CN204595388U - The switchable novel integration imaging display screen of a kind of 2D, 3D - Google Patents

The switchable novel integration imaging display screen of a kind of 2D, 3D Download PDF

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Publication number
CN204595388U
CN204595388U CN201520303341.6U CN201520303341U CN204595388U CN 204595388 U CN204595388 U CN 204595388U CN 201520303341 U CN201520303341 U CN 201520303341U CN 204595388 U CN204595388 U CN 204595388U
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China
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thickness
glass substrate
conductive glass
glass layer
layer
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Expired - Fee Related
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CN201520303341.6U
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Chinese (zh)
Inventor
陈全炼
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DUALSHINE TECHNOLOGY (SHENZHEN) Co Ltd
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DUALSHINE TECHNOLOGY (SHENZHEN) Co Ltd
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Priority to CN201520303341.6U priority Critical patent/CN204595388U/en
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Abstract

The utility model relates to liquid crystal display field, provide a kind of 2D, the switchable novel integration imaging display screen of 3D, comprise lower glass substrate, lower conductive glass layer, liquid crystal layer, top glass substrate, upper conductive glass layer and lens arra, described lower glass substrate, lower conductive glass layer, liquid crystal layer, upper conductive glass layer, top glass substrate and lens arra set gradually from down to up, described lower glass substrate upper surface is coated with UV glue-line, the upper surface of described UV glue-line is provided with groove array, in described groove array the shape of single groove and the shape of lens consistent, in the same size also with lens of size, and the arrangement of described groove array and the arrangement of lens arra consistent, described lower conductive glass layer is arranged at the upper surface of groove array, and the thickness of any two positions, place of described lower conductive glass layer is identical.The utility model can realize the handoff functionality of 2D, 3D.

Description

The switchable novel integration imaging display screen of a kind of 2D, 3D
Technical field
The utility model relates to liquid crystal display field, the switchable novel integration imaging display screen of especially a kind of 2D, 3D.
Background technology
Integration imaging comprises shooting and display two processes, shooting process utilizes microlens array to carry out 3D shooting to three-dimensional scenic, microlens array is equidistantly arranged in a combination respectively in the horizontal and vertical directions by a series of lens cells as " fly's eye ", all lens cells have identical imaging function, and the information of three-dimensional scenic different angles is recorded in be positioned at microlens array back focal plane recording film on, form micro-pattern matrix.Procedure for displaying is the inverse process of shooting process, the microlens array identical with parameter during shooting is adopted to be coupled with micro-pattern matrix precision, according to light path principle of reversibility, microlens array the light-ray condensing reduction that all pixels in micro-pattern matrix send, reconstructs 3D rendering identical with three-dimensional scenic when taking in the front and back of microlens array again.Integration imaging 3D shows the light information that energy reproducing 3D scene sends or reflects, thus construct authentic 3D rendering, have that true 3D shows, does not need utility appliance, is applicable to many people viewing, full parallax, continuously viewpoint, with low cost, structure simple, flatscreen can the advantage such as wall hanging, has become the study hotspot of researcher.At present, the grating array for integration imaging display is the convex lens array of physical arrangement, and this convex lens array can only be used for showing 3D impact, and can not compatible 2D image.
Utility model content
The utility model provides the switchable novel integration imaging display screen of a kind of 2D, 3D, to solve the problem.
The utility model solves the technical scheme that its technical matters adopts: a kind of 2D, the switchable novel integration imaging display screen of 3D, comprise lower glass substrate, lower conductive glass layer, liquid crystal layer, top glass substrate, upper conductive glass layer and lens arra, described lower glass substrate, lower conductive glass layer, liquid crystal layer, upper conductive glass layer, top glass substrate and lens arra set gradually from down to up, described lower glass substrate upper surface is coated with UV glue-line, the upper surface of described UV glue-line is provided with groove array, in described groove array the shape of single groove and the shape of lens consistent, in the same size also with lens of size, and the arrangement of described groove array and the arrangement of lens arra consistent, described lower conductive glass layer is arranged at the upper surface of groove array, and the thickness of any two positions, place of described lower conductive glass layer is identical.
Further, described lower conductive glass layer and upper conductive glass layer are indium tin oxide layer.
Further, the thickness of described UV glue-line is 1.2-3.5 times of lower glass substrate thickness; The thickness of described lower conductive glass layer is 0.2-0.5 times of lower glass substrate thickness; The thickness of described upper conductive glass layer is 0.2-0.5 times of top glass substrate thickness.
Further, the thickness of described UV glue-line is 2.5 times of lower glass substrate thickness; The thickness of described lower conductive glass layer is 0.3 times of lower glass substrate thickness; The thickness of described upper conductive glass layer is 0.3 times of top glass substrate thickness.
The beneficial effects of the utility model are: by arranging UV glue-line at lower glass substrate upper surface, at the upper surface of UV glue-line, groove array is set, in groove array the shape of single groove and the shape of lens consistent, in the same size also with lens of size, and the arrangement of groove array is consistent with the arrangement of lens arra, and lower conductive glass layer is arranged in the concave face of groove array, the lower shape of conductive glass layer lower surface and the convex shape of lens are consistent, when people need to be switched to 2D watching mode, lower conductive glass layer can play the effect of polarisation, change the bright dipping route of image, eliminate the function of the light-ray condensing reduction that all pixels in micro-pattern matrix send by lens arra, the image that people are seen is 2D image.
Accompanying drawing explanation
Fig. 1 is the structural representation of the switchable novel integration imaging display screen of the utility model 2D, 3D.
Embodiment
Below in conjunction with drawings and Examples, the utility model is further illustrated.
As shown in Figure 1, a kind of 2D of the present utility model, the switchable novel integration imaging display screen of 3D, comprise lower glass substrate 1, lower conductive glass layer 2, liquid crystal layer 5, top glass substrate 3, upper conductive glass layer 4 and lens arra 7, described lower glass substrate 1, lower conductive glass layer 2, liquid crystal layer 5, upper conductive glass layer 4, top glass substrate 3 and lens arra 7 set gradually from down to up, described lower glass substrate 1 upper surface is coated with UV glue-line 6, the upper surface of described UV glue-line 6 is provided with groove array 61, in described groove array 61, the shape of single groove is consistent with the shape of lens, in the same size also with lens of size, and the arrangement of described groove array 61 is consistent with the arrangement of lens arra 7, described lower conductive glass layer 2 is arranged at the upper surface of groove array 61, and the thickness of any two positions, place of described lower conductive glass layer 2 is identical.
UV glue is that one needs to absorb the completely crued resin of ultraviolet ability, light trigger (or photosensitizer) is added in the resin of special formulation, after absorbing the high intensity ultraviolet linear light in ultraviolet (UV) uv equipment, produce living radical or ion radical, thus initiated polymerization, crosslinked and graft reaction, make resin (UV coating, ink, bonding agent etc.) (not etc.) within the several seconds, be solid-state by liquid conversion, it has the high feature of bonding strength.The utility model is by arranging UV glue-line 6 at the upper surface of lower glass substrate 1, at the upper surface of UV glue-line 6, groove array 61 is set, in groove array 61 shape of single groove and the shape of lens consistent, in the same size also with lens of size, and the arrangement of groove array 61 is consistent with the arrangement of lens arra 7, and lower conductive glass layer 2 is arranged in the concave face of groove array 61, the lower shape of conductive glass layer 2 lower surface and the convex shape of lens are consistent, when people need to be switched to 2D watching mode, lower conductive glass layer 2 can play the effect of polarisation, change the bright dipping route of image, eliminate the function of the light-ray condensing reduction that all pixels in micro-pattern matrix send by lens arra 7, the image that people are seen is 2D image.And when people watch 3D pattern, controlling lower conductive glass layer 2 does not play polarisation, the light-ray condensing reduction that all pixels in micro-pattern matrix normally send by lens arra 7, makes people watch 3D image.The utility model during fabrication, is first coated the uniform UV glue-line 6 of thickness, then by the exiting surface of lens arra 7 just to UV glue-line 6, is applied pressure to lens arra 7 in lower glass substrate 1, makes lens surface be pressed into the inside of UV glue-line 6, forms groove array 61.The notch of the periphery of UV glue-line 6 and groove array 61 is repaired, then plate lower conductive glass layer 2 equably in the groove of groove array 61.Said modules and top glass substrate 3 are assembled, forms inner chamber, and be filled with liquid crystal layer 5 in the lumen.
In order to strengthen conductive capability, described lower conductive glass layer 2 and upper conductive glass layer 4 are indium tin oxide layer.
UV glue-line 6, lower conductive glass layer 2 are specifically selected according to practical application with the thickness of upper conductive glass layer 4, and in order to ensure the accuracy that light regulates, the thickness of described UV glue-line 6 is 1.2-3.5 times of lower glass substrate 1 thickness; The thickness of described lower conductive glass layer 2 is 0.2-0.5 times of lower glass substrate 1 thickness; The thickness of described upper conductive glass layer 4 is 0.2-0.5 times of top glass substrate 3 thickness.As preferably, the thickness of described UV glue-line 6 is 2.5 times of lower glass substrate 1 thickness; The thickness of described lower conductive glass layer 2 is 0.3 times of lower glass substrate 1 thickness; The thickness of described upper conductive glass layer 4 is 0.3 times of top glass substrate 3 thickness.
The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (4)

1. a 2D, the switchable novel integration imaging display screen of 3D, comprise lower glass substrate (1), lower conductive glass layer (2), liquid crystal layer (5), top glass substrate (3), upper conductive glass layer (4) and lens arra (7), described lower glass substrate (1), lower conductive glass layer (2), liquid crystal layer (5), upper conductive glass layer (4), top glass substrate (3) and lens arra (7) set gradually from down to up, it is characterized in that: described lower glass substrate (1) upper surface is coated with UV glue-line (6), the upper surface of described UV glue-line (6) is provided with groove array (61), in described groove array (61), the shape of single groove is consistent with the shape of lens, in the same size also with lens of size, and the arrangement of described groove array (61) is consistent with the arrangement of lens arra (7), described lower conductive glass layer (2) is arranged at the upper surface of groove array (61), and the thickness of any two positions, place of described lower conductive glass layer (2) is identical.
2. the switchable novel integration imaging display screen of a kind of 2D, 3D as claimed in claim 1, is characterized in that: described lower conductive glass layer (2) and upper conductive glass layer (4) are indium tin oxide layer.
3. the switchable novel integration imaging display screen of a kind of 2D, 3D as claimed in claim 1, is characterized in that: the thickness of described UV glue-line (6) is 1.2-3.5 times of lower glass substrate (1) thickness; The thickness of described lower conductive glass layer (2) is 0.2-0.5 times of lower glass substrate (1) thickness; The thickness of described upper conductive glass layer (4) is 0.2-0.5 times of top glass substrate (3) thickness.
4. the switchable novel integration imaging display screen of a kind of 2D, 3D as claimed in claim 1, is characterized in that: the thickness of described UV glue-line (6) is 2.5 times of lower glass substrate (1) thickness; The thickness of described lower conductive glass layer (2) is 0.3 times of lower glass substrate (1) thickness; The thickness of described upper conductive glass layer (4) is 0.3 times of top glass substrate (3) thickness.
CN201520303341.6U 2015-05-12 2015-05-12 The switchable novel integration imaging display screen of a kind of 2D, 3D Expired - Fee Related CN204595388U (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105334679A (en) * 2015-11-16 2016-02-17 亚世光电股份有限公司 Double-layered TN-model liquid crystal display and manufacturing process thereof
CN106199974A (en) * 2016-09-28 2016-12-07 京东方科技集团股份有限公司 A kind of nearly eye display device
WO2018014585A1 (en) * 2016-07-21 2018-01-25 京东方科技集团股份有限公司 Liquid crystal lens, manufacturing method therefor, and display device

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105334679A (en) * 2015-11-16 2016-02-17 亚世光电股份有限公司 Double-layered TN-model liquid crystal display and manufacturing process thereof
WO2018014585A1 (en) * 2016-07-21 2018-01-25 京东方科技集团股份有限公司 Liquid crystal lens, manufacturing method therefor, and display device
US10216060B2 (en) 2016-07-21 2019-02-26 Boe Technology Group Co., Ltd. Liquid crystal lens and manufacturing method thereof, display device
CN106199974A (en) * 2016-09-28 2016-12-07 京东方科技集团股份有限公司 A kind of nearly eye display device

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CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20150826

Termination date: 20180512

CF01 Termination of patent right due to non-payment of annual fee