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    • 53. 发明授权
    • Molecular compounds containing polymers having hydrogen bond sites as the constituent compounds
    • 含有氢键位点的聚合物的分子化合物作为构成化合物
    • US07601784B2
    • 2009-10-13
    • US11125283
    • 2005-05-09
    • Hiroshi SuzukiSatoru Abe
    • Hiroshi SuzukiSatoru Abe
    • C08G65/322
    • C08K5/13
    • It is an object of the present invention to provide molecular compounds useful in the fields of state-of the-art materials, such as formulations, waste water treatments, energy transducers, conductors and bio-model reactions, in a way that interaction points and forces working inside polymer assemblies are fixed as well as controlled so that constituent polymers are aligned and modified. It is also an object of the present invention to provide methods for aligning and/or modifying polymers having hydrogen bond sites. A molecular compound is produced from a tetrakis aryl compound represented by Formula (I) (wherein, X is (CH2)n, or p-phenylene; n is 0, 1, 2 or 3; Y is hydroxyl, carboxyl or optionally substituted amino: and R1 and R2 are each hydrogen, lower alkyl, optionally substituted phenyl, halogen or lower alkoxy) and a polymer having hydrogen bond sites, such as polyethers, polyalcohols or polyamines.
    • 本发明的目的是提供分子化合物,其可用于现有技术材料领域,例如制剂,废水处理,能量换能器,导体和生物模型反应,其方式是相互作用点和 在聚合物组件内部工作的力是固定的并且受到控制,使得组分聚合物被对准和改性。 本发明的另一个目的是提供用于对齐和/或改性具有氢键位置的聚合物的方法。 分子化合物由式(I)表示的四芳基化合物(其中X为(CH 2)n或对亚苯基; n为0,1,2或3; Y为羟基,羧基或任选取代的氨基 :和R 1和R 2各自为氢,低级烷基,任选取代的苯基,卤素或低级烷氧基)和具有氢键位置的聚合物,例如聚醚,多元醇或多胺。
    • 54. 发明申请
    • BALUN TRANSFORMER USING A DRUM-SHAPED CORE
    • BALUN变压器使用鼓形芯
    • US20090219127A1
    • 2009-09-03
    • US12368795
    • 2009-02-10
    • Toshio TomonariHiroshi SuzukiToshihiro Kuroshima
    • Toshio TomonariHiroshi SuzukiToshihiro Kuroshima
    • H01F27/29
    • H01F19/04H01F27/29
    • A balun transformer includes: a drum-shaped core having a core unit and a pair of flanges arranged on both sides of the core unit; a plurality of terminal electrodes arranged on the flanges; a primary winding wound around the core unit, both ends of the primary winding being connected to the terminal electrodes; and a secondary winding wound around the core unit, both ends and a center tap of the secondary winding being connected to the terminal electrodes, wherein the secondary winding includes a first wire extending from one end to the center tap, and a second wire extending from the other end to the center tap, and the first wire and the second wire are wound around the core unit so as to extend along each other.
    • 平衡不平衡变压器包括:鼓形芯,其具有芯单元和布置在芯单元两侧的一对凸缘; 布置在凸缘上的多个端子电极; 初级绕组缠绕在芯单元上,初级绕组的两端连接到端子电极; 以及缠绕在所述芯单元上的次级绕组,所述次级绕组的两端和中心抽头连接到所述端子电极,其中所述次级绕组包括从一端延伸到所述中心抽头的第一线,以及从所述第二线延伸的第二线 另一端到中心抽头,并且第一线和第二线围绕芯单元缠绕以彼此延伸。
    • 55. 发明申请
    • Method of Detecting Dispensed Quantity, and Liquid Suction Monitoring Dispensing Apparatus
    • 检测分配量的方法和液体吸引监测分配装置
    • US20090211380A1
    • 2009-08-27
    • US11920663
    • 2006-05-19
    • Hideji TajimaMichinori KoizukaHiroshi SuzukiSusumu Kimura
    • Hideji TajimaMichinori KoizukaHiroshi SuzukiSusumu Kimura
    • G01N1/14B01L3/02
    • G01N35/1016G01N2035/1025
    • There are provided a method of detecting dispensed quantity in which without the need of detecting a surface of liquid accommodated in a container, a liquid quantity can be detected only by measuring pressure change; and a relevant liquid suction monitoring dispensing apparatus. There is provided a method of detecting dispensed quantity for detection of the quantity of liquid suctioned and discharged by a dispensing apparatus including a pipette tip, a liquid suctioning/discharging mechanism for the pipette tip, a pressure sensor capable of detecting the pressure within the pipette tip, and a lifting and lowering mechanism for the pipette tip, which method comprises: an insertion step for inserting a distal end of the pipette tip down to the deepest zone of a container accommodating liquid to be measured; a suction pressure measuring step for without moving of the pipette tip, while suctioning the liquid into the pipette tip at a predetermined suctioning rate, measuring any pressure change during the suctioning; and a suction detecting step for on the basis of pressure change measured, determining the state of suction. Further, there is provided a liquid suction monitoring dispensing apparatus capable of practicing this method.
    • 提供了一种检测分配量的方法,其中不需要检测容纳在容器中的液体的表面,只能通过测量压力变化来检测液体量; 和相关的液体吸入监测分配装置。 提供了一种检测分配量的方法,用于检测由包括移液管尖端的分注装置吸取和排出的液体的量,用于移液管末端的液体吸入/排出机构,能够检测移液管内的压力的压力传感器 尖端以及用于吸头的提升和降低机构,该方法包括:插入步骤,用于将移液管尖端的远端向下插入容纳待测量液体的容器的最深处; 抽吸压力测量步骤,用于在移动吸头的同时,以预定的抽吸速率将液体吸入移液管吸头,测量吸力期间的任何压力变化; 以及抽吸检测步骤,用于基于测量的压力变化,确定抽吸状态。 此外,提供了能够实施该方法的液体吸引监测分配装置。