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    • 1. 发明专利
    • Continuous production method for optical display panel and continuous production system for optical display panel
    • 用于光学显示面板的连续生产方法和用于光学显示面板的连续生产系统
    • JP2014066909A
    • 2014-04-17
    • JP2012212735
    • 2012-09-26
    • Nitto Denko Corp日東電工株式会社
    • HIRATA SATOSHIUMEMOTO SEIJIHATA KAZUYAKONDO SEIJI
    • G02F1/1335G02B5/30G02F1/13
    • G02F1/1333G02F1/1303G02F1/133528
    • PROBLEM TO BE SOLVED: To provide a continuous production method for an optical display panel, by which high bonding accuracy is stably achieved when an optical film is bonded to an optical cell, and to provide a system therefor.SOLUTION: A continuous production method for an optical display panel comprises the step of: conveying a carrier film 12 on which an optical film 13 is laid via an adhesive; folding the conveyed carrier film 12 with the carrier film 12 inside, thereby peeling the optical film 13 from the carrier film 12 together with the adhesive; conveying an optical cell P and bonding the optical film 13, peeled from the carrier film 12, to the optical cell P via the adhesive; and peeling the carrier film 12 in the peeling step until the front end of the optical film 12 reaches a head exposing position 61 located further than a detection position 62 for alignment, and subsequently pulling the front end of the optical film 13 back to the detection position 62.
    • 要解决的问题:提供一种用于光学显示面板的连续制造方法,其中当将光学膜粘合到光学单元上时,其可以稳定地实现高粘合精度,并提供其系统。解决方案:一种连续制造方法 光学显示面板包括以下步骤:通过粘合剂输送其上放置光学膜13的载体膜12; 将输送的载体膜12与载体膜12折叠在一起,从而与粘合剂一起从载体膜12剥离光学膜13; 输送光电池P,并将从载体膜12剥离的光学膜13通过粘合剂粘合到光电池P; 并且在剥离步骤中剥离载体膜12直到光学膜12的前端到达位于比用于对准的检测位置62更远的头部曝光位置61,随后将光学膜13的前端拉回到检测 位置62。
    • 2. 发明专利
    • Manufacturing system of liquid crystal display element, and method for manufacturing the element
    • 液晶显示元件的制造系统及其制造方法
    • JP2012242607A
    • 2012-12-10
    • JP2011112532
    • 2011-05-19
    • Nitto Denko Corp日東電工株式会社
    • HATA KAZUYAHIRATA SATOSHIKONDO SEIJIUMEMOTO SEIJI
    • G02F1/1335G02F1/13
    • PROBLEM TO BE SOLVED: To provide a manufacturing system of a liquid crystal display element and a method for manufacturing the element, capable of increasing stability in a contact portion between a peeling body and a carrier film to suppress air bubbles when sticking a sheet piece of a polarization film onto a liquid crystal panel.SOLUTION: The manufacturing system of the liquid crystal display element comprises: a peeling body for peeling a long carrier film from a polarization film by being wound by the carrier film on which a sheet piece of the polarization film including an adhesive is formed; wind-up means for winding up the carrier film peeled by the peeling body; and sticking means for sticking an adhesive surface of the adhesive of the polarization film onto a liquid crystal panel. In the peeling body, at least a surface on an upstream side of a tip end of the peeling body as a boundary among surfaces of the peeling body in contact with the carrier film is a curved surface projected to a conveyance direction of the carrier film, and the projecting curved surface of the peeling body is disposed so as to push up the carrier film.
    • 要解决的问题:提供一种液晶显示元件的制造系统和该元件的制造方法,能够提高剥离体与载体膜之间的接触部分的稳定性,以便在粘贴时抑制气泡 将偏振膜的片材片放置在液晶面板上。 解决方案:液晶显示元件的制造系统包括:剥离体,用于通过由形成有包括粘合剂的偏振膜的片材的载体膜缠绕而从偏振膜剥离长载体膜 ; 用于卷绕由剥离体剥离的载体膜的卷绕装置; 以及用于将偏振膜的粘合剂的粘合剂表面粘附到液晶面板上的粘贴装置。 在剥离体中,剥离体的前端的至少上游侧的表面作为与载体膜接触的剥离体的表面之间的边界,是向载体膜的输送方向投影的曲面, 并且设置剥离体的突出弯曲表面以将载体膜推上。 版权所有(C)2013,JPO&INPIT
    • 3. 发明专利
    • Manufacturing system of liquid crystal display
    • 液晶显示器的制造系统
    • JP2012098544A
    • 2012-05-24
    • JP2010246496
    • 2010-11-02
    • Nitto Denko Corp日東電工株式会社
    • HATA KAZUYAUMEMOTO SEIJINAKAZONO TAKUYA
    • G02F1/13G02B5/30G02F1/1335G09F9/00
    • B32B37/226B32B39/00B32B2457/202Y10T156/1339Y10T156/1702Y10T156/1712Y10T156/1744Y10T156/1746
    • PROBLEM TO BE SOLVED: To provide a manufacturing system of liquid crystal displays having high productivity per installation space of manufacturing devices and capable of improving the safety by separately disposing a conveying passage from a working passage.SOLUTION: In a pair of manufacturing devices 100, panel conveying lines L2 are disposed in the same direction, and introduction parts 101 and 102 of continuous rolls R1 and R2 of one manufacturing device 100 and the introduction parts 101 and 102 of the continuous rolls R1 and R2 of the other manufacturing device 100 are disposed at one same side inside or outside a pair of film conveying lines L1. This constitution can dispense with such a problem to dispose a conveying passage P100 and a working passage P200 of the continuous rolls R1 and R2 on a same passage, thus improving the productivity per installation space of the manufacturing devices 100. In this case, the conveying passage P100 and the working passage P200 may be separately disposed so as to improve the safety.
    • 要解决的问题:提供一种液晶显示器的制造系统,其制造装置的每个安装空间的生产率高,并且能够通过从工作通道单独设置输送通道来提高安全性。 解决方案:在一对制造装置100中,面板输送线L2沿相同的方向设置,一个制造装置100的连续辊R1和R2的导入部101和102以及导向部101和102 另一个制造装置100的连续辊R1和R2设置在一对膜输送线L1的内侧或外侧的同一侧。 这种结构可以避免这样的问题,将连续辊R1和R2的输送通道P100和工作通道P200设置在同一通道上,从而提高制造装置100的每个安装空间的生产率。在这种情况下,输送 通道P100和工作通道P200可以分开设置,以提高安全性。 版权所有(C)2012,JPO&INPIT
    • 5. 发明专利
    • Manufacturing system and manufacturing method for liquid crystal display element
    • 液晶显示元件的制造系统和制造方法
    • JP2012063707A
    • 2012-03-29
    • JP2010209803
    • 2010-09-17
    • Nitto Denko Corp日東電工株式会社
    • HIRATA SATOSHIKONDO SEIJIHATA KAZUYA
    • G02F1/1335B65G49/06G02F1/13
    • G02F1/1303G02F1/133528
    • PROBLEM TO BE SOLVED: To provide a manufacturing system and a manufacturing method for a liquid crystal display element capable of reducing the number of processes.SOLUTION: A manufacturing system for a liquid crystal display element comprises a panel reversal mechanism 200 for reversing a liquid crystal panel W to which one sheet piece of an optical functional film has been bonded, before the other sheet piece of an optical functional film is bonded. By the panel reversal mechanism 200, the liquid crystal panel W is reversed around one axis (an axis A1) which is not parallel to either long sides or short sides of the liquid crystal panel W so that positional relation of the long sides and the short sides of the liquid crystal panel W is reversed. Thus, the number of processes can be reduced since the same effect as a case where the liquid crystal panel W is turned upside down and rotated is attained by a single motion.
    • 要解决的问题:提供一种能够减少处理次数的液晶显示元件的制造系统和制造方法。 解决方案:一种用于液晶显示元件的制造系统包括:面板反转机构200,用于将光学功能膜的一个片材与其粘合的液晶面板W反转, 胶片粘合。 通过面板反转机构200,液晶面板W围绕与液晶面板W的长边或短边不平行的一个轴(轴线A1)反转,使得长边和短边的位置关系 液晶面板W的两侧相反。 因此,由于通过单次运动实现了与液晶面板W翻转并旋转的情况相同的效果,因此可以减少处理次数。 版权所有(C)2012,JPO&INPIT
    • 6. 发明专利
    • Manufacturing method of polarizer, polarizer, polarizing plate, optical film and image display apparatus
    • 极化器,极化器,极化板,光学膜和图像显示装置的制造方法
    • JP2008281877A
    • 2008-11-20
    • JP2007127316
    • 2007-05-11
    • Nitto Denko Corp日東電工株式会社
    • HATA KAZUYAUMEMOTO SEIJIHATSUDA RYOTAHIRATA SATOSHI
    • G02B5/30B29C55/08B29K29/00B29L7/00B29L9/00B29L11/00G02F1/1335
    • PROBLEM TO BE SOLVED: To provide a manufacturing method of a polarizer by which the large-sized polarizer of high alignment can be obtained and the polarizer where optical fall of optical characteristics of the polarizer is suppressed can be manufactured.
      SOLUTION: The manufacturing method of the polarizer has a stretching process in a width direction for stretching a film 1 in the width direction by grasping both ends in the width direction of the hydrophilic polymer film 1 with grasping means 2, advancing the grasping means 2 in a longitudinal direction of the film 1 and further moving at least one of the grasping means 2 grasping both ends of the film 1 outside in the width direction of the film 1 and a dyeing process for performing dyeing treatment of the film 1 with a dichroic substance. The stretching process in the width direction is performed at least in a process between the dyeing process and a process other than the dying process. Further the manufacturing method of the polarizer has a contraction process in the longitudinal direction for contracting the film 1 in the longitudinal direction. The contraction process in the longitudinal direction is performed by local heating of the film 1 after the stretching process in the width direction.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:提供一种可以获得可以获得高取向的大型偏振片的偏振片的制造方法,并且可以制造抑制偏振片的光学特性的光学下降的偏振片。 解决方案:偏振片的制造方法通过用夹持装置2抓住亲水性聚合物膜1的宽度方向的两端,在宽度方向上拉伸膜1在宽度方向上进行拉伸处理,使夹持 在膜1的长度方向上的装置2,并且进一步使夹持装置2中的至少一个抓住膜1的宽度方向外侧的膜2的外侧和进行膜1的染色处理的染色处理, 二色性物质。 至少在染色处理和除了染色处理之外的处理之间的过程中进行宽度方向的拉伸处理。 此外,偏振片的制造方法在长度方向上具有收缩处理,以使膜1沿纵向收缩。 纵向收缩过程通过在宽度方向的拉伸处理之后薄膜1的局部加热来进行。 版权所有(C)2009,JPO&INPIT
    • 7. 发明专利
    • Liquid crystal panel and liquid crystal display employing same
    • 使用液晶面板和液晶显示器
    • JP2008033222A
    • 2008-02-14
    • JP2007003225
    • 2007-01-11
    • Nitto Denko Corp日東電工株式会社
    • KAWAMOTO IKUROUMEMOTO SEIJIKAMIJO TAKUJIYONEZAWA HIDEYUKIHATA KAZUYAKOBAYASHI KENTARO
    • G02B5/30G02F1/1335G02F1/13363
    • PROBLEM TO BE SOLVED: To provide a liquid crystal panel contributive to thinning and having excellent optical characteristics, and to provide a liquid crystal display. SOLUTION: The liquid crystal panel comprises a liquid crystal cell (40), a first polarizer (11) arranged on one side of the liquid crystal cell, a second polarizer (12) arranged on the other side of the liquid crystal cell, a first optical compensation layer (21) and a first negative C plate (31) arranged between the first polarizer and the liquid crystal cell, and a second negative C plate (32) and a second optical compensation layer (22) arranged between the liquid crystal cell and the second polarizer. The first optical compensation layer (21) is arranged between the first polarizer (11) and the first negative C plate (31), and the second optical compensation layer (22) is arranged between the second negative C plate (32) and the second polarizer (12). The first and second optical compensation layers (21, 22) are coating layers functioning as λ/4 plates and respectively have a thickness of 0.3-3 μm. The first and second negative C plates (31, 32) are coating layers and respectively have a thickness of 0.5-10 μm. COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:提供有助于减薄并具有优异的光学特性的液晶面板,并提供液晶显示器。 解决方案:液晶面板包括液晶单元(40),布置在液晶单元一侧的第一偏振器(11),布置在液晶单元另一侧的第二偏振器(12) 布置在第一偏振器和液晶单元之间的第一光学补偿层(21)和第一负C板(31),以及布置在第一偏光器和液晶单元之间的第二负C板(32)和第二光学补偿层 液晶单元和第二偏振器。 第一光学补偿层(21)设置在第一偏振片(11)和第一负C板(31)之间,第二光学补偿层(22)设置在第二负C板(32)与第二偏光板 偏振器(12)。 第一和第二光学补偿层(21,22)是用作λ/ 4板并且分别具有0.3-3μm的厚度的涂层。 第一和第二负C板(31,32)是涂层,并且分别具有0.5-10μm的厚度。 版权所有(C)2008,JPO&INPIT
    • 9. 发明专利
    • Manufacturing method of optical film
    • 光学膜的制造方法
    • JP2006235611A
    • 2006-09-07
    • JP2006014371
    • 2006-01-23
    • Nitto Denko Corp日東電工株式会社
    • HATA KAZUYAKAWAMOTO IKUROYONEZAWA HIDEYUKIKAMIJO TAKUJIUMEMOTO SEIJI
    • G02B5/30G02F1/1335G02F1/13363
    • G02F1/133784C08J7/18C08J2301/12C09K19/2007C09K2019/0448G02F1/133305
    • PROBLEM TO BE SOLVED: To provide a manufacturing method for manufacturing an optical film having uniform characteristics at a low cost. SOLUTION: This manufacturing method has a step of rubbing the surface of a long plastic film F by using a rubbing roll 4 wrapped in a napped cloth 4a, a step of coating liquid crystal molecules on the surface of the film, and a step of fixing the liquid crystal molecules. In the rubbing step, the film is supported and transferred by a conveyor belt 3 having metal surface, and some back-up rolls 5 are provided facing the rubbing roll for supporting the underside of the conveyor belt carrying the film. The rubbing intensity RS, defined in Formula (1), is set at 2,600 mm or larger, or more preferably, to 3,400 mm or larger. The Formula (1) is RS=N×M(1+2πr×nr/v). COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供一种以低成本制造具有均匀特性的光学膜的制造方法。 解决方案:该制造方法具有通过使用缠绕在起绒布4a中的摩擦辊4,在膜的表面上涂布液晶分子的步骤来摩擦长塑料膜F的表面的步骤, 固定液晶分子的步骤。 在摩擦步骤中,通过具有金属表面的传送带3将膜支撑和传送,并且设置面向摩擦辊的一些支撑辊5,用于支撑承载膜的传送带的下侧。 式(1)中定义的摩擦强度RS设定为2600mm以上,更优选为3,400mm以上。 公式(1)是RS = N×M(1 +2πr×nr / v)。 版权所有(C)2006,JPO&NCIPI
    • 10. 发明专利
    • Continuous manufacturing system of liquid crystal display element, and continuous manufacturing method of liquid crystal display element
    • 液晶显示元件的连续制造系统和液晶显示元件的连续制造方法
    • JP2013103322A
    • 2013-05-30
    • JP2011250871
    • 2011-11-16
    • Nitto Denko Corp日東電工株式会社
    • HATA KAZUYAKOSHIO SATOSHIKITADA KAZUOOHASHI HIROMICHI
    • B26D7/20B26D3/08B26D7/27G02F1/1335
    • B26D3/08B26D7/20G02F1/1303G02F1/133528
    • PROBLEM TO BE SOLVED: To provide a continuous manufacturing system of a liquid crystal display element, a continuous manufacturing method of the liquid crystal display element, and a half-cut device, capable of stably half-cutting an optical film laminated body low in rigidity and thickness with high quality.SOLUTION: The continuous manufacturing system of a liquid crystal display element includes: a half-cut device that leaves a carrier film in optical film laminates, cuts the optical film in its width direction, and forms a sheet piece of the optical film; and a sticking device that sticks the sheet piece peeled off from the carrier film to a liquid crystal panel. The half-cut device has a cutter and a pedestal opposed to the cutter. The pedestal has a laminated structure consisting of a first pedestal part near the cutter and a second pedestal part farther from the cutter, which has an elastic modulus higher than that of the first pedestal part.
    • 解决方案:为了提供液晶显示元件的连续制造系统,液晶显示元件的连续制造方法和半切割装置,能够稳定地半切割光学膜层叠体 刚性和厚度低,质量好。 解决方案:液晶显示元件的连续制造系统包括:将光学膜层叠体中的载体膜离开的半切装置,在宽度方向上切割光学膜,并形成光学膜片 ; 以及将从载体膜剥离的片材粘贴到液晶面板的粘贴装置。 半切装置具有切割器和与刀具相对的基座。 基座具有层叠结构,其包括靠近切割器的第一基座部分和离切割器更远的第二基座部件,其弹性模量高于第一基座部件的弹性模量。 版权所有(C)2013,JPO&INPIT