CN201681577U - Aerial float imaging device - Google Patents

Abstract

The utility model discloses an aerial float imaging device, which comprises a frame, a plurality of imaging units and a plurality of image output units. The imaging units are connected mutually to form an imaging space, and the imaging units are arranged between two opposite sides of the frame. In the imaging space, each imaging unit and a connecting surface on the frame form a first angle, the image output units are arranged on the surfaces of the frame and opposite to the imaging units, one image output unit faces towards one imaging unit, the image output units display the same first images, and the first images are respectively converted to the imaging space via the corresponding imaging units and then form suspension image in the imaging space together.

Description

The aerial device for image that floats

Technical field

The utility model relates to a kind of device for image, particularly a kind of device that becomes the image that floats in the air that image is incident upon.

Background technology

At present, be the image output device that masses were familiar with, as cathode ray tube (CRT) televisor, LCD TV, plasm TV, three rifle projectors or single rifle projector etc., all be on same plane, to demonstrate image, if spectators mobile exceeds certain angular field of view, then can't see the image that image output device presents.

The magic arenas is a kind of large-scale indoor theme amusing products, and the magic arenas claims " phantom performance arenas " again.It utilizes illusory imaging technique, computing machine synthetic technology and optical reflection principle etc., make the imaging in kind and the image reverberation of stage outdoor scene finish the arenas form of performance jointly, have true man to perform and the theatre system of true stage in, it can realize very peculiar, original, mysterious performance effect, is fit to the theme content of the various super real styles of performance.For example, can make the performing artist leave no trace before the lights ground appearing and subsiding without foundation suddenly; Can make flare, smog change irregularly into the image of various mysteries, the time and become cute bird, the time and become the crowd of dancing; Can make true man become bird or the like suddenly.

Yet, the magic arenas also only can be on the plane of stage different depth, present the outdoor scene material object of stage and the imaging of image reverberation, spectators also can't see the identical outdoor scene material object and the imaging of image reverberation on different angles, cause its utilization to be subjected to suitable restriction.

In sum, no matter be traditional image output device, or in conjunction with the magic arenas of illusory imaging technique, computing machine synthetic technology and optical reflection principle, all be can only be on the plane of same plane or different depth image output, make spectators to see image from various angles, therefore, be necessary to solve this technical problem.

The utility model content

The main technical problems to be solved in the utility model is, a kind of aerial device for image that floats is provided, solving traditional image output device or magic arenas, can only be on the plane of same plane or different depth the problem of image output.

For solving the problems of the technologies described above, the utility model proposes a kind of aerial device for image that floats, comprise framework, a plurality of image-generating unit and a plurality of image output unit.Wherein said image-generating unit is located between two opposite faces of described framework, and be interconnected to form imaging space, in imaging space, described image-generating unit and its form first angle between the joint face on the framework, described image output unit is located at framework and imaging space outside, and each image output unit is in the face of an image-generating unit, described image output unit is exported identical a plurality of first images respectively, described first image is transformed in the imaging space by the image-generating unit of correspondence respectively, and forms the suspension image jointly in imaging space.

In sum, the unsteady in the air device for image of the utility model has following advantage:

(1) spectators can see the suspension image the imaging space from the periphery of each image-generating unit.

(2) on the position that each image-generating unit connects, also can see approximate complete identical suspension image, can solve traditional image output device or magic arenas, can only be on the plane of same plane or different depth the problem of image output.

Description of drawings

Fig. 1 is the structural representation of first kind of embodiment of the utility model;

Fig. 2 is the structural representation of second kind of embodiment of the utility model;

Fig. 3 is the structural representation of the third embodiment of the utility model;

Fig. 4 is the structural representation of the 4th kind of embodiment of the utility model.

Embodiment

In conjunction with the accompanying drawings the utility model is described in further detail below by embodiment.

Embodiment one:

See also Fig. 1, be the float structural representation of a kind of embodiment of device for image of the utility model in the air.This device comprises framework 1, a plurality of image-generating unit 2 and a plurality of image output unit 3.Wherein each image-generating unit 2 is located between two opposite faces of framework 1, and these image-generating units 2 are interconnected to form an imaging space 4, and in imaging space 4, each image-generating unit 2 and its form the first angle θ between the joint face on the framework 1.On the face relative that each image output unit 3 is located at framework 1 with image-generating unit 2, and an image output unit 3 is in the face of an image-generating unit 2, these image output units 3 present the first identical image 30 respectively, each first image 30 is transformed in the imaging space 4 by the image-generating unit 2 of correspondence respectively, and in imaging space 4 the common suspension image 40 that forms, therefore, spectators can see the suspension image 40 the imaging space 4 from the periphery of each image-generating unit 2, and on each image-generating unit 2 interconnective position, also can see approximate complete identical suspension image 40, can solve traditional image output device or magic arenas, can only be on the plane of same plane or different depth the problem of image output.

Please consult Fig. 1 again, among first embodiment of the present utility model, each image output unit 3 is located at the end face of framework 1, and be divided into a plurality of demonstrations by a display 32 (as: LCD, a plasma display, a projector or a televisor) respectively and partly 320 form each image output unit 3, each shows that part 320 is corresponding with corresponding image-generating unit 2 sizes, make each first image 30 be transformed into same position in the imaging space 4 by image-generating unit 2, therefore, spectators can see suspension image 40 identical the imaging space 4 from the periphery of each image-generating unit 2.

See also Fig. 2, among the utility model second embodiment, each image output unit 3 is respectively a display 32, each display 32 is located at the end face of framework 1, corresponding with corresponding image-generating unit 2 sizes respectively, and export one of them first image 30 respectively, make each first image 30 be transformed into same position in the imaging space 4 by image-generating unit 2, so, also can see identical suspension image 40 in the imaging space 4 from the periphery of each image-generating unit 2.

Please consult Fig. 1 and Fig. 2 again, among first and second embodiment of the present utility model, can place at least one physical item 5 between the bottom surface of framework 1 and the imaging space 4, and the suspension image 40 in the imaging space 4 is positioned on the physical item 5, therefore, spectators will see the illusory scene that projects suspension image 40 as physical item 5.

In addition, in aforementioned each embodiment of the present utility model, the position of the end face of imaging space 4 inherent close frameworks 1 is provided with luminescence unit 6, luminescence unit 6 can be to the bottom surface of framework 1 projection source, spectators will more clearly see the physical item 5 that is placed in the imaging space 4, yet the brightness of luminescence unit 6 can not surpass the brightness of suspension image 40, is difficult for seeing clearly suspension image 40 in order to avoid the light source of luminescence unit 6 is too big.Luminescence unit 6 can be made up of at least one LED lamp, daylight lamp, cold-cathode fluorescence lamp or rainbow or the like.

In aforementioned each embodiment of the present utility model, framework 1 position near each image output unit 3 on end face is provided with shielding cell 7, shielding cell 7 is covered each image output unit 3 and luminescence unit 6, is converted by first image 30 in order to avoid spectators penetrate suspension image 40.In addition, the end face of framework 1 is provided with lid 8, and lid 8 covers each image output unit 3, is that to penetrate suspension image 40 be that first image 30 exported by image output unit 3 is converted in order to exempt from spectators equally.

Further, edge around the end face of framework 1 is provided with at least one first coupling unit 10, lid 8 is in the position relative with each first coupling unit 10, then be respectively equipped with second coupling unit 80, when lid 8 covered at framework 1 end face, each first coupling unit 10 promptly combined with second coupling unit 80, in order to avoid lid 8 drops from framework 1, in each embodiment, this first coupling unit 10 is a magnet, and the sheet metal that second coupling unit 80 can be magnet or can be adsorbed by magnet.

See also Fig. 3, among the utility model the 3rd embodiment, each image output unit 3 is located at the bottom surface of framework 1, and be divided into a plurality of demonstrations parts 320 by a display 32 respectively, be used to form each image output unit 3, each shows that part 320 is corresponding with image-generating unit 2 sizes, makes each first image 30 be transformed into same position in the imaging space 4 by image-generating unit 2, and spectators can see suspension image 40 identical the imaging space 4 from each image-generating unit 2.

See also Fig. 4, among the utility model the 4th embodiment, each image output unit 3 is respectively a display 32, each display 32 is located at the bottom surface of framework 1 respectively, and it is corresponding with image-generating unit 2 sizes, and export one of them first image 30 respectively, make each first image 30 be transformed into same position in the imaging space 4 by image-generating unit 2, spectators also can see identical suspension image 40 in the imaging space 4 from the periphery of each image-generating unit 2.

In addition, edge around the bottom surface of framework 1 is provided with at least one first coupling unit 10, lid 8 is in the position relative with each first coupling unit 10, then be respectively equipped with second coupling unit 80, when lid 8 covered in framework 1 bottom surface, each first coupling unit 10 promptly combined with second coupling unit 80, in order to avoid lid 8 drops from framework 1, in each embodiment, this first coupling unit 10 is a magnet, and the sheet metal that second coupling unit 80 can be magnet or can be adsorbed by magnet.

Further, in aforesaid each embodiment of the utility model, this device also comprises control module 9, control module 9 is located in the framework 1 or outside the framework 1, and be connected with image output unit 3, provide at least one first image 30 to image output unit 3 by control module 9, this control module 9 can be personal computer, notebook computer or digital album (digital photo frame) etc.

In aforesaid each embodiment of the utility model, imaging space 4 inherent bottom surfaces near framework 1 are provided with luminescence unit 6, luminescence unit 6 can be to framework end face projection source, therefore, spectators can more clearly see the physical item 5 that is placed in the imaging space 4, yet the brightness of this luminescence unit 6 can not surpass the brightness of suspension image 40, is difficult for seeing clearly suspension image 40 in order to avoid the light source of luminescence unit 6 is too big.Luminescence unit 6 can be made up of institutes such as at least one LED lamp, daylight lamp, cold-cathode fluorescence lamp or neon bulbs.

In addition, in third and fourth embodiment of the present utility model, framework 1 position near each image output unit 3 on the bottom surface is provided with shielding cell 7, shielding cell 7 is covered each image output unit 3 and luminescence unit 6, is converted by first image 30 in order to avoid spectators penetrate suspension image 40.The bottom surface of framework 1 also is provided with lid 8, and lid 8 covers each image output unit 3, is that to penetrate suspension image 40 be that first image 30 exported by image output unit 3 is converted in order to exempt from spectators equally.

In aforesaid each embodiment of the utility model, framework 1 also is provided with rotary unit 12 below base, rotary unit 12 drives framework 1 and rotates, and each image-generating unit 2 also can be the film of half-reflecting mirror (Semi-reflection), half reflection glass or a coating semi-reflective material.The first angle θ is greater than 0 ° and less than 90 °, and first image 30 is adjusted shape and size according to the first angle θ, or thereby image output unit 3 cooperates the end face of the first angle θ and framework 1 to form second angle [alpha], makes suspension image 40 present the imaging of normal scale.

Further, in aforesaid each embodiment of the utility model, the either side edge of framework 1 between bottom surface and end face is provided with image acquiring unit 14, and be provided with interactive module 90 in the control module 9, image acquiring unit 14 can obtain at least one external image, and interactive module 90 is according to the changing features of external image, first image 30 is changed, for example interactive and be out of shape or move with external image, or change the content of first image 30, and then make suspension image 40 present corresponding variation.For example external image is to obtain the gesture that user's palm is swung left, after then calculating by the interactive module 90 of control module 9, again by last one first image 30 of control module 9 outputs, for example external image is to get access to the gesture that user's palm is swung to the right again, after then calculating, again by next first image 30 of control module 9 outputs by the interactive module 90 of control module 9.Perhaps for example external image is the palm gesture of swing repeatedly to the left and right that gets access to the user, after then being calculated by the interactive module 90 of control module 9, exports the first different images 30 at random by control module 9 again.

In sum, the unsteady in the air device for image of the utility model, can solve traditional image output device or magic arenas can only be on the plane of same plane or different depth the problem of image output, make spectators to see suspension image 40 from various angles.

Above content be in conjunction with concrete embodiment to further describing that the utility model is done, can not assert that concrete enforcement of the present utility model is confined to these explanations.For the utility model person of an ordinary skill in the technical field, under the prerequisite that does not break away from the utility model design, can also make some simple deduction or replace, all should be considered as belonging to protection domain of the present utility model.

Claims (27)

1. the aerial device for image that floats is characterized in that, comprises framework, also comprises a plurality of image-generating units and a plurality of image output unit;

Described image-generating unit is located between two opposite faces of described framework, and described image-generating unit is interconnected to form imaging space, and in described imaging space, described image-generating unit and its form first angle between the joint face on the framework;

Described image output unit is located on the face relative with described image-generating unit of described framework, and an image output unit is in the face of an image-generating unit, described image output unit presents the first identical image respectively, described first image is transformed in the described imaging space by the image-generating unit of correspondence respectively, and forms the suspension image jointly in described imaging space.

2. the aerial device for image that floats as claimed in claim 1, it is characterized in that, described image output unit is located at the end face of described framework, and be divided into a plurality of demonstrations partly by a display, form described image output unit respectively, each shows partly corresponding with corresponding image-generating unit size respectively.

3. the aerial device for image that floats as claimed in claim 1, it is characterized in that described image output unit is respectively a display, each display is located at the end face of described framework, corresponding with corresponding image-generating unit size respectively, and export one first image respectively.

4. as claim 2 or the 3 described aerial device for image that float, it is characterized in that place at least one physical item between the bottom surface of described framework and the described imaging space, the suspension image in the described imaging space is positioned on the physical item.

5. as claim 2 or the 3 described aerial device for image that float, it is characterized in that the position of the end face of close described framework is provided with luminescence unit in the described imaging space, described luminescence unit is used for to described framework bottom surface projection source.

6. the aerial device for image that floats as claimed in claim 5 is characterized in that the brightness of described luminescence unit is lower than the brightness of described suspension image.

7. the aerial device for image that floats as claimed in claim 5 is characterized in that described luminescence unit comprises at least one LED lamp, daylight lamp, cold-cathode fluorescence lamp or neon bulb.

8. the aerial device for image that floats as claimed in claim 5 is characterized in that described framework is provided with shielding cell in the position of the close described image output unit of end face, and described shielding cell is covered described image output unit and described luminescence unit.

9. the aerial device for image that floats as claimed in claim 5 is characterized in that the end face of described framework is provided with lid, and the image output unit is stated in described cover cap residence.

10. the aerial device for image that floats as claimed in claim 9, it is characterized in that, the edge of the end face of described framework is provided with at least one first coupling unit, described lid is respectively equipped with second coupling unit in the position corresponding with described first coupling unit, and described first coupling unit and described second coupling unit cooperatively interact and make described cover cap be combined in the end face of described framework.

11. the aerial device for image that floats as claimed in claim 10 is characterized in that described first coupling unit is a magnet, described second coupling unit is the magnet or the sheet metal that can be adsorbed by magnet.

12. the aerial device for image that floats as claimed in claim 1, it is characterized in that, described image output unit is located at the bottom surface of described framework, and be divided into a plurality of demonstrations partly by a display, form described image output unit respectively, each shows partly corresponding with corresponding image-generating unit size respectively.

13. the aerial device for image that floats as claimed in claim 1, it is characterized in that described image output unit is respectively a display, described display is located at the bottom surface of described framework, big or small corresponding with described image-generating unit respectively, and export one first image respectively.

14. as claim 12 or the 13 described aerial device for image that float, it is characterized in that the position of the bottom surface of close described framework is provided with luminescence unit in the described imaging space, described luminescence unit is used for to described framework end face projection source.

15. the aerial device for image that floats as claimed in claim 14 is characterized in that the brightness of described luminescence unit is lower than the brightness of described suspension image.

16. the aerial device for image that floats as claimed in claim 14 is characterized in that described luminescence unit comprises at least one LED lamp, daylight lamp, cold-cathode fluorescence lamp or neon bulb.

17. the aerial device for image that floats as claimed in claim 14 is characterized in that described framework is provided with shielding cell in the position of the close described image output unit of bottom surface, described shielding cell is covered described image output unit and described luminescence unit.

18. the aerial device for image that floats as claimed in claim 14 is characterized in that the bottom surface of described framework is provided with lid, the image output unit is stated in described cover cap residence.

19. the aerial device for image that floats as claimed in claim 18, it is characterized in that, the edge of the bottom surface of described framework is provided with at least one first coupling unit, described lid is respectively equipped with second coupling unit in the position corresponding with described first coupling unit, and described first coupling unit and described second coupling unit cooperatively interact and make described cover cap be combined in the bottom surface of described framework.

20. the aerial device for image that floats as claimed in claim 19 is characterized in that described first coupling unit is a magnet, described second coupling unit is the magnet or the sheet metal that can be adsorbed by magnet.

21. the aerial device for image that floats as claimed in claim 1, it is characterized in that, also comprise control module, described control module be located in the described framework or framework outside, and link to each other with described image output unit, described control module provides at least one first image to described image output unit.

22. the aerial device for image that floats as claimed in claim 21 is characterized in that described control module is personal computer, notebook computer or digital album (digital photo frame).

23. the aerial device for image that floats as claimed in claim 21 is characterized in that, also comprises image acquiring unit and interactive module;

Described image acquiring unit is located at the bottom surface of described framework and the either side edge between the end face, is used to obtain at least one external image;

Described interactive module is located in the described control module, is used for according to the changing features of external image first image being changed, thereby makes the suspension image present corresponding variation.

24. the aerial device for image that floats as claimed in claim 1 is characterized in that described framework below also is provided with rotary unit, described rotary unit is used to drive described framework and rotates.

25. the aerial device for image that floats as claimed in claim 1 is characterized in that, described image-generating unit is the film of half-reflecting mirror, half reflection glass or coating semi-reflective material.

26. the aerial device for image that floats as claimed in claim 1 is characterized in that described first angle is greater than 0 ° and less than 90 °, described first image is according to described first angular setting shape and the size.

27. the aerial device for image that floats as claimed in claim 26 it is characterized in that, thereby described image output unit cooperates described first angle and the end face of described framework to form second angle, makes described suspension image present the imaging of normal scale.

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