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    • 1. 发明专利
    • Automatic titrator
    • 自动搅拌机
    • JP2013213789A
    • 2013-10-17
    • JP2012085262
    • 2012-04-04
    • Kyoto Electron Mfg Co Ltd京都電子工業株式会社
    • MIZUTANI KOJIINABA TAKASHI
    • G01N31/16
    • PROBLEM TO BE SOLVED: To provide an automatic titrator capable of reducing a measurement time and reducing drainage pump units.SOLUTION: A potentiometer 21 detects an equivalent point by calculating the largest point of the variation (differential value) of potential per unit and, when measurement is completed, supplies cleaning liquid in a tank 24 for cleaning liquid into six cleaning pipes 20 through an L-shaped joint 19 and a resin ring 18 by driving a cleaning pump 23 for a fixed time. Consequently, since the cleaning liquid is ejected from the cleaning pipes 20, a titration nozzle 11, sensors 12, 13, an agitation rod 14 and a drainage tube 16 are cleaned. Since a drainage pump 25 is driven together with the cleaning pump 23, a measured sample and the cleaning liquid are suctioned by the drainage tube 16, and discharged into a drainage tank 26.
    • 要解决的问题:提供能够减少测量时间并减少排水泵单元的自动滴定器。解决方案:电位器21通过计算每单位电位的变化(差分值)的最大点来检测等效点,并且当 测量完成,通过驱动清洗泵23固定时间,通过L形接头19和树脂环18将清洁液体清洗液体24中的清洗液供给到六个清洁管20中。 因此,由于清洗液从清洗管20喷出,所以清洗滴定喷嘴11,传感器12,13,搅拌棒14以及排水管16。 由于排水泵25与清洗泵23一起被驱动,所以测量的样品和清洗液被排水管16抽吸,排出到排水槽26中。
    • 2. 发明专利
    • Mercury concentration measuring device and reductant deterioration detector
    • 汞浓度测量装置和减量检测器
    • JP2013205129A
    • 2013-10-07
    • JP2012072655
    • 2012-03-28
    • Kyoto Electron Mfg Co Ltd京都電子工業株式会社
    • SEDO NAGATAKE
    • G01N31/00
    • PROBLEM TO BE SOLVED: To provide a reductant deterioration detector which is installed in a mercury concentration measuring device for quantifying a mercury concentration of a combustion exhaust gas in a waste substance or fossil fuel and is capable of easily detecting deterioration of a reductant, and a mercury concentration measuring device.SOLUTION: After silica wool is immersed in and impregnated with copper-iodide dispersed pure water, a glass tube 31 is filled with copper-iodide impregnated silica wool 32 via an inner small die 33 by tweezers and after drying, the inner small die 33 is removed. A reductant deterioration detection column is installed in a drain water flow passage of a mercury concentration measuring device. When a sample gas is caused to flow and measured continuously, in the case where a reductant is sound, the reductant deterioration detection column presents no color but maintains a white state. In the case where a reduction force is deteriorated and an indication value of the mercury concentration measuring device is reduced, a part within the reductant deterioration detection column presents a light orange color, thereby detecting reduction force deterioration.
    • 要解决的问题:提供一种还原剂劣化检测器,其安装在用于量化废物或化石燃料中的燃烧废气的汞浓度的汞浓度测量装置中,并且能够容易地检测还原剂的劣化,并且 汞浓度测定装置。解决方案:将二氧化硅羊毛浸渍在碘化铜分散纯水中浸渍后,经镊子经内小型芯片33填充碘化铜浸渍的二氧化硅棉32,干燥后, 内部小模具33被移除。 还原剂劣化检测柱安装在汞浓度测定装置的排水水流路中。 当使样品气体连续流动和测量时,在还原剂发声的情况下,还原剂劣化检测柱不呈现颜色而保持白色状态。 在还原力劣化并且汞浓度测量装置的指示值减小的情况下,还原剂劣化检测列中的部分呈现浅橙色,从而检测减少力劣化。
    • 3. 发明专利
    • Refractive index measuring apparatus
    • 折射指数测量装置
    • JP2010127622A
    • 2010-06-10
    • JP2008299066
    • 2008-11-25
    • Kyoto Electron Mfg Co Ltd京都電子工業株式会社
    • KOBAYASHI YOSHIYASUAOYAMA KAZUHIRO
    • G01N21/41
    • PROBLEM TO BE SOLVED: To provide a refractive index measuring apparatus capable of measuring an accurate refractive index by maximally excluding the effect of contamination. SOLUTION: The refractive index measuring apparatus includes a light source for irradiating the sample on a prism with irradiation light through a condensing lens, a photodetector for detecting the reflected light of the irradiation light and a measuring circuit for measuring the refractive index of the sample on the basis of the output of the photodetector. Such a refractive index measuring apparatus is constituted so that the image forming position of the irradiation light is provided in the vicinity of the central part of the upper bottom opening of the prism. Especially, the condensing lens is allowed to approach the prism in order to set the image forming position in the vicinity of the central part of the upper bottom opening of the prism. Only the reflected light from the central part of the prism can be used in measurement by this constitution, thereby contamination can be excluded. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种能够通过最大限度地排除污染的影响来测量精确的折射率的折射率测量装置。 解决方案:折射率测量装置包括用于通过聚光透镜照射具有照射光的棱镜上的样品的光源,用于检测照射光的反射光的光电检测器和用于测量照射光的折射率的测量电路 基于光电检测器的输出的样本。 这种折射率测量装置被构造成使得照射光的图像形成位置设置在棱镜的上部底部开口的中心部分附近。 特别地,聚光透镜被允许接近棱镜,以将图像形成位置设置在棱镜的上部底部开口的中心部分附近。 只有来自棱镜的中心部分的反射光才能通过该结构进行测量,从而可以排除污染。 版权所有(C)2010,JPO&INPIT
    • 4. 发明专利
    • Sample separator and flow cell
    • 样品分离器和流动池
    • JP2006234652A
    • 2006-09-07
    • JP2005051087
    • 2005-02-25
    • Kyoto Electron Mfg Co Ltd京都電子工業株式会社
    • NAKAMA SHIGEMOTOMATSUKI TAKASHIFUNAKI EIJITANIGUCHI HIROAKI
    • G01N15/14G01N21/05G01N21/13G01N21/64
    • PROBLEM TO BE SOLVED: To provide a sample separator capable of easily performing the attachment and detachment of a flow cell in a state that the hermetic sealability of the flow cells is held, and the flow cell used therein.
      SOLUTION: The inflow opening part 1a and outflow opening part 1b of the flow cell 1 are sealed by septums 7 and 8 comprising an elastomer. The sample separator is equipped with the hollow needles 14 and 15 provided to the connection part with the flow cell 1 and the flow cell 1 is connected to a flow channel of a sample solution by respectively allowing the hollow needles 14 and 15 to pierce through the septums 7 and 8. By this arrangement, the attachment and detachment of the flow cell can be performed by simple work for thrusting the hollow needles in the septums or drawing them out of the septums. Further, since the flow cell is hermetically closed by the septums, the inside of the flow cell is not opened to the outside at the time of attachment and detachment.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供一种能够容易地在保持流通池的气密密封性的状态和其中使用的流通池的状态下容易地进行流动池的安装和拆卸的样品分离器。 解决方案:流通池1的流入开口部1a和流出开口部1b由包含弹性体的隔膜7和8密封。 样品分离器配备有提供给流动池1的连接部分的中空针14和15,并且流动池1通过分别允许空心针14和15穿透样品溶液而穿过样品溶液的流动通道而连接 通过这种布置,可以通过简单的工作来推动流通池的附接和拆卸,以将中空针推入隔膜中或将它们从隔膜中拉出。 此外,由于流通池被隔膜气密地封闭,所以在安装和拆卸时流动室的内部不会向外部打开。 版权所有(C)2006,JPO&NCIPI
    • 5. 发明专利
    • Absolute refractive index measuring device for liquid
    • 用于液体的绝对折射率测量装置
    • JP2005292033A
    • 2005-10-20
    • JP2004110066
    • 2004-04-02
    • Kyoto Electron Mfg Co LtdNational Institute Of Advanced Industrial & Technology京都電子工業株式会社独立行政法人産業技術総合研究所
    • KOBAYASHI YOSHIYASUMATSUOKA TAKESHIFUJII KENICHIKAYUKAWA YOHEI
    • G01N21/45
    • PROBLEM TO BE SOLVED: To provide an absolute refractive index measuring device capable of measuring an absolute refractive index of the liquid to an arbitrary wavelength with high accuracy.
      SOLUTION: The laser beam emitted from a laser beam source 1 selectively emitting laser beams of various wavelengths from a common emission port, is divided into two laser beams L1, L2 by a beam splitter 3, and then entered into a polarization interference optical circuit 4, thus the interference light of standard laser beams L1A, L2A and laser beams L1B, L2B after passed through both of a vacuum area 63 and a sample area 64 are respectively produced from the laser beams L1, L2. A wave number in changing the intensity of each interference light detected by an optical sensor 8 when lengths of light paths of the vacuum area and the sample area are changed, is counted by a counter 21. Further the polarization interference optical circuit 4 uses the same polarization optical elements to the laser beams of every wavelength emitted from the laser beam source 1.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供一种能够以高精度将液体的绝对折射率测量到任意波长的绝对折射率测量装置。 解决方案:从激光束源1发射的激光束从共用发射端口选择性地发射各种波长的激光束,由分束器3分成两束激光束L1,L2,然后进入偏振干涉 光电路4分别由激光束L1,L2分别产生标准激光束L1A,L2A和通过真空区域63和采样区域64之后的激光束L1B,L2B的干涉光。 当计数器21对真空区域和样本区域的光路长度改变时,改变由光学传感器8检测出的每个干涉光的强度的波数进行计数。此外,偏振干涉光电路4使用相同的 偏振光学元件到从激光束源1发射的每个波长的激光束。版权所有:(C)2006,JPO&NCIPI
    • 6. 发明专利
    • Refractive index measuring apparatus
    • 折射指数测量装置
    • JP2005127902A
    • 2005-05-19
    • JP2003364710
    • 2003-10-24
    • Kyoto Electron Mfg Co Ltd京都電子工業株式会社
    • KAWAGUCHI KENJI
    • G01N21/41G01N21/43
    • PROBLEM TO BE SOLVED: To provide an apparatus for accurately determining whether a refractive index is accurately measured.
      SOLUTION: The apparatus is provided with a light emission controlling means for controlling light emission intensity of a light source, a calculation means for finding a first output difference of a light receiving sensor when the light source turns on/off a light with the light emission intensity during measurement and a second output difference of the light receiving sensor when the light source turns on/off a light weaker than the light during measurement, and a determination means for determining whether the refractive index is accurately measured from a ratio of the first output difference and the light emission intensity during measurement and a ratio of the second output difference and the light emission intensity of the weak light.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:提供一种用于准确地确定折射率是否被精确测量的装置。 解决方案:该设备设置有用于控制光源的发光强度的发光控制装置,用于当光源接通/断开光时,发现光接收传感器的第一输出差的计算装置, 测量期间的发光强度和当光源在测量期间打开/关闭比光弱的光时的光接收传感器的第二输出差;以及确定装置,用于根据测量中的比例来确定折射率是否被精确地测量 测量期间的第一输出差和发光强度以及弱光的第二输出差和发光强度的比率。 版权所有(C)2005,JPO&NCIPI
    • 7. 发明专利
    • Apparatus and method for measuring mercury concentration
    • 测量汞浓度的装置和方法
    • JP2005098713A
    • 2005-04-14
    • JP2003329421
    • 2003-09-22
    • Kyoto Electron Mfg Co Ltd京都電子工業株式会社
    • KURAUCHI NAMIMATSUKI TAKASHI
    • G01N31/00G01N1/22G01N21/31
    • PROBLEM TO BE SOLVED: To provide a mercury concentration measuring apparatus and a mercury concentration measuring method capable of accurately measuring the mercury concentration in a sample gas containing mercury chlorides, superior in maintainability at the replacement of a reducing agent, capable of maintaining reducing power for a long period and being implemented at low costs.
      SOLUTION: The mercury concentration measuring apparatus is provided with both a reducing filter filled with a reducing agent containing a basic compound of an alkali metal or an alkali earth metal and a heater for heating the reducing filer. By this constitution, it is possible to accurately measure the mercury concentration in the sample gas containing mercury chlorides. By using, for example, granular bodies of calcium hydrate etc. as the basic compound, it is possible to facilitate the handling of the reducing agent.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:提供一种能够精确测量含有氯化汞的样品气体中的汞浓度的汞浓度测量装置和汞浓度测量方法,其在更换还原剂时的维护性能优异,能够维持 长期降低功耗并以低成本实施。 解决方案:汞浓度测量装置设有充满还原剂的还原过滤器,还原剂含有碱金属或碱土金属的碱性化合物和用于加热还原过滤器的加热器。 通过该结构,能够精确地测定含有氯化汞的样品气体中的汞浓度。 通过使用例如水合钙等粒状体作为碱性化合物,可以促进还原剂的处理。 版权所有(C)2005,JPO&NCIPI
    • 8. 发明专利
    • Apparatus and method for measuring mercury concentration
    • 测量汞浓度的装置和方法
    • JP2005077355A
    • 2005-03-24
    • JP2003311141
    • 2003-09-03
    • Kyoto Electron Mfg Co Ltd京都電子工業株式会社
    • NONAKA TAKANORIKURAUCHI NAMI
    • G01N21/31
    • PROBLEM TO BE SOLVED: To provide an apparatus and a method for measuring mercury concentration allowing high-precision measurement even when organic substances are contained in a sample gas.
      SOLUTION: The apparatus includes a sample gas introduction channel which introduces the sample gas into a measurement cell which measures the mercury concentration in the sample gas by atomic absorption analysis and a reference gas introduction channel which introduces a reference gas obtained by removing mercury from the sample gas. The reference gas introduction channel has a structure provided with a honeycomb structure having, on its surface, a metal constituting amalgam through contact with mercury. Gold is used as the metal constituting amalgam.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:提供一种用于测量汞浓度的装置和方法,即使在样品气体中含有有机物质也能进行高精度测量。 解决方案:该装置包括样品气体引入通道,其将样品气体引入到通过原子吸收分析测量样品气体中的汞浓度的测量单元和引入通过除去汞获得的参考气体的参考气体引入通道 来自样气。 参考气体导入通道具有设置有蜂窝结构的结构,其表面上通过与汞接触构成汞齐的金属。 金被用作构成汞合金的金属。 版权所有(C)2005,JPO&NCIPI
    • 10. 发明专利
    • Vibration-type density measuring method and vibration-type densitometer
    • 振动式密度测量方法和振动型密度计
    • JP2011038810A
    • 2011-02-24
    • JP2009183997
    • 2009-08-07
    • Kyoto Electron Mfg Co Ltd京都電子工業株式会社
    • KOBAYASHI YOSHIYASU
    • G01N9/00
    • PROBLEM TO BE SOLVED: To provide a vibration-type density measuring method removing influence on an oscillation cycle from static electricity charged on a liquid sample to be measured and a vibration-type densitometer discharging static electricity charged on a liquid sample to be measured.
      SOLUTION: A liquid sample is introduced into a glass cell 1 through a sample introducing tube 8a, a metal joint 7a and cell introducing piping 6a, and an earth wire is contacted to the metal joint 7a or 7b, thereby static electricity charged on a liquid sample is discharged. Then the glass cell 1 is vibrated by making electromagnetic force interact on a permanent magnet 2 and density of the liquid sample is calculated from an oscillation cycle measured for the glass cell 1. In this way, the static electricity charged on the liquid sample is discharged, therefore, a correct density value is measured without changing the oscillation cycle of the glass cell due to static electricity.
      COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:提供一种从被测定的液体样品上充电的静电中除去对振荡周期的影响的振动型密度测定方法,以及将在液体试样上充电的静电的振动型密度计放置为 测量。 解决方案:将液体样品通过样品导入管8a,金属接头7a和电池导入管道6a引入玻璃电池1中,并且接地线与金属接头7a或7b接触,由此静电充电 在液体样品上排出。 然后通过使电磁力与永磁体2相互作用而使玻璃电池1振动,并且从对玻璃电池1测量的振荡周期计算液体样品的密度。以这种方式,将充电在液体样品上的静电放电 因此,在不改变由于静电导致的玻璃电池的振荡周期的情况下测量正确的密度值。 版权所有(C)2011,JPO&INPIT