CN203433199U - Stereoscopic imaging equipment - Google Patents

Abstract

The utility model relates to the field of optical imaging and particularly relates to a piece of stereoscopic imaging equipment. The stereoscopic imaging equipment comprises a cuboid-shaped shell, a partial reflection mirror and two displays, wherein the shell includes a top plate, a bottom plate, a rear backboard and a front panel which is provided with an observation hole, the partial reflection mirror is arranged to form an angle of 45 degrees with the rear backboard and is used for changing the direction of light emitted by the displays to make the light emitted out from the observation hole, one display is arranged on the bottom plate and a display surface thereof faces the top plate, and the other display is arranged on the rear backboard and a display surface thereof faces the observation hole. The stereoscopic imaging equipment is provided with the shell having the observation hole, the displays and the partial reflection mirror, and the partial reflection mirror reflects light emitted by the displays to change the direction of the light and make the light emitted out from the observation hole of the shell, wherein light emitted by the display arranged on a surface, facing the observation hole, of the rear backboard in the shell can partially pass through the partial reflection mirror and be emitted out from the observation hole to overlap with content played by the display arranged on the top plate or the bottom plate so as to form a multi-level interactive stereoscopic display effect.

Description

Stereoscopic imaging apparatus

Technical field

The utility model relates to optical imaging field, in particular to a kind of stereoscopic imaging apparatus.

Background technology

Three-dimensional imaging device in correlation technique, mostly include the open shell of front end, with one be positioned at the display screen on shell inside ceiling panel or base plate and be the tilted-putted partially reflecting mirror of miter angle with the display surface of above-mentioned display screen, utilize the light that partially reflecting mirror sends display screen to reflect, due to what adopt, be partially reflecting mirror simultaneously, observer can see through the space that this partially reflecting mirror is seen this minute surface rear simultaneously, what make that observer sees is an image that is placed in minute surface rear space, build spatial impression, create the effect of stereo display.

But this Open architecture, is easily subject to the impact of extraneous light.Simultaneously, the three-dimensional imaging device that adopts above-mentioned structure is owing to being in fact to have utilized the principle of reflection of level crossing to light, that is to say and on display screen, play what content, in partially reflecting mirror, just can see any content, in fact also just in single plane, show, the content of demonstration lacks stereovision and interactive sense.

Utility model content

The purpose of this utility model is to provide a kind of stereoscopic imaging apparatus, to solve the above problems.

A kind of stereoscopic imaging apparatus is provided in embodiment of the present utility model, has comprised:

Shell, described shell is cuboid, comprises top board, base plate, postnotum and front panel, on described front panel, has viewport;

Two display screens, a described display screen is arranged on described base plate, and display surface is towards described top board;

Display screen described in another, is arranged on described postnotum, and display surface is towards described viewport;

Partially reflecting mirror, described partially reflecting mirror and described postnotum are miter angle to be placed, and the radiation direction sending for changing described display screen, makes its outgoing from described viewport.

In embodiment of the present utility model, also disclose a kind of stereoscopic imaging apparatus, having comprised:

Shell, described shell is cube shaped, comprises top board, base plate, postnotum and front panel, on described front panel, has viewport;

Two display screens, a described display screen is arranged on described top board, and display surface is towards described base plate;

Display screen described in another, is arranged on described postnotum, and display surface is towards described viewport;

Partially reflecting mirror, described partially reflecting mirror and described postnotum are miter angle to be placed, and the radiation direction sending for changing described display screen, makes its outgoing from described viewport.

The stereoscopic imaging apparatus of the utility model above-described embodiment, comprises the shell, display screen and the partially reflecting mirror that are provided with viewport, and the light reflection that partially reflecting mirror can send above-mentioned display screen makes it change direction, outgoing from the viewport of shell.

In technical solutions of the utility model, surface in the face of viewport postnotum arranges extra display screen in the enclosure, the light that this display screen sends can permeation parts catoptron by viewport outgoing, the content of playing with the display screen being arranged on top board or base plate superposes mutually, forms the effect of multi-hierarchy interaction stereo display.

Accompanying drawing explanation

Fig. 1 shows the structural drawing of the stereoscopic imaging apparatus of the utility model embodiment.

Embodiment

Below by specific embodiment, also by reference to the accompanying drawings the utility model is described in further detail.

Embodiment mono-,

The utility model provides a kind of stereoscopic imaging apparatus, as shown in Figure 1, comprises shell 1, and described shell 1 is cube shaped, comprises top board 7, base plate 5, postnotum 6 and front panel 8, on described front panel 8, has viewport 2;

Partially reflecting mirror 4, described partially reflecting mirror 4 is miter angle with described postnotum 6 to be placed, and the radiation direction sending for changing described display screen 3, makes its outgoing from described viewport 2;

3, one described display screens 3 of two display screens are arranged on described base plate 5, and display surface is towards described top board 7;

Described in another, display screen 3, be arranged on described postnotum 6, and display surface are towards described viewport.

The stereoscopic imaging apparatus of the utility model above-described embodiment, comprise the shell 1, display screen 3 and the partially reflecting mirror 4 that are provided with viewport 2, the light reflection that partially reflecting mirror 4 can send above-mentioned display screen 3, makes it change direction, outgoing from the viewport of shell 1.

In technical solutions of the utility model, surface in the face of viewport postnotum 6 in shell 1 arranges extra display screen 3, the light that this display screen 3 sends can part permeation parts catoptron 4 by viewport 2 outgoing, mutually superpose with being arranged at the content that display screen on top board 7 or base plate 53 plays, or add mutually the superpose effect of formation multi-hierarchy interaction stereo display of content that transparent display screen itself plays and solid model.

Meanwhile, so adopt said structure can solve due to the weakened problem harsher to marginal ray requirement of reflection ray, adopt the technical scheme of the utility model application in brighter environment, to use, usable range is more extensive, and applicability is good.

And in existing phantom imaging technology, Picture Showing in form can not be interactive, the technical scheme of the utility model application, owing to being multihead display, can be play different content at different display screens 3, makes it stack mutually and produces beyond thought three-dimensional interaction effect.Meanwhile, by making the film source image of different levels, can accomplish that front and back different spaces level independently shows, can produce the unified visual impression in space and the depth three-dimensional interaction sense of vision with things.For example: in a display screen 3, play volcano therein, and the effect of the lava that corresponding position broadcasting volcanic eruption goes out in another display screen 3.

Preferably, described partially reflecting mirror 4 comprises transparent panel and plated film, and described plated film covers described transparent panel surface or holographic reflectance coating.

Employing mode of plated film on transparent panel is the mode of the most simple and effective making partially reflecting mirror, and what the utility model application adopted is nanoscale plated film.

Preferably, described partially reflecting mirror 4 is membranaceous partially reflecting mirror.

Adopt simple in structure being easy to of membranaceous partially reflecting mirror to produce, cost is low.

Preferably, the inner surface of described shell 1 is provided with light-absorption layer.

At shell 1 inside surface, light-absorption layer being set can make the image of reflection more clear.Certainly extinction can be simple black coating or the extinction cloth that is covered with one deck dark color etc.

Preferably, the interior interface that arranges of described shell 1, described interface is connected with two described display screens 3.

By the interface being connected with display screen 3 in the interior setting of shell 1, be conveniently connected with player.

Preferably, the disclosed stereoscopic imaging apparatus of the utility model also comprises a transparent display screen, and described transparent display screen is arranged between described viewport and described partially reflecting mirror and perpendicular to described base plate.

By transparent display screen is set, can increase the stereovision of the shown stereo-picture of stereoscopic imaging apparatus of the present utility model, make image have more depth effect, make displaying contents abundanter.

Embodiment bis-,

The invention also discloses a kind of stereoscopic imaging apparatus, comprising:

Shell 1, described shell 1 is cube shaped, comprises top board 7, base plate 5, postnotum 6 and front panel 8, on described front panel 8, has viewport 2;

Partially reflecting mirror 4, described partially reflecting mirror 4 is miter angle with described postnotum 6 to be placed, and the radiation direction sending for changing described display screen 3, makes its outgoing from described viewport 2;

3, one described display screens 3 of two display screens are arranged on described top board 7, and display surface is towards described base plate 5;

Described in another, display screen 3, be arranged on described postnotum 6, and display surface are towards described viewport.

The stereoscopic imaging apparatus of the utility model above-described embodiment, comprise the shell 1, display screen 3 and the partially reflecting mirror 4 that are provided with viewport, the light reflection that partially reflecting mirror 4 can send above-mentioned display screen 3, makes it change direction, outgoing from the viewport of shell 1.

These are only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., within all should being included in protection domain of the present utility model.

Claims (7)

1. a stereoscopic imaging apparatus, is characterized in that, comprising:

Shell, described shell is cuboid, comprises top board, base plate, postnotum and front panel, on described front panel, has viewport;

Two display screens, a described display screen is arranged on described base plate, and display surface is towards described top board;

Display screen described in another, is arranged on described postnotum, and display surface is towards described viewport;

Partially reflecting mirror, described partially reflecting mirror and described postnotum are miter angle to be placed, and the radiation direction sending for changing described display screen, makes its outgoing from described viewport.

2. stereoscopic imaging apparatus according to claim 1, is characterized in that, described partially reflecting mirror comprises transparent panel and plated film, and described plated film covers described transparent panel surface.

3. stereoscopic imaging apparatus according to claim 1, is characterized in that, described partially reflecting mirror is membranaceous partially reflecting mirror.

4. according to the stereoscopic imaging apparatus described in claim 2 or 3, it is characterized in that, described enclosure surface is provided with light-absorption layer.

5. stereoscopic imaging apparatus according to claim 4, is characterized in that, in described shell, is provided with interface, and described interface is connected with two described display screens.

6. stereoscopic imaging apparatus according to claim 5, is characterized in that, also comprises a transparent display screen, and described transparent display screen is arranged between described viewport and described partially reflecting mirror and perpendicular to described base plate.

7. a stereoscopic imaging apparatus, is characterized in that, comprising:

Shell, described shell is cube shaped, comprises top board, base plate, postnotum and front panel, on described front panel, has viewport;

Two display screens, a described display screen is arranged on described top board, and display surface is towards described base plate;

Display screen described in another, is arranged on described postnotum, and display surface is towards described viewport;

Partially reflecting mirror, described partially reflecting mirror and described postnotum are miter angle to be placed, and the radiation direction sending for changing described display screen, makes its outgoing from described viewport.