside, unrestrained transmitting is served to the light of process；The specular layer, substrate, on diffusing reflection layer II It is furnished with the identical light transmission hole of regularly arranged and parameter, the shape of light transmission hole can be vertical arrangement, oblique arrangement, pin hole battle array The structures such as column, as shown in attached drawing 3, attached drawing 4 and attached drawing 5；The double-sided reflecting array of apertures acts the light for reaching light transmission hole Transmission effect.

The diffusing reflection layer I, side backlight source and double-sided reflecting array of apertures are able to achieve the circulation effective use of light, As shown in Fig. 6, light diffusing reflection on diffusing reflection layer I that side backlight source issues, wherein sub-fraction light is by two-sided The light transmission hole transmission for reflecting array of apertures, constitutes 3D rendering light, and most of light reaches the unrestrained of double-sided reflecting array of apertures Reflecting layer II is diffusely reflected the irreflexive light of layer II and returns to diffusing reflection layer I, and is diffusely reflected returns to display device again It is interior, realize recycling for light.

The virtual 3D rendering of the high brightness shows, 3D film source, institute are shown as shown in Fig. 7, on transluscent display panel Stating 3D film source includes many same place pixels, and the same place pixel of same object point is diffusely reflected the irreflexive light irradiation of layer I, light Modulation of the line by pixel grayscale, realize image show, by same object point same place pixel light by light transmission hole After transmission, intersects in space intersection or reverse extending line, constitute 3D picture point；The irreflexive light of layer I that is diffusely reflected includes Directly after the outgoing of side backlight source on diffusing reflection layer I irreflexive light, after diffusing reflection layer II diffusing reflection and again It once is diffusely reflected the irreflexive light of layer I and multiple irreflexive light between diffusing reflection layer I and diffusing reflection layer II, To realize that the 3D rendering of high brightness is shown.

Described that real-world object is imaged, as shown in Fig. 8, real-world object issues or the arrival of the light of reflection is described two-sided anti- It penetrates on the specular layer of array of apertures, is acted on by the mirror-reflection of specular layer, in the double-sided reflecting array of apertures Rear generates the virtual image, realizes real-world object imaging.

Apparatus of the present invention can realize that virtual 3D rendering is shown and real-world object imaging, effective use backlight obtain simultaneously The augmented reality 3D display effect of high brightness.

A kind of high brightness augmented reality 3D display method, it is successively aobvious including diffusing reflection layer I, side backlight source, transmission-type Show panel and double-sided reflecting array of apertures；The diffusing reflection layer I is located at the rearmost end of whole display device, the diffusing reflection layer I The light diffusing reflection that the side backlight source is issued, at the same the light of double-sided reflecting array of apertures reflection is unrestrained anti- It penetrates；The side backlight source is located at the centre of the diffusing reflection layer I and transluscent display panel, provides for whole display device Light source；The transluscent display panel is realized for showing that 3D film source, the Pixel Information of display are modulated the light passed through Image is shown；Before the double-sided reflecting array of apertures is located at the transluscent display panel, the double-sided reflecting array of apertures by Specular layer, substrate, diffusing reflection layer II are fitted closely, and specular layer and diffusing reflection layer II are located at substrate two Side, specular layer are located at the outermost layer of whole device, to the light shiny reflex of real-world object, diffusing reflection layer II court On the inside of to device, unrestrained transmitting is played to the light of process；The specular layer, substrate, cloth is regular on diffusing reflection layer II The shape of arrangement and the identical light transmission hole of parameter, light transmission hole can be the knot such as vertical arrangement, oblique arrangement, pinhole array Structure；The double-sided reflecting array of apertures plays transmission to the light for reaching light transmission hole.

The diffusing reflection layer I, side backlight source and double-sided reflecting array of apertures are able to achieve the circulation effective use of light, Light diffusing reflection on diffusing reflection layer I that side backlight source issues, wherein sub-fraction light is by double-sided reflecting array of apertures The transmission of light transmission hole, constitute 3D rendering light, most of light reaches the diffusing reflection layer II of double-sided reflecting array of apertures, overflow II irreflexive light in reflecting layer returns to diffusing reflection layer I, and is diffusely reflected returns in display device again, realizes light It recycles；Show that 3D film source, the 3D film source include many same place pixels, same object point on the transluscent display panel Same place pixel be diffusely reflected layer I irreflexive light irradiation, modulation of the light by pixel grayscale realizes that image is aobvious Show, after the light of the same place pixel of same object point is by the transmission of light transmission hole, intersect in space intersection or reverse extending line, Constitute 3D picture point；The irreflexive light of layer I that is diffusely reflected includes directly after the outgoing of side backlight source in diffusing reflection layer I Upper irreflexive light after diffusing reflection layer II diffusing reflection and is diffusely reflected the irreflexive light of layer I again and is overflowing Multiple irreflexive light between reflecting layer I and diffusing reflection layer II, to realize that the 3D rendering of high brightness is shown；Real-world object hair Out or the light of reflection reaches on the specular layer of the double-sided reflecting array of apertures, passes through the mirror-reflection of specular layer Effect generates the virtual image at double-sided reflecting array of apertures rear, realizes real-world object imaging.

The method of the present invention can realize that the virtual 3D rendering of high brightness is shown and real-world object is imaged simultaneously, obtain high brightness Augmented reality 3D display effect.

Detailed description of the invention

A kind of high brightness augmented reality 3D display schematic device of the invention of attached drawing 1.

Attached drawing 2 is double-sided reflecting array of apertures structure chart of the invention.

Attached drawing 3 is the double-sided reflecting array of apertures schematic diagram of vertical arrangement.

Attached drawing 4 is that the double-sided reflecting array of apertures of oblique arrangement is illustrated.

Attached drawing 5 is the double-sided reflecting array of apertures schematic diagram of pinhole array.

Attached drawing 6 is that the light of apparatus of the present invention recycles schematic diagram.

Attached drawing 7 is the virtual 3D rendering display schematic diagram of high brightness of apparatus of the present invention.

Attached drawing 8 is apparatus of the present invention to real-world object imaging schematic diagram.

Shown by reference numeral in above-mentioned attached drawing are as follows:

1 diffusing reflection layer I, 2 side backlight sources, 3 transluscent display panels, 4 double-sided reflecting array of apertures, 41 mirror-reflections Layer, 42 substrates, 43 diffusing reflection layer II, 44 light transmission holes, the light transmission hole of 441 vertical arrangements, the loophole of 442 oblique arrangements Gap, the light transmission hole of 443 pinhole array, 5 light recycled, the same place pixel of 6 same object points, 7 virtual 3D renderings, 71 virtual 3D picture points, 8 real-world objects, 81 true object points, the picture of 82 real-world objects, the picture of 83 true object points.

It should be understood that above-mentioned attached drawing is only schematical, it is not drawn to draw.

Specific embodiment

The following detailed description of an a kind of typical implementation of high brightness augmented reality 3D display device and method of the invention Example, is further described specifically the present invention.It is necessarily pointed out that following embodiment be served only for the present invention do into The explanation of one step, should not be understood as limiting the scope of the invention, and field person skilled in the art is according to aforementioned present invention Content makes some nonessential modifications and adaptations to the present invention, still falls within protection scope of the present invention.

A kind of high brightness augmented reality 3D display device, as shown in Fig. 1, the device successively include diffusing reflection layer I, side Formula backlight, transluscent display panel and double-sided reflecting array of apertures realize that the virtual 3D rendering of high brightness is shown and true object Body imaging.

The diffusing reflection layer I is located at the rearmost end of whole display device, and the diffusing reflection layer I is by the side backlight source The light diffusing reflection of sending, while the light diffusing reflection that the double-sided reflecting array of apertures is reflected back.

The side backlight source is located at the centre of the diffusing reflection layer I and transluscent display panel, for entire display dress Offer light source is provided.

The transluscent display panel for showing that 3D film source, the Pixel Information of display are modulated the light passed through, Realize that image is shown.

Before the double-sided reflecting array of apertures is located at the transluscent display panel, as shown in Fig. 2, the double-sided reflecting Array of apertures is fitted closely by specular layer, substrate, diffusing reflection layer II, and specular layer and diffusing reflection layer II distinguish position In substrate two sides, specular layer is located at the outermost layer of whole device, to the light shiny reflex of real-world object, overflows anti- Layer II is penetrated towards device inside, unrestrained transmitting is served to the light of process；The specular layer, substrate, on diffusing reflection layer II It is furnished with the identical light transmission hole of regularly arranged and parameter, the shape of light transmission hole can be vertical arrangement, oblique arrangement, pin hole battle array The structures such as column, as shown in attached drawing 3, attached drawing 4 and attached drawing 5；The double-sided reflecting array of apertures acts the light for reaching light transmission hole Transmission effect.

The diffusing reflection layer I, side backlight source and double-sided reflecting array of apertures are able to achieve the circulation effective use of light, As shown in Fig. 6, light diffusing reflection on diffusing reflection layer I that side backlight source issues, wherein sub-fraction light is by two-sided The light transmission hole transmission for reflecting array of apertures, constitutes 3D rendering light, and most of light reaches the unrestrained of double-sided reflecting array of apertures Reflecting layer II is diffusely reflected the irreflexive light of layer II and returns to diffusing reflection layer I, and is diffusely reflected returns to display device again It is interior, realize recycling for light.

The virtual 3D rendering of the high brightness is shown, shows 3D film source, institute as shown in Fig. 7, on transluscent display panel Stating 3D film source includes many same place pixels, and the same place pixel of same object point is diffusely reflected the irreflexive light irradiation of layer I, light Modulation of the line by pixel grayscale, realize image show, by same object point same place pixel light by light transmission hole After transmission, intersects in space intersection or reverse extending line, constitute 3D picture point；The irreflexive light of layer I that is diffusely reflected includes Directly after the outgoing of side backlight source on diffusing reflection layer I irreflexive light, after diffusing reflection layer II diffusing reflection and again It once is diffusely reflected the irreflexive light of layer I and multiple irreflexive light between diffusing reflection layer I and diffusing reflection layer II, To realize that the 3D rendering of high brightness is shown.

Described that real-world object is imaged, as shown in Fig. 8, real-world object issues or the arrival of the light of reflection is described two-sided anti- It penetrates on the specular layer of array of apertures, is acted on by the mirror-reflection of specular layer, in the double-sided reflecting array of apertures Rear generates the virtual image, realizes real-world object imaging.

Apparatus of the present invention can realize that virtual 3D rendering is shown and real-world object imaging, effective use backlight obtain simultaneously The augmented reality 3D display effect of high brightness.

A kind of high brightness augmented reality 3D display method, it is successively aobvious including diffusing reflection layer I, side backlight source, transmission-type Show panel and double-sided reflecting array of apertures；The diffusing reflection layer I is located at the rearmost end of whole display device, the diffusing reflection layer I The light diffusing reflection that the side backlight source is issued, at the same the light of double-sided reflecting array of apertures reflection is unrestrained anti- It penetrates；The side backlight source is located at the centre of the diffusing reflection layer I and transluscent display panel, provides for whole display device Light source；The transluscent display panel is realized for showing that 3D film source, the Pixel Information of display are modulated the light passed through Image is shown；Before the double-sided reflecting array of apertures is located at the transluscent display panel, the double-sided reflecting array of apertures by Specular layer, substrate, diffusing reflection layer II are fitted closely, and specular layer and diffusing reflection layer II are located at substrate two Side, specular layer are located at the outermost layer of whole device, to the light shiny reflex of real-world object, diffusing reflection layer II court On the inside of to device, unrestrained transmitting is played to the light of process；The specular layer, substrate, cloth is regular on diffusing reflection layer II The shape of arrangement and the identical light transmission hole of parameter, light transmission hole can be the knot such as vertical arrangement, oblique arrangement, pinhole array Structure；The double-sided reflecting array of apertures plays transmission to the light for reaching light transmission hole.

The diffusing reflection layer I, side backlight source and double-sided reflecting array of apertures are able to achieve the circulation effective use of light, Light diffusing reflection on diffusing reflection layer I that side backlight source issues, wherein sub-fraction light is by double-sided reflecting array of apertures The transmission of light transmission hole, constitute 3D rendering light, most of light reaches the diffusing reflection layer II of double-sided reflecting array of apertures, overflow II irreflexive light in reflecting layer returns to diffusing reflection layer I, and is diffusely reflected returns in display device again, realizes light It recycles；Show that 3D film source, the 3D film source include many same place pixels, same object point on the transluscent display panel Same place pixel be diffusely reflected layer I irreflexive light irradiation, modulation of the light by pixel grayscale realizes that image is aobvious Show, after the light of the same place pixel of same object point is by the transmission of light transmission hole, intersect in space intersection or reverse extending line, Constitute 3D picture point；The irreflexive light of layer I that is diffusely reflected includes directly after the outgoing of side backlight source in diffusing reflection layer I Upper irreflexive light after diffusing reflection layer II diffusing reflection and is diffusely reflected the irreflexive light of layer I again and is overflowing Multiple irreflexive light between reflecting layer I and diffusing reflection layer II, to realize that the 3D rendering of high brightness is shown；Real-world object hair Out or the light of reflection reaches on the specular layer of the double-sided reflecting array of apertures, passes through the mirror-reflection of specular layer Effect generates the virtual image at double-sided reflecting array of apertures rear, realizes real-world object imaging.

The method of the present invention can realize that the virtual 3D rendering of high brightness is shown and real-world object is imaged simultaneously, obtain high brightness Augmented reality 3D display effect.

Claims (3)

1. a kind of high brightness augmented reality 3D display device, which is characterized in that apparatus of the present invention include diffusing reflection layer I, side type Backlight, transluscent display panel and double-sided reflecting array of apertures realize that the virtual 3D rendering of high brightness is shown and real-world object Imaging；

The diffusing reflection layer I is located at the rearmost end of whole display device, and the diffusing reflection layer I issues the side backlight source Light diffusing reflection, while the light diffusing reflection that the double-sided reflecting array of apertures is reflected back；The side backlight source position In the centre of the diffusing reflection layer I and transluscent display panel, light source is provided for whole display device；The transmission-type display surface Plate realizes that image is shown for showing that 3D film source, the Pixel Information of display are modulated the light passed through；The double-sided reflecting Before array of apertures is located at the transluscent display panel, the double-sided reflecting array of apertures is by specular layer, substrate, diffusing reflection Layer II is fitted closely, and specular layer and diffusing reflection layer II are located at substrate two sides, and specular layer is located at entire dress The outermost layer set, to the light shiny reflex of real-world object, diffusing reflection layer II is towards device inside, to the light of process Play unrestrained transmitting；The specular layer, substrate are furnished with the identical loophole of regularly arranged and parameter on diffusing reflection layer II The shape of gap, light transmission hole can be the structures such as vertical arrangement, oblique arrangement, pinhole array；The double-sided reflecting array of apertures Transmission is served to the light for reaching light transmission hole；

The diffusing reflection layer I, side backlight source and the circulation effective use that light is able to achieve with double-sided reflecting array of apertures, side Light diffusing reflection on diffusing reflection layer I that side formula backlight issues, wherein sub-fraction light is by double-sided reflecting array of apertures The transmission of light transmission hole constitutes 3D rendering light, and most of light reaches the diffusing reflection layer II of double-sided reflecting array of apertures, by unrestrained anti- It penetrates the irreflexive light of layer II and returns to diffusing reflection layer I, and be diffusely reflected return in display device again, realize following for light Ring utilizes；

The virtual 3D rendering of the high brightness is shown, shows that 3D film source, the 3D film source include many on transluscent display panel Same place pixel, the same place pixel of same object point are diffusely reflected the irreflexive light irradiation of layer I, and light is by pixel grayscale Modulation, realize image show, by the light of the same place pixel of same object point by light transmission hole transmit after, in space intersection Or the intersection of reverse extending line, constitute 3D picture point；The irreflexive light of layer I that is diffusely reflected includes directly from side backlight source After outgoing on diffusing reflection layer I irreflexive light, to be diffusely reflected layer I after diffusing reflection layer II diffusing reflection and again unrestrained anti- The light and multiple irreflexive light between diffusing reflection layer I and diffusing reflection layer II penetrated, to realize the 3D figure of high brightness As display；

Described that real-world object is imaged, the light of real-world object sending or reflection reaches the mirror surface of the double-sided reflecting array of apertures It on reflecting layer, is acted on by the mirror-reflection of specular layer, generates the virtual image at double-sided reflecting array of apertures rear, realize Real-world object imaging.

2. a kind of high brightness augmented reality 3D display method, which is characterized in that including diffusing reflection layer I, side backlight source, transmission Type display panel and double-sided reflecting array of apertures；The diffusing reflection layer I is located at the rearmost end of whole display device, the diffusing reflection The light diffusing reflection that layer I issues the side backlight source, while the light that the double-sided reflecting array of apertures reflects being overflow Reflection；The side backlight source is located at the centre of the diffusing reflection layer I and transluscent display panel, mentions for whole display device For light source；The transluscent display panel is real for showing that 3D film source, the Pixel Information of display are modulated the light passed through Existing image is shown；Before the double-sided reflecting array of apertures is located at the transluscent display panel, the double-sided reflecting array of apertures It is fitted closely by specular layer, substrate, diffusing reflection layer II, specular layer and diffusing reflection layer II are located at substrate two Side, specular layer are located at the outermost layer of whole device, to the light shiny reflex of real-world object, diffusing reflection layer II court On the inside of to device, unrestrained transmitting is played to the light of process；The specular layer, substrate, cloth is regular on diffusing reflection layer II The shape of arrangement and the identical light transmission hole of parameter, light transmission hole can be the knot such as vertical arrangement, oblique arrangement, pinhole array Structure；The double-sided reflecting array of apertures plays transmission to the light for reaching light transmission hole；

The diffusing reflection layer I, side backlight source and the circulation effective use that light can be able to achieve with double-sided reflecting array of apertures, Light diffusing reflection on diffusing reflection layer I that side backlight source issues, wherein sub-fraction light is by double-sided reflecting array of apertures The transmission of light transmission hole, constitute 3D rendering light, most of light reaches the diffusing reflection layer II of double-sided reflecting array of apertures, overflow II irreflexive light in reflecting layer returns to diffusing reflection layer I, and is diffusely reflected returns in display device again, realizes light It recycles；Show that 3D film source, the 3D film source include many same place pixels, same object point on the transluscent display panel Same place pixel be diffusely reflected layer I irreflexive light irradiation, modulation of the light by pixel grayscale realizes that image is aobvious Show, after the light of the same place pixel of same object point is by the transmission of light transmission hole, intersect in space intersection or reverse extending line, Constitute 3D picture point；The irreflexive light of layer I that is diffusely reflected includes directly after the outgoing of side backlight source in diffusing reflection layer I Upper irreflexive light after diffusing reflection layer II diffusing reflection and is diffusely reflected the irreflexive light of layer I again and is overflowing Multiple irreflexive light between reflecting layer I and diffusing reflection layer II, to realize that the 3D rendering of high brightness is shown；Real-world object hair Out or the light of reflection reaches on the specular layer of the double-sided reflecting array of apertures, passes through the mirror-reflection of specular layer Effect generates the virtual image at double-sided reflecting array of apertures rear, realizes real-world object imaging, obtain the augmented reality of high brightness 3D display effect.

3. a kind of high brightness augmented reality 3D display method according to claim 2, which is characterized in that the inventive method energy It realizes that the virtual 3D rendering of high brightness is shown and real-world object is imaged simultaneously, obtains the augmented reality 3D display effect of high brightness.