CN208861928U - A kind of stereoscopic display screen and electronic equipment - Google Patents
A kind of stereoscopic display screen and electronic equipment Download PDFInfo
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- CN208861928U CN208861928U CN201821767302.1U CN201821767302U CN208861928U CN 208861928 U CN208861928 U CN 208861928U CN 201821767302 U CN201821767302 U CN 201821767302U CN 208861928 U CN208861928 U CN 208861928U
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Abstract
For the application some embodiments provide a kind of stereoscopic display screen and electronic equipment, the stereoscopic display screen includes the M layer manufacturing cell of superposition, and M is the integer greater than 1;Wherein, the manufacturing cell includes: SiO2Substrate;Positioned at the SiO2The first conductive layer on substrate;Luminescent layer on first conductive layer;And the second conductive layer on the luminescent layer.The display screen only includes several layers manufacturing cell, and every layer of manufacturing cell includes the SiO set gradually2Substrate, the first conductive layer, luminescent layer and the second conductive layer, in stereoscopic display, display object respective production unit can be layered, corresponding luminescence unit in every layer of luminescent layer be corresponded to by lighting display object, so that display screen achievees the effect that stereoscopic display to display object;The structure of stereoscopic display screen is simple.
Description
Technical field
The application belongs to display screen technology field more particularly to a kind of stereoscopic display screen and electronic equipment.
Background technique
With the development of display technology, demand of the people to consumer electronics field display technology increasingly diversification and individual character
Change, the stereoscopic display device of miniaturization also constantly emerges in large numbers.
But the preparation process of existing stereoscopic display device is complex, condition is harsh.Therefore, a kind of structure is developed more
Simple stereoscopic display device is particularly important.
Utility model content
In view of this, some embodiments of the application are designed to provide a kind of stereoscopic display screen and electronic equipment, this is vertical
The structure of body display screen is simple.
This application provides a kind of preparation method of stereoscopic display screen, the stereoscopic display screen includes the M layer manufacture of superposition
Unit, M are the integer greater than 1;The preparation method includes:
A, SiO is provided2Substrate;
B, in the SiO2The first conductive layer is prepared on substrate;
C, luminescent layer is prepared on first conductive layer;
D, the second conductive layer is prepared on the luminescent layer;
E, it is secondary to obtain stereoscopic display screen blank to repeat step a~d (M-1);
F, the stereoscopic display screen blank is sintered under oxygen-free environment and obtains the stereoscopic display screen.
Optionally, first conductive layer includes equally distributed first electrode line and in addition to the first electrode line
The first fill area;
Second conductive layer include equally distributed second electrode line and in addition to the second electrode line second
Fill area;Wherein,
The second electrode line is vertical with the first electrode line.
Optionally, the step b includes:
In the SiO23D printing electrically conducting transparent ceramic material is on substrate to form the first electrode line;
In the region 3D printing SiO in addition to the first electrode line2To form first fill area;
The step d includes:
3D printing electrically conducting transparent ceramic material is on the luminescent layer to form the second electrode line;
In the region 3D printing SiO in addition to the second electrode line2To form second fill area.
Optionally, the luminescent layer includes luminescence unit and the third fill area in addition to luminescence unit;
The luminescence unit is located at the first electrode line in the projection of the luminescent layer and the second electrode line in institute
State the intersection position of the projection of luminescent layer.
Optionally, the first electrode line is single line, the second electrode line is single line, and the luminescence unit includes single
Pixel unit.
Optionally, the step c includes:
3D printing monochrome electroluminescent oxide is on first conductive layer to form the pixel unit;
In the region 3D printing SiO in addition to the pixel unit2To form the third fill area.
Optionally, the first electrode line is two-wire, the second electrode line is two-wire, and the luminescence unit includes first
Pixel unit, the second pixel unit, third pixel unit and the 4th pixel unit;
First pixel unit, the second pixel unit, third pixel unit and the 4th pixel unit are located at described
The four of the rectangle that first electrode line is constituted with the second electrode line in the projection of the luminescent layer in the projection of the luminescent layer
A corner position.
Optionally, the step c includes:
3D printing the first primary colours electroluminescent substance is on first conductive layer to form first pixel unit;
3D printing the second primary colours electroluminescent substance is on first conductive layer to form second pixel unit;
3D printing third primary colours electroluminescent substance is on first conductive layer to form the third pixel unit;
3D printing white light electroluminescent substance is on first conductive layer to form the 4th pixel unit;
Region on first conductive layer in addition to the luminescence unit prints SiO2It is filled out with forming the third
Fill area.
Optionally, the upright projection overlapping of all luminescence units of the M layers of manufacturing cell.
Optionally, the upright projection overlapping of all first electrode lines of the M layers of manufacturing cell, all described second
The upright projection of electrode wires is overlapped.
This application provides a kind of stereoscopic display screen, the stereoscopic display screen includes the M layer manufacturing cell of superposition, and M is big
In 1 integer;Wherein, the manufacturing cell includes:
SiO2Substrate;
Positioned at the SiO2The first conductive layer on substrate;
Luminescent layer on first conductive layer;And
The second conductive layer on the luminescent layer.
Optionally, first conductive layer includes equally distributed first electrode line and in addition to the first electrode line
The first fill area;
Second conductive layer include equally distributed second electrode line and in addition to the second electrode line second
Fill area;Wherein,
The second electrode line is vertical with the first electrode line.
Optionally, the luminescent layer includes luminescence unit and the third fill area in addition to luminescence unit;
The luminescence unit is located at the first electrode line in the projection of the luminescent layer and the second electrode line in institute
State the intersection position of the projection of luminescent layer.
Optionally, the first electrode line is single line, the second electrode line is single line, and the luminescence unit includes single
Pixel unit.
Optionally, the first electrode line is two-wire, the second electrode line is two-wire, and the luminescence unit includes first
Pixel unit, the second pixel unit, third pixel unit and the 4th pixel unit;
First pixel unit, the second pixel unit, third pixel unit and the 4th pixel unit are located at described
The four of the rectangle that first electrode line is constituted with the second electrode line in the projection of the luminescent layer in the projection of the luminescent layer
A corner position.
Optionally, the upright projection overlapping of all luminescence units of the M layers of manufacturing cell.
Optionally, the upright projection overlapping of all first electrode lines of the M layers of manufacturing cell, all described second
The upright projection of electrode wires is overlapped.
Some embodiments provide a kind of electronic equipment, the electronic equipments to use as described in above-mentioned technical proposal by the application
Stereoscopic display screen.
For the application some embodiments provide a kind of stereoscopic display screen, the stereoscopic display screen includes the M layer manufacture of superposition
Unit, M are the integer greater than 1;Wherein, the manufacturing cell includes: SiO2Substrate;Positioned at the SiO2First on substrate
Conductive layer;Luminescent layer on first conductive layer;And the second conductive layer on the luminescent layer.This is aobvious
Display screen only includes several layers manufacturing cell, and every layer of manufacturing cell includes the SiO set gradually2Substrate, the first conductive layer, luminescent layer
Display object respective production unit can be layered, in stereoscopic display by lighting display object with the second conductive layer
Corresponding luminescence unit in corresponding every layer of luminescent layer, so that display screen achievees the effect that stereoscopic display to display object;Solid is aobvious
The structure of display screen is simple.
Detailed description of the invention
Fig. 1 is the process flow chart for the stereoscopic display screen that some embodiments of the application provide;
Fig. 2 is the structural schematic diagram that the stereoscopic display screen monochrome that some embodiments of the application provide shines;
Fig. 3 is the structural schematic diagram for the stereoscopic display screen colorful light-emitting that some embodiments of the application provide;
Fig. 4 is the combination diagram of one layer of manufacturing cell's structure of some embodiment Stereo display screens of the application;
Fig. 5 is the schematic diagram of one layer of manufacturing cell's STRUCTURE DECOMPOSITION of some embodiment Stereo display screens of the application;
Fig. 6 is the structural schematic diagram for the stereoscopic display screen blank that some embodiments of the application provide;
Fig. 7 is the display effect of the stereoscopic display screen of the embodiment of the present application preparation.
Specific embodiment
For the application some embodiments provide a kind of preparation method of stereoscopic display screen, the stereoscopic display screen includes superposition
M layer manufacturing cell, M is integer greater than 1;The preparation method includes:
A, SiO is provided2Substrate;
B, in the SiO2The first conductive layer is prepared on substrate;
C, luminescent layer is prepared on first conductive layer;
D, the second conductive layer is prepared on the luminescent layer;
E, it is secondary to obtain stereoscopic display screen blank to repeat step a~d (M-1);
F, the stereoscopic display screen blank is sintered under oxygen-free environment and obtains the stereoscopic display screen.
The some embodiments of the application only pass through M layers of manufacturing cell of superposition preparation, i.e., in SiO2First is sequentially prepared on substrate
Then conductive layer, luminescent layer and the second conductive layer repeat preparation (M-1) layer manufacturing cell to form first layer manufacturing cell,
Finally combine anaerobic sintering that stereoscopic display screen can be prepared, method is simple.
In some embodiments, M is greater than 10 or M and is greater than 100.
Referring to Fig. 1, Fig. 1 is the process flow chart for the stereoscopic display screen that some embodiments of the application provide.
The preparation method that some embodiments of the application provide, first offer SiO2Substrate.In some embodiments, use is following
SiO is made in method2Substrate:
By SiO2Slurries form SiO using 3D printing2Substrate.
In some embodiments of the application, the SiO2SiO in slurries2Granularity be less than or equal to 1 μm.
Obtain SiO2After substrate, some embodiments of the application are in the SiO2The first conductive layer is prepared on substrate.Described
One conductive layer includes equally distributed first electrode line and the first fill area in addition to the first electrode line.Some implementations
In example, in the SiO2The first conductive layer is prepared on substrate to specifically include:
Firstly, in the SiO23D printing electrically conducting transparent ceramic material is on substrate to form the first electrode line;
Then, in the region 3D printing SiO in addition to the first electrode line2To form first fill area.
In some embodiments of the application, the electrically conducting transparent ceramic material includes ITO conductive oxide (90%In2O3、
10%SnO2);The granularity of the electrically conducting transparent ceramic material is less than or equal to 1 μm.
In some embodiments of the application, the forming process of the first electrode line and the first fill area can same stepping
Row, can also be different step, depending on specific equipment.
After obtaining the first conductive layer, some embodiments of the application prepare luminescent layer on first conductive layer.It is described
Luminescent layer includes luminescence unit and the third fill area in addition to luminescence unit;The luminescence unit is located at the first electrode line
In the intersection position of the projection and projection of the second electrode line in the luminescent layer of the luminescent layer.The luminescence unit and
The forming process of the third fill area can synchronize progress, can also be different step, depending on specific equipment.In the application one
In a little embodiments, multiple luminescence units are arranged in the form of an array;Alternatively, with the setting of equidistant array format.
After obtaining luminescent layer, some embodiments of the application prepare the second conductive layer on the luminescent layer.Described second
Conductive layer includes equally distributed second electrode line and the second fill area in addition to the second electrode line;Wherein, described
Second electrode line is vertical with the first electrode line.In some embodiments, the preparation second on the luminescent layer is conductive
Layer may include:
Firstly, 3D printing electrically conducting transparent ceramic material is on the luminescent layer to form the second electrode line;
Then, in the region 3D printing SiO in addition to the second electrode line2To form second fill area.
In some embodiments of the application, there is no limit can be with for the formation of the second electrode line and the second fill area sequence
First printing forms second electrode line, then prints and to form the second fill area;It can also be formed with isochronous printing.
In some embodiments of the application, first electrode line is single line, and second electrode line is single line, and the luminescence unit includes
Single pixel unit;Preparing luminescent layer on first conductive layer may include:
Firstly, 3D printing monochrome electroluminescent substance is on first conductive layer to form the pixel unit;
Then, in the region 3D printing SiO in addition to the pixel unit2To form the third fill area.
In some embodiments of the application, monochrome electroluminescent refers to shining for only a kind of colour developing.Monochrome electroluminescent object
Matter includes ZnS and metal ion;The metal ion includes Mn ion, Cu ion or K ion;The metal ion can be to contain
There is the salt form of metal ion to provide, can also be provided with the oxide form containing metal ion.
In some embodiments of the application, the first electrode line and second electrode line are single line, first electrode line and
The material of second electrode line is ITO conductive oxide, and when printing monochrome electroluminescent substance, and stereoscopic display screen is monochromatic hair
Light.Referring to fig. 2, the luminous structural schematic diagram of the stereoscopic display screen monochrome that Fig. 2 provides for some embodiments of the application.
In other embodiments of the application, the first electrode line is two-wire, the second electrode line is two-wire, described
Luminescence unit includes the first pixel unit, the second pixel unit, third pixel unit and the 4th pixel unit;First pixel
Unit, the second pixel unit, third pixel unit and the 4th pixel unit are located at the first electrode line and shine described
Four corner positions of the rectangle that the projection of layer is constituted with the second electrode line in the projection of the luminescent layer;It is described described
Preparing luminescent layer on first conductive layer may include:
3D printing the first primary colours electroluminescent substance is on first conductive layer to form first pixel unit;
3D printing the second primary colours electroluminescent substance is on first conductive layer to form second pixel unit;
3D printing third primary colours electroluminescent substance is on first conductive layer to form the third pixel unit;
3D printing white light electroluminescent substance is on first conductive layer to form the 4th pixel unit;
Region on first conductive layer in addition to the luminescence unit prints SiO2It is filled out with forming the third
Fill area.
In some embodiments of the application, first pixel unit, the second pixel unit, third pixel unit and the 4th
Pixel unit formation sequence there is no limit, can simultaneously 3D printing prepare each pixel unit, progress when can also be different.Institute
The first pixel unit, the second pixel unit, third pixel unit and the 4th pixel unit is stated to be distributed in the form of an array, alternatively, with
Equidistant array format distribution.In some embodiments of the application, the first primary colours electroluminescent substance, the second primary colour field
Photoluminescence substance, third primary colours electroluminescent substance and white light electroluminescent substance constitute 4 luminous point pixels, be distributed it is rectangular or
Person's square.
In some embodiments of the application, first electrode line is single line, and second electrode line is single line, the first electrode line
Width be 0.8~1.2 μm;Spacing between adjacent first electrode line is 1~10 μm;Between between adjacent second electrode line
Away from being 1~10 μm.
In some embodiments of the application, the single pixel unit is single pixel point;The single pixel point it is straight
Diameter is 0.8~1.2 μm.The diameter of the single pixel point is equal with the width of first electrode line of single line;The of the single line
The width of two electrode wires is equal with the diameter of single pixel point.
In other embodiments of the application, first electrode line is two-wire, and second electrode line is two-wire, the of the two-wire
The width of any bar is 0.8~1.2 μm in one electrode wires;Spacing between adjacent first electrode line is 1~10 μm;Adjacent
Spacing between two electrode wires is 1~10 μm.
In other embodiments of the application, first pixel unit is the first pixel, and the second pixel unit is the
Two pixels, third pixel unit are third pixel, and the 4th pixel unit is the 4th pixel;First pixel it is straight
Diameter, the diameter of the second pixel, the diameter of third pixel and the 4th pixel diameter be respectively 0.8~1.2 μm.It is described
The diameter of first pixel, the diameter of the second pixel, the diameter of third pixel and the 4th pixel diameter respectively with
The width of any bar is equal in the first electrode line of two-wire.Diameter, the diameter of the second pixel, third of first pixel
The diameter of the diameter of pixel and the 4th pixel is equal with the width of any bar in the second electrode line of two-wire respectively.
In some embodiments of the application, the first primary colours electroluminescent substance, the second primary colours electroluminescent substance,
The granularity of three primary colours electroluminescent substance and white light electroluminescent substance, which is respectively less than, is equal to 1 μm.The first primary colours electroluminescent
Substance includes ZnS and the first metal ion;First metal ion includes Mn ion, Cu ion or K ion;Second primary colour field
Photoluminescence substance includes ZnS and the second metal ion;Second metal ion includes Mn ion, Cu ion or K ion;The third
Primary colours electroluminescent substance includes ZnS and third metal ion;The third metal ion include Mn ion, Cu ion or K from
Son;Wherein, it glows when adulterating Mn ion;Green light when adulterating Cu ion;Blue light-emitting when adulterating K ion.First primary colours
Electroluminescent substance, the second primary colours electroluminescent substance and third primary colours electroluminescent substance are by adulterating different metal ions
Send out the light of different colours.It is Sr that the field, which causes white light substance,3Bi(PO4)3Adulterate Dy ion.The first primary colours electroluminescent object
Matter, the second primary colours electroluminescent substance and third electroluminescent substance constitute three primary colours electroluminescent substance, in conjunction with white light field
Photoluminescence substance, the raw material as display screen colorful light-emitting.
In some embodiments of the application, the first electrode line and second electrode line are two-wire, first electrode line and
The material of second electrode line is ITO conductive oxide, and prints three primary colours electroluminescent substance and white light electroluminescent substance
When, stereoscopic display screen is colorful light-emitting.Referring to Fig. 3, Fig. 3 is the structural representation of stereoscopic display screen colorful light-emitting provided by the present application
Figure.
It is prepared after the second conductive layer to get to one layer of manufacturing cell, it can be with after a~d that repeats the above steps (M-1) is secondary
Obtain stereoscopic display screen blank.
In some embodiments, the upright projection of all luminescence units of the M layers of manufacturing cell is overlapped.It is M layers described
The upright projection overlapping of all first electrode lines of manufacturing cell, the upright projection of all second electrode lines are overlapped.
After obtaining stereoscopic display screen blank, by the stereoscopic display screen blank in oxygen-free environment in some embodiments of the application
Lower sintering obtains the stereoscopic display screen.
The some embodiments of the application combine sintering process that stereoscopic display screen is made using increases material manufacturing technology (3D printing), should
Method is simple, and display screen obtained has preferable stereo display effect.Arbitrary shape can be obtained using 3D printing technique
Stereoscopic display screen.
This method by using conductive, transparent ceramic oxide in conjunction with sintering process so that stereoscopic display screen have it is higher
Translucency, and then improve display effect clarity.
The some embodiments of the application are solidified display screen blank by sintering.In some embodiments of the application, the burning
The temperature of knot is more than or equal to 2000 DEG C.
Other embodiments of the application also provide a kind of stereoscopic display screen, and the stereoscopic display screen includes the M layer system of superposition
Unit is made, M is the integer greater than 1;Wherein, the manufacturing cell includes:
SiO2Substrate;
Positioned at the SiO2The first conductive layer on substrate;
Luminescent layer on first conductive layer;And
The second conductive layer on the luminescent layer.
The stereoscopic display screen that some embodiments of the application provide only includes several layers manufacturing cell, and every layer of manufacturing cell includes
The SiO set gradually2Substrate, the first conductive layer, luminescent layer and the second conductive layer, structure are simple;In stereoscopic display, can incite somebody to action
Display object respective production unit is layered, and corresponds to corresponding luminescence unit in every layer of luminescent layer by lighting display object,
So that display screen achievees the effect that stereoscopic display to display object.
The stereoscopic display screen that some embodiments of the application provide includes the M layer manufacturing cell of superposition, and M is the integer greater than 1.
The thickness of every layer of manufacturing cell is optional to be less than or equal to 10 μm.Referring to fig. 4, Fig. 5 and Fig. 6, Fig. 4 are that some embodiments of the application are neutral
The combination diagram of one layer of manufacturing cell's structure of body display screen;Fig. 5 is the one of some embodiment Stereo display screens of the application
The schematic diagram of layer manufacturing cell STRUCTURE DECOMPOSITION;Fig. 6 is that the structure for the stereoscopic display screen blank that some embodiments of the application provide is shown
It is intended to.
The manufacturing cell includes SiO2Substrate 401;The SiO2Substrate can be made by 3D printing.
The manufacturing cell further includes being located at the SiO2The first conductive layer 402 on substrate.In some realities of the application
Apply in example, first conductive layer include equally distributed first electrode line 4021 and in addition to the first electrode line
One fill area 4022.
The manufacturing cell further includes the luminescent layer 403 on first conductive layer.The luminescent layer includes hair
Light unit 4031 and the third fill area 4032 in addition to luminescence unit;The luminescence unit is located at the first electrode line in institute
State the intersection position of the projection and projection of the second electrode line in the luminescent layer of luminescent layer.Shining in the luminescent layer
Unit is distributed in the form of an array, alternatively, with the distribution of equidistant array format.
And the manufacturing cell includes the second conductive layer 404 on the luminescent layer.Second conductive layer
The second fill area 4042 including equally distributed second electrode line 4041 and in addition to the second electrode line;Wherein, institute
It is vertical with the first electrode line to state second electrode line.
In some embodiments of the application, the first electrode line is ITO electrode line;The second electrode line is ITO electricity
Polar curve.First fill area, the second fill area and third fill area may include SiO2。
In some embodiments of the application, the first electrode line is single line, the second electrode line is single line, the hair
Light unit includes single pixel unit.The luminescence unit be located at the first electrode line the luminescent layer projection with it is described
Second electrode line is in the intersection position of the projection of the luminescent layer.
The single pixel unit only shows a kind of light of color.With array between single pixel unit in luminescence unit
Formal distribution, alternatively, with the distribution of equidistant array format.
Wherein, the single pixel unit can glow, one of green light or blue light.
In some embodiments of the application, the first electrode line is two-wire, the second electrode line is two-wire, the hair
Light unit includes the first pixel unit, the second pixel unit, third pixel unit and the 4th pixel unit;The first pixel list
Member, the second pixel unit, third pixel unit and the 4th pixel unit are located at the first electrode line in the luminescent layer
Projection with the second electrode line the luminescent layer projection constitute rectangle four corner positions.
In some embodiments of the application, the upright projection of all luminescence units of the M layers of manufacturing cell is overlapped.
For example, all luminescence units are in first layer SiO2Projection overlapping on substrate.
In some embodiments of the application, the upright projection weight of all first electrode lines of the M layers of manufacturing cell
The upright projection overlapping of folded, all second electrode line.For example, all first electrode lines are in first layer SiO2Throwing on substrate
Shadow overlapping, all second electrode lines are in first layer SiO2Projection overlapping on substrate.
In some embodiments of the application, the shape of the stereoscopic display screen can for square, cuboid, cylindrical body or
Terrace with edge.
In some embodiments of the application, the imaging principle of stereoscopic display screen are as follows:
Each frame image of image rapid frequency-sweeping in software virtual three-dimensional space, program are calculated with a pixel spacing
It is scanned contrast conting, imaging surface can all be activated and light with the pixel in the sweep radius in shown region,
It exports and lights data to screen, screen completes the generation of stereo-picture.Screen luminous point uses quantum luminous point, electroluminescent skill
Art.
In addition, some embodiments of the application also provide a kind of electronic equipment, the electronic equipment uses such as above-mentioned technical side
Stereoscopic display screen described in case.
In some embodiments, which is used to show stereo-picture by the stereoscopic display screen.The electronic equipment example
Such as can be virtual reality device, augmented reality equipment or mixed reality equipment or other any one can show solid
The electronic equipment of image.
Hereinafter, a kind of stereoscopic display screen and electronics that provide in conjunction with an exemplary embodiment some embodiments of the application
Equipment is briefly described, but they cannot be interpreted as to the restriction to the application protection scope.
By SiO2Slurries form SiO using 3D printing2Substrate, SiO2SiO in slurries2Granularity be less than or equal to 1 μm;
The first conductive layer of 3D printing, first conductive layer include the warp ITO (90% of a plurality of equally distributed two-wire
In2O3, 10%SnO2;Granularity is less than or equal to 1 micron) electrode wires, the region other than warp ITO, which is removed, in the first conductive layer prints
SiO2;
3D printing the first primary colours electroluminescent substance is on first conductive layer to form first pixel unit;
First primary colours electroluminescent substance includes ZnS and Mn ion;
3D printing the second primary colours electroluminescent substance is on first conductive layer to form second pixel unit;
The second primary colours electroluminescent substance includes ZnS and Cu ion;
3D printing third primary colours electroluminescent substance is on first conductive layer to form the third pixel unit;
The third primary colours electroluminescent substance includes ZnS and K ion;
3D printing white light electroluminescent substance is on first conductive layer to form the 4th pixel unit;It is described
It is Sr that field, which causes white light substance,3Bi(PO4)3Adulterate Dy ion;
First pixel unit, the second pixel unit, third pixel unit and the 4th pixel unit are located at described
The four of the rectangle that first electrode line is constituted with the second electrode line in the projection of the luminescent layer in the projection of the luminescent layer
A corner position;The first primary colours electroluminescent substance, the second primary colours electroluminescent substance, third primary colours are removed on luminescent layer
Region 3D printing SiO other than electroluminescent substance and white light electroluminescent substance2, obtain luminescent layer;
After obtaining luminescent layer, the weft ITO (90% of a plurality of equally distributed two-wire of 3D printing on the luminescent layer
In2O3, 10%SnO2;Granularity is less than or equal to 1 micron) electrode wires;In the region 3D printing SiO in addition to weft ITO2, obtain one
Layer manufacturing cell, duplicate printing form the several layers manufacturing cell of superposition, all luminescence units in several manufacturing cells
Upright projection overlapping, all first electrode lines upright projection overlapping, all second electrode lines upright projection overlapping, obtain
3D display screen blank;
By the 3D display screen blank, 2000 DEG C of sintering under oxygen-free environment, obtain stereoscopic display screen.
The display effect of stereoscopic display screen made from the exemplary embodiment is shown in that Fig. 7, Fig. 7 are the embodiment of the present application preparation
The display effect of stereoscopic display screen, as can be seen from Figure 7: the stereoscopic display screen can to display substance stereoscopic display, have compared with
High translucency.
As seen from the above embodiment, some embodiments provide a kind of stereoscopic display screen, the stereoscopic display screens by the application
M layer manufacturing cell including superposition, M are the integer greater than 1;Wherein, the manufacturing cell includes: SiO2Substrate;Positioned at described
SiO2The first conductive layer on substrate;Luminescent layer on first conductive layer;And be located at the luminescent layer it
On the second conductive layer.The display screen only includes several layers manufacturing cell, and every layer of manufacturing cell includes the SiO set gradually2Base
Plate, the first conductive layer, luminescent layer and the second conductive layer can carry out display object respective production unit in stereoscopic display
Layering corresponds to corresponding luminescence unit in every layer of luminescent layer by lighting display object, so that display screen reaches display object
The effect of stereoscopic display;The structure of stereoscopic display screen is simple.
The stereoscopic display screen is consumed in virtual robot, electronic virtual pet, video social activity, advertisement media video peripheral hardware etc.
Electronic field potential using value with higher.
The above is only the part optional embodiment of the application, it is noted that for the common skill of the art
For art personnel, under the premise of not departing from the application principle, several improvements and modifications can also be made, these improvements and modifications
Also it should be regarded as the protection scope of the application.
Claims (8)
1. a kind of stereoscopic display screen, which is characterized in that the stereoscopic display screen includes the M layer manufacturing cell of superposition, and M is greater than 1
Integer;Wherein, the manufacturing cell includes:
SiO2Substrate;
Positioned at the SiO2The first conductive layer on substrate;
Luminescent layer on first conductive layer;And
The second conductive layer on the luminescent layer.
2. stereoscopic display screen according to claim 1, which is characterized in that
First conductive layer includes equally distributed first electrode line and the first filling in addition to the first electrode line
Area;
Second conductive layer includes equally distributed second electrode line and the second filling in addition to the second electrode line
Area;Wherein,
The second electrode line is vertical with the first electrode line.
3. stereoscopic display screen according to claim 2, which is characterized in that
The luminescent layer includes luminescence unit and the third fill area in addition to luminescence unit;
The luminescence unit is located at the first electrode line in the projection of the luminescent layer and the second electrode line in the hair
The intersection position of the projection of photosphere.
4. stereoscopic display screen according to claim 3, which is characterized in that the first electrode line is single line, described second
Electrode wires are single line, and the luminescence unit includes single pixel unit.
5. stereoscopic display screen according to claim 3, which is characterized in that the first electrode line is two-wire, described second
Electrode wires are two-wire, and the luminescence unit includes the first pixel unit, the second pixel unit, third pixel unit and the 4th pixel
Unit;
First pixel unit, the second pixel unit, third pixel unit and the 4th pixel unit are located at described first
Four tops of the rectangle that electrode wires are constituted with the second electrode line in the projection of the luminescent layer in the projection of the luminescent layer
Angle Position.
6. stereoscopic display screen according to claim 3, which is characterized in that the M layers of manufacturing cell it is all it is described shine
The upright projection of unit is overlapped.
7. according to the described in any item stereoscopic display screens of claim 2-6, which is characterized in that the M layers of manufacturing cell owns
The upright projection overlapping of the first electrode line, the upright projection of all second electrode lines are overlapped.
8. a kind of electronic equipment, which is characterized in that the electronic equipment is used as claim 1-7 is described in any item three-dimensional aobvious
Display screen.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201821767302.1U CN208861928U (en) | 2018-10-29 | 2018-10-29 | A kind of stereoscopic display screen and electronic equipment |
Applications Claiming Priority (1)
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| CN109300751A (en) * | 2018-10-29 | 2019-02-01 | 歌尔科技有限公司 | A kind of preparation method of stereoscopic display screen, stereoscopic display screen and electronic equipment |
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| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN109300751A (en) * | 2018-10-29 | 2019-02-01 | 歌尔科技有限公司 | A kind of preparation method of stereoscopic display screen, stereoscopic display screen and electronic equipment |
| CN109300751B (en) * | 2018-10-29 | 2023-10-13 | 歌尔科技有限公司 | Preparation method of three-dimensional display screen, three-dimensional display screen and electronic equipment |
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