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    • 92. 发明申请
    • FUEL CELL SYSTEM AND OPERATING METHOD THEREOF
    • 燃料电池系统及其操作方法
    • US20120028144A1
    • 2012-02-02
    • US13262131
    • 2010-03-09
    • Yoshikazu TanakaKiyoshi TaguchiYoshio TamuraShigeki YasudaHiroaki Kaneko
    • Yoshikazu TanakaKiyoshi TaguchiYoshio TamuraShigeki YasudaHiroaki Kaneko
    • H01M8/06
    • H01M8/0606H01M8/04022H01M8/04223H01M8/04225H01M8/04228H01M8/04302H01M8/04303H01M8/04373H01M8/04738H01M8/04776H01M8/04955H01M2250/10Y02B90/14
    • Provided are a fuel cell system capable of shortening the wait time of an observer who confirms set points of a system interconnection protective device before starting a system interconnection operation, and a method for operating the fuel cell system.A fuel cell system 100 includes: a hydrogen generating unit 16 configured to generate a hydrogen-containing gas by using a raw material; a heater 18 configured to heat the hydrogen generating unit; an electric power generation start command unit 32 configured to receive a command of start of an electric power generating operation of the fuel cell system, the command being input by a manual operation of an operator, the electric power generating operation being interconnected with an electric power system; and a controller 28 configured to: execute electric power generation stand-by, in which the fuel cell system stands by for the start of the electric power generating operation interconnected with the electric power system, while executing a temperature maintaining process of the hydrogen generating unit by the heater after completion of a temperature increasing process of the hydrogen generating unit by the heater; and when the electric power generation start command unit receives the command of the start of the electric power generating operation, stop the electric power generation stand-by and start the electric power generating operation interconnected with the electric power system.
    • 提供一种燃料电池系统,其能够缩短在开始系统互连操作之前确认系统互连保护装置的设定点的观察者的等待时间,以及用于操作燃料电池系统的方法。 燃料电池系统100包括:氢生成单元16,被配置为通过使用原料产生含氢气体; 构造成加热氢生成单元的加热器18; 发电开始指令单元32,其被配置为接收燃料电池系统的发电操作的开始指令,所述指令由操作者的手动操作输入,所述发电动作与电力互连 系统; 以及控制器28,其被配置为:在执行所述氢生成单元的温度保持处理的同时,执行所述燃料电池系统等待与所述电力系统相互连接的所述发电动作开始的发电待机 通过加热器完成氢生成单元的升温过程之后的加热器; 并且当发电开始指令单元接收到发电操作开始的指令时,停止发电待机并开始与电力系统相互连接的发电动作。
    • 93. 发明授权
    • Waterproof structure for connector housing
    • 连接器外壳防水结构
    • US08087948B2
    • 2012-01-03
    • US12224009
    • 2007-02-22
    • Tsugio AmboYoshikazu Tanaka
    • Tsugio AmboYoshikazu Tanaka
    • H01R13/52
    • H01R13/5205
    • A connector housing that is reduced in size in correspondence with reduction in size of a terminal. When a connecting terminal to which an electric wire and a waterproof sealing member are attached is inserted into a terminal accommodating hole from an terminal insertion opening, a step of the waterproof sealing member abuts against a step of the terminal insertion opening and also a taper surface meets a taper surface, preventing water from entering the terminal accommodating hole from the backside. In this state, the waterproof sealing member is pressed toward a connector housing by a rear holder to prevent the waterproof sealing member from falling out of position. Thus, because the terminal insertion opening is sealed, with a part of the waterproof sealing member placed outside the connector housing, the lateral width and vertical width of the terminal accommodating hole can be set to the magnitudes that substantially allow the connecting terminal to pass through the hole.
    • 连接器壳体,其尺寸与终端的尺寸减小相对应。 当安装有电线和防水密封构件的连接端子从端子插入口插入端子容纳孔时,防水密封构件的台阶抵靠端子插入口的台阶,并且锥形表面 遇到锥形表面,防止水从背面进入端子容纳孔。 在这种状态下,防水密封构件通过后保持件朝向连接器壳体挤压,以防止防水密封构件脱离位置。 因此,由于端子插入口被密封,防水密封构件的一部分配置在连接器壳体的外部,所以端子容纳孔的横向宽度和垂直宽度可以被设定为大致允许连接端子通过 那个洞。
    • 96. 发明申请
    • Bezel-less Acoustic Touch Apparatus
    • 无挡边声学触摸设备
    • US20110234545A1
    • 2011-09-29
    • US13012513
    • 2011-01-24
    • Yoshikazu TanakaTing GaoJoel C. KentJeffrey T. HallerDaniel H. ScharffTimothy O. Avery
    • Yoshikazu TanakaTing GaoJoel C. KentJeffrey T. HallerDaniel H. ScharffTimothy O. Avery
    • G06F3/043
    • G06F3/0436G06F3/0416
    • An acoustic touch apparatus is provided that includes a substrate capable of propagating surface acoustic waves, such as Rayleigh-type or Love-type waves. The substrate has a front surface, a back surface, and a curved connecting surface formed between the front surface and the back surface. The apparatus also includes at least one acoustic wave transducer and at least one reflective array, the acoustic wave transducer and the reflective array behind the back surface of the substrate. The acoustic wave transducer is capable of transmitting or receiving surface acoustic waves to or from the reflective array. The reflective array is capable of acoustically coupling the surface acoustic waves to propagate from the back surface and across the front surface via the curved connecting surface. Various types of acoustic touch apparatus with edge sensitive touch functions can be provided, according to specific embodiments.
    • 提供一种声学触摸装置,其包括能够传播表面声波的基板,例如瑞利型或爱型波。 基板具有形成在前表面和后表面之间的前表面,后表面和弯曲的连接表面。 该装置还包括至少一个声波换能器和至少一个反射阵列,声波换能器和在基底后表面后面的反射阵列。 声波换能器能够向或从反射阵列发射或接收表面声波。 反射阵列能够声表面耦合表面声波,从而通过弯曲的连接表面从后表面和前表面传播。 根据具体实施例,可以提供具有边缘敏感触摸功能的各种类型的声学触摸设备。
    • 97. 发明申请
    • CINERARIUM-DERIVED CHROMOSOMAL DNA INVOLVED IN SYNTHESIS OF FLAVONOID, AND USE THEREOF
    • 参与合成黄曲霉毒素的衍生染色体DNA及其用途
    • US20110219477A1
    • 2011-09-08
    • US13124985
    • 2009-10-26
    • Yoshikazu TanakaFilippa Brugliera
    • Yoshikazu TanakaFilippa Brugliera
    • A01H5/00C07H21/00C12N15/63C12N1/00C12N5/10
    • C12N15/825C12N9/0073C12N15/8225
    • Disclosed are: a novel cineraria-derived polynucleotide which can act as a promoter for a coding region of flavonoid 3′,5′-hydroxylase (F3′5′H); and a novel F3′5′H gene construct which carries the polynucleotide. Specifically disclosed are: a cineraria-derived petal-specific promoter which is selected from the group consisting of (1) a polynucleotide having the nucleotide sequence depicted in SEQ ID NO:9 and (2) a polynucleotide which can hybridize with the polynucleotide having the nucleotide sequence depicted in SEQ ID NO:9 under stringent conditions and can act as a promoter for a coding region of flavonoid 3′,5′-hydroxylase (F3′5′H); and a gene construct for inhibiting the expression of a gene in an RNAi method, which has, as a loop, a polynucleotide comprising the whole or a part of a first intron of the novel cineraria-derived polynucleotide.
    • 本发明涉及一种新型的来源于线粒体的多核苷酸,其可以作为黄酮3',5'-羟化酶(F3'5'H)的编码区的启动子。 和携带多核苷酸的新型F3'5'H基因构建体。 具体公开的是:来自花粉衍生的花瓣特异性启动子,其选自(1)具有SEQ ID NO:9所示核苷酸序列的多核苷酸和(2)可与具有SEQ ID NO:9的多核苷酸杂交的多核苷酸, 在严格条件下显示于SEQ ID NO:9中的核苷酸序列,可作为黄酮3',5'-羟化酶(F3'5'H)编码区的启动子。 以及用于以RNAi方法抑制基因表达的基因构建体,其具有作为环的多核苷酸,所述多核苷酸包含全新一代来源于多形核苷酸的多核苷酸的第一内含子的全部或一部分。
    • 99. 发明申请
    • ENERGY SUPPLY SYSTEM
    • 能源供应系统
    • US20110159389A1
    • 2011-06-30
    • US13060584
    • 2010-03-04
    • Hideo OharaMasataka OzekiYoshikazu TanakaKunihiro Ukai
    • Hideo OharaMasataka OzekiYoshikazu TanakaKunihiro Ukai
    • H01M8/04
    • G05B13/02F24D19/1048F24D2200/19F24H2240/00H01M8/0494H01M2250/402H01M2250/405Y02B90/12Y02B90/16Y02E20/14Y02E60/50
    • An energy supply system includes: an energy supply device (1a) configured to supply electric power and/or heat; and a controller (6) configured to set a first maximum operation time of a first specified period including a plurality of second specified periods, the first maximum operation time being an upper limit of an operation time of the energy supply device in the first specified period; calculate and set a second target maximum operation time of each of the second specified periods of the first specified period such that the operation time of the energy supply device in the first specified period does not exceed the first maximum operation time, the second target maximum operation time being a target value of an upper limit of the operation time of the energy supply device in the second specified period; and reconfigure the second target maximum operation time of a future second specified period of a certain first specified period based on a time in which the energy supply device has been actually operated in a past second specified period of the certain first specified period.
    • 能量供给系统包括:能量供给装置(1a),被配置为提供电力和/或热量; 以及控制器(6),其被配置为设置包括多个第二指定周期的第一指定周期的第一最大操作时间,所述第一最大操作时间是所述能量供应装置在所述第一指定时段中的操作时间的上限 ; 计算并设定第一规定期间的第二规定期间的第二目标最大动作时间,使得第一指定期间内的能量供给装置的动作时间不超过第一最大动作时间,第二目标最大动作 时间为第二规定期间能量供给装置的动作时间的上限的目标值; 并且基于在所述特定的第一指定期间的过去的第二指定期间内能量供给装置已经被实际操作的时间来重新配置某一第一指定期间的未来的第二规定期间的第二目标最大动作时间。