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公开(公告)号:US06199622B1
公开(公告)日:2001-03-13
申请号:US09362962
申请日:1999-07-30
申请人: Katsuji Mashio , Fumihiro Inoue , Yukinobu Take , Hiroshi Koizumi , Katsumi Nakamura , Hironori Muramoto
发明人: Katsuji Mashio , Fumihiro Inoue , Yukinobu Take , Hiroshi Koizumi , Katsumi Nakamura , Hironori Muramoto
IPC分类号: F28F900
CPC分类号: F28F9/002 , B60K11/04 , F28D1/0435 , F28D2021/0084 , F28D2021/0094 , F28F2240/00
摘要: A connecting structure for connecting a radiator having a reinforcement member and a condenser having a bracket is provided. The structure includes a connecting member having a spacer portion and a holding portion integrally formed on opposite sides of a notch. The spacer portion is fittingly inserted into the reinforcement member, and a folded portion of the reinforcement member and the condenser bracket are inserted into the notch. A bolt is inserted through the reinforcement member, the spacer portion, the bracket and the holding portion and a nut is screwed onto a tip of the bolt for clamping the radiator and the condenser together.
摘要翻译: 提供了一种用于连接具有加强构件的散热器和具有托架的冷凝器的连接结构。 该结构包括具有间隔部分和一体地形成在凹口的相对侧上的保持部分的连接部件。 间隔部分适配地插入到加强件中,并且加强件和冷凝器支架的折叠部分插入槽口中。 螺栓穿过加强构件,间隔件部分,支架和保持部分,螺母被拧在螺栓的顶端上,用于将散热器和冷凝器夹紧在一起。
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公开(公告)号:US08754429B2
公开(公告)日:2014-06-17
申请号:US13154999
申请日:2011-06-07
申请人: Hiroshi Koizumi , Yasuhide Okada , Susumu Obata , Tomomichi Naka , Kazuhito Higuchi , Kazuo Shimokawa , Yoshiaki Sugizaki , Akihiro Kojima
发明人: Hiroshi Koizumi , Yasuhide Okada , Susumu Obata , Tomomichi Naka , Kazuhito Higuchi , Kazuo Shimokawa , Yoshiaki Sugizaki , Akihiro Kojima
CPC分类号: H01L33/44 , H01L33/0079 , H01L33/0095 , H01L33/50 , H01L33/58 , H01L33/62 , H01L2224/16 , H01L2933/0058
摘要: According to one embodiment, an optical semiconductor device includes a light emitting layer, a transparent layer, a first metal post, a second metal post and a sealing layer. The light emitting layer includes a first and a second major surface, a first and a second electrode. The second major surface is a surface opposite to the first major surface, and the first electrode and second electrodes are formed on the second major surface. The transparent layer is provided on the first major surface. The first metal post is provided on the first electrode. The second metal post is provided on the second electrode. The sealing layer is provided on the second major surface. The sealing layer covers a side surface of the light emitting layer and seals the first and second metal posts while leaving end portions of the first and second metal posts exposed.
摘要翻译: 根据一个实施例,光学半导体器件包括发光层,透明层,第一金属柱,第二金属柱和密封层。 发光层包括第一和第二主表面,第一和第二电极。 第二主表面是与第一主表面相对的表面,并且第一电极和第二电极形成在第二主表面上。 透明层设置在第一主表面上。 第一金属柱设置在第一电极上。 第二金属柱设置在第二电极上。 密封层设置在第二主表面上。 密封层覆盖发光层的侧表面,并且密封第一和第二金属柱,同时使第一和第二金属柱的端部露出。
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公开(公告)号:US08663489B2
公开(公告)日:2014-03-04
申请号:US12732451
申请日:2010-03-26
申请人: Shigeru Ishizawa , Hiroshi Koizumi , Tatsuya Ogi
发明人: Shigeru Ishizawa , Hiroshi Koizumi , Tatsuya Ogi
IPC分类号: B44C1/22
CPC分类号: H01L21/67745 , H01L21/67748
摘要: A method for replacing plural substrates to be processed by a substrate processing apparatus which includes a substrate processing chamber, a load lock chamber, and a conveying apparatus including first and second conveying members for conveying the plural substrates into and out from the substrate processing chamber and the load lock chamber. The method includes the steps of a) conveying a first substrate out from the substrate processing chamber with the first conveying member, b) conveying a second substrate into the substrate processing chamber with the second conveying member, c) conveying the second substrate out from the load lock chamber with the second conveying member, and d) conveying the first substrate into the load lock chamber with the first conveying member. The steps c) and d) are performed between step a) and step b).
摘要翻译: 一种用于替换多个基板的方法,所述基板处理装置包括基板处理室,负载锁定室和输送装置,所述基板处理装置包括用于将多个基板输入和移出基板处理室的第一和第二输送部件, 负载锁定室。 该方法包括以下步骤:a)用第一输送部件从基板处理室输出第一基板,b)用第二输送部件将第二基板输送到基板处理室中,c)将第二基板从 负载锁定室与第二输送构件,以及d)用第一输送构件将第一基板输送到装载锁定室。 在步骤a)和步骤b)之间执行步骤c)和d)。
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公开(公告)号:US08652054B2
公开(公告)日:2014-02-18
申请号:US13183368
申请日:2011-07-14
申请人: Naoe Tatara , Kimihisa Aihara , Shinji Mino , Hiroshi Koizumi , Shoichi Hayashida , Taisuke Oguchi , Junichi Shimada , Shoichi Sudo , Osamu Tochikubo , Hidetoshi Miura
发明人: Naoe Tatara , Kimihisa Aihara , Shinji Mino , Hiroshi Koizumi , Shoichi Hayashida , Taisuke Oguchi , Junichi Shimada , Shoichi Sudo , Osamu Tochikubo , Hidetoshi Miura
CPC分类号: A61B5/6816 , A61B5/021 , A61B5/02241 , A61B5/6817 , Y10T24/44427
摘要: In measurement requiring application of pressure to a tissue of a living body such as blood pressure measurement, noise due to vibration tends to occur. It is difficult to accurately measure a pulse wave and a blood pressure value. It is also difficult to measure blood pressure in life activities or to measure blood pressure at intervals or continuously where a tonometer is always attached. There is consequently a problem of holding a biologic information detecting apparatus. The present invention solves the problems by providing an easy-to-wear biologic information detecting apparatus for stably detecting biologic information. The biologic information detecting apparatus includes a sensor for detecting biologic information in a pair of arms connected via a spindle, and the sensor is tightly attached to a projecting part in a living body, particularly, a tragus of an auricle.
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5.发明授权公开(公告)号:US08535765B2
公开(公告)日:2013-09-17
申请号:US12556080
申请日:2009-09-09
申请人: Naoaki Sakurai , Hiroyasu Kondo , Hiroshi Koizumi
发明人: Naoaki Sakurai , Hiroyasu Kondo , Hiroshi Koizumi
摘要: A method of producing a low-molecular luminous material dispersant having: inserting a coat agent in gas phase and an inner gas into a vacuum atmosphere, wherein the coat agent has a strong affinity for a solvent when the coat agent is in liquid phase; heating and vaporizing a low-molecular luminous material in the vacuum atmosphere so as to obtain a mix gas comprising the low-molecular luminous material and inner gas; cooling the mix gas so as to obtain a coat agent in liquid phase; and recovering the coat agent in liquid phase and adding the coat agent in liquid phase into the solvent so as to obtain the low-molecular luminous material dispersant.
摘要翻译: 一种低分子发光体分散剂的制造方法,其特征在于,在气相和内部气体中插入涂布剂到真空气氛中,其中,当涂布剂处于液相时,涂料对溶剂具有强的亲和性; 在真空气氛中加热和蒸发低分子发光材料,以获得包含低分子量发光材料和内部气体的混合气体; 冷却混合气体,得到液相涂层剂; 并回收液相中的涂层剂,并将液相中的涂层剂加入到溶剂中以获得低分子发光材料分散剂。
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6.发明授权公开(公告)号:US08039858B2
公开(公告)日:2011-10-18
申请号:US12611481
申请日:2009-11-03
申请人: Naoaki Sakurai , Junsei Yamabe , Hiroshi Koizumi
发明人: Naoaki Sakurai , Junsei Yamabe , Hiroshi Koizumi
IPC分类号: H01L33/00
CPC分类号: H01L33/504 , H01L2224/45139 , H01L2224/48091 , H01L2224/48465 , H01L2224/73265 , H01L2924/181 , H01L2924/00014 , H01L2924/00 , H01L2924/00012
摘要: In a fluorescer solution, a plurality of types of fluorescent particles are contained in a resin liquid. Average particle sizes of these fluorescent particles decrease as densities of the types increase. In other words, average settling rates vs of the types of the fluorescent particles ascertained by v s = D p 2 × ( ρ p - ρ f ) × g 18 × η are equal to each other, where Dp is an average particle size of each of the types of fluorescent particles, pp is a density of each of the types of fluorescent particles, pf is a density of the resin liquid, η is a viscosity of the resin liquid, g is the acceleration due to gravity, and vs is an average settling rate of each of the types of fluorescent particles.
摘要翻译: 在荧光剂溶液中,多种类型的荧光颗粒包含在树脂液体中。 这些荧光颗粒的平均粒径随着类型密度的增加而减小。 换句话说,通过v s = D p 2×(&rgr; p - &rgr; f)×g 18×&e egr确定的荧光颗粒的类型的平均沉降速率vs。 彼此相等,其中Dp是每种荧光颗粒的平均粒度,pp是每种荧光颗粒的密度,pf是树脂液体的密度,efgr; 是树脂液体的粘度,g是重力加速度,vs是各种荧光体粒子的平均沉降速度。
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7.发明申请DELIVERY POSITION ALIGNING METHOD FOR USE IN VACUUM PROCESSING APPARATUS, VACUUM PROCESSING APPARATUS AND COMPUTER STORAGE MEDIUM 有权真空处理设备中使用的输送位置校准方法,真空处理设备和计算机存储介质公开(公告)号:US20110178631A1
公开(公告)日:2011-07-21
申请号:US13079356
申请日:2011-04-04
申请人: Keisuke KONDOH , Hiroshi Koizumi
发明人: Keisuke KONDOH , Hiroshi Koizumi
IPC分类号: H01L21/677 , G06F17/00 , H01L21/68
CPC分类号: H01L21/68 , H01L21/67196 , H01L21/67259
摘要: In a vacuum transfer chamber, a position detecting mechanism for detecting the positions of semiconductor wafers is arranged. The semiconductor wafers disposed at predetermined positions in a load lock chamber and vacuum processing chambers are transferred to the position detecting mechanism by a vacuum transfer mechanism and the positions of the wafers are detected. Then, based on the detection results, aligning between the load lock chamber and the vacuum processing chambers is performed.
摘要翻译: 在真空传送室中,布置有用于检测半导体晶片的位置的位置检测机构。 设置在负载锁定室和真空处理室中的预定位置的半导体晶片通过真空传递机构传送到位置检测机构,并且检测晶片的位置。 然后,基于检测结果,进行负载锁定室与真空处理室的对准。
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公开(公告)号:US20100298722A1
公开(公告)日:2010-11-25
申请号:US12847891
申请日:2010-07-30
申请人: Yuji UENISHI , Eiji Higurashi , Kazunori Naganuma , Shouichi Sudo , Junichi Shimada , Kimihisa Aihara , Hiroshi Koizumi , Naoe Tatara , Shoichi Hayashida , Shinji Mino , Taisuke Oguchi , Osamu Tochikubo
发明人: Yuji UENISHI , Eiji Higurashi , Kazunori Naganuma , Shouichi Sudo , Junichi Shimada , Kimihisa Aihara , Hiroshi Koizumi , Naoe Tatara , Shoichi Hayashida , Shinji Mino , Taisuke Oguchi , Osamu Tochikubo
IPC分类号: A61B5/02
CPC分类号: A61B5/6817 , A61B5/0002 , A61B5/02208 , A61B5/02225 , A61B5/6815 , A61B5/6816 , A61B5/6838 , A61B5/7405 , A61B2560/045 , A61B2562/0238
摘要: A living body information collecting apparatus with a part of the living body information collecting apparatus includes a shape composed of a cylinder, a cone, a prism, a pyramid, a truncated cone or a truncated pyramid. The living body information collecting apparatus further including a sensing part for collecting living body information.
摘要翻译: 具有生物体信息收集装置的一部分的生物体信息收集装置包括由圆筒,锥体,棱镜,金字塔,截头圆锥体或截棱锥体构成的形状。 所述生物体信息收集装置还包括用于收集生物体信息的感测部。
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9.发明申请公开(公告)号:US20100109037A1
公开(公告)日:2010-05-06
申请号:US12611481
申请日:2009-11-03
申请人: Naoaki SAKURAI , Junsei Yamabe , Hiroshi Koizumi
发明人: Naoaki SAKURAI , Junsei Yamabe , Hiroshi Koizumi
CPC分类号: H01L33/504 , H01L2224/45139 , H01L2224/48091 , H01L2224/48465 , H01L2224/73265 , H01L2924/181 , H01L2924/00014 , H01L2924/00 , H01L2924/00012
摘要: In a fluorescer solution, a plurality of types of fluorescent particles are contained in a resin liquid. Average particle sizes of these fluorescent particles decrease as densities of the types increase. In other words, average settling rates vs of the types of the fluorescent particles ascertained by v s = D p 2 × ( ρ p - ρ f ) × g 18 × η are equal to each other, where Dp is an average particle size of each of the types of fluorescent particles, pp is a density of each of the types of fluorescent particles, pf is a density of the resin liquid, η is a viscosity of the resin liquid, g is the acceleration due to gravity, and vs is an average settling rate of each of the types of fluorescent particles.
摘要翻译: 在荧光剂溶液中,多种类型的荧光颗粒包含在树脂液体中。 这些荧光颗粒的平均粒径随着类型密度的增加而减小。 换句话说,通过v s = D p 2×(&rgr; p - &rgr; f)×g 18×&e egr确定的荧光颗粒的类型的平均沉降速率vs。 彼此相等,其中Dp是每种荧光颗粒的平均粒度,pp是每种荧光颗粒的密度,pf是树脂液体的密度,efgr; 是树脂液体的粘度,g是重力加速度,vs是各种荧光体粒子的平均沉降速度。
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10.发明申请公开(公告)号:US20100072423A1
公开(公告)日:2010-03-25
申请号:US12556080
申请日:2009-09-09
申请人: Naoaki SAKURAI , Hiroyasu Kondo , Hiroshi Koizumi
发明人: Naoaki SAKURAI , Hiroyasu Kondo , Hiroshi Koizumi
摘要: A method of producing a low-molecular luminous material dispersant having: inserting a coat agent in gas phase and an inner gas into a vacuum atmosphere, wherein the coat agent has a strong affinity for a solvent when the coat agent is in liquid phase; heating and vaporizing a low-molecular luminous material in the vacuum atmosphere so as to obtain a mix gas comprising the low-molecular luminous material and inner gas; cooling the mix gas so as to obtain a coat agent in liquid phase; and recovering the coat agent in liquid phase and adding the coat agent in liquid phase into the solvent so as to obtain the low-molecular luminous material dispersant.
摘要翻译: 一种低分子发光体分散剂的制造方法,其特征在于,在气相和内部气体中插入涂布剂到真空气氛中,其中,当涂布剂处于液相时,涂料对溶剂具有强的亲和性; 在真空气氛中加热和蒸发低分子发光材料,以获得包含低分子量发光材料和内部气体的混合气体; 冷却混合气体,得到液相涂层剂; 并回收液相中的涂层剂,并将液相中的涂层剂加入到溶剂中以获得低分子发光材料分散剂。
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