CN206649230U - Holographic three-dimensional exhibiting device - Google Patents

Abstract

The utility model discloses holographic three-dimensional exhibiting device, displayed image unit comprising cabinet and the multiple alternately splits being provided thereon, each displayed image unit includes glass and OLED display screen, OLED display screen is fitted on glass, the bottom installation light emitters of displayed image unit, the output interface of computer is connected with each displayed image unit respectively, and the image information of different content is exported to each displayed image unit.Different images is shown in each piece of OLED display screen, by multiple-layer stacked, a multi-level virtual depth of field is formed, reaches visual 3D rendering；Computer combination hologram image control system makes the image slight change on each piece of OLED screen curtain, and each OLED display screen shows different content informations and constantly change, full screen effect move up, and realizes the change of overall 3D rendering.Not under the auxiliary equipment such as wearing spectacles, with regard to 3D image effects can be experienced.

Description

Holographic three-dimensional exhibiting device

Technical field

It the utility model is related to a kind of holographic three-dimensional exhibiting device.

Background technology

The display effect of traditional monitor is all plane.There are two methods if necessary to 3D effect, first, it is necessary to watch Person wears corresponding equipment, and such as VR glasses, this causes application to be restricted, and can make the reduction of experiencer's comfort, Such as dizziness and nausea.Second, bore hole 3D technology, but resolution ratio, visible angle and can sighting distance be present in existing bore hole 3D technology From etc. it is insufficient the shortcomings that.

Utility model content

The purpose of this utility model is to overcome the shortcomings of the prior art, there is provided a kind of holographic three-dimensional exhibiting device.

The purpose of this utility model is achieved through the following technical solutions：

Holographic three-dimensional exhibiting device, feature are：Display image comprising cabinet and the multiple alternately splits being provided thereon Unit, each displayed image unit include glass and OLED display screen, and OLED display screen is fitted on glass, displayed image unit Bottom installation light emitters, the output interface of computer is connected with each displayed image unit respectively, schemes to each display As the image information of unit output different content.

Further, above-mentioned holographic three-dimensional exhibiting device, wherein, hologram image control system is provided with the cabinet, The hologram image control system includes video processor and power supply, and the video processor includes the video decoding provided with storage Plate and video signal amplifier, the video output interface of the input data transfer connection computer of the video decoding deck, The output end of video decoding deck corresponds data transfer connection displayed image unit respectively.

Further, above-mentioned holographic three-dimensional exhibiting device, wherein, the cabinet inside sets audio/video player system.

Further, above-mentioned holographic three-dimensional exhibiting device, wherein, it is provided with LCDs in the case side wall.

Further, above-mentioned holographic three-dimensional exhibiting device, wherein, the light emitters include light emitting source and and its The light controller of connection.

Further, above-mentioned holographic three-dimensional exhibiting device, wherein, the OLED display screen shows for the OLED of lighting at two sides Display screen.

Further, above-mentioned holographic three-dimensional exhibiting device, wherein, the OLED display screen is at least divided in same substrate Into two light-emitting zones, each luminous zone anode is located on same substrate.

Further, above-mentioned holographic three-dimensional exhibiting device, wherein, a luminous zone is using transparent electrode as sun Pole, using lighttight electrode as negative electrode；Another luminous zone is lighttight as anode, use using opaque metal Electrode is as negative electrode；Another luminous zone uses opaque metal as anode, using semi-transparent or printing opacity electrode conduct Negative electrode；Each organic material functional layer is set between corresponding anodic-cathodic, each control positioned at the anode of same substrate corresponding to Negative electrode, each light-emitting zone independently drive, are independent luminous.

Further, above-mentioned holographic three-dimensional exhibiting device, wherein, the substrate uses the substrate of light transmissive material.

Further, above-mentioned holographic three-dimensional exhibiting device, wherein, transparent conductive film is covered on the substrate, it is transparent Light tight metal electrode is covered on conductive film.

The utility model has the advantages of notable and beneficial effect compared with prior art, embodies in the following areas：

1. showing different images in each piece of OLED display screen of the present utility model, by multiple-layer stacked, one is formed The multi-level virtual depth of field, so as to reach visual 3D rendering；Computer combination hologram image control system makes each piece Image slight change on OLED screen curtain, each OLED display screen show different content informations and constantly change, full screen Effect moves up, and realizes the change of overall 3D rendering, such as the effect of same 3D videos；

2. realizing in the case of not wearing spectacles or other auxiliary equipments, 3D videos can be watched directly on screen, depending on Angular region is big, and picture contrast is high, and colour gamut is wide, high resolution；Front and rear to watch because being clear glass, oled panel is not Backlight is needed, therefore thickness can be made very thin；Do not need under any auxiliary equipments such as wearing spectacles, with regard to 3D images can be experienced Effect；Low to environmental requirement, installation difficulty is small, therefore has a wide range of application；

3. due to not requiring experiencer and environment, so public commercial use can be preferably applied for, such as：Road Side show window, market hall, museum, jewellery exhibition etc., just can be comprehensive, vertical in the case of without close contact article Body, each details for clearly enjoying shown article.

Scheme explanation

Fig. 1：Structural representation of the present utility model.

The implication of each reference see the table below in figure：

Embodiment

In order to which the technical characteristics of the utility model, purpose and effect are more clearly understood, it is detailed now to compare accompanying drawing Illustrate specific embodiment.

As shown in figure 1, holographic three-dimensional exhibiting device, the display comprising cabinet 3 and the multiple alternately splits being provided thereon Elementary area, each displayed image unit include glass 2 and OLED display screen 1, and OLED display screen 1 is fitted on glass 2, display The bottom installation light emitters 4 of elementary area, the output interface of computer 6 are connected with each displayed image unit respectively, to The image information of each displayed image unit output different content.

Hologram image control system 5 is provided with cabinet 3, hologram image control system 5 includes video processor and power supply, depending on As processor includes video decoding deck and video signal amplifier provided with storage, the input data transfer of video decoding deck The video output interface of computer 6 is connected, the output end of video decoding deck corresponds data transfer and connects each display respectively Elementary area.

The inside of cabinet 3 sets audio/video player system.LCDs is provided with the side wall of cabinet 3.

Light emitters 4 include light emitting source and connected light controller, and computer 6 controls with it to be connected.

OLED display screen 1 is the OLED display screen of lighting at two sides, is at least to be divided into two light-emitting zones in same substrate, often Individual luminous zone anode is located on same substrate.Wherein, a luminous zone is lighttight as anode, use using transparent electrode Electrode is as negative electrode；Another luminous zone uses opaque metal as anode, using lighttight electrode as negative electrode；Separately One luminous zone uses opaque metal as anode, using semi-transparent or printing opacity electrode as negative electrode；Corresponding negative and positive electricity Each organic material functional layer is set between pole, positioned at the anode of same substrate each control corresponding to negative electrode, each light-emitting zone Independent driving, independently light.

Substrate uses the substrate of light transmissive material, covers transparent conductive film on substrate, is covered on transparent conductive film impermeable Light metal electrode.

Each light emitting display is independently driven, be independent luminous, and shows the distribution of light-emitting zone according to product Requirement, can be with flexible and changeable.

Computer 6 combines hologram image control system 5, realize each OLED display screen 1 show different content informations and Constantly change, realizes that full screen effect moves up.

Different images is shown in each piece of OLED display screen, by multiple-layer stacked, forms a multi-level virtual scape It is deep, so as to reach visual 3D rendering.The combination hologram image of computer 6 control system 5 makes the figure on each piece of OLED screen curtain As slight change, the change of overall 3D rendering is realized, such as the effect of same 3D videos.

In summary, the utility model is realized in the case of not wearing spectacles or other auxiliary equipments, can directly shielded 3D videos are watched on curtain, angular field of view is big, and picture contrast is high, and colour gamut is wide, high resolution；Because being clear glass, it is front and rear all It can watch, oled panel does not need backlight, therefore thickness can be made very thin；Any auxiliary equipments such as wearing spectacles are not needed Under, with regard to 3D image effects can be experienced；Low to environmental requirement, installation difficulty is small, therefore has a wide range of application.

Due to not requiring experiencer and environment, so public commercial use can be preferably applied for, such as：Roadside Show window, market hall, museum, jewellery exhibition etc., in the case of without close contact article, just can it is comprehensive, three-dimensional, Clearly enjoy each details of shown article.

It should be noted that：Preferred embodiment of the present utility model is the foregoing is only, is not limited to this practicality New interest field；Description more than simultaneously, should can understand and implement for the special personage of correlative technology field, therefore its It should be included in claim without departing from the equivalent change or modification completed under the spirit disclosed in the utility model In.

Claims (10)

1. holographic three-dimensional exhibiting device, it is characterised in that：Display figure comprising cabinet and the multiple alternately splits being provided thereon As unit, each displayed image unit includes glass and OLED display screen, and OLED display screen is fitted on glass, display image list The bottom installation light emitters of member, the output interface of computer is connected with each displayed image unit respectively, to each display Elementary area exports the image information of different content.

2. holographic three-dimensional exhibiting device according to claim 1, it is characterised in that：Hologram image control is provided with the cabinet System processed, the hologram image control system include video processor and power supply, and the video processor is included provided with storage Video decoding deck and video signal amplifier, the video of the input data transfer connection computer of the video decoding deck are defeated Outgoing interface, the output end of video decoding deck correspond data transfer and connect each displayed image unit respectively.

3. holographic three-dimensional exhibiting device according to claim 1, it is characterised in that：The cabinet inside sets video playback System.

4. holographic three-dimensional exhibiting device according to claim 1, it is characterised in that：Liquid crystal is provided with the case side wall Display screen.

5. holographic three-dimensional exhibiting device according to claim 1, it is characterised in that：The light emitters include light emitting source And connected light controller.

6. holographic three-dimensional exhibiting device according to claim 1, it is characterised in that：The OLED display screen is lighting at two sides OLED display screen.

7. holographic three-dimensional exhibiting device according to claim 6, it is characterised in that：The OLED display screen is in same base Plate is at least divided into two light-emitting zones, and each luminous zone anode is located on same substrate.

8. holographic three-dimensional exhibiting device according to claim 7, it is characterised in that：One luminous zone uses transparent electrode As anode, using lighttight electrode as negative electrode；Another luminous zone uses opaque metal as anode, using not The electrode of printing opacity is as negative electrode；Another luminous zone uses opaque metal as anode, using semi-transparent or printing opacity electricity Pole is as negative electrode；Each organic material functional layer is set between corresponding anodic-cathodic, the anode positioned at same substrate each controls Corresponding negative electrode, each light-emitting zone independently drive, are independent luminous.

9. holographic three-dimensional exhibiting device according to claim 7, it is characterised in that：The substrate uses the lining of light transmissive material Bottom.

10. holographic three-dimensional exhibiting device according to claim 9, it is characterised in that：Electrically conducting transparent is covered on the substrate Film, light tight metal electrode is covered on transparent conductive film.