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    • 5. 发明授权
    • Analyzer
    • 分析仪
    • US07955556B2
    • 2011-06-07
    • US11062933
    • 2005-02-23
    • Hiroki KoikeMasayuki Ikeda
    • Hiroki KoikeMasayuki Ikeda
    • G01N21/00
    • G01N35/04G01N35/0095Y10T436/113332Y10T436/114165
    • An analyzer capable of operating in a normal processing mode performing sequential analysis of a plurality of specimens and in an interrupting mode performing analysis of an urgent specimen that comprising a suction unit for suctioning an urgent specimen, an analysis unit for analyzing an urgent specimen suctioned by the suction unit, an urgent specimen container holder for holding an urgent specimen container containing an urgent specimen, and a moving mechanism for moving the urgent specimen container holder between a placement position at which an urgent specimen container is placed in the holder, and a suction position at which an urgent specimen is suctioned from an urgent specimen container, wherein the moving mechanism comprises a movement force supplying mechanism for supplying a force to move the urgent specimen container holder from the suction position to the placement position is disclosed.
    • 一种能够以正常处理模式操作的分析器,对多个样本进行顺序分析,并且执行对包括用于抽吸紧急样本的抽吸单元的紧急样本进行分析的中断模式,分析单元,用于分析由 抽吸单元,用于容纳装有紧急样本的紧急样本容器的紧急检体容器保持器和用于使紧急检体容器保持件在紧固检体容器被放置在保持器中的位置与吸引口之间移动的移动机构 公开了一种紧急样本从紧急样本容器抽吸的位置,其中移动机构包括用于提供将紧急样本容器保持器从抽吸位置移动到放置位置的力的移动力供给机构。
    • 6. 发明申请
    • Analyzer
    • 分析仪
    • US20050186113A1
    • 2005-08-25
    • US11062933
    • 2005-02-23
    • Hiroki KoikeMasayuki Ikeda
    • Hiroki KoikeMasayuki Ikeda
    • G01N35/02G01N35/00G01N35/04
    • G01N35/04G01N35/0095Y10T436/113332Y10T436/114165
    • An analyzer capable of operating in a normal processing mode performing sequential analysis of a plurality of specimens and in an interrupting mode performing analysis of an urgent specimen that comprising a suction unit for suctioning an urgent specimen, an analysis unit for analyzing an urgent specimen suctioned by the suction unit, an urgent specimen container holder for holding an urgent specimen container containing an urgent specimen, and a moving mechanism for moving the urgent specimen container holder between a placement position at which an urgent specimen container is placed in the holder, and a suction position at which an urgent specimen is suctioned from an urgent specimen container, wherein the moving mechanism comprises a movement force supplying mechanism for supplying a force to move the urgent specimen container holder from the suction position to the placement position is disclosed.
    • 一种能够以正常处理模式操作的分析器,对多个样本进行顺序分析,并且执行对包括用于抽吸紧急样本的抽吸单元的紧急样本进行分析的中断模式,分析单元,用于分析由 抽吸单元,用于容纳装有紧急样本的紧急样本容器的紧急检体容器保持器和用于使紧急检体容器保持件在紧固检体容器被放置在保持器中的位置与吸引口之间移动的移动机构 公开了一种紧急样本从紧急样本容器抽吸的位置,其中移动机构包括用于提供将紧急样本容器保持器从抽吸位置移动到放置位置的力的移动力供给机构。
    • 7. 发明授权
    • Transmission device
    • 传输设备
    • US09512906B2
    • 2016-12-06
    • US14764406
    • 2013-12-09
    • Masayuki Ikeda
    • Masayuki Ikeda
    • F16H3/72F16H3/70
    • F16H3/70F16H3/72
    • A feature for joining gear wheels includes a disk portion 21 and external cogs 22 provided to an input means 12, a second cylindrical guiding portion 31 provided on one side of an internal/external gear wheel 15 and coaxial with a first cylindrical guiding portion 30, an external gear wheel 18 rotatably fit in and attached to the input means 12 and having external cogs 38 having a same shape as the external cogs 22 of the input means 12 and engaging with internal cogs 33 of the gear wheel 15, and an internal gear wheel 19 having the internal cogs 40 engaging with the external cogs 22 and the external cogs 38, having an annular guiding portion 39 to be guided by the second cylindrical guiding portion 31, arranged in between the disk portion 21 and the internal/external gear wheel 15, and revolving along with the gear wheel 15.
    • 用于连接齿轮的特征包括设置在输入装置12上的圆盘部分21和外部齿轮22,设置在内部/外部齿轮15的一侧并与第一圆柱形引导部分30同轴的第二圆柱形引导部分31, 外部齿轮18可旋转地配合并连接到输入装置12,并具有与输入装置12的外部齿轮22相同形状的外部齿轮38,并与齿轮15的内部齿轮33啮合, 具有与外部齿轮22和外部齿轮38啮合的内部齿轮40的轮19具有环形引导部分39,以被第二圆柱形引导部分31引导,该第二圆柱形引导部分31布置在盘部分21和内部/外部齿轮 并且与齿轮15一起旋转。
    • 8. 发明授权
    • Specimen analysis apparatus and specimen analysis method
    • 标本分析仪器和样本分析方法
    • US08119081B2
    • 2012-02-21
    • US11729017
    • 2007-03-28
    • Yousuke TanakaMasayuki IkedaTakamichi Naito
    • Yousuke TanakaMasayuki IkedaTakamichi Naito
    • B01L3/02
    • G01N35/00603G01N35/1004G01N2035/00277
    • A specimen analysis method, comprising: bringing a first specimen vessel to a sucking position for sucking specimens; obtaining a first measurement result of a first specimen contained in the first specimen vessel; bringing a second specimen vessel to the sucking position before the first measurement result is obtained; obtaining a second measurement result of a second specimen contained in the second specimen vessel; bringing a third specimen vessel to the sucking position after the first measurement result is obtained; obtaining a third measurement result of a third specimen contained in the third specimen vessel; and obtaining a fourth measurement result of the second specimen when the first measurement result is higher than a threshold, the second specimen being sucked at the sucking position again for obtaining the fourth measurement result before bringing the third specimen vessel to the sucking position, is disclosed. A specimen analysis is also disclosed.
    • 一种试样分析方法,其特征在于,包括:将第一试样容器置于吸取试样的抽吸位置; 获得包含在第一标本容器中的第一标本的第一测量结果; 在获得第一测量结果之前将第二样本容器带到吸入位置; 获得包含在第二样本容器中的第二样本的第二测量结果; 在获得第一测量结果之后,使第三样本容器到达吸入位置; 获得包含在第三样本容器中的第三样本的第三测量结果; 并且当第一测量结果高于阈值时获得第二样本的第四测量结果,在将第三样本容器移动到吸引位置之前,第二样本被再次吸入吸引位置以获得第四测量结果 。 还披露了样本分析。
    • 9. 发明申请
    • SEAMLESS CAPSULE MANUFACTURING APPARATUS
    • 无缝胶囊制造设备
    • US20110220015A1
    • 2011-09-15
    • US13129875
    • 2009-10-09
    • Masayuki IkedaHiroshi Nagao
    • Masayuki IkedaHiroshi Nagao
    • B05C13/02
    • A23P1/04A23P10/30A61J3/07
    • A seamless capsule manufacturing apparatus (1) manufactures a seamless capsule by means of nozzles (2a-2d). A core liquid (5) and a coating liquid (6) are supplied to each of the nozzles (2a-2d) from pumps (16, 18) through distributors (21, 22). The distributors (21, 22) and the nozzles (2a-2d) are connected to each other by core liquid distributing tubes (23a-23d) and coating liquid distributing tubes (25a-25d), and each of the core liquid distributing tubes (23a-23d) and each of the coating liquid distributing tubes (25a-25d) have the same length. A vibrator (24) is mounted to the distributor (21), and the core liquid (5) is supplied to the nozzles (2a-2d) while being vibrated. Each of the distributors (21, 22) is provided with an air vent device (35), and air vent is performed appropriately.
    • 无缝胶囊制造装置(1)通过喷嘴(2a-2d)制造无缝胶囊。 通过分配器(21,22)从泵(16,18)向每个喷嘴(2a-2d)供给芯液(5)和涂液(6)。 分配器(21,22)和喷嘴(2a-2d)通过芯液分配管(23a-23d)和涂布液分配管(25a-25d)彼此连接,并且每个芯液分配管 23a-23d)和每个涂布液分配管(25a-25d)具有相同的长度。 振动器(24)安装到分配器(21)上,并且芯体(5)在被振动的同时被供应到喷嘴(2a-2d)。 每个分配器(21,22)设置有排气装置(35),并且适当地执行排气口。
    • 10. 发明授权
    • Pulse generator circuit and communication apparatus
    • 脉冲发生器电路和通讯装置
    • US07855589B2
    • 2010-12-21
    • US12394653
    • 2009-02-27
    • Masayuki Ikeda
    • Masayuki Ikeda
    • G06F1/04
    • H03K5/13H03K5/159H04B1/7174
    • A pulse generator circuit that outputs pulses having a predetermined shape from an output terminal based on a start signal includes a timing generator circuit that generates (n+1) signals (n is an integer greater than or equal to 2), the phases of which sequentially change at predetermined time intervals from the point when the phase of the start signal changes, first and second power supplies that supply predetermined potentials, n impedance devices, and a switching circuit that connects the output terminal to the first or second power supply in a predetermined order according to the value of a logic function based on the (n+1) signals via the corresponding impedance device.
    • 基于起始信号从输出端子输出具有预定形状的脉冲的脉冲发生器电路包括产生(n + 1)个信号(n是大于或等于2的整数)的定时发生器电路,其相位相位 从开始信号的相位变化的点起,以提供预定电位的第一和第二电源,n个阻抗装置以及将输出端连接到第一或第二电源的开关电路依次改变, 根据基于(n + 1)信号的逻辑功能的值经由相应的阻抗装置的预定顺序。