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    • 1. 发明申请
    • TRANSFER SYSTEM, AND TRANSFER METHOD
    • 转移系统和转移方法
    • US20090193235A1
    • 2009-07-30
    • US12300025
    • 2007-04-25
    • Takao HayashiHiroki SoneToyokazu KobayashiYoshinori YamadaAkiya InoueMasayuki TsujinoHiromichi Kawano
    • Takao HayashiHiroki SoneToyokazu KobayashiYoshinori YamadaAkiya InoueMasayuki TsujinoHiromichi Kawano
    • G06F9/06
    • G06Q10/06
    • In response to a transfer request, for which a loading time at a transfer source and a loading time at a transfer target are designated by a production controller, there is created a transfer scenario, which contains a basic transfer (From) from the transfer source to a buffer near the transfer target, for example, and a basic transfer (To) from the buffer to the transfer target. In order that the basic transfers (From, To) may be able to be executed, the buffer is reserved, and a transfer vehicle is allocated. The time period for the transfer vehicle to run to the transfer source or the buffer and the time period for the transfer vehicle to run from the transfer source or the buffer are estimated to assign a transfer command to the transfer vehicle. The possibility that the loading and the loading time may deviate from a designated period is evaluated. In case this possibility is high, a production controller is informed that a just-in-time transfer is difficult.
    • 响应于由生产控制器指定传送源处的加载时间和传送目的地的加载时间的传送请求,创建传送场景,其包含来自传送源的基本传送(From) 到传送目标附近的缓冲器,以及从缓冲器到传送目标的基本传送(To)。 为了能够执行基本传送(From,To),保留缓冲区,并且分配传送车辆。 传送车辆运送到传送源或缓冲器的时间段以及从传送源或缓冲器运送的传送车辆的时间段被估计为向传送车辆分配传送命令。 评估装载和装载时间可能偏离指定时间段的可能性。 如果这种可能性很高,则通知生产控制器难以及时传送。
    • 3. 发明授权
    • Nickel powder and conductive paste
    • 镍粉和导电胶
    • US06406513B2
    • 2002-06-18
    • US09773908
    • 2001-02-02
    • Yasuhide YamaguchiTakao Hayashi
    • Yasuhide YamaguchiTakao Hayashi
    • B22F100
    • H01G4/0085B22F1/0007B22F1/0044B22F9/24
    • Nickel powder herein disclosed has an average particle size, as determined by the observation with SEM, of not more than 1 &mgr;m, a particle density of not less than 8.0 g/cm3, and an average diameter of crystallites present in the nickel particles of not more than 550 Å. Moreover, a conductive paste for a multilayer ceramic capacitor comprises the foregoing nickel powder. The nickel powder and the conductive paste containing the same can control heat shrinkage while inhibiting any rapid oxidation and permit the production of a thin, uniform internal electrode for a multilayer ceramic capacitor without being accompanied by any crack formation and delamination during firing.
    • 本文公开的镍粉具有通过SEM观察确定的不超过1μm的平均粒度,不小于8.0g / cm 3的颗粒密度和不存在于镍颗粒中的微晶的平均直径 超过550Å。 此外,用于多层陶瓷电容器的导电浆料包括上述镍粉末。 镍粉末和含有它们的导电糊剂可以控制热收缩同时抑制任何快速氧化,并允许生产用于多层陶瓷电容器的薄且均匀的内部电极,而不伴随着烧制期间的任何裂纹形成和分层。
    • 4. 发明授权
    • Optical head and information recording and reproduction apparatus
    • 光头和信息记录和再现设备
    • US06185167B2
    • 2001-02-06
    • US09108009
    • 1998-06-30
    • Akihiro AraiTakao HayashiTohru NakamuraTakayuki Nagata
    • Akihiro AraiTakao HayashiTohru NakamuraTakayuki Nagata
    • G11B700
    • G11B7/131G11B7/0901G11B7/0912G11B7/094G11B7/123
    • An optical head is composed of an objective 2, a composite diffraction element 3 having six areas divided by three parting lines 3a to 3c; and a substrate 5 on which a light-emitting element and a plurality of light-receiving elements are arranged. A focus and a tracking error signals are generated based on signals from the light-receiving elements that receive those of a plurality of luminous fluxes divided by the composite diffraction element 3 which result from passage through the portion between the parting lines 3b and 3c. In generating the tracking error signal, signals from the light-receiving elements that receive luminous fluxes resulting from passage through the outside of the parting lines 3b and 3c are used to correct an offset in the tracking error signal caused by the movement of the objective.
    • 光学头由物镜2,复合衍射元件3组成,具有由三个分型线3a至3c分隔的六个区域; 以及配置有发光元件和多个受光元件的基板5。 基于来自光接收元件的信号产生聚焦和跟踪误差信号,所述光接收元件接收由通过分割线3b和3c之间的部分导致的复合衍射元件3分割的多个光束的光束接收元件。 在产生跟踪误差信号时,来自接收由分流线3b和3c的外部通过的光通量的光接收元件的信号用于校正由于物镜的移动引起的跟踪误差信号中的偏移。
    • 5. 发明授权
    • Method for preparing nickel fine powder
    • 镍微粉制备方法
    • US6120576A
    • 2000-09-19
    • US112361
    • 1998-07-09
    • Yoshiharu ToshimaTakayuki ArakiTakao HayashiHiroyuki Shimamura
    • Yoshiharu ToshimaTakayuki ArakiTakao HayashiHiroyuki Shimamura
    • B22F1/00B22F9/24
    • C22B23/0453B22F1/0014B22F9/24B22F2998/00
    • A method for preparing nickel fine powder is herein disclosed, which comprises the steps of mixing an aqueous sodium hydroxide solution comprising, on the basis of the total weight of the sodium hydroxide present in the aqueous solution, 75 to 85% by weight of liquid caustic soda as specified in JIS K 1203 and 25 to 15% by weight, in total, of at least one of sodium hydroxide as specified in JIS K 8576 and solid caustic soda as specified in JIS K 1202, with an aqueous solution of nickel sulfate to form nickel hydroxide, then reducing the resulting nickel hydroxide with hydrazine and recovering nickel fine powder produced. The nickel fine powder prepared by the method has an average particle size of the primary particles ranging from 0.1 to 0.9 .mu.m, a D.sub.90 value of not more than 2.1 .mu.m and a tap density of not less than 3.5 g/cc. The nickel fine powder has a low degree of aggregation, a narrow particle size distribution and a high tap density and therefore, the powder is quite suitably used as a material for producing an internal electrode for a laminated ceramic condenser.
    • 本文公开了一种制备镍微粉的方法,其包括以下步骤:将氢氧化钠水溶液混合,所述氢氧化钠水溶液基于存在于水溶液中的氢氧化钠的总重量为75至85重量%的液体苛性碱 按照JIS K 1203中规定的苏打水,以及JIS-8576中规定的氢氧化钠中的至少一种和JIS K 1202中规定的固体苛性钠中的至少一种的25〜15重量%的硫酸镍水溶液 形成氢氧化镍,然后用肼还原所得的氢氧化镍并回收生产的镍细粉。 通过该方法制备的镍微粉末,其一次粒子的平均粒径为0.1〜0.9μm,D90值不大于2.1μm,振实密度为3.5g / cc以上。 镍微粉末具有低聚集度,窄粒度分布和高振实密度,因此该粉末非常适合用作制备用于层压陶瓷冷凝器的内部电极的材料。
    • 10. 发明授权
    • High temperature reactor having an improved fluid coolant circulation
system
    • 具有改进的流体冷却剂循环系统的高温反应器
    • US5114667A
    • 1992-05-19
    • US645250
    • 1991-01-24
    • Takao HayashiYasuo Osawa
    • Takao HayashiYasuo Osawa
    • G21C1/24G21C1/07G21C15/18G21D1/00
    • G21C15/18G21C1/07Y02E30/36
    • A high temperature reactor has a downflow type nuclear reactor provided at the top portion thereof with a gas inlet and a plurality of steam generators provided around the nuclear reactor. The steam generator has a heat insulation tube provided vertically from the bottom portion of the nuclear reactor to a level higher than the top gas inlet of the reactor, a heat exchanger provided in a descending gas flow path formed around the heat insulation tube, and a gas circulator provided at the bottom portion thereof for feeding a gas coolant to the gas inlet of the nuclear reactor, whereby said gas coolant, after being used for cooling the reactor core, delivered from the bottom portion of the reactor, flows into the heat insulation tube, flows upward to the top portion of the tube, is reversed in direction at the top end of the tube, then flows downward through the descending gas flow where the heat exchanger is provided, and is then recycled to the gas inlet flow path of the reactor by the gas circulator.
    • 高温反应器具有在其顶部设置有气体入口的下流式核反应堆和设置在核反应堆周围的多个蒸汽发生器。 蒸汽发生器具有从核反应堆的底部垂直设置到高于反应器的顶部气体入口的高度的隔热管,设置在形成在隔热管周围的下降气体流路中的热交换器,以及 设置在其底部的气体循环器,用于将气体冷却剂送入核反应堆的气体入口,由此所述气体冷却剂在用于冷却从反应器底部输送的反应堆堆芯之后流入隔热层 管向上流到管的顶部,在管的顶端的方向上反向,然后向下流过设置有热交换器的下降气流,然后再循环到气体入口流动路径 反应器由气体循环器。