CN105911843A - Holographic light relief wall - Google Patents

Abstract

The invention discloses a holographic light relief wall, which comprises a laser, a beam splitter, a first plane mirror, a second plane mirror, a first beam expander and a second beam expander, wherein the light path at the output end of the laser is provided with the beam splitter; the beam transmission output light path of the beam splitter is provided with the first plane mirror; the beam reflection output light path of the first plane mirror is provided with the first beam expander; beams outputted by the first beam expander arrive at a holographic plate via an object; the beam reflection output light path of the beam splitter is provided with the second plane mirror; the beam reflection output light path of the second plane mirror is provided with the second beam expander; beams outputted by the second beam expander arrive at the holographic plate; and after interference of object waves and reference waves, a hologram is formed and recorded on the holographic plate. The holographic projection technique and a relief scroll are combined for application, a sense of science and technology and a sense of future are merged in the solid relief art, virtual and real images are combined, an illusion feeling is generated, and a wall with a sense of art originally becomes more vivid and flexible.

Description

Holographic shadow embossment wall

Technical field

The present invention relates to a kind of holographic shadow embossment wall.

Background technology

Optical holography has obtained in interferometry field and has extremely been widely applied, at these In application, the surface needing inspection can be random, and is irreflexive, the most successfully replaces The inspection of high quality optical polished surface required in common Mechelson, A. A. and Twyman Green Interferometer Survey.In double-exposure holographic interferometry, same Zhang Jilu medium exposes twice respectively, If during double exposing, if studied surface subjected to any deformation or motion, then, In the reproduction image reconstructed with the form of interference fringe, it will disclose this motion and the change on surface Change.

Line holographic projections technology (front-projected holographic display) is the most virtual Imaging technique is to utilize to interfere and diffraction principle record the technology of the real 3-D view of reconstructed object. Line holographic projections technology is possible not only to produce three-dimensional aerial mirage phantom, it is also possible to make mirage phantom produce with performing artist Interaction, completes performance together, produces shocking performing effect.It is applicable to display and demonstration, automobile Clothing news conference, stage program, interaction, bar amusement, place interaction etc..

Summary of the invention

It is an object of the invention to the deficiency overcoming prior art to exist, it is provided that a kind of holographic shadow embossment Wall.

The purpose of the present invention is achieved through the following technical solutions:

Holographic shadow embossment wall, feature is: comprise laser instrument, beam splitter, the first plane mirror, second Plane mirror, the first beam expanding lens and the second beam expanding lens, the outfan light path of laser instrument is disposed with beam splitter, It is disposed with the first plane mirror, the light beam reflection of the first plane mirror on the light beam transmission output light path of beam splitter Being disposed with the first beam expanding lens on output light path, it is dry that the light beam of the first beam expanding lens output arrives holography through object Plate, the light beam reflection output path of beam splitter is disposed with the second plane mirror, the light beam of the second plane mirror Being disposed with the second beam expanding lens on reflection output path, it is dry that the light beam of the second beam expanding lens output arrives holography Plate, object wave and reference wave form hologram after interfering, and are recorded in holographic dry plate.

Further, above-mentioned holographic shadow embossment wall, wherein, described laser instrument is semiconductor laser Device.

Further, above-mentioned holographic shadow embossment wall, wherein, described laser instrument and beam splitter it Between be disposed with shutter.

Further, above-mentioned holographic shadow embossment wall, wherein, described shutter is mechanical shutter.

Further, above-mentioned holographic shadow embossment wall, wherein, described first beam expanding lens and second Beam expanding lens is the beam expanding lens of amplification 30 times.

Further, above-mentioned holographic shadow embossment wall, wherein, described holographic dry plate is arranged in tune On joint frame.

Further, above-mentioned holographic shadow embossment wall, wherein, described laser instrument is arranged on can three On the laser control frame of dimension regulation.

Further, above-mentioned holographic shadow embossment wall, wherein, described laser instrument is output For 10mw～20mw laser instrument.

Further, above-mentioned holographic shadow embossment wall, wherein, described beam splitter is can be by laser 50% transmission, the beam splitter of 50% reflection.

Further, above-mentioned holographic shadow embossment wall, wherein, described holographic dry plate is red quick light Cause holographic polymer dry plate.

Substantive distinguishing features and significantly progress that technical solution of the present invention is prominent are mainly reflected in:

1. angle change according to the observation the plane picture under visual angle corresponding to this angle can be provided, Observer's sight equation in this change procedure can make its observed image more have solid Sense, and then visual effect can be improved；

2. using reflective holographic, optical module, through well-designed, is adjusted by adjusting bracket and control cage Joint holographic dry plate and the position of laser instrument, so ensure the stability of result；Because light path is short, so Greatly reducing damping requirement so that total small volume and less weight, light path is simple, and effect is the best；

3. by line holographic projections technology and embossment long paper R. concomitans, science and technology sense, following sense are incorporated solid-state Among anaglyphy, deficiency and excess image is combined, produce illusion sense, allow the wall of inherently artistic feeling Face becomes more lively flexible.

Accompanying drawing explanation

The structural representation of Fig. 1: the present invention.

In figure, the implication of each reference see table:

Detailed description of the invention

As it is shown in figure 1, holographic shadow embossment wall, comprise laser instrument 1, beam splitter the 2, first plane Mirror the 3, second plane mirror the 6, first beam expanding lens 4 and the second beam expanding lens 7, the outfan light of laser instrument 1 It is disposed with beam splitter 2 on road, the light beam transmission output light path of beam splitter 2 is disposed with the first plane mirror 3, the light beam reflection output path of the first plane mirror 3 is disposed with the first beam expanding lens 4, the first beam expanding lens The light beam of 4 outputs arrives holographic dry plate 8 through object 5, on the light beam reflection output path of beam splitter 2 It is disposed with the second plane mirror 6, the light beam reflection output path of the second plane mirror 6 is disposed with the second expansion Bundle mirror 7, after the light beam of the second beam expanding lens 7 output arrives holographic dry plate 8, object wave and reference wave interference Form hologram, be recorded in holographic dry plate 8.

During specific design, laser instrument 1 is semiconductor laser, and output is 10mw～20mw, Laser instrument 1 is arranged on can be on the laser control frame of three-dimensional regulation.

Being disposed with shutter between laser instrument 1 and beam splitter 2, shutter is mechanical shutter.

First beam expanding lens 4 and the second beam expanding lens 7 are the beam expanding lens of amplification 30 times, by a diameter of 1mm Light beam be expanded into the light beam of diameter 30mm.

Beam splitter 2 is can be by laser 50% transmission, the semi-transparent semi-reflecting beam splitter of 50% reflection.

Holographic dry plate 8 is Photopolymer holographic dry film sensitive to red light, and holographic dry plate 8 is arranged on adjusting bracket, Red light sensitiveness to wavelength X=650nm；Diffraction efficiency ＞ 90%；Luminous sensitivity 5～ 10mJ/cm²；Refractive index modulation degree Δ n=0.0096, resolution > 6000/mm；Dry plate thickness d =30 μ.

Laser instrument 1 output beam is divided into two by beam splitter 2, a branch of for reference wave, and another bundle is thing Ripple.The light beam transmitted from beam splitter 2 is through the first plane mirror 3 and the first beam expanding lens 4, and through sample Product 5 arrive on holographic dry plate 8, as object wave；The reflection light beam of beam splitter 2 is through the second plane mirror 6 Reflection, then arrive on holographic dry plate 8 through the second beam expanding lens 7, as reference wave.Object wave and reference wave Forming hologram after interference, record is on holographic dry plate (embossment wall) 8.This is exposure for the first time, Take the object of dynamically change away, complete exposure.

Using reflective holographic, optical module, through well-designed, is regulated by adjusting bracket and control cage Holographic dry plate and the position of laser instrument, so ensure the stability of result.Because light path is short, so greatly Reducing greatly damping requirement so that total small volume and less weight, light path is simple, and effect is the best.

Use semiconductor laser as light source, replace traditional high voltage power supply, the instrument being substantially reduced Cost also improves operability.

Use Photopolymer holographic dry film sensitive to red light, experiment can be completed under white light, reduce tradition Formula laser holographic experiment requires the drawback of the operation in darkroom.

Observer under visual angle corresponding to deviation angle can be obtained it should be appreciated that hologram view, so After after this hologram view rendering, be presented in current display interface.Observe compared in background technology Person is for current display interface only sees single plane picture, and holographic projection methods can be according to the observation The angle change of person provides the plane picture under visual angle corresponding to this angle, and observer changed at this Sight equation in journey can make its observed image more have third dimension, and then can improve vision effect Really.

By line holographic projections technology and embossment long paper R. concomitans, science and technology sense, following sense are incorporated solid-state and float Among carving art, deficiency and excess image is combined, produce illusion sense, allow the metope of inherently artistic feeling Become more lively flexible.

It should be understood that the foregoing is only the preferred embodiment of the present invention, it is not limited to The interest field of the present invention；Above description, for the special personage Ying Ke of correlative technology field Understand and implement, therefore other without departing from completed under disclosed spirit equivalence change or Modify, should be included in claim.

Claims (10)

1. holographic shadow embossment wall, it is characterised in that: comprise laser instrument, beam splitter, the first plane Mirror, the second plane mirror, the first beam expanding lens and the second beam expanding lens, the outfan light path of laser instrument is arranged There is beam splitter, the light beam transmission output light path of beam splitter is disposed with the first plane mirror, the first plane mirror Light beam reflection output path on be disposed with the first beam expanding lens, the light beam of the first beam expanding lens output is through object Arriving holographic dry plate, the light beam reflection output path of beam splitter is disposed with the second plane mirror, second is flat Being disposed with the second beam expanding lens on the light beam reflection output path of face mirror, the light beam of the second beam expanding lens output arrives Reach holographic dry plate.

Holographic shadow embossment wall the most according to claim 1, it is characterised in that: described laser Device is semiconductor laser.

Holographic shadow embossment wall the most according to claim 1, it is characterised in that: described laser Shutter it is disposed with between device and beam splitter.

Holographic shadow embossment wall the most according to claim 3, it is characterised in that: described shutter For mechanical shutter.

Holographic shadow embossment wall the most according to claim 1, it is characterised in that: described first Beam expanding lens and the second beam expanding lens are the beam expanding lens of amplification 30 times.

Holographic shadow embossment wall the most according to claim 1, it is characterised in that: described holography Dry plate is arranged on adjusting bracket.

Holographic shadow embossment wall the most according to claim 1, it is characterised in that: described laser Device is arranged on can be on the laser control frame of three-dimensional regulation.

Holographic shadow embossment wall the most according to claim 1, it is characterised in that: described laser Device be output be 10mw～20mw laser instrument.

Holographic shadow embossment wall the most according to claim 1, it is characterised in that: described beam splitting Mirror is can be by laser 50% transmission, the beam splitter of 50% reflection.

Holographic shadow embossment wall the most according to claim 1, it is characterised in that: described holography Dry plate is Photopolymer holographic dry film sensitive to red light.