CN204188875U - The device of multi-layer transparent imaging - Google Patents

Abstract

The utility model relates to a kind of device of multi-layer transparent imaging, at least two-layer transparent image can be shown in same direction, can also realize in addition from multiple directions see two-layer or two-layer more than the imaging device of transparency image, comprise display screen and reflecting plate, reflecting plate, for making described display screen by reflective surface corresponding to this reflecting plate, makes the image in display screen in the position imaging of correspondence; It is characterized in that comprising described display screen has 1 group at least, often group has 1 display screen at least, and described reflecting plate has three at least; The reflecting surface of a reflecting plate and the reflecting surface of another reflecting plate is wherein had at least to be in α angle, 30 °≤α≤90 °; The reflecting surface of a reflecting plate and the display surface of display screen is wherein had at least to be in β angle, 30 °≤β≤60 °; Described reflecting plate be atr plate and or semitransparent reflector plate, described reflecting plate is coated with reflective film, and described reflective film is for strengthening the ability of described baffle reflection light.

Description

The device of multi-layer transparent imaging

Technical field

The utility model relates to a kind of device of video Transparence Display, particularly relates to a kind of stereoscopic imaging apparatus showing multi-layer image.

Background technology

In today that vision technique is constantly brought forth new ideas, modern commerce shows the eyes needing noveler visual effect to stimulate consumer, and wherein Transparence Display technology also starts constantly to appear in the life of people.

Existing phantom imaging technology (optical reflection transparent imaging technique) other Transparence Display technology relatively, its technology, technique are simple, and cost is low, and display effect is novel, but because the image of its viewing only has single layer of transparent image, image effect does not possess solid layer feeling.

Summary of the invention

Therefore, an object of the present utility model is to provide one and relates to when watching catoptric imaging, and spectators can be made to see the two-layer or two-layer above transparency image with stereovision, and the display device that the simple cost of technique is low.

Another object of the present utility model is to provide a kind ofly at least can watch transparency image at the form of two different directions, looks, have the display device of two-layer transparency image at least from each form direction.

Other features and advantages of the utility model will be described in the following description, can be understood or can by being understood in conjunction with drawings and Examples of the present invention by description.

In order to realize above-mentioned the purpose of this utility model, the technical scheme that the utility model adopts is: provide the device that a kind of multi-layer transparent shows, comprise: display screen and reflecting plate, reflecting plate, for making described display screen by reflective surface corresponding to this reflecting plate, makes the image in display screen in the position imaging of correspondence; The device characteristic of this multi-layer transparent imaging is to comprise: described display screen has 1 group at least, and often group has 1 display screen at least, and described reflecting plate has three at least; The reflecting surface of a reflecting plate and the reflecting surface of another reflecting plate is wherein had at least to be in α angle, 30 °≤α≤90 °; The reflecting surface of a reflecting plate and the display surface of display screen is wherein had at least to be in β angle, 30 °≤β≤60 °; Described reflecting plate be atr plate and or semitransparent reflector plate, described reflecting plate is coated with reflective film, described reflective film is for strengthening the ability of described baffle reflection light, the reflectivity of described atr plate is R, 80%≤R < 100%, the reflectivity of described semitransparent reflector plate is r, 17%≤r < 80%, described reflectivity be the reflecting surface of reflecting plate the ratio of light quantity that accepts of the reflecting surface of reflectible light quantity and this reflecting plate.

The device of this multi-layer transparent imaging also comprises, and in described reflecting plate, it has at least a reflecting plate to be atr plate, and the reflecting surface of described atr plate and the display surface of display screen are in γ angle, 0 °≤γ≤20 °; In described reflecting plate, the reflecting surface of the reflecting surface of a semitransparent reflector plate and another semitransparent reflector plate is wherein had to be in α angle, 60 °≤α≤90 °.

The device of this multi-layer transparent imaging also comprises, and described reflecting plate has 5, wherein has 4 semitransparent reflector plates to be isosceles trapezoid or isosceles triangle; Wherein 4 semitransparent reflector plates are between described display screen and described atr plate, the reflecting surface of described atr plate and the display surface of display screen staggered relatively.

The device of this multi-layer transparent imaging also comprises, described reflecting plate has 9, wherein has 8 semitransparent reflector plates to be isosceles trapezoid or isosceles triangle, and 4 is one group, often organize mutually to enclose and draw together into the four bank or ridge that does not have bottom surface, described in enclose the four bank or ridge drawn together and place one on the other; Wherein have 1 reflecting plate to be atr plate, described atr plate is parallel with the display surface of described display screen; 8 described semitransparent reflector plates are mutually at 45 ° with the display surface of display screen respectively; Described 8 semitransparent reflector plates are between described atr plate and display screen.

The device of this multi-layer transparent imaging also comprises, and in described reflecting plate, has the reflecting surface of two reflecting plates to be in 6 jiaos, 0 °≤6≤20 °.

The device of this multi-layer transparent imaging also comprises, and described reflecting plate has 8, wherein has 4 semitransparent reflector plates to be isosceles trapezoid or isosceles triangle, mutually encloses and draw together into the four bank or ridge that does not have bottom surface; 4 reflecting plate shapes are wherein had to be rectangle, be respectively the first rectangular reflection plate, second rectangular reflection plate, 3rd rectangular reflection plate and the 4th rectangular reflection plate, in these four rectangular reflection plates, the reflecting surface of the first rectangular reflection plate is mutually vertical with the reflecting surface of the second rectangular reflection plate, the reflecting surface of the second rectangular reflection plate is mutually vertical with the reflecting surface of the 3rd rectangular reflection plate, the reflecting surface of the 3rd rectangular reflection plate is mutually vertical with the reflecting surface of the 4th rectangular reflection plate, and the reflecting surface of the 4th rectangular reflection plate is mutually vertical with the reflecting surface of the first rectangular reflection plate; The reflecting surface of described 4 rectangular reflection plates is all vertical with the display surface of display screen; 4 described semitransparent reflector plates are arranged in described 4 rectangular reflection plates and enclose the space of drawing together.

The device of this multi-layer transparent imaging also comprises, described reflecting plate has 12, wherein has 8 semitransparent reflector plates to be isosceles trapezoid or isosceles triangle, and 4 is one group, often organize mutually to enclose and draw together into the four bank or ridge that does not have bottom surface, described in enclose the four bank or ridge drawn together and place one on the other; Four reflecting plate shapes are wherein had to be rectangle, in these four rectangular reflection plates, the reflecting surface of the first rectangular reflection plate is mutually vertical with the reflecting surface of the second rectangular reflection plate, the reflecting surface of the second rectangular reflection plate is mutually vertical with the reflecting surface of the 3rd rectangular reflection plate, the reflecting surface of the 3rd rectangular reflection plate is mutually vertical with the reflecting surface of the 4th rectangular reflection plate, and the reflecting surface of the 4th rectangular reflection plate is mutually vertical with the reflecting surface of the first rectangular reflection plate; The reflecting surface of described four rectangular reflection plates is all vertical with the display surface of display screen; Described 8 semitransparent reflector plates are arranged in described four rectangular reflection plates and enclose the space of drawing together.

The device of this multi-layer transparent imaging also comprises, and described display screen has two groups, and often group has 1 display screen, and display panel opposite is placed, and the display surface of display screen is parallel to each other placement.

The device of this multi-layer transparent imaging also comprises, and described display screen is LCDs, LED display, OLED display screen, projection screen or PDP display; Described reflecting plate is glass, crystal, plastics or resin.

The device of this multi-layer transparent imaging also comprises, dianegative, described dianegative and described four rectangular reflection plates enclose mutually draws together that to form face, a limit and bottom surface be all square container, described display screen is divided into display screen to carry on the back and display panel, and described dianegative is positioned at described display panel.

The device of this multi-layer transparent imaging also comprises, transparent frame, and the shape of described transparent frame is a container, and this container bottoms is transparent, and the internal edges face of this container has at least 1 face to be transparent; In described reflecting plate, wherein two reflecting plates reflecting surface separately have at least a point to be positioned at the inner space of container; Described display screen is divided into display screen to carry on the back and display panel, and described transparent chord position is in described display panel.

The device of this multi-layer transparent imaging also comprises, image direction converter, for changing the direction of described reflecting plate formed all virtual images in the same direction simultaneously, described image direction converter comprises direction reflecting plate and fixed mount, described direction reflecting plate is semitransparent reflector plate or atr plate, described direction reflecting plate is coated with reflective film, and described reflective film is for strengthening the ability of described baffle reflection light, and described fixed mount is used for fixing described direction reflecting plate; The reflecting surface of described direction catoptron is vertical with the display surface of described display screen; In described reflecting plate, have at least the reflecting surface of the reflecting surface of a reflecting plate and described direction reflecting plate mutually into θ angle, 55 °≤θ≤75 °.

The beneficial effects of the utility model are:

1. realize the transparency image layer at least watching at least 2 transparency image layers or more than 2 from 1 direction (1 form), between every layer image of same form viewing, there is far and near hierarchical relationship, distance perspective between every layer image is obvious, and the stereoscopic sensation of image is strong.

2. when having two parallel placements of reflecting plate as Fig. 5, sight line looks over by direction 19 and direction 26 respectively from transparent reflective plate 25 (can regard form as) or from transparent reflective plate 39 (can regard form as), a unlimited image bearing layer is seen in capital, from closely to far, visual space is far-reaching, and stereoscopic sensation is very strong.

3. embodiment 2 achieves 4 directions and watches transparency image, and each direction can show the transparency image layer of at least 2 transparency image layers or more than 2, enhances novel sense, entertaining sense, mystique.

4. spectators do not need wearing stereoscopic glasses can see floating skyborne stacked stereopsis, are the transparency image with true stereovision, distance perspective.

5. the image watched due to the utility model is all the virtual image, even if so the utility model also can not be stopped by wall by the placement of wall limit or interferes this stratified stereoeffect, make placement of the present utility model convenient flexibly, save space.

6. the utility model takes full advantage of the characteristic of the reflection of completely reflecting mirror and semi-transparent reflection mirror, by structural design cleverly, thus can produce more image bearing layer with minimum display screen, and enhance stereoscopic sensation, reduce cost, easily produce in batches.

Be to be understood that above-mentioned generality illustrates and detailed description is below exemplary with illustrative, and provide further instruction to the utility model required for protection.

Accompanying drawing explanation

In accompanying drawing, what numeral number was identical is the parts that title is identical.

Fig. 1 is the side profile schematic diagram of the utility model embodiment 1;

Fig. 2 is the three-dimensional icon intention that the utility model embodiment 1 removes atr plate 12;

Fig. 3 is the side profile schematic diagram of the utility model embodiment 2;

Fig. 4 is the three-dimensional icon intention that the utility model embodiment 2 removes atr plate 34;

Fig. 5 is the utility model embodiment 3 side profile schematic diagram;

Fig. 6 is the solid signal that the utility model embodiment 3 removes top cover 38;

Fig. 7 is the schematic perspective view of the utility model embodiment 4;

Fig. 8 is the top-level view of the utility model embodiment 4;

The image of 1. display screen 2 li in Fig. 1,2. display screen, 3. dianegative, 4. semitransparent reflector plate, 5. transparent panel (form), 6. the direction of video image evaluation, 7. are virtual images (with reflecting plate 4 for axis of reflection) of 11,8. are virtual images (with reflecting plate 4 for axis of reflection) of 1,10. are virtual images (with reflecting plate 15 for axis of reflection) of 7,11. be 1 the virtual image (with reflecting plate 12 for axis of reflection), 12. atr plates, 15. semitransparent reflector plates, the shell of 30. fixing display screens;

80. transparent panels in Fig. 2,81. transparent panels;

2. display screens in Fig. 3, the image of 13. display screens 2 li, the image of 14. display screens 2 li, 18. transparent framves (transparent square box container), the direction of 19. video image evaluations, 20. be 35 the virtual image (with reflecting plate 31 for axis of reflection), 22. is virtual images (with reflecting plate 32 for axis of reflection) of image 14, 23. is virtual images (with reflecting plate 31 for axis of reflection) of image 13, the direction of 26. video image evaluations, 27. be 36 the virtual image, the shell of 30. fixing display screens, 31. is semitransparent reflector plates, 32. is semitransparent reflector plates, 34. atr plates, 35. is virtual images (with reflecting plate 31 for axis of reflection) of image 13, 36. is virtual images (with reflecting plate 34 for axis of reflection) of image 14,

The image of 13. display screen 2 li in Fig. 4, the image of 14. display screens 2 li, 18. transparent framves (transparent square container), the shell of 30. fixing display screens, 31. is semitransparent reflector plates, and 32. is semitransparent reflector plates, 46. is semitransparent reflector plates, 37. is semitransparent reflector plates, the image of 40. display screens 2 li, and 49. is images of display screen 2 li; 90. transparent panels, 91. transparent panels, 92. transparent panels, 93. transparent panels;

In Fig. 5 22. is virtual images (with reflecting plate 32 for axis of reflection) of image 14,23. is virtual images (with reflecting plate 31 for axis of reflection) of image 13,25. semitransparent reflector plates, 37. be 23 the virtual image, 38. opaque top covers, 39. semitransparent reflector plates;

37. semitransparent reflector plates in Fig. 6, the image in 40. display screens, 46. semitransparent reflector plates, the image in 49. display screens, 50. semitransparent reflector plates, 51. semitransparent reflector plates;

60. fixed mounts in Fig. 7,61. semitransparent reflector plates;

In Fig. 8 20. is virtual images (with reflecting plate 31 for axis of reflection) of image 35,22. is virtual images (with reflecting plate 32 for axis of reflection) of image 14,64. be 22 the virtual image (with reflecting plate 61 for axis of reflection), 63. be 20 the virtual image (with reflecting plate 61 for axis of reflection).

Embodiment

Below in conjunction with drawings and Examples, the utility model is further described.

Below with reference to Fig. 1 and Fig. 2, embodiment 1 of the present utility model being described, is the example that one direction becomes double-deck image.

As depicted in figs. 1 and 2, transparent panel 80, transparent panel 81, transparent panel 5, transparent panel 3 and transparent reflective plate 15 are spliced into a square container mutually, wherein transparent panel uses acrylic to make, transparent reflective plate 4 also uses semi-transparent plating acrylic, the translucent metallic film of this one of them electroplating surface last layer of semi-transparent plating acrylic, atr plate 12 is one piece of opaque level crossing, semitransparent reflector plate 4 is put into the square container spliced, and place with bottom transparent plate 3 one-tenth β angles, β=45 °; Atr plate 12 is fixed on square vessel port place, and the minute surface of atr plate 12 towards semitransparent reflector plate 4, and is placed with semitransparent reflector plate 4 one-tenth α angles, α=45 °; Display screen 2 is fixed on 30 li, shell, and the display surface of display screen is towards semitransparent reflector plate 4; When sight line looks over from direction 6, namely sight line just can see two-layer transparent image by transparent panel 5 (form), and the image on these two image bearing layers is the virtual image 8 and the virtual image 10 respectively.

Below with reference to Fig. 3 and Fig. 4, embodiment 2 of the present utility model being described, is the example that four direction all becomes double-deck image.

As shown in Figure 3 and Figure 4, transparent panel 90, transparent panel 91, transparent panel 92 and transparent panel 93 make with transparent acrylic, made the square container of a surrounding and sealing bottom surface, container upper opening; Semitransparent reflector plate 31, semitransparent reflector plate 32, semitransparent reflector plate 46 and semitransparent reflector plate 37 are made with coated glass, each semitransparent reflector plate cuts into waist limit becomes 55 ° of angles isosceles triangle with base, these 4 semitransparent reflector plate plates are put into the square container made, and make the limit of these 4 semitransparent reflector plates mutually be spliced into the rectangular pyramid that falls of an opening, make the placement at 45 ° with square container bottoms respectively of these 4 semitransparent reflector plates in addition; An atr plate 34 is placed in square vessel port place, and atr plate 34 is one piece of opaque level crossing, and placement parallel with square container bottoms, also become α angle to place with described 4 semitransparent reflector plates, α=45 °; Display screen is fixed on 30 li, shell, the display surface of display screen is placed with semitransparent reflector plate 31, semitransparent reflector plate 32, semitransparent reflector plate 46 and semitransparent reflector plate 37 one-tenth β angles respectively, β=45 °, the display surface of display screen 2 is towards atr plate 34, semitransparent reflector plate 31 and semitransparent reflector plate 32 are in α angle and place, semitransparent reflector plate 46 and semitransparent reflector plate 37 are in α angle and place, α=90 °; When sight line looks over from direction 19, namely sight line from semitransparent reflector plate 31 (form) by time, can see two-layer transparent image, the image on these two image bearing layers is the virtual image 23 and the virtual image 27 respectively; When sight line looks over from direction 26, namely sight line from semitransparent reflector plate 32 (form) by time, also can see two-layer transparent image, the image on these two image bearing layers is the virtual image 22 and the virtual image 20 respectively.

In like manner, sight line from semitransparent reflector plate 46 (form) and semitransparent reflector plate 37 (form) by time, two-layer transparent image can be seen.The square container made above can be loaded clear water in addition, put into fish, travelling fish and transparent stereopsis contrast finely with each other.

Below with reference to Fig. 5 and Fig. 6, embodiment 3 of the present utility model being described, is the example that four direction all becomes double-deck image.

As shown in Figure 5 and Figure 6, semitransparent reflector plate 25, semitransparent reflector plate 39, semitransparent reflector plate 50 and semitransparent reflector plate 51, to make with translucent plating acrylic, dianegative 3 makes with the acrylic of all-transparent, these 5 transparent panels are made the square container of a surrounding and sealing bottom surface, container upper opening; Make 4 transparent reflective plate made with translucent plating acrylic in addition again, each semitransparent reflector plate cuts into waist limit becomes 55 ° of angles isosceles triangle with base, these 4 semitransparent reflector plates are put into the square container made, and make the limit of these 4 semitransparent reflector plates mutually be spliced into the rectangular pyramid that falls of an opening, make the placement at 45 ° with square container bottoms respectively of these 4 semitransparent reflector plates in addition; Square vessel port place covers with a top cover 38 is in the light; Display screen 2 is fixed on 30 li, shell, the display surface of display screen is placed with transparent reflective plate 37 one-tenth β angle with transparent reflective plate 31, transparent reflective plate 32, transparent reflective plate 46 respectively, β=45 °, the display surface of display screen 2 is towards semitransparent reflector plate 31, semitransparent reflector plate 32, semitransparent reflector plate 46 and semitransparent reflector plate 37, semitransparent reflector plate 31 and semitransparent reflector plate 32 are in α angle and place, semitransparent reflector plate 46 and semitransparent reflector plate 37 are in α angle and place, α=90 °; Due to semitransparent reflector plate 25 placement parallel with semitransparent reflector plate 39, they can mutual reflected image, like this, when sight line looks over from direction 19, namely sight line from semitransparent reflector plate 31 (form) by time, just can see two-layer above transparency image, as long as source images light intensity is enough, can see numerous image bearing layer in theory, the image of all layers is all made up of the virtual image 23 and the virtual image 40;

In like manner, sight line from semitransparent reflector plate 32 (form), semitransparent reflector plate 46 (form) and semitransparent reflector plate 37 (form) by time, numerous corresponding image bearing layer can be seen.The square container made above can be loaded clear water in addition, put into fish, travelling fish and transparent stacked stereopsis contrast finely with each other.

Below with reference to Fig. 7 and Fig. 8, embodiment 4 of the present utility model is described, the present embodiment is on the basis of embodiment 2, increases the example of image direction converter.

As shown in Figure 7 and Figure 8, semitransparent reflector plate 61 is made with coated glass, it is fixed on fixed mount 60, semitransparent reflector plate 61 and fixed mount 60 form image direction converter, fixed mount 60 is fixed on again on transparent square container, make semitransparent reflector plate 61 vertical with the display surface of display screen 2, and place with face, limit transparent panel 92 one-tenth μ angles of transparent square container, μ=45 °, when sight line is passed through from semitransparent reflector plate 61, just can see two-layer transparent image, the image on these two image bearing layers is the virtual image 64 and the virtual image 63 respectively.Make use of the image layer that this image direction converter is transformed into the image layer in other directions other angles like this, add visual range, too increase interest and mystique.

Above embodiment, although the brightness of its transparency image layer near to far having decay successively, as long as the brightness of display screen is enough, can not affect the effect of its show levels.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model.Those skilled in the art will be appreciated that, under enlightenment of the present utility model, and under the condition not deviating from spirit and scope of the present utility model, can make various modifications and variations to the utility model.Therefore, the utility model comprises all various modifications and variations of making the utility model in claims and equivalency range.

Claims (12)

1. a device for multi-layer transparent imaging, comprising:

Display screen and reflecting plate, reflecting plate, for making described display screen by reflective surface corresponding to this reflecting plate, makes the image in display screen in the position imaging of correspondence; The device characteristic of this multi-layer transparent imaging is to comprise:

Described display screen has 1 group at least, and often group has 1 display screen at least, and described reflecting plate has three at least;

The reflecting surface of a reflecting plate and the reflecting surface of another reflecting plate is wherein had at least to be in α angle, 30 °≤α≤90 °;

The reflecting surface of a reflecting plate and the display surface of display screen is wherein had at least to be in β angle, 30 °≤β≤60 °; And

Described reflecting plate be atr plate and or semitransparent reflector plate, described reflecting plate is coated with reflective film, described reflective film is for strengthening the ability of described baffle reflection light, the reflectivity of described atr plate is R, 80%≤R < 100%, the reflectivity of described semitransparent reflector plate is r, 17%≤r < 80%, described reflectivity be the reflecting surface of reflecting plate the ratio of light quantity that accepts of the reflecting surface of reflectible light quantity and this reflecting plate.

2. the device of multi-layer transparent imaging according to claim 1, characterized by further comprising:

In described reflecting plate, it has at least a reflecting plate to be atr plate, and the reflecting surface of described atr plate and the display surface of display screen are in γ angle, 0 °≤γ≤20 °; And

The span at described α angle is 60 °≤α≤90 °.

3. the device of multi-layer transparent imaging according to claim 2, characterized by further comprising:

Described reflecting plate has 5, wherein has the shape of 4 semitransparent reflector plates to be isosceles trapezoid or isosceles triangle; And

Wherein 4 semitransparent reflector plates are between described display screen and described atr plate, the reflecting surface of described atr plate and the display surface of display screen staggered relatively.

4. the device of multi-layer transparent imaging according to claim 2, characterized by further comprising:

Described reflecting plate has 9, wherein has the shape of 8 semitransparent reflector plates to be isosceles trapezoid or isosceles triangle, and 4 is one group, often organizes mutually to enclose and draws together into the four bank or ridge that does not have bottom surface, described in enclose the four bank or ridge drawn together and place one on the other;

Wherein have 1 reflecting plate to be atr plate, described atr plate is parallel with the display surface of described display screen;

8 described semitransparent reflector plates are mutually at 45 ° with the display surface of display screen respectively; And

Described 8 semitransparent reflector plates are between described atr plate and display screen.

5. the device of multi-layer transparent imaging according to claim 1, characterized by further comprising:

In described reflecting plate, the reflecting surface of two reflecting plates is had to be in δ angle, 0 °≤δ≤20 °.

6. the device of multi-layer transparent imaging according to claim 5, characterized by further comprising:

Described reflecting plate has 8, wherein has the shape of 4 semitransparent reflector plates to be isosceles trapezoid or isosceles triangle, mutually encloses and draw together into the four bank or ridge that does not have bottom surface;

4 reflecting plate shapes are wherein had to be rectangle, be respectively the first rectangular reflection plate, second rectangular reflection plate, 3rd rectangular reflection plate and the 4th rectangular reflection plate, in these four rectangular reflection plates, the reflecting surface of the first rectangular reflection plate is mutually vertical with the reflecting surface of the second rectangular reflection plate, the reflecting surface of the second rectangular reflection plate is mutually vertical with the reflecting surface of the 3rd rectangular reflection plate, the reflecting surface of the 3rd rectangular reflection plate is mutually vertical with the reflecting surface of the 4th rectangular reflection plate, and the reflecting surface of the 4th rectangular reflection plate is mutually vertical with the reflecting surface of the first rectangular reflection plate;

The reflecting surface of described 4 rectangular reflection plates is all vertical with the display surface of display screen; And

4 described semitransparent reflector plates are arranged in described 4 rectangular reflection plates and enclose the space of drawing together.

7. the device of multi-layer transparent imaging according to claim 5, characterized by further comprising:

Described reflecting plate has 12, wherein has the shape of 8 semitransparent reflector plates to be isosceles trapezoid or isosceles triangle, and 4 is one group, often organizes mutually to enclose and draws together into the four bank or ridge that does not have bottom surface, described in enclose the four bank or ridge drawn together and place one on the other;

Four reflecting plate shapes are wherein had to be rectangle, in these four rectangular reflection plates, the reflecting surface of the first rectangular reflection plate is mutually vertical with the reflecting surface of the second rectangular reflection plate, the reflecting surface of the second rectangular reflection plate is mutually vertical with the reflecting surface of the 3rd rectangular reflection plate, the reflecting surface of the 3rd rectangular reflection plate is mutually vertical with the reflecting surface of the 4th rectangular reflection plate, and the reflecting surface of the 4th rectangular reflection plate is mutually vertical with the reflecting surface of the first rectangular reflection plate;

The reflecting surface of described four rectangular reflection plates is all vertical with the display surface of display screen; And

Described 8 semitransparent reflector plates are arranged in described four rectangular reflection plates and enclose the space of drawing together.

8. the device of the multi-layer transparent imaging according to claim 1,5,6 or 7, characterized by further comprising:

Described display screen has two groups, and often group has 1 display screen, and display panel opposite is placed, and the display surface of display screen is parallel to each other placement.

9. the device of the multi-layer transparent imaging according to claim 1,2,3,4,5,6 or 7, characterized by further comprising:

Described display screen is LCDs, LED display, OLED display screen, projection screen or PDP display; And

Described reflecting plate is glass, crystal, plastics or resin.

10. the device of multi-layer transparent imaging according to claim 6, characterized by further comprising:

Dianegative, described dianegative and described four rectangular reflection plates enclose mutually draws together that to form face, a limit and bottom surface be all square container, described display screen is divided into display screen to carry on the back and display panel, and described dianegative is positioned at described display panel.

The device of 11. multi-layer transparent imagings according to claim 1,2,3,4,5,6,7 or 10, characterized by further comprising:

Transparent frame, the shape of described transparent frame is a container, and this container bottoms is transparent, and the inner edge face of this container has at least 1 face to be transparent;

In described reflecting plate, wherein two reflecting plates reflecting surface separately have at least a point to be positioned at the inner space of container; And

Described display screen is divided into display screen to carry on the back and display panel, and described transparent chord position is in described display panel.

The device of 12. multi-layer transparent imagings according to claim 1,2,3,4,5,6,7 or 10, characterized by further comprising:

Image direction converter, for changing the direction of described reflecting plate formed all virtual images in the same direction simultaneously, described image direction converter comprises direction reflecting plate and fixed mount, described direction reflecting plate is semitransparent reflector plate or atr plate, described direction reflecting plate is coated with reflective film, described reflective film is for strengthening the ability of described baffle reflection light, and described fixed mount is used for fixing described direction reflecting plate;

The reflecting surface of described direction catoptron is vertical with the display surface of described display screen; And

In described reflecting plate, have at least the reflecting surface of the reflecting surface of a reflecting plate and described direction reflecting plate mutually into θ angle, 55 °≤θ≤75 °.