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    • 2. 发明申请
    • Load cell unit, weight checker, electronic balance, and balance
    • 称重传感器单元,重量检查器,电子天平和天平
    • US20090255736A1
    • 2009-10-15
    • US12310720
    • 2007-08-24
    • Kazufumi NaitoShoko TajiriShinji Takeichi
    • Kazufumi NaitoShoko TajiriShinji Takeichi
    • G01G11/00G01G3/18G01G3/14
    • G01L1/2243B07C5/18G01G3/18G01L1/2281
    • A load cell unit which can satisfactorily measure the weight of a measured object if ambient temperature changes, and a weight checker and an electric balance using the load cell unit, are provided. A strain generating element includes plural strain generating portions. Each of strain gauges is a gauge of a temperature/sensitivity compensated type and is placed in a position on a corresponding strain generating portion. A bridge circuit includes the strain gauges. A zero compensation element compensates the zero of the bridge circuit in accordance with the temperature of the strain generating element, to roughly correct an output of the bridge circuit. A thermal sensitive resistor is a temperature sensor for detecting the temperature of the strain generating element. The zero compensation element and the thermal sensitive resistor are provided on a thick portion interposed between adjacent strain generating portions. A signal processor minutely corrects a roughly-corrected output of the bridge circuit. Thus, software compensation of zero can be further provided to an output of the bridge circuit, to which circuital compensation of zero is provided.
    • 一种称重传感器单元,其能够在环境温度变化时能够令人满意地测量测量对象的重量,并且提供使用该称重传感器单元的重量检查器和电气平衡。 应变发生元件包括多个应变产生部。 每个应变计是温度/灵敏度补偿型的量规,并且被放置在相应的应变产生部分上的位置。 桥式电路包括应变计。 零补偿元件根据应变发生元件的温度补偿桥接电路的零点,以大致校正桥接电路的输出。 热敏电阻器是用于检测应变发生元件的温度的温度传感器。 零补偿元件和热敏电阻器设置在插入相邻应变产生部分之间的厚部分上。 信号处理器精确地校正桥接电路的大致校正的输出。 因此,可以将零的软件补偿进一步提供给提供零电路补偿的桥式电路的输出。
    • 9. 发明授权
    • Large area ion concentration measuring electrode and method of
manufacturing same
    • 大面积离子浓度测量电极及其制造方法
    • US6162337A
    • 2000-12-19
    • US262793
    • 1999-03-04
    • Yasukazu IwamotoShinji Takeichi
    • Yasukazu IwamotoShinji Takeichi
    • G01N27/36G01N27/401G01N27/403G01N27/26G01N27/416
    • G01N27/4035G01N27/401
    • An ion concentration measuring electrode unit includes a body member having a plurality of capillary tubes extending through the body member to provide a plurality of passageways for a sample fluid to be tested. The gaps between the hollow tubes are sealed to maintain an internal solution complimentary to the ion to be measured. An internal electrode is immersed within the internal solution whereby a large internal surface area is provided to enable a reduced impedance in measurement of a sample fluid. An ion concentration meter assembly is thereby provided when combined with a sample flow conduit directing fluid through the body member with a liquid junction connected to the conduit and to a reference electrode unit whereby outputs of the internal electrode and a reference electrode can be used to measure an ion concentration.
    • 离子浓度测量电极单元包括具有多个毛细管的主体构件,所述多个毛细管延伸穿过主体构件,以提供待测试样品流体的多个通道。 中空管之间的间隙被密封以保持与要测量的离子互补的内部溶液。 将内部电极浸入内部溶液中,由此提供大的内表面积以使样品流体的测量中的阻抗减小。 由此提供离子浓度计组件,其与通过本体构件的流体引导流体连接到管道和参考电极单元的样品流动管道组合,从而可以使用内部电极和参考电极的输出来测量 离子浓度。
    • 10. 发明授权
    • Flow injection nonaqueous solvent neutralization titration process and
apparatus
    • 流动注射非溶剂中和滴定法和装置
    • US5212095A
    • 1993-05-18
    • US854092
    • 1992-03-19
    • Kojiro MikiShinji TakeichiHiromi Ohkawa
    • Kojiro MikiShinji TakeichiHiromi Ohkawa
    • G01N31/16G01N33/03G01N33/28
    • G01N33/03G01N31/16G01N33/2876Y10S436/826Y10T436/117497
    • A flow injection nonaqueous solvent neutralization titration process and system is provided. The predetermined quantity of a known titrant is used to derived calibration values based on different predetermined concentrations of a desired component in a sample. The quantity of the titrant agent in excess of an amount necessary to completely react with the sample is added and then subsequently the amount of the unreactant titrant agent is determined. From this value, the calibration values that have been stored, for example, in a look-up table can be used to determine the actual concentrations of the desired component in the sample. Alternatively, the sample can be mixed in a fluid carrier solution having a predetermined quantity of the titrant agent and then the resulting by-products of the reaction with the sample and the titrant can be inserted into a pH buffer solution so that the excess titrant will change the concentration ratio of the acids to bases and by measuring this change and comparing with the calibration values, the unknown concentration of the desired component in the sample can be discovered.
    • 提供流动注射非水溶剂中和滴定法和系统。 使用预定量的已知滴定剂基于样品中期望组分的不同预定浓度导出校准值。 添加超过与样品完全反应所需量的滴定剂的量,然后测定未反应剂滴定剂的量。 从该值,已​​经存储在例如查找表中的校准值可用于确定样品中所需组分的实际浓度。 或者,可以将样品混合在具有预定量的滴定剂的流体载体溶液中,然后将所得到的与样品的反应副产物和滴定剂插入pH缓冲溶液中,使得过量滴定剂 将酸的浓度比改变为碱,并通过测量该变化并与校准值进行比较,可以发现样品中所需组分的未知浓度。