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    • 2. 发明专利
    • DE69020480D1
    • 1995-08-03
    • DE69020480
    • 1990-09-14
    • SUZUKEN KKSAKAGUCHI MASAO
    • SAKAGUCHI MASAOONO NOBUYUKIOHHASHI TOSHIOKAMEI TOMOYA
    • A61B5/00
    • A device for continuously measuring the local skin sweating rate includes a sensor (1) used for applying to human skin at a measuring point and an air supply element (10) for supplying dehumidified air to the sensor (1). A first chamber (3) is formed between the sensor and the skin for mixing water vapor perspired from the skin and the dehumidified air supplied from the air supply element. A second chamber (6) is also formed within the sensor (1) and connected with the first chamber (3) through a communicating hole (31). The device further includes a humidity detector (4) in the second chamber. The humidity detector (4) varies its capacitance according to the relative humidity of the mixture. A temperature detecting element (5) is disposed in the second chamber for detecting the temperature in the second chamber and for outputing signals corresponding to the temperature. A humidity detector output element (7) is mounted on the sensor (1) and is electrically connected with the humidity detector (4) for outputing a humidity signal. A processor (18) calculates the sweating rate, which is independent of the temperature of the mixture, based on the humidity and temperature signals. An element is provided for continuously recording the data of the sweating rate obtained from the processor.
    • 3. 发明专利
    • ES2075882T3
    • 1995-10-16
    • ES90310105
    • 1990-09-14
    • SUZUKEN KKSAKAGUCHI MASAO
    • SAKAGUCHI MASAOONO NOBUYUKIOHHASHI TOSHIOKAMEI TOMOYA
    • A61B5/00
    • A device for continuously measuring the local skin sweating rate includes a sensor (1) used for applying to human skin at a measuring point and an air supply element (10) for supplying dehumidified air to the sensor (1). A first chamber (3) is formed between the sensor and the skin for mixing water vapor perspired from the skin and the dehumidified air supplied from the air supply element. A second chamber (6) is also formed within the sensor (1) and connected with the first chamber (3) through a communicating hole (31). The device further includes a humidity detector (4) in the second chamber. The humidity detector (4) varies its capacitance according to the relative humidity of the mixture. A temperature detecting element (5) is disposed in the second chamber for detecting the temperature in the second chamber and for outputing signals corresponding to the temperature. A humidity detector output element (7) is mounted on the sensor (1) and is electrically connected with the humidity detector (4) for outputing a humidity signal. A processor (18) calculates the sweating rate, which is independent of the temperature of the mixture, based on the humidity and temperature signals. An element is provided for continuously recording the data of the sweating rate obtained from the processor.
    • 5. 发明专利
    • DE69020480T2
    • 1996-01-18
    • DE69020480
    • 1990-09-14
    • SUZUKEN KKSAKAGUCHI MASAO
    • SAKAGUCHI MASAOONO NOBUYUKIOHHASHI TOSHIOKAMEI TOMOYA
    • A61B5/00
    • A device for continuously measuring the local skin sweating rate includes a sensor (1) used for applying to human skin at a measuring point and an air supply element (10) for supplying dehumidified air to the sensor (1). A first chamber (3) is formed between the sensor and the skin for mixing water vapor perspired from the skin and the dehumidified air supplied from the air supply element. A second chamber (6) is also formed within the sensor (1) and connected with the first chamber (3) through a communicating hole (31). The device further includes a humidity detector (4) in the second chamber. The humidity detector (4) varies its capacitance according to the relative humidity of the mixture. A temperature detecting element (5) is disposed in the second chamber for detecting the temperature in the second chamber and for outputing signals corresponding to the temperature. A humidity detector output element (7) is mounted on the sensor (1) and is electrically connected with the humidity detector (4) for outputing a humidity signal. A processor (18) calculates the sweating rate, which is independent of the temperature of the mixture, based on the humidity and temperature signals. An element is provided for continuously recording the data of the sweating rate obtained from the processor.
    • 6. 发明专利
    • Peracetic acid formulation concentration determination method
    • AU2020338317A1
    • 2022-03-03
    • AU2020338317
    • 2020-07-27
    • SUZUKEN KK
    • SUZUKI HIROYUKI
    • G01N31/00G01N21/78
    • [Problem] To provide a peracetic acid formulation concentration determination method capable of accurately determining a peracetic acid formulation concentration, in a simple and quick manner. [Solution] The peracetic acid formulation concentration determination method includes: disposing a plurality of color reference samples side-by-side with an optically transparent container housing a solution of interest comprising a peracetic acid formulation solution having a predetermined concentration of a reagent added thereto, wherein the peracetic acid formulation is for use in food, and the peracetic acid formulation concentration is in the range of 50 mg/L to 500 mg/L; and visually identifying which of the plurality of color reference samples matches a transmitted beam which has been transmitted through the container, thereby allowing the concentration of the peracetic acid formulation contained in the solution of interest to be determined. The plurality of color reference samples exhibit colors corresponding respectively to a plurality of solutions of interest, including solutions with different concentrations of peracetic acid formulation, and the plurality of solutions of interest corresponding to the color reference samples each exhibit an absorbance of 1.5 for light of a different wavelength.
    • 9. 发明专利
    • Porous charcoal and its production method
    • 多孔炭及其生产方法
    • JP2008201651A
    • 2008-09-04
    • JP2007042877
    • 2007-02-22
    • Ipb:KkNippon Furnace Co LtdOshima Shipbuilding Co LtdShimizu CorpSuzuken Kk日本ファーネス株式会社株式会社アイ・ピー・ビー株式会社大島造船所株式会社鈴鍵清水建設株式会社
    • YOKOI TADASHIYASHIO MASAYOSHINAKANO KOJINIWA YASUSUKESHIMIZU SEIICHI
    • C01B32/336C01B31/10H01G11/22H01G11/24H01G11/42
    • Y02E60/13
    • PROBLEM TO BE SOLVED: To provide a porous charcoal which has a high specific surface area and a porous structure suitable for an electric double layer capacitor and is produced by using an organic material to be processed, e.g. a woody material, as a raw material; and its production method.
      SOLUTION: A porous charcoal production apparatus having a drying furnace and a carbonization furnace continuously performing carbonization and activation is used. A carbonization treatment and an activation treatment are continuously performed by introducing superheated steam with an entrance temperature of 750-950°C into the carbonization furnace for a processing object, by rotating a rotation paddle with a frequency of 3-6 rotations per minute and with a peripheral speed of 0.035-0.07 m/s, and keeping a raw material feeding rate of 0.2-0.5 kg/h/liter per a raw material processing volume in the carbonization furnace. Thus, provided is a porous charcoal, which has a total specific surface area of 600 m
      2 /g or more and a pore distribution structure wherein the outside specific surface area accounts for 30-75% of the total specific surface area.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:提供具有高比表面积的多孔炭和适用于双电层电容器的多孔结构体,并且通过使用待处理的有机材料,例如, 以木质材料为原料; 及其生产方法。 解决方案:使用具有连续进行碳化和活化的干燥炉和碳化炉的多孔炭制造装置。 通过将入口温度为750-950℃的过热蒸汽引入用于加工对象的碳化炉中,通过以每分钟3-6转的频率旋转桨叶并连续进行碳化处理和活化处理 圆周速度为0.035-0.07m / s,并且在碳化炉中保持原料加工体积的原料进料速度为0.2-0.5kg / h /升。 因此,提供了具有600m 2 / SP / g以上的总比表面积的多孔炭,以及其中外部比表面积占总比表面积的30-75%的孔分布结构 比表面积。 版权所有(C)2008,JPO&INPIT