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1. 发明申请

WO2010090429A3 METHOD FOR MANUFACTURING AN OPTICAL FILTER FOR A STEREOSCOPIC IMAGE DISPLAY DEVICE 审中-公开
标题翻译：用于制造立体图像显示装置的光学滤波器的方法
公开(公告)号：WO2010090429A3
公开(公告)日：2010-10-28
申请号：PCT/KR2010000637
申请日：2010-02-02
申请人： LG CHEMICAL LTD , KIM SIN-YOUNG , PARK MOON-SOO , JEON BYOUNG-KUN , HAN SANG-CHOLL , SHIN BU-GON , YOON HYUK
发明人： KIM SIN-YOUNG , PARK MOON-SOO , JEON BYOUNG-KUN , HAN SANG-CHOLL , SHIN BU-GON , YOON HYUK
IPC分类号： G02B27/22 , G02B5/30 , G02F1/1337
CPC分类号： G02F1/133788 , G02B5/3083 , G02B27/2214 , G02B27/26 , G02F1/1303 , G02F2001/133538
摘要： The present invention relates to a method for manufacturing an optical filter for a stereoscopic image display device, which involves forming an alignment film having different alignment directions in micro areas through a single continuous photo alignment process. The method comprises the steps of: forming a polymer film on a substrate; placing, on the polymer film, a pattern mask in which a light-transmitting area and a light-shielding area are staggered and alternately formed in the vertical and horizontal directions to enable different types of polarized light to selectively pass, placing, on the pattern mask, a polarizing plate having two areas for enabling two different types of polarized light to pass therethrough, and irradiating ultraviolet rays onto the polymer film from above the polarizing plate to form alignment film having different alignment directions in micro areas of the polymer film; and forming a phase delay layer on the alignment film. The method according to the present invention provides different orientations in micro areas of the polymer film using one pattern mask sheet and through a single continuous light irradiation process, thereby simplifying the process of forming the alignment film having different light alignment directions in micro areas of the polymer film. Thus, the yield rate and productivity in manufacturing the optical filter for the stereoscopic image display device can be improved.
摘要翻译：本发明涉及一种用于立体图像显示装置的滤光器的制造方法，其包括通过单次连续的光取向工艺在微区域中形成具有不同取向方向的取向膜。该方法包括以下步骤：在基底上形成聚合物膜; 在聚合物膜上放置图案掩模，其中透光区域和遮光区域在垂直和水平方向上交错地交替形成，以使不同类型的偏振光能够选择性地通过，放置在图案上掩模，具有用于使两种不同类型的偏振光通过的两个区域的偏振片，以及从偏振片上方向紫外线照射到聚合物膜上，以在聚合物膜的微小区域中形成具有不同取向方向的取向膜; 并在取向膜上形成相位延迟层。根据本发明的方法使用一个图案掩模片和通过单个连续光照射工艺在聚合物膜的微小区域中提供不同的取向，从而简化了在具有不同的光取向方向上形成具有不同的光取向方向的取向膜的工艺聚合物膜。因此，可以提高立体图像显示装置的光学滤波器的制造的成品率和生产率。

2. 发明申请

WO2011037323A3 HIGH ULTRAVIOLET TRANSMITTING DOUBLE-LAYER WIRE GRID POLARIZER FOR FABRICATING PHOTO-ALIGNMENT LAYER AND FABRICATION METHOD THEREOF 审中-公开
标题翻译：用于制造光对准层的高紫外线透射双层线栅偏光器及其制造方法
公开(公告)号：WO2011037323A3
公开(公告)日：2011-07-07
申请号：PCT/KR2010005647
申请日：2010-08-24
申请人： LG CHEMICAL LTD , KIM JAE-JIN , KIM SIN-YOUNG , SHIN BU-GON , KIM TAE-SU
发明人： KIM JAE-JIN , KIM SIN-YOUNG , SHIN BU-GON , KIM TAE-SU
IPC分类号： G02B5/30 , G02B1/10
CPC分类号： G02B5/3058 , Y10T428/1005 , Y10T428/2457
摘要： The present invention relates to a high ultraviolet transmitting double wire grid polarizer for fabricating a photo-alignment layer and a fabrication method thereof for improving the fabrication efficiency of the photo-alignment layer. More specifically, the invention provides a high ultraviolet transmitting double wire grid polarizer comprising: a substrate; a reflection preventing layer which is formed on the substrate; a patterned photosensitive material layer which is formed on the reflection preventing layer; and double metal thin film layers which are respectively formed on the photosensitive material layer and the reflection preventing layer. Further, the invention provides a fabrication method of a high ultraviolet transmitting double wire grid polarizer, the method comprises the steps of: forming a reflection preventing layer on a substrate; forming a photo sensitive material layer by applying photoresist to the top of the reflection preventing layer; forming a wire grid pattern by developing the photosensitive material layer after selectively exposing the photosensitive material layer according to a pattern that is formed by the laser interference light; and depositing metal on the wire grid pattern. Thus, the invention smoothly forms a wire grid by using the reflection preventing layer when the double wire grid polarizer is fabricated, and cuts down the production cost with no need to perform a dry etching process since the metal is deposited after the wire grid of the photosensitive material layer is formed. Further, compared with the existing single wire grid polarizer, the invention improves transmittance and polarization of the ultraviolet region, thereby enhancing the efficiency of the fabrication process of the photo-alignment layer.
摘要翻译：本发明涉及用于制造光取向层的高紫外线透射双线栅偏振器及其制造方法，用于提高光取向层的制造效率。更具体地说，本发明提供了一种高紫外线透射双线栅偏振器，包括：衬底; 形成在基板上的防反射层; 图案化的感光材料层，其形成在防反射层上; 以及分别形成在感光材料层和防反射层上的双金属薄膜层。进一步地，本发明提供一种高紫外透射双线栅偏光片的制作方法，所述方法包括以下步骤：在基板上形成反射防止层; 通过将光致抗蚀剂涂覆到防反射层的顶部来形成光敏材料层; 根据由激光干涉光形成的图案在选择性曝光感光材料层之后通过显影感光材料层而形成线栅图案; 并在线栅图案上沉积金属。因此，本发明在制造双线栅偏振器时通过使用防反射层来平滑地形成线栅，并且由于金属沉积在线栅之后而不需要执行干法蚀刻工艺，因此降低了生产成本感光材料层形成。进一步地，与现有的单线格栅偏光片相比，本发明提高了紫外区域的透过率和偏振度，从而提高了光取向层制作工艺的效率。

3. 发明申请

WO2011049326A3 PATTERNED RETARDATION FILM AND METHOD FOR MANUFACTURING THE SAME 审中-公开
标题翻译：图案化延迟膜及其制造方法
公开(公告)号：WO2011049326A3
公开(公告)日：2011-11-03
申请号：PCT/KR2010007055
申请日：2010-10-14
申请人： LG CHEMICAL LTD , LEE DAE-HEE , KIM SIN-YOUNG , PARK MOON-SOO
发明人： LEE DAE-HEE , KIM SIN-YOUNG , PARK MOON-SOO
IPC分类号： G02F1/13363 , G02F1/1335
CPC分类号： G02B5/3083 , G02F2413/09
摘要： A patterned retardation film includes: a substrate; a first alignment film and a second alignment film disposed on the substrate, processed by different alignment processes and having different alignment directions; and a liquid crystal layer disposed on the first alignment film and the second alignment film, wherein the liquid crystal layer is patterned into a first region, which is aligned by the first alignment film, and a second region, which is aligned by the second alignment film.
摘要翻译：图案化延迟膜包括：基板; 设置在基板上的第一取向膜和第二取向膜，通过不同的取向处理并具有不同的取向方向; 以及设置在第一取向膜和第二取向膜上的液晶层，其中液晶层被图案化为由第一取向膜排列的第一区域和通过第二取向对准的第二区域电影。

4. 发明申请

WO2006062352A9 A HOMEOTROPIC ALIGNMENT LIQUID CRYSTAL FILM WITHOUT ALIGNMENT LAYER AND METHOD FOR PREPARING THE SAME 审中-公开
标题翻译：无对准层的家庭对比液晶薄膜及其制备方法
公开(公告)号：WO2006062352A9
公开(公告)日：2009-12-10
申请号：PCT/KR2005004179
申请日：2005-12-07
申请人： LG CHEMICAL LTD , KIM EUN-KYUNG , LEE DAE-HEE , PARK MOON-SOO , CHAE SEUNG-HUN , KIM SIN-YOUNG
发明人： KIM EUN-KYUNG , LEE DAE-HEE , PARK MOON-SOO , CHAE SEUNG-HUN , KIM SIN-YOUNG
IPC分类号： C07C1/00 , C09K19/00 , C09K19/56 , G02F1/33
CPC分类号： G02F1/133703 , C09K19/3098 , C09K19/54 , C09K19/56 , C09K2019/0448 , C09K2019/528 , Y10T428/10
摘要： Disclosed is a homeotropic alignment liquid crystal film without an alignment layer and a method for preparing the same. More specifically, the present invention relates to a homeotropic alignment liquid crystal film without using a separate alignment layer to induce a homeotropic alignment of the liquid crystal in which a liquid crystal layer has a homeotropic alignment property by coating a polymerizable and reactive liquid crystalline mixture solution including a predetermined surfactant on a plastic substrate whose surface are hydrophilic-treated, and drying and UV irradiating the mixture solution; a method for preparing the same. The homeotropic alignment liquid crystal film prepared according to the present invention may be very useful as a major component of a viewing-angle compensation film and a retardation film, etc. in LCD, and has advantages of simplicity of the manufacturing process, its shortened manufacturing time, its mass production, etc.
摘要翻译：公开了没有取向层的垂直取向液晶膜及其制备方法。更具体地说，本发明涉及一种垂直取向液晶膜，其不使用单独的取向层，以通过涂布可聚合和反应性液晶混合物溶液来引起其中液晶层具有垂直取向性质的液晶的垂直取向在表面经过亲水处理的塑料基材上包含预定的表面活性剂，并对该混合溶液进行干燥和UV照射; 其制备方法。根据本发明制备的垂直取向液晶膜可以作为LCD中的视角补偿膜和延迟膜等的主要成分非常有用，并且具有制造工艺简单，缩短制造的优点时间，批量生产等

5. 发明申请

WO2008030024A9 DICHROIC DYE FOR POLARIZATION FILM, COMPOSITION COMPRISING THE SAME FOR POLARIZATION FILM, METHOD FOR FORMING POLARIZATION PLATE AND POLARIZATION PLATE PREPARED THEREBY 审中-公开
标题翻译：用于偏振膜的二色性染料，包含其的偏振片的组合物，形成偏振片的方法和制备的极化片
公开(公告)号：WO2008030024A9
公开(公告)日：2008-09-18
申请号：PCT/KR2007004255
申请日：2007-09-04
申请人： LG CHEMICAL LTD , CHO YONG-IL , YU JEONG-SU , KIM EUN-KYUNG , KIM SIN-YOUNG
发明人： CHO YONG-IL , YU JEONG-SU , KIM EUN-KYUNG , KIM SIN-YOUNG
IPC分类号： C09B46/00
CPC分类号： C09B31/062 , C09B5/48 , C09B5/62 , C09B7/00 , C09B17/02 , C09B23/0091 , C09B23/105 , C09B23/107 , C09B55/003 , C09B55/007 , C09B56/04 , C09B57/00 , C09B57/12 , C09B69/106 , C09B69/107 , C09B69/109 , G02B5/223 , G02B5/3016 , Y10T428/10
摘要： Disclosed are a new dichroic dye having liquid crystal properties and dichroic properties and capable of being used for forming a polarization film with excellent heat resistance, durability, and polarizing properties, a composition including the same for a polarization film, a method for forming a polarization plate with excellent durability using the composition, and a polarization plate prepared thereby. The new dichroic dye has a structure of R1-L1-(M,L,D) (where, D is a dichroic structure, M is a structure with liquid crystal properties, Rl is a reactive end functional group, and L and Ll are linking structures). The composition for a polarization film includes the dichroic dye. the dichroic dye In the method for forming the polarization plate, the composition for a polarization film is applied to a substrate and cured to prepare the polarization plate. The polarization plate has excellent dichroic ratio, heat resistance, durability, and polarizing properties.
摘要翻译：公开了一种具有液晶性质和二色性的新型二色性染料，其能够用于形成具有优异的耐热性，耐久性和偏振性的偏振膜，包含其的组合物用于偏振膜，形成极化的方法使用该组合物具有优异的耐久性的板，以及由其制备的偏光板。新的二色性染料具有R1-L1-（M，L，D）的结构（其中，D是二向色结构，M是具有液晶性质的结构，R1是反应性末端官能团，L和L1是连接结构）。用于偏振膜的组合物包括二色染料。二色性染料在形成偏光板的方法中，将偏光膜的组成物施加到基板上并固化以制备偏光板。偏光板具有优异的二色性比，耐热性，耐久性和偏光性。

6. 发明专利

DE112007001910T5 未知
公开(公告)号：DE112007001910T5
公开(公告)日：2009-10-22
申请号：DE112007001910
申请日：2007-09-04
申请人： LG CHEMICAL LTD
发明人： CHO YONG-IL , YU JEONG-SU , KIM EUN-KYUNG , KIM SIN-YOUNG
IPC分类号： C09B46/00
摘要： Disclosed are a new dichroic dye having liquid crystal properties and dichroic properties and capable of being used for forming a polarization film with excellent heat resistance, durability, and polarizing properties, a composition including the same for a polarization film, a method for forming a polarization plate with excellent durability using the composition, and a polarization plate prepared thereby. The new dichroic dye has a structure of R1-L1-(M,L,D) (where, D is a dichroic structure, M is a structure with liquid crystal properties, R1 is a reactive end functional group, and L and L1 are linking structures). The composition for a polarization film includes the dichroic dye. In the method for forming the polarization plate, the composition for a polarization film is applied to a substrate and cured to prepare the polarization plate. The polarization plate has excellent dichroic ratio, heat resistance, durability, and polarizing properties.

8. 发明专利

DE112007001910B4 Dichroitischer Farbstoff für Polarisationsfilm, Zusammensetzung, die denselben umfasst, für Polarisationsfilm, Verfahren zur Ausbildung einer Polarisationsplatte und dadurch hergestellte Polarisationsplatte 未知
公开(公告)号：DE112007001910B4
公开(公告)日：2018-05-30
申请号：DE112007001910
申请日：2007-09-04
申请人： LG CHEMICAL LTD
发明人： CHO YONG-IL , YU JEONG-SU , KIM EUN-KYUNG , KIM SIN-YOUNG
IPC分类号： C09B46/00 , C09K19/60 , G02F1/1335
摘要： Dichroitischer Farbstoff, der eine Struktur R1-L1-(M,L,D) umfasst, wobei D wenigstens eine dichroitische Struktur mit Azo-Farbstoff-Struktur ist, die ausgewählt ist aus der Gruppe, bestehend ausworin R1-R16 Substituenten sind, die ausgewählt sind aus der Gruppe, bestehend aus Wasserstoff, gerad- oder verzweigtkettigen C1-C20-Alkylgruppen, Cyclopropyl, Cyclopentyl, Cyclohexyl, 1-Norbornyl und 1-Adamantyl, Halogen ausgewählt aus der Gruppe bestehend aus Fluor, Chlor, Brom und Iod, C1-C20-Alkoxygruppen, C1-C20-aliphatischen Aminogruppen, C1-C20-aliphatischen Iminogruppen, C1-C20-aliphatischen Alkyliminogruppen, C6-C20-Arylgruppen, C5-C20-Heteroringgruppen, , C1-C20-Carboxyl, Carbamoyl, C1-C20-aliphatischen Oxycarbonylgruppen, C6-C20-Aryloxycarbonylgruppen, C1-C20-Acylgruppen, Hydroxyl, C1-C20-aliphatischen Oxygruppen, C6-C20-Aryloxygruppen, C1-C20-Acyloxygruppen, Carbamoyloxygruppen, C5-C20-Heteroringoxygruppen, C1-C20-aliphatischen Oxycarbonyloxygruppen, N-C1-C20-Alkylacylaminogruppen, Carbamoylaminogruppen, Sulfamoylaminogruppen, C1-C20-aliphatischen Oxycarbonylaminogruppen, C6-C20-Aryloxycarbonylaminogruppen, C1-C20-aliphatischen Sulfonylaminogruppen, C5-C20-Arylsulfonylaminogruppen, C1-C20-aliphatischen Thiogruppen, C6-C20-Arylthiogruppen, C1-C20-aliphatischen Sulfonylgruppen, C6-C20-Arylsulfonylgruppen, Sulfamoylgruppen, Sulfogruppen und Imidgruppen; und R5 und R6 oder R7 und R8 verbunden sein können, um Phenylgruppen zu bilden,M eine Struktur mit Flüssigkristalleigenschaften ist, die ausgewählt ist aus der Gruppe, bestehend ausworin Z für -COO-, -OCO-, -CHCH-, -CH=CH-, -C=C- oder eine Einfachbindung steht und R1-R12 Substituenten sind, die ausgewählt sind aus der Gruppe, bestehend aus Wasserstoff, gerad- oder verzweigtkettigen C1-C20-Alkylgruppen, Cyclopropyl, Cyclopentyl, Cyclohexyl, 1-Norbornyl und 1-Adamantyl, Halogen ausgewählt aus der Gruppe bestehend aus Fluor, Chlor, Brom und Iod, C1-C20-Alkoxygruppen, C1-C20-aliphatischen Aminogruppen, C1-C20-aliphatischen Iminogruppen, C1-C20-aliphatischen Alkyliminogruppen, C6-C20-Arylgruppen, C5-C20-Heteroringgruppen, Cyano, C1-C20-Carboxyl, Carbamoyl, C1-C20-aliphatischen Oxycarbonylgruppen, C6-C20-Aryloxycarbonylgruppen, C1-C20-Acylgruppen, Hydroxyl, C1-C20-aliphatischen Oxygruppen, C6-C20-Aryloxygruppen, C1-C20-Acyloxygruppen, Carbamoyloxygruppen, C5-C20-Heteroringoxygruppen, C1-C20-aliphatischen Oxycarbonyloxygruppen, N-C1-C20-Alkylacylaminogruppen, Carbamoylaminogruppen, Sulfamoylaminogruppen, C1-C20-aliphatischen Oxycarbonylaminogruppen, C6-C20-Aryloxycarbonylaminogruppen, C1-C20-aliphatischen Sulfonylaminogruppen, C5-C20-Arylsulfonylaminogruppen, C1-C20-aliphatischen Thiogruppen, C6-C20-Arylthiogruppen, Cl-C20-aliphatischen Sulfonylgruppen, C6-C20-Arylsulfonylgruppen, Sulfamoylgruppen, Sulfogruppen und Imidgruppen,R1 eine reaktive endfunktionelle Gruppe ist, die ausgewählt ist aus der Gruppe, bestehend ausund L1 und L Verknüpfungsstrukturen sind, die R1, M und D verbinden, gleich oder verschieden sind und ausgewählt sind aus der Gruppe, bestehend auswobei n für eine ganze Zahl von 1 bis 12 steht; wobei die Struktur im Block eine Struktur M mit Flüssigkristalleigenschaften und ein bis drei dichroitische Strukturen (D1, D2 und D3) einschließt; wobei, wenn die Struktur zwei oder mehr dichroitische Strukturen einschließt, die dichroitischen Strukturen direkt miteinander oder durch eine Verknüpfungsstruktur L verbunden sind; die Struktur M mit Flüssigkristalleigenschaften mit den benachbarten dichroitischen Strukturen (D1, D2 und D3) durch die Verknüpfungsstruktur L verbunden ist, wobei die Struktur M mit Flüssigkristalleigenschaften und die dichroitischen Strukturen D ungeachtet der Reihenfolge miteinander verbunden sind und die dichroitischen Strukturen (D1, D2 und D3) verschieden voneinander sind.

9. 发明公开

EP2372433A4 METHOD FOR MANUFACTURING AN OPTICAL FILTER FOR A STEREOSCOPIC IMAGE DISPLAY DEVICE 有权转让
标题翻译：制造用于立体视光学滤波器
公开(公告)号：EP2372433A4
公开(公告)日：2012-06-20
申请号：EP10738713
申请日：2010-02-02
申请人： LG CHEMICAL LTD
发明人： KIM SIN-YOUNG , PARK MOON-SOO , JEON BYOUNG-KUN , HAN SANG-CHOLL , SHIN BU-GON , YOON HYUK
IPC分类号： G02B27/22 , G02B5/30 , G02B27/26 , G02F1/1337 , H04N13/04
CPC分类号： G02F1/133788 , G02B5/3083 , G02B27/2214 , G02B27/26 , G02F1/1303 , G02F2001/133538
摘要： The present invention relates to a method for manufacturing an optical filter for a stereoscopic image display device, which forms an alignment layer having different orientating directions along a fine region via a one-time continuous photo orientation process. The method comprising: forming a polymer layer on a substrate; a photo-orienting step comprising positioning a patterned mask above the polymer layer, the patterned mask having alternating light transmission regions and light shield regions arranged in both horizontal and a vertical directions to selectively transmit different polarized light, positioning a polarizer above the patterned mask where the polarizer has two distinguishable regions that transmit different polarized light, and downwardly irradiating UV light onto the polymer layer from above the polarizer, thereby forming an alignment layer having different orientating directions according to fine regions of the polymer layer; and forming a retardation layer on the alignment layer. The alignment layer in which the fine regions with different orientating directions are formed alternately and continuously is obtained via a one-time continuous photo-orientation process. Therefore, the photo-orientation process and the method for manufacturing the optical filter are simplified in comparison with the conventional art. As a result, the process yield and productivity in the manufacturing of an optical filter for a 3D image display device are improved.

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