CN108181714A - For the system being imaged in the air - Google Patents

Abstract

The present invention provides a kind of system for being imaged in the air, including image source, transflection mirror and opposite reflecting element；The light that image source is sent out pass through transflection mirror reflection, be irradiated on opposite reflecting element, light reflected on opposite reflecting element after in the opposite direction along former incident path outgoing, transmitted through transflection mirror after form real image.Using the present invention, do not need to by any medium, can directly in air or even vacuum middle presentation image.

Description

For the system being imaged in the air

Technical field

The present invention relates to holographic imaging field, more particularly, to a kind of system for being imaged in the air.

Background technology

Holographic technique is the technology that the simultaneously true 3-D view of reconstructed object is recorded using interference and diffraction principle.

Traditional holographic imaging method is the principle using laser interference, generates hologram image.The light that laser light source is sent out It is divided into two beams, a branch of to be emitted directly toward sensitive film, another beam directive sensitive film again after the reflection of object.Two-beam is in sensitive film Upper superposition generates interference, and finally the hologram of reproduction is further processed using digital picture basic principle, removal number Interference, obtains clearly hologram image.This method, which exists, requires monochromaticjty height, and the realization of colour imaging is relatively difficult to be lacked Point.

Existing holographic imaging technology is generally divided into following three kinds：

The first is needed by virtual reality or augmented reality glasses or the helmet, such as the HoloLens of Microsoft；This For kind technology since it is desired that by means of auxiliary implement, application scenarios are limited, and involve great expense at present.

Second of projecting apparatus needed by high-speed rotating reflector and high speed refreshing, by image projection in high speed rotation Reflector on so as to fulfill 3-D view.A kind of rotation using such technology is disclosed in patent document CN105372926A Formula line holographic projections showcase.This technology is difficult to realize interaction, and the requirement to place space is very harsh.

The third is by the air of the medium containing fine particle, such as moisture vapor, and image is incident upon water vapour It liquefies on the droplet formed, since molecular vibration is unbalanced, the very strong image of level and three-dimensional sense can be formed.In patent text Offer in 103116422 A of CN104977794A and CN, disclose the application of this technology, existed using water vapour curtain wall Image is formed in air.Still need outfit auxiliary tool using this technology, for generating water vapour curtain wall, therefore using simultaneously It is not very convenient.

Generally speaking, more than technology or virtual reality or augmented reality tool is imaged in or is imaged in high-speed rotating anti- Tabula rasa images in steam particle in air, is not imaging in the air truly.

Invention content

The defects of the present invention is directed to overcome above-mentioned technology, provides a kind of system and method being really imaged in the air, makes Obtain directly to be imaged in the air of no any special media, it might even be possible to be imaged in a vacuum；This makes application range big Big extension, is no longer limited by auxiliary tool, revolutionary breakthrough is brought to existing human-computer interaction scene.

A main aspect according to the present invention, provides a kind of system for being imaged in the air, including, image source, thoroughly Anti- mirror and opposite reflecting element；Wherein

The light that image source is sent out passes through the reflection of transflection mirror, is irradiated on opposite reflecting element, light is in opposite reflector After being reflected on part in the opposite direction along former incident path be emitted, transmitted through transflection mirror after form real image.

Another main aspect according to the present invention provides a kind of system for being imaged in the air, including, image source, Transflection mirror and opposite reflecting element；Wherein

The light that image source is sent out passes through the transmission of transflection mirror, is irradiated on opposite reflecting element, light is in opposite reflector It is emitted in the opposite direction along former incident path after being reflected on part, real image is formed after the reflection of transflection mirror.

Another main aspect according to the present invention provides a kind of system for being imaged in the air, including, image source, Transflection mirror, the first opposite reflecting element and the second opposite reflecting element；Wherein

The light that image source is sent out passes through the reflection of transflection mirror, is irradiated on the first opposite reflecting element, light is at first pair After being reflected on reflecting element in the opposite direction along former incident path be emitted, transmitted through transflection mirror after form the first real image； And

In addition, the light that sends out of image source passes through the transmission of transflection mirror, it is irradiated on the second opposite reflecting element, light is the It is emitted in the opposite direction along former incident path after being reflected on two opposite reflecting elements, it is real to form second after the reflection of transflection mirror Picture.

Another main aspect according to the present invention provides a kind of system for being imaged in the air, including the first picture Source, the second image source, transflection mirror and opposite reflecting element；Wherein

The light that first image source is sent out passes through the reflection of transflection mirror, is irradiated on opposite reflecting element, and light is opposite anti- Penetrate on element after reflecting and to be emitted in the opposite direction along former incident path, transmitted through transflection mirror after form the first real image；And

The light that second image source is sent out passes through the transmission of transflection mirror, is irradiated on opposite reflecting element, and light is opposite anti- It penetrates on element after reflecting and is emitted in the opposite direction along former incident path, the second real image is formed after the reflection of transflection mirror；And

The position of first image source and the second image source is arranged to so that the first real image and the second real image are formed in same position.

Preferably, image source is to send out the virtual image either the display imaging device of real image or to be formed by these picture reproducers The virtual image or real image.

Preferably, the light source of image source is laser, in light emitting diode, Organic Light Emitting Diode, excited fluorescence luminescent material It is one or more.

Preferably, ranging from the 20%~80% of the transmissivity of transflection mirror.

Preferably, ranging from the 20%~80% of the reflectivity of transflection mirror.

In a kind of preferred form of implementation, opposite reflecting element includes the base material with reflecting surface and is distributed in base material On micro-structure.

Preferably, micro-structure be transparent material formed right-angled apices micro-structure, wherein the right-angled apices micro-structure bring to Three ribs of few right-angled apices and the right-angled apices are mutually at a right angle.

Preferably, micro-structure is the recessed portion containing right-angled apices micro-structure, and wherein the right-angled apices micro-structure band is at least Three ribs of one right-angled apices and the right-angled apices are mutually at a right angle.

Preferably, micro-structure is the spherical micro-structure that transparent material is formed.

Preferably, reflecting surface is formed in the base material towards on the face of the micro-structure.

Preferably, reflecting surface is formed on the region that the base material has a common boundary with the micro-structure.

Preferably, micro-structure and the base material are integrally formed by same transparent material, the right-angled apices be to Outer lug, the reflecting surface is formed on three ribs, three faces that interaction forms two-by-two of the right-angled apices.

Preferably, micro-structure is uniformly distributed on base material.

Preferably, the base material is film, curtain, plank or colloid.

In another preferred form of implementation, opposite reflecting element includes a large amount of opposite reflector elements.

Preferably, opposite reflector element includes the micro-structure with reflecting surface.

Preferably, micro-structure be transparent material formed right-angled apices micro-structure, wherein the right-angled apices micro-structure bring to Three ribs of few right-angled apices and the right-angled apices are mutually at a right angle, and three faces that this three ribs are crossed to form two-by-two or extremely They few subregion forms reflecting surface.

Preferably, micro-structure is the recessed portion containing right-angled apices micro-structure, and wherein the right-angled apices micro-structure band is at least Three ribs of one right-angled apices and the right-angled apices are mutually at a right angle, and three faces that this three ribs are crossed to form two-by-two or at least Their subregion forms reflecting surface.

Preferably, micro-structure is the spherical micro-structure that transparent material is formed；The spherical micro-structure is from the transflection mirror farther out Part surface formed reflecting surface.

Preferably, the reflecting surface of micro-structure is attached on base material or is formed as one therewith；Wherein the base material can be used in Carry the opposite reflecting element.

Preferably, the face other than the reflecting surface of micro-structure is attached on transparent base material or is formed as one therewith；Wherein The base material can be used in carrying the opposite reflecting element.

In another preferred form of implementation, opposite reflecting element also includes a large amount of opposite reflector elements.

Preferably, opposite reflector element includes one kind in the first material and the second material, which also wraps Include reflecting surface；

First material is transparent solid material；

First material is as viewed from the incident path of light, positioned at the front of reflecting surface；After light is via the first material incidence, On the reflecting surface after reflection, and from the first material it is emitted；

Second material is as viewed from the incident path of light, positioned at the rear of reflecting surface.

Preferably, opposite reflector element includes the first material and the second material, and opposite reflector element further includes reflecting surface；

First material is air or vacuum；And the second material is film, curtain or plank, colloid；

First material is as viewed from the incident path of light, positioned at the front of reflecting surface；After light is via the first material incidence, On the reflecting surface after reflection, and from the first material it is emitted；

Second material is as viewed from the incident path of light, positioned at the rear of reflecting surface.

Preferably, reflecting surface is three faces being crossed to form two-by-two by three ribs of right-angled apices or at least their part Three ribs in region, the wherein right-angled apices are mutually at a right angle.

Preferably, reflecting surface is a part for spherome surface, the center of circle position of the sphere as viewed from the incident path of light In the front of the reflecting surface.

Preferably, the second material is film, curtain or plank, colloid.

Preferably, three ribs of right-angled apices are isometric.

Preferably, high reflection material is attached on reflecting surface.

Preferably, the reflectivity of high reflection material is up to 60%, 70%, 80% or more than 90%.

Preferably, high reflection material by spray or plated film in a manner of adhere on the reflecting surface.

Preferably, opposite reflecting element has the radian being bent towards transflection mirror.

Preferably, micro-structure is uniformly distributed on opposite reflecting element.

Preferably, image source is three-dimensional image source.

Preferably, three-dimensional image source is the image that can show 3 D stereo, and the 3 D stereo of structure and video source, which is shown, to be set It is standby.

Preferably, three-dimensional stereo display equipment includes translation scan imaging system or rotating scan imaging system.

Preferably, a face in two faces of transflection mirror is attached with transflection material so that reflectivity in 20%-80%, Corresponding transmissivity is between 80%-20%.

Preferably, the face for adhering to transflection material is not had to be attached with anti-reflection material in two faces of transflection mirror.

Preferably, the length of three ribs is between 20 microns~5 millimeters.

Preferably, in three ribs, 10 times of the longest of length no more than shortest rib length of rib.

Preferably, when the first material is transparent solid material, the plane of incidence is attached with anti-reflection material.

Preferably, when the first material is transparent solid material, the plane of incidence is plane.

Preferably, the angle of at least one face and the plane of incidence is less than 54 degree in three faces that three ribs are formed.

A main aspect according to the present invention, provides a kind of method for being imaged in the air, includes the following steps：

(1) image source, transflection mirror and opposite reflecting element are provided；

(2) light that image source is sent out is made to pass through the reflection of transflection mirror, is irradiated on opposite reflecting element；

(3) light is made to be emitted in the opposite direction along former incident path, then transmit after being reflected on opposite reflecting element Real image is formed after crossing transflection mirror.

Another main aspect according to the present invention provides a kind of method for being imaged in the air, including following step Suddenly：

(1) image source, transflection mirror and opposite reflecting element are provided；

(2) light that image source is sent out is made to pass through the transmission of transflection mirror, is irradiated on opposite reflecting element；

(3) light is made to be emitted in the opposite direction along former incident path after being reflected on opposite reflecting element, through transflection Real image is formed after mirror reflection.

Another main aspect according to the present invention provides a kind of method for being imaged in the air, including following step Suddenly：

(1) image source, transflection mirror, the first opposite reflecting element and the second opposite reflecting element are provided；

(2) light that image source is sent out is made to pass through the reflection of transflection mirror, is irradiated on the first opposite reflecting element；And image source is sent out The light gone out passes through the transmission of transflection mirror, is irradiated on the second opposite reflecting element,

(3) light is made to be emitted in the opposite direction along former incident path after being reflected on the first opposite reflecting element, thoroughly The first real image was formed after penetrating transflection mirror；And make light reflected on the second opposite reflecting element after in the opposite direction along original Incident path is emitted, and the second real image is formed after the reflection of transflection mirror.

Another main aspect according to the present invention provides a kind of method for being imaged in the air, including following step Suddenly：

(1) the first image source, the second image source, transflection mirror and opposite reflecting element are provided；

(2) light that the first image source is sent out is made to pass through the reflection of transflection mirror, is irradiated on opposite reflecting element；And make second The light that image source is sent out passes through the transmission of transflection mirror, is irradiated on opposite reflecting element；

(3) light that the first image source is sent out is made to enter rays along original in the opposite direction after being reflected on opposite reflecting element Diameter be emitted, transmitted through transflection mirror after form the first real image；And the light that the second image source is sent out is made to occur on opposite reflecting element It is emitted in the opposite direction along former incident path after reflection, the second real image is formed after the reflection of transflection mirror；

(4) position of the first image source and the second image source is set so that the first real image and the second real image are formed in same position.

The initiative combination using opposite reflectance coating and transflection minute surface of the present invention, becomes real image, so as to real by the virtual image Now aerial, imaging.The advantage of the invention is that：It does not need to by any medium (such as screen, the gas containing molecule Or liquid etc.), can directly in air or even vacuum middle presentation image；Also without by other auxiliary such as the helmet, glasses Equipment, can more people watch image simultaneously；In addition, image is that floating is skyborne, can directly be touched with hand, therefore can prolong Stretch out very more interactive applications.

Description of the drawings

In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, to embodiment or will show below There is attached drawing needed in technology description to be briefly described.It should be evident that the accompanying drawings in the following description only describes The part of the embodiment of the present invention.These attached drawings are not restricted for the present invention, but are served illustrative. Wherein,

Fig. 1 schematically shows the imaging system of a form of implementation according to the present invention；

Fig. 2 schematically shows the imaging system of another form of implementation according to the present invention；

Fig. 3 schematically shows the opposite reflecting element of a form of implementation according to the present invention；

Fig. 4 schematically shows the micro-structure and opposite direction of the opposite reflecting element of a form of implementation according to the present invention Reflection path schematic diagram；

Fig. 5 schematically shows the opposite reflecting element of another form of implementation according to the present invention；

Fig. 6 A, 6B and 6C schematically show the micro- of the opposite reflecting element of another form of implementation according to the present invention Structure and opposite reflection path schematic diagram；

Fig. 7 schematically shows the opposite reflecting element of another form of implementation according to the present invention；

Fig. 8 schematically shows the micro-structure of the opposite reflecting element of another form of implementation according to the present invention and right To reflection path schematic diagram；And

Fig. 9 schematically shows the opposite reflecting element of a form of implementation according to the present invention in a manner of top view Micro-structure distribution.

Specific embodiment

To make the object, technical solutions and advantages of the present invention clearer, the present invention is made below in conjunction with the accompanying drawings further Detailed description.

It is succinct and intuitive in order to what is described, hereafter by describing several representative embodiments come the side to the present invention Case is illustrated.A large amount of details is only used for helping to understand the solution of the present invention in embodiment.However, it will be apparent that the present invention Technical solution can be not limited to these details when realizing.In order to avoid unnecessarily having obscured the solution of the present invention, some realities It applies mode not described meticulously, but only gives frame.Hereinafter, " comprising " refers to " include but not limited to ", " root According to ... " refer to " according at least to ..., but be not limited to according only to ... "." first ", " second " etc. are only used for the finger to feature Generation, and be not intended to carry out any restrictions, limitation for example sequentially to this feature.Due to the speech habits of Chinese, hereinafter When being not specifically stated the quantity of ingredient, it is meant that the ingredient it is either one or more or can be regarded as to It is one few.

Fig. 1 shows the imaging system of a form of implementation according to the present invention.As shown in the figure, the system include image source 1, Transflection mirror 2 and opposite reflecting element 3；Space is divided into the first half area I and the second half area II, image source 1 by plane residing for transflection mirror 2 It is in the first half area I with opposite reflecting element 3.

Wherein, the light that image source 1 is sent out passes through the reflection of transflection mirror 2, is irradiated on opposite reflecting element 3, light is right Opposite reflection occurs on reflecting element 3 so that the reflection light on opposite reflecting element 3 is in same road with incident ray On diameter, only direction is opposite.Therefore, light is emitted along former incident path (certainly, from microcosmic after the reflection of opposite reflecting element 3 Upper observation, it is believed that reflection path and incident path are slightly displaced from；However, from macroscopically, it is believed that two paths It is completely superposed), then after the transmission of transflection mirror, real image 4 is formed in the second half area II.

Image source 1 either display imaging device or by these virtual images for being formed of display imaging devices or Real image.

For example, display imaging device can be LCD screen, the back light of LCD screen includes laser, light-emitting diodes It is one or more in pipe, Organic Light Emitting Diode, excited fluorescence luminescent material, quantum dot excitation light source；Show imaging device The dot matrix screen that can also be shone by the active that LED, OLED, plasma luminescence point isoluminescence point light source form；Display imaging Equipment can also be based on such as DLP, the shadow casting techniques such as LCOS, LCD, by the light sources or combination such as LED, OLED, laser, fluorescence Driving is reflected or is transmitted through display panels such as DMD, LCOS, LCD, then the throwing being imaged on the projection screen through projection lens projects Shadow imaging system；Display imaging device can also be the projection imaging system of laser beam scanning imagery on the screen.More than also, All display imaging devices also can all be used as picture via real image or the virtual image formed by one or many refractions or reflection Source.

Under in preferred form of implementation, image source 1 can be three-dimensional image source.Three-dimensional image source includes the figure that can show 3D solids The three-dimensional stereo display equipment of picture, structure and video source.This three-dimensional stereo display equipment generally includes control module and high speed Module or high speed display module are projected, projection module or display module are controlled by a series of 2D image slices height by control module The projection of speed is shown on multiple optical flats, so that observer observes image, structure or the video of 3 D stereo.Three It ties up stereoscopic display device and includes translation scan imaging system, rotating scan imaging system etc..

Transflection mirror can be made of various suitable transparent materials, such as PC resin, PET resin, PMMA resins, glass Glass, quartz etc..Its transmissivity is between 20%-80%；Preferably, about 50%.Its reflectivity is also between 20%-80%； Preferably, also about 50%.

Opposite reflecting element 3 is preferably film, curtain, plank or the colloid that micro-structure is distributed with, and is preferably provided with one Determine radian, towards the bending of transflection mirror, the brightness of imaging can be increased in this way.It hereinafter will be described in detail opposite reflecting element 3.

Referring to Fig. 2, in another form of implementation of the present invention, system includes image source 1, transflection mirror 2 and opposite reflector Part 3；Space is divided into the first half area I and the second half area II by plane residing for transflection mirror 2, and image source 1 is in the first half area I, and Opposite reflecting element 3 is in the second half area II.

Wherein, the light that image source 1 is sent out passes through the transmission of transflection mirror 2, is irradiated on opposite reflecting element 3, light is right Opposite reflection occurs on reflecting element 3 so that the reflection light on opposite reflecting element 3 is in same road with incident ray On diameter, only direction is different.Therefore, it is emitted, then through transflection mirror along former incident path after light is after the reflection of opposite reflecting element 3 After reflection, real image 4 is formed in the second half area II.

Certainly, it is to be understood that, since light has a duality principle, light from opposite reflecting element 3 reflect when, can there are one Fixed diffraction effect, reflected light can generate certain angle of divergence；When this angle understands, as long as the main shaft of reflected light and incidence Light direction is on the contrary, and the meaning of " opposite direction reflection " in the satisfaction present invention.

In this form of implementation, light that image source 1 is sent out reaches pair after the transmission (rather than by reflection) of transflection mirror 2 To reflecting element 3.And after the light of opposite reflecting element 3 reflection reflects (and non-transmissive) via transflection mirror 2 again, generate real image 4.Last formed real image 4 and opposite reflecting element 3 are located at half area rather than halfth different areas.

In the present invention, there are one (not shown) in form of implementation, and above-mentioned two form of implementation is combined, right using two To reflecting element, the light that image source is sent out is made to reach one of opposite reflecting element after the reflection of transflection mirror, and through opposite direction After the light of reflecting element reflection transmits again via transflection mirror, real image is generated；The light that image source is sent out is after the transmission of transflection mirror Another opposite reflecting element is reached, and after the light of another opposite reflecting element reflection reflects again via transflection mirror, Generate real image.This causes two generated real images to overlap, and obtains the stronger imaging of brightness in this way.

It should be understood that in other embodiments, additionally or alternatively, two image sources can be used.At this moment Need to adjust the position of the two image sources and transflection mirror and opposite reflecting element so that real image formed by it is last weighs in space It stacks.

Opposite reflecting element in the present invention is specially treated element, it includes for example being coated with the base of highly-reflective coating Material and the opposite reflection micro-structure being for example evenly distributed on base material.The reflectivity of the highly-reflective coating up to more than 60%, Preferably, up to 70%, 80% or more than 90%.It should be understood that the highly-reflective coating can also be otherwise affixed to base On material, such as plated film.

Certainly, which can for example be attached to micro-structure towards on the face of base material or being attached to micro-structure and base On the region that material has a common boundary.

It should be appreciated that opposite reflection micro-structure distribution on base material can also be non-uniform, uniform distribution has Better imaging effect；The uneven distribution more deliberately arranged can be used for special imaging purpose.

Referring to Fig. 3, which show the opposite reflecting elements of a form of implementation according to the present invention.The opposite direction reflector Part 3 includes the film or curtain as base material 30.Highly-reflective coating is coated on base material 30.In addition, on the substrate 30 further equally Spherical micro-structure 31 is distributed with.

Referring to Fig. 4, which show the enlarged drawing of spherical micro-structure and the schematic diagrames of opposite reflection path.

Light from transflection mirror through the upper surface of spherical micro-structure 31 reflect after directive base material 30 highly-reflective coating, through reflection Afterwards, the upper surface of spherical micro-structure 31 is emitted back towards, is reflected again, directive transflection mirror.The structure of spherical micro-structure 31 enables light Enough almost via backtracking transflection mirror (as previously mentioned, being observed under macro environment, it is believed that light is exactly to be returned along former road It returns).

Referring to Fig. 5, which show the opposite reflecting elements of another form of implementation according to the present invention.The opposite direction reflects Right-angled apices micro-structure 31 ' is further equally distributed on the base material 30 of element 3.Right-angled apices micro-structure 31 ' can be built-in The mutual microstructured bodies at a right angle of three ribs on base material 30, transparent, at least one vertex and the vertex, such as micro- cube Body or micro- cuboid or their part containing at least one vertex, certainly, which is built-in (referring to Fig. 6 A) in base material 30.In some embodiments, right-angled apices micro-structure 31 ' is three ribs mutually at a right angle micro- three Angle centrum, preferably micro- positive triangle cone, vertex is embedded in base material 30 (referring to Fig. 6 B)；Preferably, vertex to bottom Face is concordant with base material 30；It is highly preferred that it is accompanied by anti-reflection film on the bottom surface.In more preferably form of implementation, three ribs The angle at least one face and the bottom surface face is less than 54 degree in three faces formed.

It should be appreciated that this three ribs can be isometric, naturally it is also possible to be Length discrepancy.The length of rib can be micro- 20 Rice~5 millimeters between select.Preferably, in three ribs, 10 times of the longest of length no more than shortest rib length of rib.

It is also understood that three faces that three ribs are formed should also be mutually perpendicular namely three faces between any two Dihedral angle size should be 90 degree, but due to the restriction of technique, even if these dihedral angle sizes are not accurate 90 degree, but In the error range allowed in processing, such as+- 2 points and the requirement of the present invention can be met.

In another form of implementation, which can be a vertex by above-mentioned microstructured bodies A part coining on the substrate 30 and formed recessed portion (referring to Fig. 6 C).

Fig. 6 A, 6B and 6C show the enlarged drawing of the right-angled apices micro-structure in Fig. 5 and the schematic diagram of opposite reflection path. In the form of implementation shown in Fig. 6 A and 6B, right-angled apices micro-structure 31 ' is transparent microstructured bodies.Light is from transflection mirror through straight The highly-reflective coating of directive film or curtain 30 after incidence surface (such as upper surface) refraction of angular vertex micro-structure 31 ', through more After secondary reflection, the exit surface (such as upper surface) of right-angled apices micro-structure 31 ' is emitted back towards, is reflected again, directive transflection mirror.Scheming In form of implementation shown in 6C, right-angled apices micro-structure 31 ' is recessed portion, and light is after by transflection mirror transmission or reflection, directly Access is mapped on recessed portion, after multiple reflections, directive transflection mirror.The structure of right-angled apices micro-structure 31 ' enables light Almost via backtracking transflection mirror (similary, to be observed under macro environment, it is believed that light is exactly along backtracking).

Fig. 7 shows the opposite reflecting element of another form of implementation of the present invention.The base material of the opposite direction reflecting element 3 Right-angled apices micro-structure 31 ' has been evenly distributed on 30 '.Base material 30 ' itself is transparent base material, right-angled apices micro-structure 31 ' It is also transparent microstructured bodies.Highly-reflective coating is coated on those faces that right-angled apices micro-structure 31 ' is away from each other with base material 30 '.

Right-angled apices micro-structure 31 ' is preferably integrally formed with base material 30 '；It is of course also possible to it is to be separately formed then It is attached on base material 30 '.In the case of preferred, the material of base material 30 ' and the material of right-angled apices micro-structure 31 ' be it is the same or At least there is identical refractive index.

Fig. 8 shows the enlarged drawing of the right-angled apices micro-structure in Fig. 7 and the schematic diagram of opposite reflection path.Light is from saturating The highly-reflective coating of anti-mirror directive right-angled apices micro-structure 31 ' after the upper surface of base material 30 ' reflects, after reflection, is emitted back towards base The upper surface of material 30 ', reflects again, directive transflection mirror.The structure of right-angled apices micro-structure 31 ' enable light almost via Backtracking transflection mirror (as previously mentioned, being observed under macro environment, it is believed that light is exactly along backtracking).

Fig. 9 schematically shows the opposite reflecting element of a form of implementation according to the present invention in a manner of top view On micro-structure distribution, to more fully understand the distribution situation of micro-structure.As shown in the figure, multiple micro-structures are successively close to each other Distribution, extends on opposite reflecting element.It should be appreciated that the part of only opposite reflecting element shown in figure, micro-structure can To make such be distributed on entire opposite reflecting element.In addition, though the micro-structure shown in this figure is analogous to cuboid Recessed portion, it should be understood that the shape of micro-structure is not limited thereto, and can be the above any micro-structure.

It should be appreciated that in the present invention, although in most cases by the reflecting surface in opposite reflecting element (for example, applying Have the face of highly-reflective coating) an attached part on base material is depicted as, but it is also assumed that reflecting surface is affixed to micro-structure On a part.For example, opposite reflecting element can be divided into a large amount of opposite reflector element, each opposite direction reflector element Including the micro-structure with reflecting surface；Micro-structure can be aforementioned spherical micro-structure or right-angled apices micro-structure.Alternatively, even Reflecting surface can also be described as a separate building blocks.For example, each opposite direction reflector element includes reflecting surface, with And at least one of the first material that reflecting surface can be made attached to it and the second material；Reflecting surface can be by aforementioned What one or several faces of micro-structure were formed.

It according to the present invention, had not both needed to by ancillary equipments such as the helmets, it is not required that by imaging screen or air Particulate media, you can be directly imaged in air or even in a vacuum.It is real air imaging technique.By institute into Picture suspend in air, a large amount of interactive and application can be expanded out, there is epoch-making meaning.

It should be understood that the foregoing description of the disclosed embodiments, professional and technical personnel in the field enable to realize or make With the present invention.It should be appreciated that the feature disclosed in above example, it, can be independent other than the situation for having special instruction Ground is used in conjunction with.A variety of modifications to these embodiments will be aobvious and easy for those skilled in the art See, the general principles defined herein can without departing from the spirit or scope of the present invention, in other implementations It is realized in example.Therefore, invention disclosed herein is not limited to disclosed specific embodiment, but is intended to such as institute The modification within the spirit and scope of the present invention that attached claims are limited.

Claims (10)

1. a kind of system for being imaged in the air, including image source, transflection mirror, the first opposite reflecting element and second are opposite Reflecting element；Wherein

The light that image source is sent out passes through the reflection of transflection mirror, is irradiated on the first opposite reflecting element, light is opposite anti-first Penetrate on element after reflecting and to be emitted in the opposite direction along former incident path, transmitted through transflection mirror after form the first real image；And

In addition, the light that image source is sent out passes through the transmission of transflection mirror, it is irradiated on the second opposite reflecting element, light is at second pair It is emitted in the opposite direction along former incident path after being reflected on reflecting element, the second real image is formed after the reflection of transflection mirror.

2. system according to claim 1, which is characterized in that it is single that the opposite direction reflecting element includes a large amount of opposite reflections Member.

3. system according to claim 2, which is characterized in that the opposite direction reflector element includes the first material and the second material One kind in matter, the opposite direction reflector element further include reflecting surface；

First material is transparent solid material；

First material is as viewed from the incident path of light, positioned at the front of the reflecting surface；The light is via the first material After matter incidence, on the reflecting surface after reflection, and it is emitted from the first material；

Second material is as viewed from the incident path of light, positioned at the rear of the reflecting surface.

4. system according to claim 2, which is characterized in that the opposite direction reflector element includes the first material and the second material Matter, the opposite direction reflector element further include reflecting surface；

First material is air or vacuum；And second material is film, curtain or plank, colloid；

First material is as viewed from the incident path of light, positioned at the front of the reflecting surface；The light is via the first material After matter incidence, on the reflecting surface after reflection, and it is emitted from the first material；

Second material is as viewed from the incident path of light, positioned at the rear of the reflecting surface.

5. system according to claim 3, which is characterized in that the reflecting surface is three two two-phases of rib by right-angled apices It hands over three faces formed or at least their subregion, wherein the three of the right-angled apices rib is mutually at a right angle.

6. system according to claim 3, which is characterized in that the reflecting surface is a part for spherome surface, from light The look center of circle of the sphere of incident path be located at the front of the reflecting surface.

7. system according to claim 3, which is characterized in that second material is film, curtain or plank, colloid.

8. system according to claim 5, which is characterized in that longest rib length is not in three ribs of the right-angled apices More than 10 times of shortest rib length.

9. system according to claim 3, which is characterized in that high reflection material is attached on the reflecting surface.

10. system according to claim 1, which is characterized in that the opposite direction reflecting element, which has towards transflection mirror, to be bent Radian.