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1. 发明授权

US06187159B1 Mechanism for setting optical lens base material on holder 失效
标题翻译：将光学透镜基材设置在支架上的机构
公开(公告)号：US06187159B1
公开(公告)日：2001-02-13
申请号：US09230080
申请日：1999-04-01
申请人： Hitoshi Kamura , Masaaki Yoshihara , Hajime Kamiya
发明人： Hitoshi Kamura , Masaaki Yoshihara , Hajime Kamiya
IPC分类号： G02B702
CPC分类号： G02B1/11 , C23C14/50 , C23C14/505
摘要： Antireflection films are coated on the both sides of an optical lens by sputtering in a sputtering system. In a vacuum processing chamber (22) for performing the sputtering, a plurality of optical lens base materials are placed transversely on a substrate holder (26). The holder (26) is set rotatably in a vacuum atmosphere. The optical lens base materials are embedded to holes (26a) formed in the holder (26), facing their concave surface up, by using ring-shaped holding tools (52, 152). The height of the ring-shaped holding tool (52) is larger than the height of the edge of the optical lens base material (11) within the limits of 2 mm when the thickness of the lens edge of the optical lens base material is large. Part of the ring-shaped holding tool (152) which is put together with the upper surface of the optical lens base material (111) is tapered when the thickness of the lens edge of the optical lens base material is small.
摘要翻译：在溅射系统中通过溅射将抗反射膜涂覆在光学透镜的两侧。在用于进行溅射的真空处理室（22）中，将多个光学透镜基材横向放置在基板保持件（26）上。保持器（26）在真空气氛中可旋转地设置。光学透镜基材通过使用环形保持工具（52,152）嵌入到形成在保持器（26）中的孔（26a）中，面向其凹面向上。当光学透镜基材的透镜边缘的厚度大时，环形保持工具（52）的高度大于光学透镜基材（11）的边缘的高度在2mm的范围内。当光学透镜基材的透镜边缘的厚度小时，与光学透镜基底材料111的上表面放置的环形保持工具（152）的一部分是锥形的。

2. 发明授权

US06264751B1 Mechanism for performing water repellency processing on both sides simultaneously 有权
标题翻译：同时进行防水处理的机构
公开(公告)号：US06264751B1
公开(公告)日：2001-07-24
申请号：US09214676
申请日：1999-04-01
申请人： Hitoshi Kamura , Masaaki Yoshihara , Hajime Kamiya
发明人： Hitoshi Kamura , Masaaki Yoshihara , Hajime Kamiya
IPC分类号： C23C1400
CPC分类号： C23C14/044 , C23C16/04 , C23C16/458 , C23C16/4583
摘要： A substrate holder (22) on which a plurality of optical lens base materials (24) are arranged is installed to be rotatable in a vacuum atmosphere and a vacuum processing chamber (16) for forming water repellent films on the surfaces of the optical lens base materials, and further a both sides simultaneous water repellency processing mechanism is installed in this vacuum processing chamber. In regard to the substrate holder (22), an upper side water repellency processing unit (30) and a lower side water repellency processing unit (40) are provided, and the upper side water repellency processing unit forms the water repellent film on the upper side of the optical lens base material, while the lower side water repellency processing unit forms the water repellent film on the lower side of the optical lens base material. This configuration forms the water repellent films simultaneously onto the both sides of the optical lens base material. A film thickness correcting mechanism for the water repellency processing is composed of a film thickness correcting plate (51, 52) for correcting a film thickness difference, which is arranged between the water repellency processing unit and the optical lens base material.
摘要翻译：安装有多个光学透镜基材（24）的衬底保持器（22）能够在真空气氛中旋转，并且在光学透镜基底的表面上形成用于形成防水膜的真空处理室（16）材料，并且在该真空处理室中安装有两面同时的防水处理机构。关于衬底保持器（22），设置有上侧防水处理单元（30）和下侧防水处理单元（40），上侧防水处理单元在上部形成防水膜而下侧防水处理单元在光学透镜基材的下侧形成防水膜。该配置在光学透镜基材的两侧同时形成防水膜。用于防水处理的膜厚校正机构由布置在防水处理单元和光学透镜基材之间的用于校正膜厚度差的膜厚校正板（51,52）组成。

3. 发明授权

US06250758B1 Plastic optical devices having antireflection film and mechanism for equalizing thickness of antireflection film 有权
标题翻译：具有防反射膜的塑料光学元件和均匀抗反射膜厚度的机构
公开(公告)号：US06250758B1
公开(公告)日：2001-06-26
申请号：US09230031
申请日：1999-04-01
申请人： Masaaki Yoshihara , Hitoshi Kamura , Hajime Kamiya
发明人： Masaaki Yoshihara , Hitoshi Kamura , Hajime Kamiya
IPC分类号： G02C710
CPC分类号： B32B15/08 , B32B27/08 , C23C14/044 , C23C14/3464 , C23C14/505 , G02B1/115
摘要： Plastic optical devices in which an antireflection film (13) is coated on the surface of a plastic base material (10). The antireflection film (13) is a multi-layered film which is formed by depositing a first layer (131) on the side of the plastic base material substantially by a high-refractive material and the next layer (132) by a low-refractive material, and by alternately laminating those high-refractive materials and low-refractive materials. The surface of the optical lens base material (10) has curvature and a plurality of the optical lens base materials (10) are disposed horizontally at the positions of concentric circles in a circular plate holder (26) which is placed horizontally and is rotatable. A sputtering film deposition system comprises targets (31) facing to the surfaces of the optical lens base materials (10). Thickness correcting plates function as mask members (51, 52) for regulating the difference of film thickness disposed in the direction connecting the peripheral part and the center part in the holder and between the targets (31) and the holder (26).
摘要翻译：在塑料基材（10）的表面上涂覆有防反射膜（13）的塑料光学装置。防反射膜（13）是通过基本上由高折射材料沉积塑料基材侧的第一层（131）而形成的多层膜，下层（132）通过低折射率材料，并且通过交替层压这些高折射材料和低折射材料。光学透镜基材（10）的表面具有曲率，并且多个光学透镜基材（10）水平放置在水平放置并且是可旋转的圆板保持器（26）中的同心圆的位置。溅射膜沉积系统包括面向光学透镜基材（10）的表面的靶（31）。厚度校正板用作掩模构件（51,52），用于调节沿着连接保持器中的周边部分和中心部分的方向以及目标（31）和保持器（26）之间的膜厚度的差异。

4. 发明授权

US5181141A Anti-reflection optical element 失效
标题翻译：防反射光学元件
公开(公告)号：US5181141A
公开(公告)日：1993-01-19
申请号：US839684
申请日：1992-02-24
申请人： Koji Sato , Tokio Suzuki , Hajime Kamiya , Kimio Nakamura , Masahisa Kosaka , Tetsuo Ohsora
发明人： Koji Sato , Tokio Suzuki , Hajime Kamiya , Kimio Nakamura , Masahisa Kosaka , Tetsuo Ohsora
IPC分类号： G02B1/11
CPC分类号： G02B1/115
摘要： The anti-reflection optical element of the present invention achieves reduction of surface reflection by providing a multi-layered anti-reflection film directly or indirectly on an optical component made of a plastic. The anti-reflection optical element of the present invention uses a multi-layered anti-reflection film comprising at least one high refractive index film layer which is a film of mixed metal oxides comprising tantalum oxide, zirconium oxide and yttrium oxide deposited by evaporation process, and thereby has solved the problems of conventional anti-reflection optical elements that their optical, mechanical and chemical properties are deteriorated with the lapse of time.
摘要翻译：本发明的抗反射光学元件通过在由塑料制成的光学部件上直接或间接提供多层抗反射膜来实现表面反射的减少。本发明的抗反射光学元件使用包括至少一个高折射率膜层的多层抗反射膜，其是通过蒸镀法沉积的氧化钽，氧化锆和氧化钇的混合金属氧化物的膜，从而解决了传统的抗反射光学元件的问题，即它们的光学，机械和化学性质随着时间的流逝而恶化。

5. 发明授权

US09460327B2 RFID tag movement distinguishing method and RFID tag movement distinguishing program 有权
标题翻译： RFID标签移动识别方法和RFID标签移动识别程序
公开(公告)号：US09460327B2
公开(公告)日：2016-10-04
申请号：US14131450
申请日：2012-07-12
申请人： Hajime Kamiya
发明人： Hajime Kamiya
IPC分类号： G06K7/10 , G01S13/58 , G01S13/76 , G01S13/52 , G01S13/50 , G01S13/78
CPC分类号： G06K7/10366 , G01S13/505 , G01S13/52 , G01S13/58 , G01S13/76 , G01S13/78
摘要： Provided are an RFID tag movement distinguishing method and an RFID tag movement distinguishing program with which are an RFID tag that has moved in front of an antenna and an RFID tag that is static are identified. Chronological read data of RFID tags including a moving RFID tag and a static RFID tag is acquired by an RFID reader, and the static RFID tag is specified by a static RFID tag filter based on information of read RFID tags. In the RFID tag movement distinguishing method, the static RFID tag filter identifies the moving RFID tag by identifying the static RFID tag and the moving RFID tag using an individual static RFID tag filter among a quick-read filter, an RSSI absolute value filter, an RSSI non-contiguous increase filter, an RSSI valley-shaped filter, an excess read filter, a phase shift reduction filter, and a vertical direction movement filter.
摘要翻译：提供了RFID标签移动识别方法和RFID标签移动识别程序，RFID标签移动区分程序是在天线前移动的RFID标签和识别静态的RFID标签。通过RFID读取器获取包括移动的RFID标签和静态RFID标签的RFID标签的按时间顺序的读取数据，并且基于读取的RFID标签的信息由静态RFID标签过滤器指定静态RFID标签。在RFID标签移动识别方法中，静态RFID标签滤波器通过使用快速读取滤波器，RSSI绝对值滤波器，RSSI绝对值滤波器中的单个静态RFID标签滤波器来识别静态RFID标签和移动的RFID标签来识别移动的RFID标签 RSSI非连续增加滤波器，RSSI谷形滤波器，过量读取滤波器，相移减少滤波器和垂直方向移动滤波器。

6. 发明申请

US20140167920A1 RFID TAG MOVEMENT DISTINGUISHING METHOD AND RFID TAG MOVEMENT DISTINGUISHING PROGRAM 有权
标题翻译： RFID标签移动识别方法和RFID标签移动识别程序
公开(公告)号：US20140167920A1
公开(公告)日：2014-06-19
申请号：US14131450
申请日：2012-07-12
申请人： Hajime Kamiya
发明人： Hajime Kamiya
IPC分类号： G06K7/10
CPC分类号： G06K7/10366 , G01S13/505 , G01S13/52 , G01S13/58 , G01S13/76 , G01S13/78
摘要： Provided are an RFID tag movement distinguishing method and an RFID tag movement distinguishing program with which are an RFID tag that has moved in front of an antenna and an RFID tag that is static are identified. Chronological read data of RFID tags including a moving RFID tag and a static RFID tag is acquired by an RFID reader, and the static RFID tag is specified by a static RFID tag filter based on information of read RFID tags. In the RFID tag movement distinguishing method, the static RFID tag filter identifies the moving RFID tag by identifying the static RFID tag and the moving RFID tag using an individual static RFID tag filter among a quick-read filter, an RSSI absolute value filter, an RSSI non-contiguous increase filter, an RSSI valley-shaped filter, an excess read filter, a phase shift reduction filter, and a vertical direction movement filter.
摘要翻译：提供了RFID标签移动识别方法和RFID标签移动识别程序，RFID标签移动区分程序是在天线前移动的RFID标签和识别静态的RFID标签。通过RFID读取器获取包括移动的RFID标签和静态RFID标签的RFID标签的按时间顺序的读取数据，并且基于读取的RFID标签的信息由静态RFID标签过滤器指定静态RFID标签。在RFID标签移动识别方法中，静态RFID标签滤波器通过使用快速读取滤波器，RSSI绝对值滤波器，RSSI绝对值滤波器中的单个静态RFID标签滤波器来识别静态RFID标签和移动的RFID标签来识别移动的RFID标签 RSSI非连续增加滤波器，RSSI谷形滤波器，过量读取滤波器，相移减少滤波器和垂直方向移动滤波器。

7. 发明授权

US4130672A Method for coating anti-reflection film on surface of optical material 失效
标题翻译：在光学材料表面涂覆抗反射膜的方法
公开(公告)号：US4130672A
公开(公告)日：1978-12-19
申请号：US504977
申请日：1974-09-11
申请人： Fumio Onoki , Hajime Kamiya
发明人： Fumio Onoki , Hajime Kamiya
IPC分类号： C03C17/34 , C23C14/10 , B05D5/06
CPC分类号： C23C14/10 , C03C17/3417 , G02B1/115
摘要： A method for coating silicon oxide SiO film and silicon dioxide SiO.sub.2 film on the surface of transparent optical material of glass or syntheic resin whose refractive indices are varied by changing the condition of vapor-deposition, under a predetermined condition of vapor-deposition so as to form a firm and durable anti-reflection film.
摘要翻译：在预定的气相沉积条件下，通过改变气相沉积条件来改变其折射率在玻璃或合成树脂的透明光学材料的表面上涂覆氧化硅SiO膜和二氧化硅SiO 2膜的方法，以便形成牢固耐用的防反射膜。

8. 发明授权

US4128303A Anti reflection coating with a composite middle layer 失效
标题翻译：具有复合中间层的防反射涂层
公开(公告)号：US4128303A
公开(公告)日：1978-12-05
申请号：US790005
申请日：1977-04-22
申请人： Fumio Onoki , Hajime Kamiya
发明人： Fumio Onoki , Hajime Kamiya
IPC分类号： C03C17/34 , G02B1/11 , G02B5/28
CPC分类号： G02B5/285 , C03C17/3417 , C03C17/3452 , G02B1/115
摘要： A reflection free optical glass coated, in succession, with a medium refractive index layer, such as CeF.sub.3 or Al.sub.2 O.sub.3, a high refractive index layer such as TiO.sub.2, CeO.sub.2 or ZrO.sub.2 which layer contains a plurality of thin layers of MgF.sub.2 of about 10-100A in thickness uniformly interposed in the high refractive index material at intervals of about one eighth of the design wavelength. The outermost coating of the multi-layer optical glass is a low refractive index layer of MgF.sub.2.
摘要翻译：一种无反射光学玻璃，依次涂覆有诸如CeF 3或Al 2 O 3等中等折射率层，诸如TiO 2，CeO 2或ZrO 2的高折射率层，该层包含多个约10-100A的MgF 2薄层厚度均匀地介于高折射率材料之间，间隔约为设计波长的八分之一。多层光学玻璃的最外层是MgF2的低折射率层。

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