CN105223703A - There is the device of touch-control and three-D image display function - Google Patents

Abstract

The invention discloses a kind of device with touch-control and three-D image display function, be mainly made up of touch control component, ultra-thin post mirror assembly and secondary element image display module.This ultra-thin post mirror assembly has the structure of post mirror array layer and cementing layer, by the technique that plane is shaping to plane ultraviolet photo-curing post lens array, can by the structure of post mirror array layer, and on-line equipment is on this touch control component; In addition, by the technique that plane is fitted to plane contraposition, by post mirror cementing layer structure, this post mirror array layer can be connected with this secondary element image display module and fix, for this tool touch-control and three-D image display function device, reach thinning and the object improving image quality.The invention also discloses the preparation method of the device with touch-control and three-D image display function.

Description

There is the device of touch-control and three-D image display function

Technical field

The invention belongs to the field that image display field especially has touch-control and three-D image display.

Background technology

As shown in Figure 1, be schematic diagram that known tool Out-Cell touch-control and three-D image display function device are formed.For known tool Out-Cell touch-control and three-D image display function device 1, be generally use Out-Cell touch control component 10, post mirror assembly 30, with secondary element image display assembly 50, by two glued constructions 20,40, and pass through the technique of twice known contraposition laminating, from top to bottom connect successively and fix this Out-Cell touch control component 10, post mirror assembly 30, with Quadratic Finite Element display assembly 50, to reach the object being integrated into a tool touch-control and three-D image display function device.

Wherein, this Out-Cell touch control component 10 is that a kind of structure that can be in the structures such as known OGS (OneGlassSolution), GG (Glass-Glass), GFF (Glass-Film-Film), G1F (Glass-Film) formed.This Quadratic Finite Element liquid crystal display assembly 50 is that a kind of display that can be in the displays such as known liquid crystal, OLED formed.

In addition, this post mirror assembly 30 is from top to bottom be made up of with base material 33 plane layer 31, post lens array layer 32 successively.

This plane layer 31 and post lens array layer 32, distinctly having the thickness of about 10 ~ 20um, is be made up of ultraviolet photo-curing resin material, distinctly has refractive index n1 and n2 after outside line photocuring and n1<n2.

This post lens array layer 32, being then made up of most known cylindrical lenss or most known multiaspect post mirrors, its post minute surface 32 ' is towards this Out-Cell touch control component 10.This base material 33 is made up of PET film.By the technique (ArtofLensArrayReplicationBasedonRoll-to-RollUVCuredProce ss) that twice known volume to volume ultraviolet light polymerization post lens array is shaping, first this post lens array layer 32 can be installed on after on this base material 33, again this plane layer 31 is installed on this post lens array layer 32, to form the post lens array film of coiled material shape, afterwards, again by the technique that precise laser cuts, to complete suitable size and for the post mirror assembly 30 of sheet.

Usually, consider the process stability that volume to volume ultraviolet light polymerization post lens array is shaping and production yield, this PET base material 33 thickness, generally, adopts the thickness of more than 125um.In addition, this two glued construction 20,40 above-mentioned, is can be known OCA glue, formed with a kind of glue material in the optical cement such as OCR glue, generally, has the thickness of more than 50um.

In sum, this post mirror assembly 30, with this two glued construction 20,40 add gross thickness, be about 250um, for the intelligent mobile phone that complete machine thickness requirement is sternly carved, the thickness of this 250um, is unfavorable for compact outward appearance demand.In addition, many materials of this two glued construction 20,40 and this PET base material 33, significantly reduce transmittance and the quality of image, are unfavorable for the image demand of high image quality.

About the structure of this post lens array layer above-mentioned, refer to US Patent Case number: 6064424: the structure of this post mirror assembly 30 above-mentioned, refers to Chinese patent case number: CN102047169B; The structure of above-mentioned multiaspect post mirror, refers to US Patent Case number: US8780188B2; In addition, about the processing procedure of above-mentioned volume to volume ultraviolet light polymerization, then TaiWan, China Patent Case number is consulted: I491925, I491926.

As shown in Figure 2, be schematic diagram that another known tool Out-Cell touch-control and three-D image display function device are formed.This tool Out-Cell touch-control and three-D image display function device 2 and the device 1 shown in Fig. 1, have identical structure and processing procedure, unique does not exist together, and is only towards this secondary element image display assembly 50 at this post minute surface 32 '.

As shown in Figure 3, be schematic diagram that known tool On-Cell touch-control and three-D image display function device are formed.For known tool On-Cell touch-control and three-D image display function device 3, be generally use CoverLens assembly 11, post mirror assembly 30, secondary element image display assembly 51 with tool On-Cell touch controllable function.As aforementioned, by two glued constructions 20,40, and pass through the technique of twice known contraposition laminating, from top to bottom connect successively and fix this CoverLens assembly 11, post mirror assembly 30, with the Quadratic Finite Element display assembly 51 of tool On-Cell touch controllable function, to reach the object being integrated into a tool touch-control and three-D image display function device 3.Wherein, this post minute surface 32 ' is towards this CoverLens assembly 11.

As shown in Figure 4, be schematic diagram that another known tool On-Cell touch-control and three-D image display function device are formed.This tool Out-Cell touch-control and three-D image display function device 4 and the device 3 shown in Fig. 3, have identical structure and processing procedure, unique does not exist together, and is only towards the Quadratic Finite Element display assembly 51 of this tool On-Cell touch controllable function at this post minute surface 32 '.

As shown in Figure 5, be schematic diagram that known tool In-Cell touch-control and three-D image display function device are formed.For known tool In-Cell touch-control and three-D image display function device 5, be generally use CoverLens assembly 11, post mirror assembly 30, secondary element image display assembly 52 with tool In-Cell touch controllable function.As aforementioned, by two glued constructions 20,40, and pass through the technique of twice known contraposition laminating, from top to bottom connect successively and fix this CoverLens assembly 11, post mirror assembly 30, with the Quadratic Finite Element display assembly 52 of tool In-Cell touch controllable function, to reach the object being integrated into a tool touch-control and three-D image display function device 5.Wherein, this post minute surface 32 ' is towards this CoverLens assembly 11.

As shown in Figure 6, be schematic diagram that another known tool In-Cell touch-control and three-D image display function device are formed.This tool In-Cell touch-control and three-D image display function device 6 and the device 5 shown in Fig. 5, have identical structure and processing procedure, unique does not exist together, and is only towards the Quadratic Finite Element display assembly 52 of this tool In-Cell touch controllable function at this post minute surface 32 '.

In sum, no matter be this known tool On-Cell touch-control and three-D image display function device 3,4, or this known tool In-Cell touch-control and three-D image display function device 5,6, for this post mirror assembly 30, with this two glued construction 20,40 add gross thickness, be about 250um, for the intelligent mobile phone that complete machine thickness requirement is sternly carved, the thickness of this 250um, is unfavorable for compact outward appearance demand.In addition, many materials of this two glued construction 20,40 and this PET base material 33, significantly reduce transmittance and the quality of image, are unfavorable for the image demand of high image quality.

Summary of the invention

For the disappearance such as deterioration of the increase of above-mentioned thickness, transmittance and the quality of image, the invention discloses a kind of device with touch-control and three-D image display function, comprise touch control component, ultra-thin post mirror assembly and secondary element image display module.This ultra-thin post mirror assembly comprises the structure of post lens array layer and post mirror cementing layer, by the technique (ArtofLensArrayReplicationBasedonPlate-to-PlateUVCuredPro cess) that plane is shaping to plane ultraviolet photo-curing post lens array, for the application in Out-Cell touch-control field, be can by the structure of post lens array layer, on-line equipment be on this Out-Cell touch control component; For the application in On-Cell and In-Cell touch-control field, then can by the structure of post lens array layer, on-line equipment is on the cover plate (CoverLens) of this touch module.In addition, by the technique (ArtofPlate-to-PlateAlignmentandLaminationProcess) that plane is fitted to plane contraposition, for the application in Out-Cell touch-control field, by post mirror cementing layer structure, this array post mirror layer structure can be connected with this secondary element image display module and fix; For the application in On-Cell and In-Cell touch-control field, then by post mirror cementing layer structure, the secondary element image display module of this array post mirror layer structure with this tool On-Cell or In-Cell touch controllable function can be connected and fix.That is, compared to known structure, as shown in Figure 1, the present invention, by the base material 33 removing original two cementing layers 20,40 and remove in original post mirror assembly 30, in addition, allows post mirror cementing layer, to replace the structure of original plane layer 31, significantly to reduce thickness and to improve the disappearance of the deterioration of transmittance and the quality of image, for this tool touch-control and three-D image display function device, reach thinning and the object improving image quality.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, the accompanying drawing that the following describes is only some embodiments recorded in the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other drawings and the embodiments can also be obtained according to these accompanying drawings.

Shown in Fig. 1, it is the schematic diagram formed for known tool Out-Cell touch-control and three-D image display function device;

Shown in Fig. 2, it is the schematic diagram that another known tool Out-Cell touch-control and three-D image display function device are formed;

Shown in Fig. 3, it is the schematic diagram that known tool On-Cell touch-control and three-D image display function device are formed;

Shown in Fig. 4, it is the schematic diagram that another known tool On-Cell touch-control and three-D image display function device are formed;

Shown in Fig. 5, it is the schematic diagram that known tool In-Cell touch-control and three-D image display function device are formed.

Shown in Fig. 6, it is the schematic diagram that another known tool In-Cell touch-control and three-D image display function device are formed;

Shown in Fig. 7, it is the schematic diagram that tool touch-control of the present invention and three-D image display function device are formed;

Shown in Fig. 8, it is the schematic diagram of post lens array Rotating fields of the present invention;

Shown in Fig. 9, it is the schematic diagram of the shaping plane mould structure of post lens array Rotating fields of the present invention;

Shown in Figure 10, for the present invention is to the schematic diagram of plane mould filling liquid ultraviolet photo-curing resin processing procedure;

Shown in Figure 11 ~ 12, for the present invention carries out pressing and the schematic diagram covering processing procedure to touch control component and plane mould;

Shown in Figure 13, for the present invention to be cured the schematic diagram of processing procedure to the liquid ultraviolet photo-curing resin in plane mould;

Shown in Figure 14, for the present invention is the schematic diagram of post lens array Rotating fields demoulding processing procedure;

Shown in Figure 15, it is the schematic diagram of post lens array Rotating fields molding assembly 3D structure of the present invention;

Shown in Figure 16, for the present invention to make the schematic diagram of accurate glue application processing procedure to secondary element image display module;

Shown in Figure 17 ~ 18, for the secondary element image display module after coupled columns lens array Rotating fields molding assembly of the present invention and glue application carries out pressing and the schematic diagram covering processing procedure;

Shown in Figure 19, for the liquid ultraviolet photo-curing resin in coupled columns lens array Rotating fields assembly of the present invention is cured the schematic diagram of processing procedure;

Shown in Figure 20, for coupled columns lens array Rotating fields molding assembly of the present invention makes the schematic diagram of accurate glue spots glue processing procedure;

Shown in Figure 21 ~ 22, for coupled columns mirror cementing layer shaping structures assembly of the present invention and secondary element image display module carry out pressing and the schematic diagram covering processing procedure;

Shown in Figure 23, for the liquid ultraviolet photo-curing resin in coupled columns lens array Rotating fields assembly of the present invention is cured the schematic diagram of processing procedure.

Embodiment

As shown in Figure 7, be schematic diagram that tool touch-control of the present invention and three-D image display function device are formed.For tool touch-control of the present invention and three-D image display function device 7, comprise touch control component 10, ultra-thin post mirror assembly 130 and secondary element image display module 50.

Wherein, this touch control component 10, be can be Out-Cell touch control component, On-Cell touch control component or In-Cell touch control component, described touch control component also comprises cover plate 11 (CoverLens).This Out-Cell touch control component, be then made up of a kind of structure in OGS (OneGlassSolution), GG (Glass-Glass), GFF (Glass-Film-Film), G1F (Glass-Film).This Quadratic Finite Element liquid crystal display assembly 50 is that a kind of display that can be in liquid crystal, OLED formed.

This ultra-thin post mirror assembly 130 comprises post lens array Rotating fields 132 and post mirror cementing layer structure 131.

Wherein, as shown in Figure 8, this post lens array Rotating fields 132 is made up of ultraviolet photo-curing resin material, has refractive index n2 after a ultraviolet photo-curing.In addition, this post lens array Rotating fields 132, has post mirror structure 133, dike hurdle structure (Dam) 134, fabric 135.This post mirror structure 133 comprises most cylindrical lenss or most multiaspect post mirrors, and its post minute surface 133 ' is towards this secondary element image display module 50.This dike hurdle structure (Dam) 134, be installed on the surrounding of this post mirror structure 133, there is the height higher than this post mirror structure 133, in order to prevent the excessive glue (Out-Flow) of this post mirror cementing layer structure 131 before photocuring, that is, when preventing liquid ultraviolet photo-curing resin material from injecting this post lens array Rotating fields 132, the excessive glue phenomenon occurred, as aftermentioned.This fabric 135 has suitable thickness, in order to by this post mirror structure 133, to be connected with this dike hurdle structure (Dam) 134 and to be fixed on this touch control component 10 (or cover plate 11 of touch control component 10).

In addition, as shown in Figure 7, this post mirror cementing layer structure 131 is made up of ultraviolet photo-curing resin material, has refractive index n1 after an outside line photocuring.Between this post lens array Rotating fields 132 and post mirror cementing layer structure 131, there is the relation of n2>n1.

By the technique that plane is shaping to plane ultraviolet photo-curing post lens array, can by this post lens array Rotating fields 132, on-line equipment is on this touch control component 10 (or cover plate 11 of touch control component 10); In addition, the technique of being fitted to plane contraposition by plane, namely by post mirror cementing layer structure 131 structure, can be connected this array post mirror layer structure 132 with this secondary element image display module 50 and fix.Therefore for this tool touch-control and three-D image display function device, thinning and the object improving image quality can be reached.

As shown in Fig. 9 ~ 15, for plane of the present invention is to the schematic diagram of plane ultraviolet photo-curing post lens array moulding process.This processing procedure, mainly passes through the technique of a plane mould and ultraviolet photo-curing, by the post lens array Rotating fields 132 be made up of ultraviolet photo-curing resin material, takes shape on this touch control component 50.

First, as shown in Figure 9, be the schematic diagram of the shaping plane mould of post lens array Rotating fields.This plane mould (PlaneMold) 140 has the geometry contrary with this post lens array Rotating fields 132, by ultraprecise plane mould processing machine with complete (referring to: www.toshiba-machine.co.jp)

As shown in Figure 10, be the schematic diagram to plane mould filling liquid ultraviolet photo-curing resin processing procedure.By accurate contraposition and accurate spray printing (InkjetPrinting), can to this plane mould 140 filling liquid ultraviolet photo-curing resin 142.After this liquid ultraviolet photo-curing resin 142 carries out photocuring, namely become post lens array Rotating fields 132.

As shown in Figure 11 ~ 12, for carrying out pressing and the schematic diagram covering processing procedure to touch control component and plane mould.By carrying out precision optics contraposition (OpticalAlignmentwithHighPositioningAccuracy) to this touch control component 10 and this plane mould 140, can by this touch control component 10, accurately be pressed on this plane mould 140, and allow this this touch control component 10, accurately aim at and be covered on this liquid ultraviolet photo-curing resin 142.In addition, in order to avoid being mixed into of bubble, above-mentioned pressing and the processing procedure of covering generally, are carry out in a vacuum cavity.

As shown in figure 13, for being cured the schematic diagram of processing procedure to the liquid ultraviolet photo-curing resin in plane mould.Generally, by the collimated UV light sources 141 of the suitable wavelength of a tool and light intensity, to in this plane mould 140 liquid ultraviolet photo-curing resin 142 do the irradiation of appropriate time, this liquid ultraviolet photo-curing resin 142 curable is also shaped to post lens array Rotating fields 132.

As shown in figure 14, be the schematic diagram of post lens array pull-up film processing procedure.Liquid ultraviolet photo-curing resin 142 after this solidification above-mentioned, then by after the operation of demoulding, finally, can reach and this post lens array Rotating fields 132 is directly molded on this touch control component 10 (or cover plate 11 of touch control component 10).Conveniently explanation hereafter, the assembly making this post lens array Rotating fields 132 and this touch control component 10 (or cover plate 11 of touch control component 10) form is post lens array Rotating fields molding assembly 10 '.

As shown in figure 15, be the schematic diagram of post lens array Rotating fields molding assembly 3D structure.For the formation of this post lens array Rotating fields molding assembly 10 ', this post lens array Rotating fields 132, be implemented on this this touch control component 10 (or cover plate 11 of touch control component 10), this dike hurdle structure 134 is the surroundings being centered around this post mirror structure 133, and erect together a little more than the wall of this post mirror structure 133 height, the generation of glue phenomenon of overflowing when injecting to prevent liquid ultraviolet photo-curing resin material.

As shown in Figure 16 ~ 19, for plane of the present invention is to the schematic diagram of plane contraposition attaching process.This processing procedure, mainly by the technique of accurate glue application, contraposition laminating and ultraviolet photo-curing, by this post mirror cementing layer structure 131, connects this post lens array formable layer assembly 10 ' and is fixed on this secondary element image display module 50.

As shown in figure 16, for making the schematic diagram of accurate glue application processing procedure to secondary element image display module.By the technique of accurate contraposition and slot coated (SlitCoating), by liquid ultraviolet photo-curing resin 131 ', can coat on this secondary element image display module 50.After this liquid ultraviolet photo-curing resin 131 ' carries out photocuring, namely become this post mirror cementing layer structure 131.Conveniently explanation hereafter, the assembly making this liquid ultraviolet photo-curing resin 131 ' and this secondary element image display module 50 form is the secondary element image display module 50 ' after glue application.

As shown in Figure 17 ~ 18, for the secondary element image display module after coupled columns lens array formable layer assembly and glue application carries out pressing and the schematic diagram covering processing procedure.By carrying out precision optics contraposition to the secondary element image display module 50 ' after this post lens array Rotating fields molding assembly 10 ' and this glue application, can by this post lens array Rotating fields molding assembly 10 ', accurately be pressed on the secondary element image display module 50 ' after this glue application, and allow this post lens array Rotating fields assembly 132, accurately aim at and be covered on this this secondary element image display module 50.In addition, in order to avoid being mixed into of bubble, above-mentioned pressing and the processing procedure of covering generally, are carry out in a vacuum cavity.

As shown in figure 19, for the liquid ultraviolet photo-curing resin in coupled columns lens array Rotating fields assembly is cured the schematic diagram of processing procedure.As aforementioned, by the collimated UV light sources 141 of the suitable wavelength of a tool and light intensity, this the liquid ultraviolet photo-curing resin 131 ' be pressed in this post lens array Rotating fields assembly 132 is done to the irradiation of appropriate time, this liquid ultraviolet photo-curing resin 131 ' curable, be shaped to post mirror cementing layer structure 131, and reach and connect and fix the object of this post lens array Rotating fields molding assembly 10 ' with this secondary element image display module 50.Finally, as shown in Figure 7, the object of tool touch-control of the present invention and three-D image display function device has namely been reached.

As shown in Figure 20 ~ 23, for another plane of the present invention is to the schematic diagram of plane contraposition attaching process.This processing procedure, mainly by the technique of accurate glue spots glue, contraposition laminating and ultraviolet photo-curing, by this post mirror cementing layer structure 131, connects this post lens array formable layer assembly 10 ' and is fixed on this secondary element image display module 50.

As shown in figure 20, for the schematic diagram of accurate glue spots glue processing procedure made by coupled columns lens array formable layer assembly.By accurate contraposition and accurate spray printing, can to the post lens array Rotating fields assembly 132 in this post lens array Rotating fields molding assembly 10 ', filling liquid ultraviolet photo-curing resin 131 '.After this liquid ultraviolet photo-curing resin 131 ' photocuring, namely become this post mirror cementing layer structure 131.Conveniently explanation hereafter, the assembly making this liquid ultraviolet photo-curing resin 131 ' and this post lens array Rotating fields molding assembly 10 ' form is post mirror cementing layer shaping structures assembly 10 ".

As shown in Figure 21 ~ 22, for coupled columns mirror cementing layer shaping structures assembly and secondary element image display module carry out pressing and the schematic diagram covering processing procedure.By to this post mirror cementing layer shaping structures assembly 10 " carry out precision optics contraposition with this secondary element image display module 50; can by this post mirror cementing layer shaping structures assembly 10 ", accurately be pressed on this secondary element image display module 50, and allow this post lens array Rotating fields assembly 132, accurately aim at and be covered on this secondary element image display module 50.In addition, in order to avoid being mixed into of bubble, above-mentioned pressing and the processing procedure of covering generally, are carry out in a vacuum cavity.

As shown in figure 23, for the liquid ultraviolet photo-curing resin in coupled columns lens array Rotating fields assembly is cured the schematic diagram of processing procedure.As aforementioned, by the collimated UV light sources 141 of the suitable wavelength of a tool and light intensity, this the liquid ultraviolet photo-curing resin 131 ' be pressed in this post lens array Rotating fields assembly 132 is done to the irradiation of appropriate time, this liquid ultraviolet photo-curing resin 131 curable, be shaped to post mirror cementing layer structure 131, and reach connect and fix this post mirror cementing layer shaping structures assembly 10 " with the object of this secondary element image display module 50.Finally, as shown in Figure 7, the object of tool touch-control of the present invention and three-D image display function device has namely been reached.

Claims (14)

1. there is touch-control and a three-D image display function device, comprising:

Touch control component, being made up of the one in Out-Cell touch control component, On-Cell touch control component or In-Cell touch control component, described touch control component also comprises cover plate;

Ultra-thin post mirror assembly, comprises post lens array Rotating fields and post mirror cementing layer structure;

Secondary element image display module, is made up of the one in LCD, OLED;

When touch control component is Out-Cell touch control component, described ultra-thin post mirror assembly is directly fixedly attached between touch control component and secondary element image display module;

When touch control component be On-Cell touch control component or In-Cell touch control component time, ultra-thin post mirror assembly is directly fixedly attached between cover plate and secondary element image display module.

2. according to claim 1 have touch-control and three-D image display function device, it is characterized in that described Out-Cell touch control component, is be made up of a kind of touch control component in OGS (OneGlassSolution), GG (Glass-Glass), GFF (Glass-Film-Film), G1F (Glass-Film).

3. according to claim 1 have touch-control and three-D image display function device, and it is characterized in that described post lens array Rotating fields, is be made up of ultraviolet photo-curing resin material, has refractive index n2 after a ultraviolet photo-curing; Described post mirror cementing layer structure is made up of ultraviolet photo-curing resin material, has refractive index n1 after a ultraviolet photo-curing.

4. according to claim 1 have touch-control and three-D image display function device, it is characterized in that described post lens array Rotating fields, have post mirror structure, dike hurdle structure, fabric.

5. according to claim 4 have touch-control and three-D image display function device, it is characterized in that described post mirror structure, comprises at least one of most cylindrical lenss or most multiaspect post mirrors.

6. according to claim 4 have touch-control and three-D image display function device, and it is characterized in that described post mirror structure, is towards this secondary element image display module.

7. according to claim 4 have touch-control and three-D image display function device, it is characterized in that described dike hurdle structure, be arranged on the surrounding of this post mirror structure, have the height higher than this post mirror structure.

8. according to claim 4 have touch-control and three-D image display function device, it is characterized in that described fabric, in order to this post mirror structure and this dike hurdle anatomical connectivity to be fixed on this touch control component.

9. according to claim 3 have touch-control and three-D image display function device, it is characterized in that described this post lens array Rotating fields n2 is greater than the refractive index n1 of post mirror cementing layer structure.

10. according to claim 1 have touch-control and three-D image display function device, it is characterized in that described post lens array Rotating fields, is by the plane technique shaping to plane ultraviolet photo-curing, is directly arranged on described touch control component.

11. according to claim 1ly have touch-control and three-D image display function device, it is characterized in that described post mirror cementing layer structure, be the technique of plane contraposition being fitted by plane, this post mirror cementing layer structure and this secondary element image display module are connected and fixed.

12. according to claim 10ly have touch-control and three-D image display function device, it is characterized in that this plane described technique shaping to plane ultraviolet photo-curing comprises:

First step, by ultraprecise plane mould processing machine, with the shaping plane mould of post lens array Rotating fields that completes, this plane mould has the geometry contrary with this post lens array Rotating fields;

Second step, by accurate contraposition and accurate spray printing, to this plane mould filling liquid ultraviolet photo-curing resin;

Third step, by precision optics contraposition, is pressed on this plane mould by this touch control component, and allows this touch control component, aims at and is covered in this liquid ultraviolet photo-curing resin;

4th step, is irradiated the liquid ultraviolet photo-curing resin in this plane mould by UV light source, to solidify this liquid ultraviolet photo-curing resin and to be shaped to post lens array Rotating fields;

5th step, by the operation of demoulding, departs from this post lens array Rotating fields be directly molded on this touch control component from mould.

13. according to claim 11ly have touch-control and three-D image display function device, it is characterized in that this plane described comprises the technique that plane contraposition is fitted:

First step, by the technique of accurate contraposition and slot coated, by liquid ultraviolet photo-curing resin, coats on this secondary element image display module, forms the secondary element image display module after glue application;

Second step, by precision optics contraposition, by this post lens array Rotating fields, is pressed on the secondary element image display module after this glue application;

Third step, by UV light source, the liquid ultraviolet photo-curing resin of this in the secondary element image display module after glue application is irradiated, to solidify this liquid ultraviolet photo-curing resin and to be shaped to post mirror cementing layer structure, this post mirror cementing layer structure and this secondary element image display module are connected and fixed.

14. tool touch-controls according to claim 11 and three-D image display function device, is characterized in that this plane described comprises the technique that plane contraposition is fitted:

First step, by accurate contraposition and accurate spray printing, to this post lens array Rotating fields filling liquid ultraviolet photo-curing resin, forms post mirror cementing layer shaping structures assembly;

Second step, by precision optics contraposition, is pressed on this post mirror cementing layer shaping structures assembly by this secondary element image display module;

Third step, by UV light source, this liquid ultraviolet photo-curing resin in this post mirror cementing layer shaping structures assembly is irradiated, to solidify this liquid ultraviolet photo-curing resin and to be shaped to post mirror cementing layer structure, this post mirror cementing layer structure and this secondary element image display module are connected and fixed.