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    • 4. 发明授权
    • Valve assembly for gas container
    • 气体容器阀组件
    • US08573253B2
    • 2013-11-05
    • US11884129
    • 2006-02-20
    • Nobuyuki OgamiNobuo KobayashiAkira Yamashita
    • Nobuyuki OgamiNobuo KobayashiAkira Yamashita
    • F17C1/00F17C13/04B67D7/36
    • F17C13/04F17C2201/0104F17C2205/0323F17C2205/0338F17C2205/0391Y10T137/8326Y10T137/86348Y10T137/86372Y10T137/87249
    • There is disclosed a valve assembly for a gas container capable of appropriately discharging a gas from the gas container, even if a valve of a discharge passage has a failure or the like. The valve assembly for the gas container disposed at the gas container has, as passages which allow the inside of the gas container to communicate with the outside, a filling passage which fills the gas container with the gas and a discharge passage which discharges the gas. Furthermore, the valve assembly has a filling-side valve disposed at the filling passage and configured to close this passage, a discharge-side valve disposed at the discharge passage and configured to close this passage, a communication path which connects a downstream side of the discharge-side valve to a downstream side of the filling-side valve, and a shut-off valve disposed at the communication path. When the discharge-side valve does not open due to the failure or the like, the shut-off valve is opened to allow the gas to flow through the filling passage, the communication path and the discharge passage in this order.
    • 公开了一种能够适当地从气体容器排出气体的气体容器的阀组件,即使排出通路的阀具有故障等。 用于设置在气体容器中的气体容器的阀组件具有允许气体容器内部与外部连通的通道,填充有气体的气体容器的填充通道和排出气体的排出通道。 此外,阀组件具有设置在填充通道处并且构造成关闭该通道的填充侧阀,排出侧阀设置在排出通道处,并被构造成关闭该通道,连通路径 排出侧阀到填充侧阀的下游侧,以及截止阀,设置在连通路径。 当排出侧阀由于故障等而不打开时,截止阀打开以允许气体依次流过填充通道,连通路径和排出通道。
    • 5. 发明申请
    • MEDICAL IMAGE DIAGNOSIS DEVICE AND MEDICAL IMAGE PROCESSING METHOD
    • 医学图像诊断装置及医学图像处理方法
    • US20120162222A1
    • 2012-06-28
    • US13391650
    • 2011-10-13
    • Ryuji ZaikiYoshiyasu HayashiNobuo KobayashiTeruomi Gunji
    • Ryuji ZaikiYoshiyasu HayashiNobuo KobayashiTeruomi Gunji
    • G06T15/00G09G5/00G06K9/00
    • A61B6/504A61B6/463
    • A medical image diagnosis device according to an embodiment of the present invention includes: an imaging unit that takes an image of a subject, with an X-ray generation unit which exposes the subject to X-rays and an X-ray detector which detects X-rays that have passed through the subject, being supported on a supporter; a control unit that controls so as to rotate and move the supporter with respect to the subject and take images of the subject from a plurality of viewpoints; a storage unit that stores image data taken from a plurality of the viewpoints; an image processing unit that classifies a plurality of pieces of the image data stored in the storage unit into a plurality of imaging ranges to generate thumbnail images; and a display unit that displays thumbnail images generated by the image processing unit.
    • 根据本发明实施例的医疗图像诊断装置包括:成像单元,其利用将对象暴露于X射线的X射线产生单元和检测X的X射线检测器拍摄被摄体的图像; 已通过该主题的数字,得到支持者的支持; 控制单元,其控制使得所述支持者相对于所述被摄体旋转并移动,并从多个视点拍摄所述被摄体的图像; 存储单元,其存储从多个视点取得的图像数据; 图像处理单元,将存储在存储单元中的多个图像数据分成多个成像范围,以生成缩略图图像; 以及显示单元,其显示由图像处理单元生成的缩略图。
    • 7. 发明授权
    • Information processing system and method of allocating I/O to paths in same
    • 信息处理系统和分配I / O路径的方法
    • US07873759B2
    • 2011-01-18
    • US12342314
    • 2008-12-23
    • Shigenori TomonagaHiroshi YokouchiNobuo Kobayashi
    • Shigenori TomonagaHiroshi YokouchiNobuo Kobayashi
    • G06F3/00G06F13/38
    • G06F13/4022
    • Provided is an information processing system that communicates with a storage apparatus through a plurality of paths Pi (i=1 to n, where n is a total number of the paths), and that issues an I/O to the storage apparatus through one of the paths Pi. The information processing system sets weights Wi for the respective paths Pi; obtains an I/O issue interval di of each of the paths Pi by dividing a sum total ΣWi of the weights Wi by the weight Wi set for the path Pi; obtains I/O issue timings ti(m)of each of the paths Pi by using the following equation: ti(m)=di/C+m·di (m=0, 1, 2, . . . ) (where C is a constant); and issues the I/Os to the paths Pi in an order corresponding to the an order of the I/O issue timings ti(m) chronologically arranged.
    • 提供了一种信息处理系统,其通过多个路径Pi(i = 1至n,其中n是路径的总数)与存储装置进行通信,并且通过以下之一向存储装置发出I / O 路径Pi。 信息处理系统设定各个路径Pi的权重Wi; 通过将权重Wi的总和&Sgr; Wi除以为路径Pi设置的权重Wi来获得每个路径Pi的I / O问题间隔di; 通过使用以下等式获得每个路径Pi的I / O问题定时ti(m):ti(m)= di / C + m·di(m = 0,1,2,...)(其中C 是一个常数); 并以对应于按时间顺序排列的I / O发布定时ti(m)的顺序的顺序将I / O发布到路径Pi。
    • 8. 发明申请
    • Sulfuric acid electrolysis process
    • 硫酸电解过程
    • US20090321272A1
    • 2009-12-31
    • US12459161
    • 2009-06-26
    • Masaaki KatoYusuke OgawaHiroki DomonNaoya HayamizuMakiko TangeYoshiaki KurokawaNobuo Kobayashi
    • Masaaki KatoYusuke OgawaHiroki DomonNaoya HayamizuMakiko TangeYoshiaki KurokawaNobuo Kobayashi
    • C25B15/00
    • C25B1/285
    • Sulfuric acid electrolysis process wherein; a temperature of electrolyte containing sulfuric acid to be supplied to an anode compartment and a cathode compartment is controlled to 30 degree Celsius or more; a flow rate F1 (L/min.) of the electrolyte containing sulfuric acid to be supplied to said anode compartment is controlled to 1.5 times or more (F1/Fa≧1.5) a flow rate Fa (L/min.) of gas formed on an anode side as calculated from Equation (1) shown below and a flow rate F2(L/min.) of said electrolyte containing sulfuric acid to be supplied to said cathode compartment is controlled to 1.5 times or more (F2/Fc≧1.5) a flow rate Fe (L/min.) of gas formed on a cathode side as calculated from Equation (2) shown below. Fa=(I×S×R×T)/(4×Faraday constant)   Equation (I) Fe=(I×S×R×T)/(2×Faraday constant)   Equation (2) I: Electrolytic current (A)S: Time: 60 second (Fixed)R: Gas constant (0.082 1·atm/K/mol)K: Absolute temperature (273.15 degree Celsius+T degree Celsius)T: Electrolysis temperature (degree Celsius)Faraday constant: (C/mol)
    • 硫酸电解法其中; 供给阳极室和阴极室的含有硫酸的电解质的温度控制在30摄氏度以上; 将供给到阳极室的含有硫酸的电解质的流量F1(L / min)控制为气体的流量Fa(L / min)的1.5倍以上(F1 / Fa> 1.5) 形成在阳极侧,由下述式(1)算出,将含有供给阴极室的硫酸的电解质的流量F2(L / min)控制在1.5倍以上(F2 / Fc> = 1.5)由下面所示的等式(2)计算的在阴极侧形成的气体的流速Fe(L / min)。 Fa =(IxSxRxT)/(4xFaraday常数)等式(I)Fe =(IxSxRxT)/(2xFaraday常数)等式(2)I:电解电流(A)S:时间:60秒(固定)R:气体常数(0.082 1.atm / K / mol)K:绝对温度(273.15摄氏度+ T摄氏度)T:电解温度(摄氏度)法拉第常数:(C / mol)