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1. 发明专利

JP2010131508A Coating method and coating device 审中-公开
标题翻译：涂料方法和涂料装置
公开(公告)号：JP2010131508A
公开(公告)日：2010-06-17
申请号：JP2008309004
申请日：2008-12-03
申请人： Olympus Corp , オリンパス株式会社
发明人： UZAWA KUNIHIKO
IPC分类号： B05D1/28 , B05C1/02 , B05C13/02
摘要： PROBLEM TO BE SOLVED: To provide a coating method and a coating device, for applying a coating material on an optical device having a cylindrical surface to be coated on the outer peripheral part, wherein the coating is carried out rapidly with stable film thickness. SOLUTION: A lens edge surface 1c of a lens body 1 is held in an elastically pressing state between coating rollers 7A and 7B which hold 1c the lens body 1 to rotate in the peripheral direction of the lens edge surface 1c and are provided to rotate in two directions around the axis parallel to the center axis Lc of the lens edge surface 1c. The coating material 20 is supplied on the roller surface 7a of the coating rollers 7a, 7B and the coating rollers 7A, 7B are rotated in the same direction to rotate the lens body 1 around the center axis Lc of the lens body 1 and the coating material 20 on the roller surface 7a is applied on the lens edge surface 1c of the lens body 1. After that, the coating roller 7A, 7B are rotated in the opposed direction to each other to retreat the lens body 1 from a position where it is held by the coating rollers 7A, 7B. COPYRIGHT: (C)2010,JPO&INPIT
摘要翻译：要解决的问题：为了提供一种涂布方法和涂布装置，用于将涂料施加在具有要涂覆的圆柱形表面的光学装置的外周部分上，其中涂层以稳定的膜快速进行厚度。解决方案：透镜体1的透镜边缘表面1c在保持1c的透镜体1沿着透镜边缘表面1c的周向旋转的涂布辊7A和7B之间保持弹性压制状态，并且设置围绕平行于透镜边缘表面1c的中心轴线Lc的轴线在两个方向上旋转。涂布材料20被供给到涂布辊7a，7B的辊表面7a上，并且涂布辊7A，7B沿相同的方向旋转，以使透镜体1围绕透镜体1的中心轴线Lc旋转，涂层辊表面7a上的材料20被施加在透镜主体1的透镜边缘表面1c上。之后，涂布辊7A，7B沿彼此相反的方向旋转，以将透镜体1从其位置被涂布辊7A，7B保持。版权所有（C）2010，JPO＆INPIT

2. 发明专利

JP2010131554A Coating method and coating device 审中-公开
标题翻译：涂料方法和涂料装置
公开(公告)号：JP2010131554A
公开(公告)日：2010-06-17
申请号：JP2008311292
申请日：2008-12-05
申请人： Olympus Corp , オリンパス株式会社
发明人： UZAWA KUNIHIKO
IPC分类号： B05D3/00 , B05C1/02 , B05D1/28 , G02B1/10
摘要： PROBLEM TO BE SOLVED: To provide a coating method and a coating device, for applying a coating material on an optical device having a cylindrical surface to be coated on the outer peripheral part, wherein the coating is carried out rapidly with stable film thickness. SOLUTION: The coating method includes: an opposite arrangement step of using a circular coating mechanism 7 having an inner peripheral surface 7c switchable to an increased diameter state made larger than the outside diameter of the lens edge surface of 1c of the lens body 1 and a reduced diameter state made smaller than the outside diameter of the lens edge surface 1c each other and oppositely arranging the circular coating mechanism 7 having the inner peripheral surface 7c being in the increased diameter state to have a certain gap in the outer peripheral side of the lens edge surface 1c of the lens body 1; a diameter reducing step of reducing the diameter of the inner peripheral surface 7c of the circular coating mechanism 7 arranged in the outer peripheral surface side of the lens edge surface 1c of the lens body 1 by the opposite arrangement step; and a diameter increasing step of returning the inner peripheral surface 7c of the circular coating mechanism 7 which is turned into the reduced diameter state by the diameter reducing step to the increased diameter state. The coating material 20 is applied on the lens edge surface 1c in the diameter reducing step by supplying the coating material 20 to the inner peripheral surface 7c until the diameter reducing step is completed. COPYRIGHT: (C)2010,JPO&INPIT
摘要翻译：要解决的问题：为了提供一种涂布方法和涂布装置，用于将涂料施加在具有要涂覆的圆柱形表面的光学装置的外周部分上，其中涂层以稳定的膜快速进行厚度。解决方案：涂覆方法包括：使用圆形涂覆机构7的相反的布置步骤，该圆形涂覆机构7具有可切换到增大直径状态的内周表面7c，其大于透镜体的1c的透镜边缘表面的外径如图1所示，直径减小的状态小于透镜边缘面1c的外径，并且使内周面7c处于增大直径状态的圆形涂布机构7的相对配置在外周侧具有一定的间隙的透镜主体1的透镜边缘表面1c; 通过相反的布置步骤减小布置在透镜主体1的透镜边缘表面1c的外周表面侧中的圆形涂覆机构7的内周表面7c的直径的直径减小步骤; 以及直径增大步骤，使通过直径减小步骤变成减小直径状态的圆形涂覆机构7的内周面7c返回到增大直径状态。通过将涂料20供给到内周面7c，直到缩径工序完成，在直径缩小工序中，将涂料20涂布在透镜边缘面1c上。版权所有（C）2010，JPO＆INPIT

3. 发明专利

JP2008176104A Optical element, optical unit and optical apparatus 审中-公开
标题翻译：光学元件，光学单元和光学设备
公开(公告)号：JP2008176104A
公开(公告)日：2008-07-31
申请号：JP2007010079
申请日：2007-01-19
申请人： Olympus Corp , オリンパス株式会社
发明人： UZAWA KUNIHIKO
IPC分类号： G02B5/28 , A61B1/00 , G02B23/26
摘要： PROBLEM TO BE SOLVED: To increase the amount of transmitted light by extending full width at half maximum of a peak of transmittance of a long wavelength side. SOLUTION: An etalon type spectroscopic element is so structured as to oppositely arrange two optical elements having a multilayer film formed on the substrate in parallel to be able to change the arrangement interval between the optical elements. The etalon type spectroscopic element has a third transmittance characteristic L3 broad in the short wave side and a fourth transmittance characteristic L4a relatively sharp in the long wave side. The full width at half maximum of a peak P4a of the fourth transmittance characteristic L4a is made large by giving a peak to the transmittance of the optical element single body in a wave length area WL4 having the fourth transmittance characteristic L4a. COPYRIGHT: (C)2008,JPO&INPIT
摘要翻译：要解决的问题：通过延长长波长侧的透射率的峰值的半峰全宽度来增加透射光的量。＆lt; P＆gt;解决方案：标准具型分光元件被构造为相反地布置具有平行形成在基板上的多层膜的两个光学元件，以能够改变光学元件之间的布置间隔。标准具型分光元件在短波侧具有宽的第三透射特性L3，在长波侧具有相对尖锐的第四透射特性L4a。通过对具有第四透射率特性L4a的波长区域WL4中的光学元件单体的透射率给出峰值，使第四透射率特性L4a的峰值P4a的最大半峰宽变大。版权所有（C）2008，JPO＆INPIT

4. 发明专利

JP2008129504A Optical unit 审中-公开
标题翻译：光学单元
公开(公告)号：JP2008129504A
公开(公告)日：2008-06-05
申请号：JP2006316959
申请日：2006-11-24
申请人： Olympus Corp , オリンパス株式会社
发明人： UZAWA KUNIHIKO
IPC分类号： G02B5/28 , G02B21/00
摘要： PROBLEM TO BE SOLVED: To provide an optical unit which precisely takes-out only light of a desired wavelength band when changing spectral transmittance characteristic of a desired wavelength region while causing the spectral transmittance characteristic of the other wavelength region to retain the invariable state.
SOLUTION: An etalon-type optical element 16 has: a first spectral transmittance characteristic 28A, 28B in a first wavelength band 27; and a second spectral transmittance characteristic 31A, 31B in a second wavelength band 30 of the wavelength side shorter than the first wavelength band 27 with respect to the light made incident to the etalon-type optical element 16 in accordance with a thickness of air layer of the etalon-type optical element, wherein, when the thickness of air layer of the etalon-type optical element 16 is changed between 720 nm (first gap distance) and 520 nm (second gap distance), the first spectral transmittance characteristic 28A, 28B is changed and, on the other hand, the second spectral transmittance characteristic 31A, 31B is substantially invariable.
COPYRIGHT: (C)2008,JPO&INPIT
摘要翻译：要解决的问题：为了提供在改变期望波长区域的光谱透射率特性时精确地取出期望波长带的光的光学单元，同时使另一个波长区域的光谱透射特性保持不变州。标准准型光学元件16具有：第一波长带27中的第一光谱透射特性28A，28B; 以及相对于入射到标准具型光学元件16的光，根据空气层的厚度，在比第一波长带27短的波长侧的第二波长带30中的第二光谱透射特性31A，31B 标准具型光学元件，其中，当标准具型光学元件16的空气层的厚度在720nm（第一间隙距离）和520nm（第二间隙距离）之间）变化时，第一光谱透射率特性28A，28B 另一方面，第二光谱透射特性31A，31B基本上是不变的。版权所有（C）2008，JPO＆INPIT

5. 发明专利

JP2006171645A Optical multilayer film and optical element 审中-公开
标题翻译：光学多层膜和光学元件
公开(公告)号：JP2006171645A
公开(公告)日：2006-06-29
申请号：JP2004367840
申请日：2004-12-20
申请人： Olympus Corp , オリンパス株式会社
发明人： UZAWA KUNIHIKO
IPC分类号： G02B5/28
摘要： PROBLEM TO BE SOLVED: To provide an optical multilayer film which can prevent a substrate from curving or deforming, and secure sufficient lightness over a wide wavelength range, and to provide an optical element equipped with the same. SOLUTION: The optical element 1 comprises the substrate 2 made of a glass flat plate and the optical multilayer film 3 formed on a surface 2a of the substrate 2. The optical multilayer film 3 is formed, by alternately laminating twenty-two SiO 2 films as low refractive index films 4 and twenty-two Ta 2 O 2 films as high refractive index films 5, i.e. 44 layers in total; and the film of the 1st to 42th layers varies in density from 0.75 to 0.78, and the density of the film of the 43th layer and 44th layer is 0.99. COPYRIGHT: (C)2006,JPO&NCIPI
摘要翻译：要解决的问题：提供一种能够防止基板弯曲或变形并且在宽波长范围内确保足够的亮度的光学多层膜，并提供配备有该多层膜的光学元件。光学元件1包括由玻璃平板制成的基板2和形成在基板2的表面2a上的光学多层膜3.光学多层膜3通过交替层叠二十二个SiO 作为高折射率膜5的低折射率膜4和24个具有44层的高折射率膜5的低SB <2S 膜 ; 第1〜第42层的膜的密度为0.75〜0.78，第43层和第44层的膜的密度为0.99。版权所有（C）2006，JPO＆NCIPI

6. 发明专利

JP2010008550A Optical element and optical unit 审中-公开
标题翻译：光学元件和光学单元
公开(公告)号：JP2010008550A
公开(公告)日：2010-01-14
申请号：JP2008165708
申请日：2008-06-25
申请人： Olympus Corp , オリンパス株式会社
发明人： UZAWA KUNIHIKO
IPC分类号： G02B1/10 , G02B1/11 , G02B7/02
摘要： PROBLEM TO BE SOLVED: To provide an optical element securing light quantity adequate for observation and measurement and preventing the clouding of the surface of the optical element by stably supplying a current to a transparent conductive film, and to provide an optical unit provided with the optical element. SOLUTION: The optical element wherein a transparent conductive film 12 is disposed on a transparent substrate 11 is characterized by including: an electrode member made by laminating a Cr film, a Ni film and an Au film in the order; and an anti-reflection member made by laminating at least one layer of high-refractive index film and low-refractive index film are each disposed on the transparent conductive film. Further, the optical unit including the optical element 10, a power-feeding mechanism for supplying a current to the optical element 10 and a lead line for connecting the optical element 10 with the power-feeding mechanism is provided. COPYRIGHT: (C)2010,JPO&INPIT
摘要翻译：要解决的问题：提供一种确保足以观察和测量的光量的光学元件，并且通过稳定地向透明导电膜提供电流来防止光学元件的表面的混浊，并且提供提供的光学单元与光学元件。解决方案：透明导电膜12设置在透明基板11上的光学元件的特征在于包括：依次层压Cr膜，Ni膜和Au膜而制成的电极构件; 并且通过层压至少一层高折射率膜和低折射率膜制成的抗反射构件均设置在透明导电膜上。此外，提供了包括光学元件10的光学单元，用于向光学元件10提供电流的供电机构和用于将光学元件10与供电机构连接的引线。版权所有（C）2010，JPO＆INPIT

7. 发明专利

JP2009132547A Method for forming thin film containing nanocarbon 审中-公开
标题翻译：形成含有纳米碳膜的薄膜的方法
公开(公告)号：JP2009132547A
公开(公告)日：2009-06-18
申请号：JP2007308744
申请日：2007-11-29
申请人： Olympus Corp , オリンパス株式会社
发明人： TOMITANI MANABU , KIDA TAKESHI , SHIGA NAOHITO , SATO TOMONORI , FUJIWARA TAKUYA , UZAWA KUNIHIKO , HIJINO MASAMICHI
IPC分类号： C01B31/02 , B82B3/00
摘要： PROBLEM TO BE SOLVED: To provide a method for forming a thin film containing nanocarbon capable of easily forming a thin film having a desired shape and thickness on the surfaces of various objects with a small environmental load.
SOLUTION: The method for forming a thin film containing nanocarbon is characterized by containing a process for smashing an aerosol in which inorganic particles and nanocarbon are dispersed in a gas against an object and fixing the inorganic particles and nanocarbon as a thin film on the object. Besides, the method for forming a thin film containing nanocarbon by gradually increasing the ratio of nanocarbon content in the aerosol is also provided.
COPYRIGHT: (C)2009,JPO&INPIT
摘要翻译：要解决的问题：提供一种形成含有纳米碳的薄膜的方法，其能够以小的环境负荷在各种物体的表面上容易地形成具有期望的形状和厚度的薄膜。解决方案：用于形成含有纳米碳薄膜的方法的特征在于包含粉碎气溶胶的方法，其中将无机颗粒和纳米碳分散在气体中的物体上并将无机颗粒和纳米碳作为薄膜固定在物体。此外，还提供了通过逐渐增加气溶胶中的纳米碳含量的比例来形成含有纳米碳的薄膜的方法。版权所有（C）2009，JPO＆INPIT

8. 发明专利

JP2006176854A Method for forming optical multilayer film, and optical element 审中-公开
标题翻译：形成光学多层膜的方法和光学元件
公开(公告)号：JP2006176854A
公开(公告)日：2006-07-06
申请号：JP2004373204
申请日：2004-12-24
申请人： Olympus Corp , オリンパス株式会社
发明人： UZAWA KUNIHIKO
IPC分类号： C23C14/24 , C23C14/22 , G02B3/00 , G02B5/28
摘要： PROBLEM TO BE SOLVED: To provide a method for forming an optical multilayer film, which prevents the warping of a substrate even when the optical multilayer film is formed on only one surface of a thin substrate, imparts a longly stable optical property to the optical multilayer film, and reduces a production cost.
SOLUTION: The method for forming the optical multilayer film by alternately layering a layer with a low refractive index and a layer with high refractive index layer which have different refractive indexes on the substrate 2 mounted on a substrate-holding member 14 which is arranged in a vacuum chamber 11 comprises the steps of: when forming at least the layer with high refractive index, introducing a process gas into the vacuum chamber 11 while controlling an amount of an introduced process gas so that the amount of vacuum for forming the film in the vacuum chamber 11 is 0.06 Pa or more but less than 0.15 Pa; and generating plasma from a plasma gun 21 installed so as to face the substrate 2.
COPYRIGHT: (C)2006,JPO&NCIPI
摘要翻译：要解决的问题：为了提供一种用于形成光学多层膜的方法，即使在仅在薄基板的一个表面上形成光学多层膜的情况下也能防止基板的翘曲，赋予长时间稳定的光学性能光学多层膜，并降低生产成本。解决方案：通过在安装在基板保持构件14上的基板2上交替层叠具有低折射率的层和具有不同折射率的层的具有不同折射率的层来形成光学多层膜的方法，该基板保持构件14是布置在真空室11中的步骤包括以下步骤：当至少形成具有高折射率的层时，将处理气体引入真空室11中同时控制引入的处理气体的量，使得用于形成膜的真空量在真空室11中为0.06Pa以上但小于0.15Pa; 并且从等离子体枪21产生等离子体，所述等离子体枪21被安装成与衬底2相对。版权所有：（C）2006，JPO＆NCIPI

9. 发明专利

JP2005300889A Optical multilayer film and optical element 审中-公开
标题翻译：光学多层膜和光学元件
公开(公告)号：JP2005300889A
公开(公告)日：2005-10-27
申请号：JP2004116684
申请日：2004-04-12
申请人： Olympus Corp , オリンパス株式会社
发明人： UZAWA KUNIHIKO
IPC分类号： G02B5/28 , B32B7/02 , B32B9/00
摘要： PROBLEM TO BE SOLVED: To prevent the warping and deformation of a substrate and suppress the deterioration of transmissivity even when forming an optical multilayer film on the substrate of which the thickness is thin as to the optical multilayer film formed on the substrate surface.
SOLUTION: The optical multilayer film 5 formed on the surface 3a of the substrate 3 is provided with a low refractive index layer 7 and a high refractive index layer 9 which have film refractive indexes different from each other and are alternately laminated on the surface 3a. Therein, the low refractive index layer 7 comprises silicon oxide nitride. The high refractive index layer 9 comprises oxide-nitrides besides silicon oxide nitride.
COPYRIGHT: (C)2006,JPO&NCIPI
摘要翻译：要解决的问题：为了防止基板的翘曲和变形，并且即使在形成在基板表面上的光学多层膜的厚度薄的基板上形成光学多层膜时也抑制透射率的劣化。解决方案：形成在基板3的表面3a上的光学多层膜5设置有低折射率层7和高折射率层9，其具有彼此不同的膜折射率并交替层压在表面3a。其中，低折射率层7包括氧化硅氮化物。高折射率层9包括除氧化硅氮化物之外的氧化物 - 氮化物。版权所有（C）2006，JPO＆NCIPI

10. 发明专利

JP2012208206A Antireflection film and optical element 有权
标题翻译：抗反射膜和光学元件
公开(公告)号：JP2012208206A
公开(公告)日：2012-10-25
申请号：JP2011072130
申请日：2011-03-29
申请人： Olympus Corp , オリンパス株式会社
发明人： UZAWA KUNIHIKO
IPC分类号： G02B1/11 , B32B7/02 , G02B1/111
摘要： PROBLEM TO BE SOLVED: To provide an antireflection film having excellent antireflection performance and excellent productivity that allows manufacture without using a vacuum film forming device.SOLUTION: A plurality of layers having different refraction factors are laminated on a surface of a glass base material 2. A first layer 4 counting from the surface 2a is formed of a metal alkoxy oligomer selected from a silicon alkoxy oligomer and a titanium alkoxy oligomer, having a film refraction factor equal to or more than 1.42 and less than 1.75.

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