CN205487153U

CN205487153U - Stereoscopic display device and actuating system thereof

Info

Publication number: CN205487153U
Application number: CN201520930928.XU
Authority: CN
Inventors: 李兴文
Original assignee: Shanghai Kedou Electronic Technology Co Ltd
Current assignee: Shanghai Kedou Electronic Technology Co Ltd
Priority date: 2014-11-19
Filing date: 2015-11-19
Publication date: 2016-08-17
Anticipated expiration: 2025-11-19
Also published as: CN205302847U; CN205487152U; CN105611798A; CN105609009A; CN205452289U; CN105609010A; CN205451698U; CN105632402A

Abstract

Stereoscopic display device and actuating system thereof relates to electron technical field, and concretely relates to shows technical field. Transparent LED display panel, including a transparency carrier, the transparency carrier top is equipped with a set of horizontal electrode array who includes 8 at least horizontal electrodes, the transparency carrier top still is equipped with a set of vertical electrode array who includes 8 at least vertical electrodes, horizontal electrode is crisscross with vertical electrode existence, and sets up the insulating layer in crisscross department, makes horizontal electrode and vertical electrode insulating in crisscross department, still include 50 at least LED granules, the LED granule includes two electrodes, and a horizontal electrode is connected to an electrode, and a vertical electrode is connected to another electrode. Simpler for original OLED production technology, the yield is higher, more easily the screen enlarging. The preferred paster LED granule that is of LED granule.

Description

3 d display device and drive system thereof

Technical field

This utility model relates to electronic technology field, is specifically related to Display Technique field.

Background technology

Organic Light Emitting Diode (OLED) display is more and more universal, the most notable in the products such as mobile phone, media player and small-sized entry level TV.A kind of OLED is to make anode with nesa coating, and Al2O3 makees luminescent layer, and triaryl amine makees hole transmission layer, and negative electrode made by Mg/Ag alloy, is made for double-deck organic electroluminescence device.Another kind of OLED utility model is in nineteen ninety, and Burroughes et al. is found that the OLED with conjugated polymer PPV as luminescent layer, has started the upsurge of OLED research from this in worldwide.

OLED display panel production technology, mainly includes tin indium oxide (ITO) substrate pre-treatment, the process of ITO surface smoothness, the increase of ITO work function, crystal growth, addition auxiliary electrode, cathode technique, etc..Visible production technology and complexity thereof, to such an extent as to OLED display panel only has only a few producer to produce so far, and also yield is extremely limited.And major part production is 10 cun of display floaters once.

OLED display is used in the smaller screens such as mobile phone more and shows, especially can be with volume production with Samsung, but production capacity is the most relatively low, associates happy phone in short supply just as screen yield does not catches up with.

It is necessary to provide a kind of production technology simple, it is easy to form LED display panel and the production technology thereof of large scale display floater.

Existing 3D Display Technique, is substantially the 3D effect utilizing the parallax illusion of human eye to be formed.Long-time viewing can cause human eye uncomfortable.And image cannot be interactive with human eye gaze angle, lacks sense of reality.

Utility model content

The purpose of this utility model is, it is provided that a kind of transparency LED display floater, to solve the problems referred to above.

The purpose of this utility model also resides in, it is provided that a kind of 3 d display device, to solve the problems referred to above.

The purpose of this utility model also resides in, it is provided that a kind of 3 d display device drive system, to solve the problems referred to above.

This utility model is solved the technical problem that to realize by the following technical solutions:

Transparency LED display floater, it is characterised in that include that a transparency carrier, described transparency carrier are arranged over one group of transverse electrode array including at least 8 transverse electrodes；

Described transparency carrier is also arranged above one group of longitudinal electrode array including at least 8 longitudinal electrodes；

Described transverse electrode and described longitudinal electrode exist staggered, and arrange insulating barrier in staggered place, make described transverse electrode insulate in staggered place with described longitudinal electrode；

Also including that at least 50 LED particle, described LED particle include that two electrodes, an electrode connect transverse electrode described in, another electrode connects longitudinal electrode described in.

Simpler relative to original OLED production technology, yield rate is higher, more easily screen enlarging.

Described LED particle is preferably paster LED granule.

And, paster LED granule can be forward LED granule, it is also possible to for flip LED granule.Paster LED grain shape is bar shaped, and length is less than 3mm, and electrode is positioned at bar shaped two ends.More preferably length can be more than 1mm.So that construction.

Further, the forward LED granule during described LED particle uses paster LED granule.

The light-emitting area of described LED particle is towards transparency carrier.So that light is directed through transparency carrier injection.

Transparency carrier, can be transparency carrier, or translucent substrate.

Described transparency carrier can use transparent plastic substrate, transparent glass substrate, transparent ceramic base.Wherein it is preferably transparent glass substrate.It can also be the translucent substrate of frosted structure.

In transverse electrode on described transparency carrier or longitudinal electrode, at least one is metal sintered metal electrode on the transparent substrate.The electrode generated by sintering has more preferable fastness.

Or, in transverse electrode on described transparency carrier or longitudinal electrode, at least one is to electroplate metal electrode on the transparent substrate.The advantages such as the electrode generated by plating is had, technique simple structure voucher.

In transverse electrode on described transparency carrier or longitudinal electrode, at least one is glued tinsel on the transparent substrate or bonding jumper, the metal electrode of composition.Glued technique, simpler, and when breaking down, more easily repair.

Generating transverse electrode on described transparency carrier, cover high-temperature insulation material layer in the staggered place with longitudinal electrode, transverse electrode generates on described transparency carrier, and by above described high-temperature insulation material layer.

Use high-temperature insulation material layer, can avoid, when carrying out metal electrode sintering process, insulating properties being caused damage.

Described high-temperature insulation material layer can be glassy layer, ceramic layer, glaze etc..It is preferably transparent high-temperature insulation material layer.To ensure display effect.

Can also be: generate transverse electrode on described transparency carrier, described longitudinal electrode generates on described transparency carrier, and arranges breakpoint in the staggered place with described transverse electrode；The metal wire that the longitudinal electrode of breakpoint both sides is provided with insulating barrier by lower section connects.Described metal wire can be enamel-covered wire.Ensure power supply, and avoid the short circuit of electrode staggered place.

Or, described transparency carrier generates transverse electrode, described longitudinal electrode generates on described transparency carrier, and arranges breakpoint in the staggered place with described transverse electrode；The longitudinal electrode of breakpoint both sides connects by being surrounded by outward the Chip-R of insulating barrier.Chip-R is preferably 0 ohmage.Ensure power supply, and avoid the short circuit of electrode staggered place.

It is coated with substratum transparent, described transverse electrode and described longitudinal electrode on described transparency carrier to be covered by described substratum transparent.By covering substratum transparent, optimize light refraction effect.Improve display quality.

Transparency LED display floater also includes that a transparent cover plate, described transparent cover plate cover on described transparency carrier, and described transverse electrode and described longitudinal electrode are between described transparency carrier and described transparent cover plate.

Transparency carrier and transparent cover plate are bonded by substratum transparent.To avoid light toward interflection between transparency carrier and transparent cover plate.

Described transparent cover plate can be transparent plastic sheet, transparency glass plate, crystalline ceramics plate.Wherein it is preferably transparency glass plate.

Described transverse electrode and described longitudinal electrode, at least one is preferably silver electrode.

Described transverse electrode array is provided with the transverse electrode contact group for connecting holding wire at described transparency carrier one lateral edges.It is that each transverse electrode is powered by transverse electrode contact group.

Described longitudinal electrode array is provided with the longitudinal electrode contact group for connecting holding wire at described transparency carrier one lateral edges.It is that each longitudinal electrode is powered by longitudinal electrode contact group.

In described transverse electrode array, two adjacent transverse electrodes, in the spacing at a transparency carrier edge, less than the spacing distance in the middle part of transparency carrier.So that realizing at edge concentrating signal management.

To be positioned at transparency carrier edge, described transverse electrode array extension electrode is arranged into transverse electrode contact group.

In described longitudinal electrode array, two adjacent longitudinal electrodes, in the spacing at a transparency carrier edge, less than the spacing distance in the middle part of transparency carrier.So that realizing at edge concentrating signal management.

To be positioned at transparency carrier edge, described longitudinal electrode array extension electrode is arranged into longitudinal electrode contact group.

Described longitudinal electrode contact group and described transverse electrode contact group, be positioned at the same corner of described transparency carrier, or same edge.So that transverse electrode array and longitudinal electrode array are carried out signal management simultaneously.

Described transparent cover plate does not hide transverse electrode contact group and longitudinal electrode contact group.So that carrying out circuit connection.

Described transverse electrode contact group and described longitudinal electrode contact group, be connected to a display driver circuit.For driving display picture.

Described display driver circuit can be at least one in AV interface driving circuit, Video interface driving circuit, S-Video interface driving circuit, YPbPr/YCbCr aberration interface driving circuit, USB interface drive circuit, DVI interface drive circuit, bnc interface drive circuit or HDMI.

A kind of 3 d display device, it is characterised in that including about at least four arrangements or the display layer front and back arranged, display layer is transparent display panel；

Transparent display panel, including a transparency carrier, described transparency carrier is arranged over one group of transverse electrode array including at least 8 transverse electrodes；

Also including that at least 50 pixel granules, described pixel granule include that two electrodes, an electrode connect transverse electrode described in, another electrode connects longitudinal electrode described in.

Also include a transparent vessel, about at least four arrangements or the transparent display panel front and back arranged, be arranged in described transparent vessel.

Display layer is preferably at least one in transparency LED display floater, light transmitting liquid crystal display floater, printing opacity EL display floater, printing opacity quantum dot display floater.

Display layer use display panels time, at least relative to two faces light source is set.To illuminate liquid crystal layer.Such as upper and lower surfaces arrange light source.Or face, two, left and right arranges light source.

Transparent display panel is preferably transparency LED display floater.

Transparency LED display floater, including a transparency carrier, described transparency carrier is arranged over one group of transverse electrode array including at least 8 transverse electrodes；

Transparent vessel is the container that a kind of part-structure is transparent, is not intended to be limited to entire body all transparent.The purpose of design of setting unit structured transparent, is to allow people it can be seen that inside shows image.

Each transparent display panel draws holding wire respectively, and is combined into the described transparent vessel of a branch of extraction.

Being provided with transparent support in described transparent vessel, described transparent display panel is fixed by described transparent support.

Described transparent support can be integrally fixed at the projection on transparent vessel, or depression.Described transparent display panel is connected on transparent vessel, or rides on transparent vessel.

Described transparent support can also is that transparent cylinder, described transparent cylinder are arranged between upper and lower two transparent display panel.To realize supporting.

Described transparent support can also is that transparent support plate, described transparent support plate are arranged between upper and lower two transparent display panel.To realize supporting.

Described transparent support plate is for erecting placement.Rather than keep flat.Ensure not parallel with transparent display panel.

Being filled with transparency liquid in described transparent vessel, described transparency liquid at least floods 4 pieces of transparent display panel.

Or, front and back during arrangement transparent display panel, described transparency liquid at least floods 2/3rds height of transparent display panel.By transparency liquid, optical visual effect can be optimized, and the heat dissipation problem that solution LED that can be good, quantum dot or EL (electroluminescent) put.

Described transparency liquid can be oil, water, glue, formalin, ethanol, methanol etc..

The most described transparency liquid is the transparency liquid of insulation.

Transparent vessel is cylindrical.So that cincture, multi angle view.Cylindrical arcwall face part, at least 70% area is transparent.It is transparent that at least 70% area is set, the sensation that spectators' entire body is transparent can be given.

Cylindrical arcwall face part, arranging at least 3% is opaque structure.Ensureing on the premise of multi angle view, retaining an opaque structure, it is simple to cabling or electronic circuit is set.Entirety is made to have aesthetic property.

Transparent vessel is spherical.So that more abundant multi angle view.Spherical land portions, at least 70% area is transparent.It is transparent that at least 70% area is set, the sensation that spectators' entire body is transparent can be given.

Spherical land portions, arranging at least 3% is opaque structure.Ensureing on the premise of multi angle view, retaining an opaque structure, it is simple to cabling or electronic circuit is set.Entirety is made to have aesthetic property.

Transparent vessel be at least one side be transparent arcwall face, at least one side is the container of opaque structure.Ensureing on the premise of multi angle view, retaining an opaque structure, it is simple to cabling or electronic circuit is set.Entirety is made to have aesthetic property.

Transparent vessel be at least one side be transparent sphere, at least one side is the container of opaque structure.Ensureing on the premise of multi angle view, retaining an opaque structure, it is simple to cabling or electronic circuit is set.Entirety is made to have aesthetic property.

The signal output array of one described display driver circuit, is respectively connecting to few about four arrangements or the transparent display panel front and back arranged.

The signal output array of one described display driver circuit, a part connects a transparent display panel；Another part connects another transparent display panel；Another part connects another transparent display panel；Remaining part, connects remaining transparent display panel respectively.

In connecting respectively, the boost line of some necessity of access can be lighted in order to realize pixel.

By above-mentioned design, the display driver circuit driving plane to show can be originally used for, for driving the transparent display panel display different pictures of different levels, and then realize stereo display.The most just need not redesign brand-new 3 d display device drive circuit, it is not required that adjust the display interface of the equipment such as original computer, DVD, MP4, smart mobile phone.

3 d display device drive system, it is characterised in that include about at least four layers display layers with display function arranged, described display layer is the display layer of printing opacity；

At least four layers of display layer are respectively provided with and access the electrode contact group driving signal；

Also include a display driver circuit；

The signal output array of display driver circuit described in, is respectively connecting to few about four arrangements or the display layer front and back arranged.

Signal output array is provided with at least four cord array group；At least four cord array group is connected respectively to about at least four arrangements or the display layer front and back arranged.For driving at least four display layer to show different pictures.

Display layer can be transparent display panel, and including a transparency carrier, transparency carrier is arranged over one group of transverse electrode array including at least 8 transverse electrodes；Transparency carrier is also arranged above one group of longitudinal electrode array including at least 8 longitudinal electrodes；Transverse electrode and longitudinal electrode exist staggered, and arrange insulating barrier in staggered place, make transverse electrode insulate in staggered place with longitudinal electrode；Also including at least 50 pixel granules, pixel granule includes that two electrodes, an electrode connect a transverse electrode, and another electrode connects a longitudinal electrode.

On described main frame, plane showing, picture is divided at least four region that size is identical, at least four layers of profile are respectively displayed at least four region；

At least four cord array group of the signal output array that at least four region is corresponding；At least four cord array group is connected respectively to about at least four arrangements or the display layer front and back arranged.

Main frame can be the equipment that computer, DVD, MP4, smart mobile phone etc. can export video signal.It can also be a mainboard with CPU.

Thus plane is shown picture, it is projected to stereo-picture.And because showing picture with plane, there is clear and definite corresponding relation, it is allowed in traditional flat-panel screens, carry out picture editing's adjustment.

3 d display device drive system also includes a drive software, and drive software calls threedimensional model, is then layered by threedimensional model, draws at least four layers of profile of threedimensional model；

By at least four layers of profile output displays simultaneously, it is respectively outputted at least four layers of display layer by display driver circuit.And then realize stereo display.

There is a setpoint distance between adjacent two display layers, drive software, when being layered by threedimensional model, omits the part of display distance between adjacent two display layers.To avoid data volume infinitely great, reduce data volume, and make display realistic.

Described threedimensional model, can be the threedimensional model of three-dimensional drawing Software on Drawing.Can also is that the threedimensional model that 3-D scanning obtains.Can also is that the threedimensional model that computer obtains according to internal algorithm.When such as Games Software runs, the threedimensional model that technology draws.

Plane is shown that picture is divided at least four region that size is identical by drive software, and at least four layers of profile are respectively displayed at least four region；

Drive software may operate in computer, DVD, MP4, smart mobile phone etc. and can export on the equipment of video signal.Can also be to operate on a mainboard with CPU.

Being preferably display layer is transparent display layer.Transparent display layer can watch the image of next layer by display layer.The opaque point of part or line is had to can hardly be avoided on transparent display layer.The image of next layer can be watched.

Display layer can include the transverse electrode contact group for introducing electric current and longitudinal electrode contact group；Transverse electrode contact group and longitudinal electrode contact group, connect one of them cord array group of described display driver circuit signal output array respectively.

The signal output array of one described display driver circuit, a cord array group connects a display layer；Another cord array group connects another display layer；Another cord array group connects another display layer；Remaining cord array group, connects remaining display layer respectively.

By above-mentioned design, the display driver circuit driving plane to show can be originally used for, for driving the display layer display different pictures of different levels, and then realize stereo display.The most just need not redesign brand-new 3 d display device drive circuit, it is not required that adjust the display interface of the equipment such as original computer, DVD, MP4, smart mobile phone.

Accompanying drawing explanation

Fig. 1 is transparency LED display floater part-structure schematic diagram；

Fig. 2 is 3 d display device structural representation.

Detailed description of the invention

For the technological means making this utility model realize, creation characteristic, reach purpose and be easy to understand with effect, this utility model is expanded on further below in conjunction with being specifically illustrating.

With reference to Fig. 1, transparency LED display floater, including a transparency carrier 1, transparency carrier 1 is arranged over one group of transverse electrode array including at least 8 transverse electrodes 2；Transparency carrier 1 is also arranged above one group of longitudinal electrode array including at least 8 longitudinal electrodes 3；Transverse electrode 2 and longitudinal electrode 3 exist staggered, and arrange insulating barrier in staggered place, make transverse electrode 2 insulate in staggered place with longitudinal electrode 3；Also including that at least 50 LED particle 5, LED particle 5 include that two electrodes, an electrode connect a transverse electrode 2, another electrode connects a longitudinal electrode 3.Use 8 transverse electrodes 2 and 8 longitudinal electrodes 3, be because 3 powers that 8 is 2, be the minimum driving number of a lot of chip.It is easy to connect and debugging.

Simpler relative to original OLED production technology, yield rate is higher, more easily screen enlarging.LED particle 5 is preferably paster LED granule 5.

And, paster LED granule 5 can be forward LED granule 5, it is also possible to for flip LED granule 5.Paster LED granule 5 is shaped as bar shaped, and length is less than 3mm, and electrode is positioned at bar shaped two ends.More preferably length can be more than 1mm.So that construction.

Further, the forward LED granule 5 during LED particle 5 uses paster LED granule 5.The light-emitting area of LED particle 5 is towards transparency carrier 1.So that light is directed through transparency carrier 1 and penetrates.

Transparency carrier 1, can be transparency carrier, or translucent substrate.Transparency carrier 1 can use transparent plastic substrate, transparent glass substrate, transparent ceramic base.Wherein it is preferably transparent glass substrate.It can also be the translucent substrate of frosted structure.

In transverse electrode 2 on transparency carrier 1 or longitudinal electrode 3, at least one is metal sintered metal electrode on transparency carrier 1.The electrode generated by sintering has more preferable fastness.Or, in transverse electrode 2 on transparency carrier 1 or longitudinal electrode 3, at least one is plating metal electrode on transparency carrier 1.The advantages such as the electrode generated by plating is had, technique simple structure voucher.

In transverse electrode 2 on transparency carrier 1 or longitudinal electrode 3, at least one is to be glued at the tinsel on transparency carrier 1 or bonding jumper, the metal electrode of composition.Glued technique, simpler, and when breaking down, more easily repair.

Generating transverse electrode 2 on transparency carrier 1, cover high-temperature insulation material layer in the staggered place with longitudinal electrode 3, transverse electrode 2 generates on transparency carrier 1, and by above high-temperature insulation material layer.Use high-temperature insulation material layer, can avoid, when carrying out metal electrode sintering process, insulating properties being caused damage.High-temperature insulation material layer can be glassy layer, ceramic layer, glaze etc..It is preferably transparent high-temperature insulation material layer.To ensure display effect.

Can also be: generating transverse electrode 2 on transparency carrier 1, longitudinal electrode 3 generates on transparency carrier 1, and arranges breakpoint in the staggered place with transverse electrode 2；The metal wire that the longitudinal electrode 3 of breakpoint both sides is provided with insulating barrier by lower section connects.Metal wire can be enamel-covered wire.Ensure power supply, and avoid the short circuit of electrode staggered place.

Or, transparency carrier 1 generates transverse electrode 2, longitudinal electrode 3 generates on transparency carrier 1, and arranges breakpoint in the staggered place with transverse electrode 2；The longitudinal electrode 3 of breakpoint both sides connects by being surrounded by outward the Chip-R of insulating barrier.Chip-R is preferably 0 ohmage.Ensure power supply, and avoid the short circuit of electrode staggered place.

It is coated with substratum transparent, transverse electrode 2 and longitudinal electrode 3 on transparency carrier 1 to be covered by substratum transparent.By covering substratum transparent, optimize light refraction effect.Improve display quality.

Transparency LED display floater also includes a transparent cover plate, and transparent cover plate covers on transparency carrier 1, and transverse electrode 2 and longitudinal electrode 3 are between transparency carrier 1 and transparent cover plate.Transparency carrier 1 and transparent cover plate are bonded by substratum transparent.To avoid light toward interflection between transparency carrier 1 and transparent cover plate.Transparent cover plate can be transparent plastic sheet, transparency glass plate, crystalline ceramics plate.Wherein it is preferably transparency glass plate.Transverse electrode 2 and longitudinal electrode 3, at least one is preferably silver electrode.

Transverse electrode array is provided with the transverse electrode contact group 6 for connecting holding wire at transparency carrier 1 one lateral edges.Powered for each transverse electrode 2 by transverse electrode contact group 6.

Longitudinal electrode array is provided with the longitudinal electrode contact group 7 for connecting holding wire at transparency carrier 1 one lateral edges.Powered for each longitudinal electrode 3 by longitudinal electrode contact group 7.

In transverse electrode array, two adjacent transverse electrodes 2, in the spacing at transparency carrier 1 edge, less than the spacing distance in the middle part of transparency carrier 1.So that realizing at edge concentrating signal management.

To be positioned at transparency carrier 1 edge, transverse electrode array extension electrode is arranged into transverse electrode contact group 6.

In longitudinal electrode array, two adjacent longitudinal electrodes 3, in the spacing at transparency carrier 1 edge, less than the spacing distance in the middle part of transparency carrier 1.So that realizing at edge concentrating signal management.

To be positioned at transparency carrier 1 edge, longitudinal electrode array extension electrode is arranged into longitudinal electrode contact group 7.

Longitudinal electrode contact group 7 and transverse electrode contact group 6, be positioned at the same corner of transparency carrier 1, or same edge.So that transverse electrode array and longitudinal electrode array are carried out signal management simultaneously.

Transparent cover plate does not hide transverse electrode contact group 6 and longitudinal electrode contact group 7.So that carrying out circuit connection.

Transverse electrode contact group 6 and longitudinal electrode contact group 7, be connected to a display driver circuit.For driving display picture.

Display driver circuit can be at least one in AV interface driving circuit, Video interface driving circuit, S-Video interface driving circuit, YPbPr/YCbCr aberration interface driving circuit, USB interface drive circuit, DVI interface drive circuit, bnc interface drive circuit or HDMI.

With reference to Fig. 2, a kind of 3 d display device, the display layer arranged including about at least four or front and back arrange, display layer is transparent display panel；Transparent display panel, including a transparency carrier 1, transparency carrier 1 is arranged over one group of transverse electrode array including at least 8 transverse electrodes 2；Transparency carrier 1 is also arranged above one group of longitudinal electrode array including at least 8 longitudinal electrodes 3；Transverse electrode 2 and longitudinal electrode 3 exist staggered, and arrange insulating barrier in staggered place, make transverse electrode 2 insulate in staggered place with longitudinal electrode 3；Also including at least 50 pixel granules, pixel granule includes that two electrodes, an electrode connect a transverse electrode 2, and another electrode connects a longitudinal electrode 3.

Also include a transparent vessel 8, about at least four arrangements or the transparent display panel front and back arranged, be arranged in transparent vessel 8.

Display layer is preferably at least one in transparency LED display floater, light transmitting liquid crystal display floater, printing opacity EL display floater, printing opacity quantum dot display floater.Transparency LED display floater, light transmitting liquid crystal display floater, printing opacity EL display floater or printing opacity quantum dot display floater, be provided with transparency carrier 1, transverse electrode 2, longitudinal electrode 3 and pixel granule.

Transparent display panel is preferably transparency LED display floater.Transparency LED display floater, including a transparency carrier 1, transparency carrier 1 is arranged over one group of transverse electrode array including at least 8 transverse electrodes 2；Transparency carrier 1 is also arranged above one group of longitudinal electrode array including at least 8 longitudinal electrodes 3；Transverse electrode 2 and longitudinal electrode 3 exist staggered, and arrange insulating barrier in staggered place, make transverse electrode 2 insulate in staggered place with longitudinal electrode 3；Also including that at least 50 LED particle 5, LED particle 5 include that two electrodes, an electrode connect a transverse electrode 2, another electrode connects a longitudinal electrode 3.

Also include a transparent vessel 8, about at least four arrangements or the transparent display panel front and back arranged, be arranged in transparent vessel 8.Transparent vessel 8 is the container that a kind of part-structure is transparent, is not intended to be limited to entire body all transparent.The purpose of design of setting unit structured transparent, is to allow people it can be seen that inside shows image.Each transparent display panel draws holding wire respectively, and is combined into a branch of extraction transparent vessel 8.

Being provided with transparent support in transparent vessel 8, transparent display panel is fixed by transparent support.Transparent support can be integrally fixed at the projection on transparent vessel 8, or depression.Transparent display panel is connected on transparent vessel 8, or rides on transparent vessel 8.Transparent support can also is that transparent cylinder, transparent cylinder are arranged between upper and lower two transparent display panel.To realize supporting.

Transparent support can also is that transparent support plate, transparent support plate are arranged between upper and lower two transparent display panel.To realize supporting.

Transparent support plate is for erecting placement.Rather than keep flat.Ensure not parallel with transparent display panel.

Being filled with transparency liquid in transparent vessel 8, transparency liquid at least floods 4 pieces of transparent display panel.Or, front and back during arrangement transparent display panel, transparency liquid at least floods 2/3rds height of transparent display panel.By transparency liquid, optical visual effect can be optimized, and the heat dissipation problem that solution LED that can be good, quantum dot or EL (electroluminescent) put.

Transparency liquid can be oil, water, glue, formalin, ethanol, methanol etc..More preferably transparency liquid is the transparency liquid of insulation.

Transparent vessel 8 is cylindrical.So that cincture, multi angle view.Cylindrical arcwall face part, at least 70% area is transparent.It is transparent that at least 70% area is set, the sensation that spectators' entire body is transparent can be given.

Transparent vessel 8 is spherical.So that more abundant multi angle view.Spherical land portions, at least 70% area is transparent.It is transparent that at least 70% area is set, the sensation that spectators' entire body is transparent can be given.

Transparent vessel 8 is transparent arcwall face at least one side, and at least one side is the container of opaque structure.Ensureing on the premise of multi angle view, retaining an opaque structure, it is simple to cabling or electronic circuit is set.Entirety is made to have aesthetic property.

Transparent vessel 8 is transparent sphere at least one side, and at least one side is the container of opaque structure.Ensureing on the premise of multi angle view, retaining an opaque structure, it is simple to cabling or electronic circuit is set.Entirety is made to have aesthetic property.

The signal output array of one display driver circuit, is respectively connecting to few about four arrangements or the transparency LED display floater front and back arranged.

The signal output array of one display driver circuit, a part connects a transparent display panel；Another part connects another transparent display panel；Another part connects another transparent display panel；Remaining part, connects remaining transparent display panel respectively.

Transverse electrode array is provided with the transverse electrode contact group 6 for connecting holding wire at transparency carrier 1 one lateral edges.Powered for each transverse electrode 2 by transverse electrode contact group 6.Longitudinal electrode array is provided with the longitudinal electrode contact group 7 for connecting holding wire at transparency carrier 1 one lateral edges.Powered for each longitudinal electrode 3 by longitudinal electrode contact group 7.

With reference to Fig. 1, Fig. 2,3 d display device drive system, including about at least four layers display layers with display function arranged, display layer is the display layer of printing opacity；At least four layers of display layer are respectively provided with and access the electrode contact group driving signal；Also include a display driver circuit；The signal output array of one display driver circuit, is respectively connecting to few about four arrangements or the display layer front and back arranged.

Display layer can be transparent display panel, and including a transparency carrier 1, transparency carrier 1 is arranged over one group of transverse electrode array including at least 8 transverse electrodes 2；Transparency carrier 1 is also arranged above one group of longitudinal electrode array including at least 8 longitudinal electrodes 3；Transverse electrode 2 and longitudinal electrode 3 exist staggered, and arrange insulating barrier in staggered place, make transverse electrode 2 insulate in staggered place with longitudinal electrode 3；Also including at least 50 pixel granules, pixel granule includes that two electrodes, an electrode connect a transverse electrode 2, and another electrode connects a longitudinal electrode 3.

On main frame, plane showing, picture is divided at least four region that size is identical, at least four layers of profile are respectively displayed at least four region；At least four cord array group of the signal output array that at least four region is corresponding；At least four cord array group is connected respectively to about at least four arrangements or the display layer front and back arranged.

Threedimensional model, can be the threedimensional model of three-dimensional drawing Software on Drawing.Can also is that the threedimensional model that 3-D scanning obtains.Can also is that the threedimensional model that computer obtains according to internal algorithm.When such as Games Software runs, the threedimensional model that technology draws.

Plane is shown that picture is divided at least four region that size is identical by drive software, and at least four layers of profile are respectively displayed at least four region；At least four cord array group of the signal output array that at least four region is corresponding；At least four cord array group is connected respectively to about at least four arrangements or the display layer front and back arranged.

Display layer can include the transverse electrode contact group 6 for introducing electric current and longitudinal electrode contact group 7；Transverse electrode contact group 6 and longitudinal electrode contact group 7, connect one of them cord array group of display driver circuit signal output array respectively.

The signal output array of one display driver circuit, a cord array group connects a display layer；Another cord array group connects another display layer；Another cord array group connects another display layer；Remaining cord array group, connects remaining display layer respectively.

Of the present utility model ultimate principle and principal character and of the present utility model advantage have more than been shown and described.Skilled person will appreciate that of the industry; this utility model is not restricted to the described embodiments; described in above-described embodiment and description, principle of the present utility model is simply described; on the premise of without departing from this utility model spirit and scope; this utility model also has various changes and modifications, in the range of these changes and improvements both fall within claimed this utility model.This utility model claims scope and is defined by appending claims and equivalent thereof.

Claims

1. 3 d display device, it is characterised in that including about at least four arrangements or the display layer front and back arranged, display layer is transparent display panel；

3 d display device the most according to claim 1, it is characterised in that described pixel granule is LED particle.

3 d display device the most according to claim 2, it is characterised in that described LED particle is paster LED granule.

3 d display device the most according to claim 3, it is characterised in that paster LED granule is forward LED granule, or be flip LED granule.

3 d display device the most according to claim 3, it is characterised in that paster LED grain shape is bar shaped, length is less than 3mm, and electrode is positioned at bar shaped two ends.

3 d display device the most according to claim 5, it is characterised in that paster LED particle length is more than 1mm.

3 d display device the most according to claim 2, it is characterised in that the light-emitting area of described LED particle is towards transparency carrier.

3 d display device the most according to claim 1, it is characterised in that transparency carrier, is transparency carrier, or translucent substrate.

3 d display device the most according to claim 1, it is characterised in that described transparency carrier uses transparent plastic substrate, transparent glass substrate or transparent ceramic base.

3 d display device the most according to claim 1, it is characterised in that described transparency carrier uses the translucent substrate of frosted structure.

11. 3 d display devices according to claim 1, it is characterised in that in transverse electrode on described transparency carrier or longitudinal electrode, at least one is metal sintered metal electrode on the transparent substrate.

12. 3 d display devices according to claim 1, it is characterised in that in transverse electrode on described transparency carrier or longitudinal electrode, at least one is to electroplate metal electrode on the transparent substrate.

13. 3 d display devices according to claim 1, it is characterised in that in transverse electrode on described transparency carrier or longitudinal electrode, at least one is glued tinsel on the transparent substrate or bonding jumper, the metal electrode of composition.

14. 3 d display devices according to claim 1, it is characterized in that, described transparency carrier generates transverse electrode, cover high-temperature insulation material layer in the staggered place with longitudinal electrode, transverse electrode generates on described transparency carrier, and by above described high-temperature insulation material layer.

15. 3 d display devices according to claim 14, it is characterised in that described high-temperature insulation material layer is glassy layer, ceramic layer or glaze.

16. 3 d display devices according to claim 1, it is characterised in that generate transverse electrode on described transparency carrier, described longitudinal electrode generates on described transparency carrier, and arranges breakpoint in the staggered place with described transverse electrode；The metal wire that the longitudinal electrode of breakpoint both sides is provided with insulating barrier by lower section connects.

17. 3 d display devices according to claim 16, it is characterised in that described metal wire is enamel-covered wire.

18. 3 d display devices according to claim 1, it is characterised in that generate transverse electrode on described transparency carrier, described longitudinal electrode generates on described transparency carrier, and arranges breakpoint in the staggered place with described transverse electrode；The longitudinal electrode of breakpoint both sides connects by being surrounded by outward the Chip-R of insulating barrier.

19. 3 d display devices according to claim 18, it is characterised in that Chip-R is 0 ohmage.

20. 3 d display devices according to claim 1, it is characterised in that be coated with substratum transparent, described transverse electrode and described longitudinal electrode on described transparency carrier and covered by described substratum transparent.

21. 3 d display devices according to claim 20, it is characterized in that, transparency LED display floater also includes that a transparent cover plate, described transparent cover plate cover on described transparency carrier, and described transverse electrode and described longitudinal electrode are between described transparency carrier and described transparent cover plate.

22. 3 d display devices according to claim 21, it is characterised in that transparency carrier and transparent cover plate are bonded by substratum transparent.

23. 3 d display devices according to claim 21, it is characterised in that described transparent cover plate is transparent plastic sheet, transparency glass plate or crystalline ceramics plate.

24. according to the 3 d display device described in any one in claim 1-23, it is characterised in that described transverse electrode and described longitudinal electrode, and at least one is silver electrode.

25. according to the 3 d display device described in any one in claim 1-23, it is characterised in that described transverse electrode array is provided with the transverse electrode contact group for connecting holding wire at described transparency carrier one lateral edges.

26. according to the 3 d display device described in any one in claim 1-23, it is characterised in that described longitudinal electrode array is provided with the longitudinal electrode contact group for connecting holding wire at described transparency carrier one lateral edges.

27. 3 d display devices according to claim 25, it is characterised in that in described transverse electrode array, two adjacent transverse electrodes, in the spacing at a transparency carrier edge, less than the spacing distance in the middle part of transparency carrier.

28. 3 d display devices according to claim 25, it is characterised in that to be positioned at transparency carrier edge, described transverse electrode array extension electrode is arranged into transverse electrode contact group.

29. 3 d display devices according to claim 26, it is characterised in that in described longitudinal electrode array, two adjacent longitudinal electrodes, in the spacing at a transparency carrier edge, less than the spacing distance in the middle part of transparency carrier.

30. 3 d display devices according to claim 26, it is characterised in that to be positioned at transparency carrier edge, described longitudinal electrode array extension electrode is arranged into longitudinal electrode contact group.

31. 3 d display devices according to claim 25, it is characterised in that described longitudinal electrode array is provided with the longitudinal electrode contact group for connecting holding wire at described transparency carrier one lateral edges.

32. 3 d display devices according to claim 25, it is characterised in that described longitudinal electrode contact group and described transverse electrode contact group, are positioned at the same corner of described transparency carrier, or same edge.

33. 3 d display devices according to claim 31, it is characterized in that, transparency LED display floater also includes that a transparent cover plate, described transparent cover plate cover on described transparency carrier, and described transverse electrode and described longitudinal electrode are between described transparency carrier and described transparent cover plate；

Described transparent cover plate does not hide transverse electrode contact group and longitudinal electrode contact group.

34. 3 d display devices according to claim 31, it is characterised in that described transverse electrode contact group and described longitudinal electrode contact group, are connected to a display driver circuit.

35. 3 d display devices according to claim 34, it is characterized in that, described display driver circuit is at least one in AV interface driving circuit, Video interface driving circuit, S-Video interface driving circuit, YPbPr/YCbCr aberration interface driving circuit, USB interface drive circuit, DVI interface drive circuit, bnc interface drive circuit or HDMI.

36. according to the 3 d display device described in any one in claim 1-23, it is characterised in that also includes a transparent vessel, about at least four arrangements or the transparent display panel front and back arranged, is arranged in described transparent vessel.

37. according to the 3 d display device described in any one in claim 1-23, it is characterised in that display layer is at least one in transparency LED display floater, light transmitting liquid crystal display floater, printing opacity EL display floater, printing opacity quantum dot display floater.

38. according to the 3 d display device described in claim 37, it is characterised in that display layer use display panels time, at least relative to two faces light source is set.

39. according to the 3 d display device described in claim 37, it is characterised in that transparent display panel is transparency LED display floater.

40. 3 d display devices according to claim 36, it is characterised in that each transparent display panel draws holding wire respectively, and is combined into the described transparent vessel of a branch of extraction.

41. 3 d display devices according to claim 36, it is characterised in that be provided with transparent support in described transparent vessel, described transparent display panel is fixed by described transparent support.

42. 3 d display devices according to claim 41, it is characterised in that described transparent support is integrally fixed at the projection on transparent vessel, or depression.

43. 3 d display devices according to claim 42, it is characterised in that described transparent display panel is connected on transparent vessel.

44. 3 d display devices according to claim 42, it is characterised in that described transparent display panel rides on transparent vessel.

45. 3 d display devices according to claim 41, it is characterised in that described transparent support is transparent cylinder, described transparent cylinder is arranged between upper and lower two transparent display panel.

46. 3 d display devices according to claim 41, it is characterised in that described transparent support is transparent support plate, described transparent support plate is arranged between upper and lower two transparent display panel.

47. 3 d display devices according to claim 46, it is characterised in that described transparent support plate is not parallel with transparent display panel.

48. 3 d display devices according to claim 36, it is characterised in that be filled with transparency liquid in described transparent vessel, described transparency liquid at least floods 4 pieces of transparent display panel.

49. 3 d display devices according to claim 36, it is characterised in that be filled with transparency liquid in described transparent vessel, arrange before and after transparent display panel, and described transparency liquid at least floods 2/3rds height of transparent display panel.

50. 3 d display devices according to claim 36, it is characterised in that be filled with transparency liquid in described transparent vessel, described transparency liquid is the transparency liquid of insulation.

51. 3 d display devices according to claim 50, it is characterised in that described transparency liquid is oil, water, glue, formalin, ethanol or methanol.

52. 3 d display devices according to claim 36, it is characterised in that transparent vessel is cylindrical.

53. 3 d display devices according to claim 52, it is characterised in that cylindrical arcwall face part, at least 70% area is transparent.

54. 3 d display devices according to claim 52, it is characterised in that cylindrical arcwall face part, arranging at least 3% is opaque structure.

55. 3 d display devices according to claim 36, it is characterised in that transparent vessel is spherical.

56. 3 d display devices according to claim 55, it is characterised in that spherical land portions, at least 70% area is transparent.

57. 3 d display devices according to claim 55, it is characterised in that spherical land portions, arranging at least 3% is opaque structure.

58. 3 d display devices according to claim 36, it is characterised in that transparent vessel be at least one side be transparent arcwall face, at least one side is the container of opaque structure.

59. 3 d display devices according to claim 36, it is characterised in that transparent vessel be at least one side be transparent sphere, at least one side is the container of opaque structure.

60. 3 d display devices according to claim 35, it is characterised in that the signal output array of a described display driver circuit, are respectively connecting to few about four arrangements or the transparent display panel front and back arranged.

61. 3 d display devices according to claim 35, it is characterised in that the signal output array of a described display driver circuit, a part connects a transparent display panel；Another part connects another transparent display panel；Another part connects another transparent display panel；Remaining part, connects remaining transparent display panel respectively.

62. 3 d display device drive systems, it is characterised in that include about at least four layers display layers with display function arranged, described display layer is the display layer of printing opacity；

Also include a display driver circuit；

63. 3 d display device drive systems according to claim 62, it is characterised in that signal output array is provided with at least four cord array group；At least four cord array group is connected respectively to about at least four arrangements or the display layer front and back arranged.

64. 3 d display device drive systems according to claim 62, it is characterised in that display layer is transparent display panel, including a transparency carrier, transparency carrier is arranged over one group of transverse electrode array including at least 8 transverse electrodes；Transparency carrier is also arranged above one group of longitudinal electrode array including at least 8 longitudinal electrodes；Transverse electrode and longitudinal electrode exist staggered, and arrange insulating barrier in staggered place, make transverse electrode insulate in staggered place with longitudinal electrode；Also including at least 50 pixel granules, pixel granule includes that two electrodes, an electrode connect a transverse electrode, and another electrode connects a longitudinal electrode.

65. 3 d display device drive systems according to claim 62, it is characterised in that on main frame, show that by plane picture is divided at least four region that size is identical, and at least four layers of profile are respectively displayed at least four region；

66. 3 d display device drive systems according to claim 65, it is characterised in that main frame is computer, DVD, MP4 or smart mobile phone.

67. 3 d display device drive systems according to claim 65, it is characterised in that main frame is a mainboard with CPU.

68. according to the 3 d display device drive system described in any one in claim 62-67, it is characterized in that, 3 d display device drive system also includes a drive software, and drive software calls threedimensional model, then threedimensional model is layered, draws at least four layers of profile of threedimensional model；

By at least four layers of profile output displays simultaneously, it is respectively outputted at least four layers of display layer by display driver circuit.

69. 3 d display device drive systems according to claim 68, it is characterised in that there is a setpoint distance between adjacent two display layers, drive software, when being layered by threedimensional model, omits the part of display distance between adjacent two display layers.

70. 3 d display device drive systems according to claim 68, it is characterised in that described threedimensional model, are the threedimensional models of three-dimensional drawing Software on Drawing.

71. 3 d display device drive systems according to claim 68, it is characterised in that described threedimensional model, are the threedimensional models that obtain of 3-D scanning.

72. 3 d display device drive systems according to claim 68, it is characterised in that described threedimensional model, are the threedimensional models that obtain according to internal algorithm of computer.

73. 3 d display device drive systems according to claim 68, it is characterised in that plane is shown that picture is divided at least four region that size is identical by drive software, and at least four layers of profile are respectively displayed at least four region；

74. 3 d display device drive systems according to claim 68, it is characterised in that drive software operates on computer, DVD, MP4 or smart mobile phone.

75. 3 d display device drive systems according to claim 68, it is characterised in that drive software operates on a mainboard with CPU.

76. according to the 3 d display device drive system described in any one in claim 62-67, it is characterised in that display layer is transparent display layer.

77. according to the 3 d display device drive system described in claim 76, it is characterised in that transparent display layer can watch the image of next layer by display layer.

78. according to the 3 d display device drive system described in any one in claim 62-67, it is characterised in that display layer is at least one in transparency LED display floater, light transmitting liquid crystal display floater, printing opacity EL display floater, printing opacity quantum dot display floater.

79. according to the 3 d display device drive system described in claim 78, it is characterised in that display layer use display panels time, at least relative to two faces light source is set.

80. according to the 3 d display device drive system described in claim 78, it is characterised in that display layer includes the transverse electrode contact group for introducing electric current and longitudinal electrode contact group；Transverse electrode contact group and longitudinal electrode contact group, connect one of them cord array group of described display driver circuit signal output array respectively.

81. 3 d display device drive systems described in 0 according to Claim 8, it is characterised in that the signal output array of a described display driver circuit, a cord array group connects a display layer；Another cord array group connects another display layer；Another cord array group connects another display layer；Remaining cord array group, connects remaining display layer respectively.