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1. 发明授权

US10962692B2 Complex three-dimensional multi-layer structure and manufacturing method thereof 有权
公开(公告)号：US10962692B2
公开(公告)日：2021-03-30
申请号：US15880887
申请日：2018-01-26
申请人： Minuta Technology Co., Ltd.
发明人： Han Eol Lim , Se Jin Choi , Tae Wan Kim , Seung Joon Baek
IPC分类号： G02B5/04 , F21V8/00 , B29C59/16 , B32B3/30 , G02B5/02 , G02B5/20 , G02B6/00 , G02B6/12 , B29D11/00 , B29L11/00
摘要： The present invention relates to a 3-dimensional complex multilayer structure. The 3-dimensional complex multilayer structure includes a first pattern and a second pattern having different thicknesses formed on one or both surfaces of a plate. The first pattern is selected from the group consisting of parallel lines, parallel curves, parallel zigzag lines, and combinations thereof which do not meet each other. The second pattern is not parallel to the first pattern and is selected from the group consisting of parallel lines, parallel curves, parallel zigzag lines, and combinations thereof which do not meet each other. The interfaces between the first pattern and the second pattern form figures selected from the group consisting of polygons, circles, ellipses, and combinations thereof. The figures are repetitively formed on one or both surfaces of the plate. The 3-dimensional complex multilayer structure includes different complex patterns, whereas a conventional device has a kind of simple pattern. The 3-dimensional complex multilayer structure of the present invention can be manufactured by a simple process. Therefore, the 3-dimensional complex multilayer structure of the present invention can find application in various fields, including optical components for displays (e.g., light guide plates, diffusion plates, prisms, and color filters), next generation displays and display devices (e.g., TFTs, OTFTs, oxide TFTs, flexible displays, and transparent displays), next generation 3-dimensional semiconductors, dry adhesion based on the use of fine ciliary structures, micro/nano piezoelectric devices, lighting optical components, and biocell/virus research using micropatterns.

2. 发明授权

US09958581B2 Complex three-dimensional multi-layer structure and manufacturing method thereof 有权
公开(公告)号：US09958581B2
公开(公告)日：2018-05-01
申请号：US14410266
申请日：2013-06-13
申请人： Minuta Technology Co., LTD
发明人： Han Eol Lim , Se Jin Choi , Tae Wan Kim , Seung Joon Baek
IPC分类号： G02B5/02 , G02B5/04 , F21V8/00 , B29C59/16 , B32B3/30 , G02B5/20 , G02B6/00 , G02B6/12 , B29D11/00 , B29L11/00
CPC分类号： G02B5/04 , B29C59/16 , B29D11/00865 , B29L2011/00 , B32B3/30 , G02B5/02 , G02B5/0231 , G02B5/0263 , G02B5/045 , G02B5/20 , G02B6/00 , G02B6/0036 , G02B6/0053 , G02B6/0058 , G02B6/12 , Y10T428/24174 , Y10T428/24479 , Y10T428/2457 , Y10T428/24612
摘要： The present invention relates to a 3-dimensional complex multilayer structure. The 3-dimensional complex multilayer structure includes a first pattern and a second pattern having different thicknesses formed on one or both surfaces of a plate. The first pattern is selected from the group consisting of parallel lines, parallel curves, parallel zigzag lines, and combinations thereof which do not meet each other. The second pattern is not parallel to the first pattern and is selected from the group consisting of parallel lines, parallel curves, parallel zigzag lines, and combinations thereof which do not meet each other. The interfaces between the first pattern and the second pattern form figures selected from the group consisting of polygons, circles, ellipses, and combinations thereof. The figures are repetitively formed on one or both surfaces of the plate. The 3-dimensional complex multilayer structure includes different complex patterns, whereas a conventional device has a kind of simple pattern. The 3-dimensional complex multilayer structure of the present invention can be manufactured by a simple process. Therefore, the 3-dimensional complex multilayer structure of the present invention can find application in various fields, including optical components for displays (e.g., light guide plates, diffusion plates, prisms, and color filters), next generation displays and display devices (e.g., TFTs, OTFTs, oxide TFTs, flexible displays, and transparent displays), next generation 3-dimensional semiconductors, dry adhesion based on the use of fine ciliary structures, micro/nano piezoelectric devices, lighting optical components, and biocell/virus research using micropatterns.

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