公开(公告)号：US20180109775A1

公开(公告)日：2018-04-19

申请号：US15554846

申请日：2017-02-20

Applicant: BOE TECHNOLOGY GROUP CO., LTD.

Inventor： Naifu WU ,  Kun WU

IPC: H04N13/00

CPC classification number: H04N13/139 ,  H04N13/15 ,  H04N13/161 ,  H04N13/302 ,  H04N13/305 ,  H04N13/317 ,  H04N13/398

Abstract: Embodiments of the present disclosure provide a method and apparatus for fabricating a stereoscopic image and video, the method including extracting information on each sub-pixel for each angle of view from a 2D image to compose a matrix, interweaving the matrix for each angle of view according to a cyclic unit of image arrangement, to form an interweaved image, and outputting a stereoscopic image using the interweaved image, whereby stereoscopic images may be obtained by image interweaving in combination with image arrangement.

公开(公告)号：US20160252737A1

公开(公告)日：2016-09-01

申请号：US14761830

申请日：2014-12-17

Applicant: BOE TECHNOLOGY GROUP CO., LTD.

Inventor： Naifu WU ,  Wei WEI ,  Chia Chiang LIN ,  Tao WANG ,  Chunmiao ZHOU ,  Kun WU

IPC: G02B27/22 ,  G02B7/00 ,  G01J3/46

CPC classification number: G02B27/2214 ,  G01J3/463 ,  G02B7/003 ,  G02B27/22 ,  G02F1/1303 ,  H04N13/00 ,  H04N13/31

Abstract: A double-vision-device alignment device and a double-vision-device alignment method are provided. The double-vision-device alignment device is configured to accurately align a display pan& with a double-vision device, and comprising; a first chromaticity detecting unit, configured to detect a color in a first viewing region; a second chromaticity detecting unit, configured to detect a color in a second viewing region, wherein the first viewing region and the second viewing region are formed by light splitting of the double-vision device, and the first viewing region and the second viewing region correspond to different display regions of the display panel, respectively. It is judged whether an alignment is accurate by detection of a chromaticity detecting unit, which can prevent an alignment result from being affected by human factors, improve accuracy and efficiency, and reduce labor intensity, and the device can be operated by non-professionals.

Abstract translation: 提供双视觉装置对准装置和双视觉装置对准方法。 双视觉装置对准装置被配置为精确地对准显示盘和双视觉装置，并且包括： 第一色度检测单元，被配置为检测第一观看区域中的颜色; 第二色度检测单元，被配置为检测第二观看区域中的颜色，其中所述第一观看区域和所述第二观看区域由所述双视觉设备的光分割形成，并且所述第一观看区域和所述第二观看区域对应 分别到显示面板的不同显示区域。 通过检测色差检测单元来判断对准是否准确，这可以防止对准结果受到人为因素的影响，提高准确性和效率，并且降低劳动强度，并且该设备可以由非专业人员操作。

公开(公告)号：US20180045971A1

公开(公告)日：2018-02-15

申请号：US15536276

申请日：2016-09-06

Applicant: BOE TECHNOLOGY GROUP CO., LTD.

Inventor： Kun WU

IPC: G02B27/22 ,  G02B5/18

CPC classification number: G02B27/22 ,  G02B5/18 ,  G02B5/1842 ,  G09G3/003 ,  G09G2300/0452

Abstract: The present disclosure provides a three-dimensional display device in which a pixel structure includes a plurality of sub-pixels arranged in rows and columns. In each column of sub-pixels, the sub-pixels are aligned. In each row of sub-pixels, each of the sub-pixels is staggered by half a sub-pixel with respect to an adjacent sub-pixel, and is different in color from the adjacent sub-pixel. The corresponding three-dimensional grating includes a plurality of strip-like grating structures periodically arranged in a horizontal direction, wherein the strip-like grating structures extend in the same direction that has a preset inclination angle with respect to the horizontal direction. Each strip-like grating structure corresponds to at least two sub-pixels in respective rows of sub-pixels which display different viewpoint images.

公开(公告)号：US20170041593A1

公开(公告)日：2017-02-09

申请号：US14909708

申请日：2015-08-04

Applicant: BOE Technology Group Co., Ltd.

Inventor： Naifu WU ,  Wei WEI ,  Kun WU ,  Heliang DI ,  Tao WANG ,  Chiachiang LIN ,  Chunmiao ZHOU

IPC: H04N13/04

CPC classification number: H04N13/344 ,  H04N13/106 ,  H04N13/305 ,  H04N13/31 ,  H04N13/376 ,  H04N13/398

Abstract: The present disclosure provides an image processing system, an image processing method, a position determining method and a display system. The image processing system includes a processing module configured to process at least a portion of original views in an original image to be displayed currently, so as to obtain a target image including the processed views, each processed view including an identifier; and a display module configured to display the target image, so as to enable a viewer to determine, in accordance with a combination of the identifiers in the target image, a position for viewing a 3D image. According to the present disclosure, it is able to guide the viewer to view the glassless 3D image at an extremely low cost.

Abstract translation: 本公开提供了一种图像处理系统，图像处理方法，位置确定方法和显示系统。 图像处理系统包括：处理模块，被配置为处理要在当前显示的原始图像中的原始图像的至少一部分，以便获得包括处理视图的目标图像，每个处理视图包括标识符; 以及显示模块，被配置为显示所述目标图像，以使得观看者能够根据所述目标图像中的所述标识符的组合来确定用于观看3D图像的位置。 根据本公开，能够以极低的成本引导观看者观看无玻璃3D图像。

公开(公告)号：US20160291335A1

公开(公告)日：2016-10-06

申请号：US14771614

申请日：2015-01-04

Applicant: BOE TECHNOLOGY GROUP CO., LTD.

Inventor： Kun WU ,  Chuanxiang XU

IPC: G02B27/22 ,  G02F1/29

CPC classification number: G02B27/2214 ,  G02F1/133512 ,  G02F1/13394 ,  G02F1/29 ,  G02F2201/44

Abstract: A liquid crystal lens light splitting device (100) and a manufacturing method thereof, and a stereoscopic display device are disclosed. The liquid crystal lens light splitting device (100) is configured to be disposed on a display panel (200) and includes: a first substrate (110), and a second substrate (120) disposed on a light outgoing side of the display panel (200), wherein liquid crystal (150) is filled between the first substrate (110) and the second substrate (120), and a support (130) is provided between the first substrate (110) and the second substrate (120), and wherein the support (130) is opposite to a non-light-outgoing area (201) on the display panel in a light outgoing direction of the display panel (200). The liquid crystal lens light splitting device (100) can mitigate or eliminate crosstalk phenomenon and be used for manufacturing a display device.

Abstract translation: 公开了一种液晶透镜分光装置及其制造方法以及立体显示装置。 液晶透镜分光装置（100）被配置为设置在显示面板（200）上，包括：第一基板（110）和布置在显示面板的光出射侧的第二基板（120） 200），其中液晶（150）填充在第一基板（110）和第二基板（120）之间，并且在第一基板（110）和第二基板（120）之间设置有支撑件（130），并且 其中所述支撑件（130）在所述显示面板（200）的光出射方向上与所述显示面板上的非发光区域（201）相对。 液晶透镜分光装置（100）可以减轻或消除串扰现象，并用于制造显示装置。

公开(公告)号：US20160252782A1

公开(公告)日：2016-09-01

申请号：US14762042

申请日：2015-01-04

Applicant: BOE TECHNOLOGY GROUP CO., LTD.

Inventor： Haiyan WANG ,  Kun WU ,  Yunyun TIAN ,  Zheng FANG ,  Qiangtao WANG ,  Hyun Sic CHOI

IPC: G02F1/1343 ,  G02F1/1335 ,  G02B27/22 ,  G02F1/1337

CPC classification number: G02F1/134309 ,  G02B3/14 ,  G02B27/22 ,  G02B27/2214 ,  G02F1/133528 ,  G02F1/133784 ,  G02F1/13439 ,  G02F1/29 ,  G02F2001/133531 ,  G02F2001/133749 ,  H04N13/305

Abstract: A liquid crystal lens and a display device are provided. The liquid crystal lens includes: a first substrate and a second substrate arranged opposite to each other; a liquid crystal layer, located between the first substrate and the second substrate; a plurality of strip-shaped first electrodes, parallel to each other and located on a side of the first substrate facing the liquid crystal layer; a first alignment layer, located on a side of the first electrodes facing the liquid crystal layer; a planar second electrode, located on a side of the second substrate facing the liquid crystal layer; and a second alignment layer, located on a side of the second electrode facing the liquid crystal layer, wherein an included angle between an extending direction of each of the first electrodes and one edge (a) of the first substrate is greater than zero, a rubbing direction of the first alignment layer and a rubbing direction of the second alignment layer are symmetric with respect to the extending direction of the first electrode, thereby ensuring that a liquid crystal lens with better symmetry can be acquired under smaller moire pattern.

Abstract translation: 提供了一种液晶透镜和显示装置。 液晶透镜包括：彼此相对布置的第一基板和第二基板; 位于所述第一基板和所述第二基板之间的液晶层; 多个条状的第一电极，彼此平行并且位于所述第一基板的面向所述液晶层的一侧上; 第一取向层，位于与液晶层相对的第一电极的一侧; 平面第二电极，位于所述第二基板的面向所述液晶层的一侧; 以及第二取向层，位于所述第二电极的面向所述液晶层的一侧，其中，所述第一电极中的每一个的延伸方向与所述第一基板的一个边缘（a）之间的夹角大于零， 第一取向膜的摩擦方向和第二取向膜的摩擦方向相对于第一电极的延伸方向对称，从而确保在更小的波纹图案下可以获得具有较好对称性的液晶透镜。

公开(公告)号：US20160366401A1

公开(公告)日：2016-12-15

申请号：US14771015

申请日：2014-12-17

Applicant: BOE TECHNOLOGY GROUP CO., LTD.

Inventor： Kun WU ,  Tao WANG

IPC: H04N13/04 ,  G02F1/137 ,  G02F1/1337 ,  G02B27/22 ,  G02F1/1343

CPC classification number: H04N13/359 ,  G02B1/041 ,  G02B27/2214 ,  G02F1/13 ,  G02F1/133526 ,  G02F1/1337 ,  G02F1/134309 ,  G02F1/13439 ,  G02F1/13471 ,  G02F1/137 ,  G02F2001/294 ,  G02F2202/28 ,  H04N13/305 ,  H04N13/398 ,  H04N2213/001

Abstract: Embodiments of the present invention provide a 3D display device, and the 3D display device, comprising: a display panel (1), configured to display an image; an optical element (2) and a liquid crystal lens (3), disposed to overlap each other and positioned at a light exiting side of the display panel (1), wherein the optical element (2) comprises a plurality of optical lens units (2a), the liquid crystal lens (3) comprises a plurality of liquid crystal lens units (3a), the plurality of liquid crystal lens units (3a) correspond to the plurality of optical lens units (2a) in a one-to-one corresponding relationship; when the 3D display device is in a 2D displaying mode, each of the plurality of liquid crystal lens units (3a) has an effect on light contrary to an effect on the light of each of the plurality of optical lens units (2a), and when the 3D display device is in a 3D displaying mode, the liquid crystal lens unit (3a) is configured to have a plane glass function. The 3D display device provided by the embodiments of the present invention can be switched between 2D and 3D displaying, and can reduce the crosstalk during 3D displaying and improve the display effect.

Abstract translation: 本发明的实施例提供了一种3D显示装置和3D显示装置，包括：显示面板（1），被配置为显示图像; 光学元件（2）和液晶透镜（3），其被设置为彼此重叠并位于显示面板（1）的光出射侧，其中所述光学元件（2）包括多个光学透镜单元 如图2a所示，液晶透镜（3）包括多个液晶透镜单元（3a），多个液晶透镜单元（3a）以多对一的光学透镜单元（2a）为单位 对应关系; 当3D显示装置处于2D显示模式时，与多个光学透镜单元（2a）中的每一个的光的影响相反，多个液晶透镜单元（3a）中的每一个对光具有影响，并且 当3D显示装置处于3D显示模式时，液晶透镜单元（3a）被配置为具有平面玻璃功能。 由本发明的实施例提供的3D显示装置可以在2D和3D显示之间进行切换，并且可以减少3D显示期间的串扰并提高显示效果。

公开(公告)号：US20160313612A1

公开(公告)日：2016-10-27

申请号：US14784293

申请日：2015-04-17

Applicant: BOE TECHNOLOGY GROUP CO., LTD.

Inventor： Naifu WU ,  Kun WU ,  Xiaolin WANG ,  Yunyun TIAN ,  Bo WANG

IPC: G02F1/1343 ,  G02B27/22 ,  G02F1/29

CPC classification number: G02F1/134309 ,  G02B27/2214 ,  G02B27/225 ,  G02F1/13439 ,  G02F1/29 ,  G02F2001/133357 ,  G02F2001/294

Abstract: The present invention provides a liquid crystal lens and a display device, belongs to the field of display technology, and can solve a problem that strong lateral electric fields formed between strip electrodes of an existing liquid crystal lens influence the imaging effect. The liquid crystal lens of the present invention comprises: a first substrate, a second substrate and a liquid crystal layer provided therebetween; a plurality of layers of strip electrodes are provided on a surface, facing the second substrate, of the first substrate, and counter electrodes arranged at least opposite to the strip electrodes are provided on a surface, facing the first substrate, of the second substrate; wherein any two strip electrodes adjacent in a horizontal direction are arranged in different layers, the strip electrodes in different layers are insulated from each other and there is no overlap between their projections on the first substrate.

Abstract translation: 本发明提供一种属于显示技术领域的液晶透镜和显示装置，可以解决现有液晶透镜的带状电极之间形成的强横向电场影响成像效果的问题。 本发明的液晶透镜包括：第一基板，第二基板和设置在其间的液晶层; 在所述第一基板的面向所述第二基板的表面上设置多层带状电极，在所述第二基板的面向所述第一基板的表面上设置与所述带状电极至少相对配置的对置电极; 其中在水平方向上相邻的任何两个条状电极被布置在不同的层中，不同层中的条形电极彼此绝缘，并且它们在第一基板上的突起之间不存在重叠。

公开(公告)号：US20160004128A1

公开(公告)日：2016-01-07

申请号：US14429514

申请日：2014-05-06

Applicant: BOE TECHNOLOGY GROUP CO., LTD.

Inventor： Kun WU

IPC: G02F1/1343 ,  G02B27/22

CPC classification number: G02F1/134309 ,  G02B27/22 ,  G02B27/2214 ,  G02F1/29 ,  G02F2001/134345 ,  G02F2001/294

Abstract: A liquid crystal (LCD) lens and a three-dimensional (3D) display device, which can achieve the equality of signal delay and reduce or eliminate the Moire phenomenon. The LC lens includes: a first substrate and a second substrate arranged opposite to each other, a liquid crystal layer disposed between the first substrate and the second substrate, and a plurality of parallel strip electrodes disposed on one side, close to the liquid crystal layer, of at least one of the first substrate and the second substrate. At least one strip electrode includes a plurality of strip sub-electrodes in sequential end-to-end connection. A specific included angle (α) is formed between the extension direction of each strip sub-electrode and the extension direction of the strip electrode.

Abstract translation: 一种液晶（LCD）透镜和三维（3D）显示装置，可以实现信号延迟的等同性，减少或消除莫尔现象。 LC透镜包括：第一基板和彼此相对布置的第二基板，设置在第一基板和第二基板之间的液晶层，以及设置在一侧的多个平行条状电极，靠近液晶层 的第一衬底和第二衬底中的至少一个。 至少一个带状电极在连续的端对端连接中包括多个条子电极。 在每个带状子电极的延伸方向和带状电极的延伸方向之间形成特定的夹角（α）。

公开(公告)号：US20150301232A1

公开(公告)日：2015-10-22

申请号：US14403697

申请日：2014-03-31

Applicant: BOE TECHNOLOGY GROUP CO., LTD.

Inventor： Kun WU

IPC: G02B1/14 ,  G02B27/26 ,  G02B1/12 ,  G02B5/30

CPC classification number: G02B1/14 ,  G02B1/12 ,  G02B5/30 ,  G02B5/3083 ,  G02B27/26 ,  G02F1/13363 ,  G02F2001/133631

Abstract: The invention provides a retardation film, a method for producing the same and a display apparatus comprising the same. The retardation film comprises a phase retardation layer and a cured material layer formed by curing a curable material applied on the phase retardation layer, wherein the cured material layer is disposed on the light-emitting side of the phase retardation layer. In the retardation film of this invention, since the cured material layer is formed by curing the curable material applied on the phase retardation layer, the laminating equipment can be omitted and the equipment investment can thus be decreased, thereby lowering the production cost.

Abstract translation: 本发明提供一种延迟膜及其制造方法及包括该延迟膜的显示装置。 延迟膜包括相位延迟层和通过固化施加在相位延迟层上的固化材料形成的固化材料层，其中固化材料层设置在相位延迟层的发光侧。 在本发明的延迟膜中，由于通过固化施加在相位延迟层上的固化材料来形成固化材料层，所以可以省略层压设备，从而可以降低设备投资，从而降低生产成本。