公开(公告)号：US4890925A

公开(公告)日：1990-01-02

申请号：US83197

申请日：1987-08-10

申请人： Takehiko Kitamori ,  Kazuo Yasuda ,  Yasushi Nomura ,  Kazumichi Suzuki ,  Haruo Fujimori

发明人： Takehiko Kitamori ,  Kazuo Yasuda ,  Yasushi Nomura ,  Kazumichi Suzuki ,  Haruo Fujimori

IPC分类号： G01N15/00 ,  G01N15/06 ,  G01N15/10 ,  G01N15/14 ,  G01N21/00 ,  G01N21/17 ,  G01N21/75 ,  G01N29/00 ,  G01N33/53 ,  G01N33/543

CPC分类号： G01N21/1702 ,  G01N15/06 ,  G01N21/75 ,  G01N33/53

摘要： By use of an excitation beam having a wavelength which is equal to, or close to, the sizes of particular particulate substances as the object of analysis, the particulate substances such as an immunoreaction product between an antigen and an antibody or between the antigen and a material supporting the antibody thereon are detected selectively. Very small particles having specific sizes such as rheumatuid factors, cancer specific antigens can be detected with high sensitivity.

摘要翻译： 通过使用波长等于或接近作为分析对象的特定颗粒物质的尺寸的激发光束，可以使用诸如抗原和抗体之间或抗原与抗原之间的免疫反应产物的颗粒物质 选择性地检测其上抗体的物质。 可以高灵敏度地检测到具有特定尺寸的非常小的颗粒，例如风湿因子，癌症特异性抗原。

公开(公告)号：US4808828A

公开(公告)日：1989-02-28

申请号：US937050

申请日：1986-12-02

申请人： Takehiko Kitamori ,  Haruo Fujimori ,  Kazumichi Suzuki

发明人： Takehiko Kitamori ,  Haruo Fujimori ,  Kazumichi Suzuki

IPC分类号： G01N21/00 ,  G01N21/17 ,  G01N21/64 ,  G01N21/84 ,  G01N29/00

CPC分类号： G01N29/2425 ,  G01N21/17 ,  G01N2021/1704 ,  G01N2021/1708 ,  G01N2021/1734 ,  G01N2021/8472 ,  G01N21/1702 ,  G01N21/64 ,  G01N2291/02809

摘要： A method of and an apparatus for simultaneous determination of constituents are disclosed in which a solution containing trace constituents is irradiated with an intensity-modulated electromagnetic wave having a predetermined wavelength, a photoacoustic signal and radiation from the electromagnetic-wave irradiation trace constituents are detected together with the emission spectrum thereof. The concentrations of the trace constituents are calculated from the magnitude of the photoacoustic signal, the intensity of the radiation, and calibration curves each formed for known concentrations of one of the trace constituents, and the trace constituents are identified by the above emission spectrum.

摘要翻译： 公开了一种用于同时测定组分的方法和装置，其中含有痕量组分的溶液用具有预定波长的强度调制电磁波照射，光声信号和来自电磁波照射痕量成分的辐射被一起检测 其发射光谱。 痕量成分的浓度是根据光声信号的大小，辐射强度和每个为已知浓度的微量成分形成的校准曲线计算的，微量成分由上述发射光谱鉴定。

公开(公告)号：US4774026A

公开(公告)日：1988-09-27

申请号：US5961

申请日：1987-01-22

申请人： Takehiko Kitamori ,  Takashi Nishi ,  Tetsuo Fukasawa ,  Haruo Fujimori ,  Akira Sasahira ,  Yoshihiro Ozawa ,  Kazumichi Suzuki ,  Hideo Yusa

发明人： Takehiko Kitamori ,  Takashi Nishi ,  Tetsuo Fukasawa ,  Haruo Fujimori ,  Akira Sasahira ,  Yoshihiro Ozawa ,  Kazumichi Suzuki ,  Hideo Yusa

IPC分类号： B01J19/12 ,  C01F17/00 ,  C01G1/00 ,  C01G43/00 ,  C01G55/00 ,  C01G56/00 ,  C02F1/30 ,  C02F1/32 ,  C02F1/72 ,  C22B3/44 ,  G21C19/46 ,  G21F9/16

CPC分类号： C22B3/44 ,  B01J19/123 ,  C01F17/0056 ,  C01G1/00 ,  C01G43/00 ,  C01G55/00 ,  C01G56/00 ,  C01G56/001 ,  C01G56/008 ,  C02F1/725 ,  G21C19/46 ,  C01P2004/61 ,  C01P2004/62 ,  C02F1/32 ,  C02F2305/10 ,  Y02P10/234 ,  Y02W10/37 ,  Y02W30/883

摘要： A dissolved substance contained in a solution is oxidized or reduced by adding a particulate semiconductor photocatalyst and a water-soluble electron acceptor or donor for the particulate semiconductor photocatalyst to a solution containing a dissolved substance, and irradiating the particulate semiconductor photocatalyst in the solution with an electromagnetic wave having an energy high enough to excite the particulate semiconductor photocatalyst, or by adding a particulate semiconductor photocatalyst and a water-soluble electron acceptor or donor for the particulate semiconductor photocatalyst to a solution containing a dissolved substance and irradiating the particulate semiconductor photocatalyst in the solution with an electromagnetic wave having an energy high enough to excite the particulate semiconductor photocatalyst and having a wavelength outside the absorption wavelength region of a precursor substance capable of producing an oxidation or reduction reaction-inhibiting substance, whereby (1) ions or complexes are converted to simple substances or to ions or compounds with different valencies, and (2) simple substances, ions, complexes or other compounds are separated and recovered or removed by utilizing its actions and effects.

摘要翻译： 通过向包含溶解物质的溶液中添加颗粒状半导体光催化剂和颗粒状半导体光催化剂的水溶性电子受体或供体，将溶液中所含的溶解物质氧化或还原，并将溶液中的颗粒状半导体光催化剂与 电磁波具有足够高的能量以激发颗粒状半导体光催化剂的能量，或者通过将颗粒状半导体光催化剂和颗粒状半导体光催化剂的水溶性电子受体或供体添加到含有溶解物质的溶液中并在该溶液中照射颗粒状半导体光催化剂 溶液，其电磁波具有足够高的能量来激发颗粒状半导体光催化剂，并且具有能够产生氧化还原反应抑制基团的前体物质的吸收波长区域外的波长 从而（1）将离子或络合物转化为单一物质或具有不同化合价的离子或化合物，（2）通过利用其作用和作用分离和回收或除去单一物质，离子，络合物或其它化合物。

公开(公告)号：US5316983A

公开(公告)日：1994-05-31

申请号：US740493

申请日：1991-08-05

申请人： Haruo Fujimori ,  Tetsuya Matsui ,  Taiko Ajiro ,  Kenji Yokose ,  Shigeru Izumi

发明人： Haruo Fujimori ,  Tetsuya Matsui ,  Taiko Ajiro ,  Kenji Yokose ,  Shigeru Izumi

IPC分类号： B01D53/32 ,  C02F1/00 ,  C02F1/30 ,  G01N15/02 ,  G01N15/10 ,  G01N15/14 ,  G01N21/71 ,  H01L21/304 ,  H01L21/00

CPC分类号： G01N15/0205 ,  G01N21/718 ,  G01N2021/4721

摘要： An apparatus and a method for analysis of a particle by irradiation of the particle in a fluid with an intense laser pulse to cause laser breakdown and to detect sonic waves or plasma emission which are generated by the laser breakdown. The size of the particle is measured by using at least two kinds of information from the following: intensity of plasma emission or sonic wave generated by the laser breakdown, location of the laser breakdown plasma, and plasma emission waveform. Also, a laser pulse having flattened distribution of intensity for the irradiation is used in order to eliminate the dependence of the measured value on the particle location.

摘要翻译： 一种通过用强激光脉冲照射流体中的颗粒来分析颗粒以引起激光击穿并检测由激光击穿产生的声波或等离子体发射的装置和方法。 通过使用以下的至少两种信息来测量颗粒的尺寸：由激光击穿产生的等离子体发射或声波的强度，激光击穿等离子体的位置和等离子体发射波形。 此外，为了消除测量值对颗粒位置的依赖性，使用具有用于照射的强度分布平坦化的激光脉冲。

公开(公告)号：US5817958A

公开(公告)日：1998-10-06

申请号：US691007

申请日：1996-08-05

申请人： Shunsuke Uchida ,  Haruo Fujimori ,  Fuminobu Takahashi ,  Takaharu Fukuzaki ,  Izumi Yamada

发明人： Shunsuke Uchida ,  Haruo Fujimori ,  Fuminobu Takahashi ,  Takaharu Fukuzaki ,  Izumi Yamada

IPC分类号： G21C7/36 ,  G21D3/04

CPC分类号： G21D3/04 ,  G21C7/36 ,  Y02E30/39

摘要： Plant operating conditions 1, apparatus operating conditions 2 and environment conditions 3 are accumulated, combined and put together as a set of plant status variables 8 through a monitor 6, while water chemistry information 4 is accumulated as another set of plant status variables 9. The set of status variables 8 is updated and the past data are accumulated in the set of status variables 9. Periodical inspection data 5 are also accumulated in the set of status variables 9 along with the water chemistry information 4. The set 9 is compressed and stored as a plant chart 11 such as a personal clinical chart. A status variable prediction 12 is performed in consideration of the personality of a plant. Both data of the sets 8 and 10 are compared with each other by comparison means 13. If both the data nearly coincide with each other, the plant is diagnosed to the normal and, if not, it is diagnosed to be abnormal. When the plant is diagnosed to abnormal, an abnormal apparatus and an abnormal factor are identified.

摘要翻译： 工厂操作条件1，设备操作条件2和环境条件3通过监控器6被累积，组合并作为一组工厂状态变量8组合，而水化学信息4被累积为另一组工厂状态变量9. 一组状态变量8被更新，过去的数据被累积在一组状态变量9中。定期检查数据5也与水化学信息4一起积累在状态变量组9中。集合9被压缩和存储 作为植物图11，如个人临床图表。 考虑到植物的个性来执行状态变量预测12。 通过比较装置13将组8和10的两个数据相互比较。如果这两个数据彼此几乎一致，则将该植物诊断为正常，如果不是则被诊断为异常。 当植物诊断为异常时，鉴定出异常装置和异常因素。

公开(公告)号：US5748496A

公开(公告)日：1998-05-05

申请号：US700043

申请日：1996-08-20

申请人： Fuminobu Takahashi ,  Masahiro Koike ,  Shunsuke Uchida ,  Haruo Fujimori ,  Izumi Yamada ,  Takaharu Fukuzaki ,  Makoto Nagase

发明人： Fuminobu Takahashi ,  Masahiro Koike ,  Shunsuke Uchida ,  Haruo Fujimori ,  Izumi Yamada ,  Takaharu Fukuzaki ,  Makoto Nagase

IPC分类号： G01M99/00 ,  G05B23/02 ,  G21C17/00 ,  G21C7/36

CPC分类号： G21C17/00 ,  G05B23/0227 ,  G05B23/0272 ,  Y10S706/912 ,  Y10S706/915

摘要： A diagnosis system having sensors for supervising a plant, signal processors for processing signals of the sensors, and a state quantity arithmetic operation unit. The state quantity arithmetic operation unit calculates a quantity of state expressing the environment of the plant on the basis of supervisory information inputted through the signal processors. A state quantity prediction unit predictively calculates a quantity of state after a predetermined time on the basis of the quantity of state, supervisory information and a time change of the quantity of state inputted through the state quantity arithmetic operation unit. A future event prediction unit predicts a future event on the basis of predicted information of the quantity of state inputted through the state quantity prediction unit. An image information processor converts the quantity of state given by the state quantity arithmetic operation unit into image information and indicates the image information on a display unit. An image information processor converts the predicted quantity of state after the predetermined time, given by the state quantity prediction unit, into image information and indicates the image information on a display unit. An image information processor converts the future event predicted by the future event prediction unit into image information and indicates the image information on a display unit.

摘要翻译： 具有用于监视设备的传感器，用于处理传感器的信号的信号处理器以及状态量算术运算单元的诊断系统。 状态量算术运算部根据通过信号处理部输入的监视信息来计算表示工厂环境的状态量。 状态量预测单元基于通过状态量算术运算单元输入的状态量，监视信息和状态量的时间变化，预测计算了预定时间之后的状态量。 未来事件预测单元基于通过状态量预测单元输入的状态量的预测信息来预测未来事件。 图像信息处理器将由状态量算术运算单元给出的状态量转换为图像信息，并在显示单元上指示图像信息。 图像信息处理器将由状态量预测单元给出的预定时间之后的预测状态量转换为图像信息，并在显示单元上指示图像信息。 图像信息处理器将未来事件预测单元预测的未来事件转换成图像信息，并在显示单元上指示图像信息。

公开(公告)号：US5901071A

公开(公告)日：1999-05-04

申请号：US496586

申请日：1995-06-28

申请人： Masanori Sakai ,  Noriyuki Ohnaka ,  Yuichi Ishikawa ,  Haruo Fujimori ,  Yusuke Isobe ,  Takuya Takahashi

发明人： Masanori Sakai ,  Noriyuki Ohnaka ,  Yuichi Ishikawa ,  Haruo Fujimori ,  Yusuke Isobe ,  Takuya Takahashi

IPC分类号： C23F11/18 ,  C23F15/00 ,  G01N17/00 ,  G01N27/26 ,  G01N27/416 ,  G01N33/20 ,  G21D1/00 ,  G06F17/00

CPC分类号： G01N1/04 ,  G01N17/00

摘要： The composition of an alloy is inhomogeneous, so that the Fermi level of electrons in the surface of the alloy differs depending upon positions. It is accordingly considered that a part susceptible to corrosion and a part less susceptible thereto will coexist in the alloy. The corrosion rate of the alloy is indicated as the exponential function of a potential difference (.DELTA..PHI..sub.H) within an electric double layer. The potential difference remains unchanged as long as the Fermi level lies within the forbidden band of the electrons. However, in a range in which the Fermi level falls within the valence band of the electrons, the lowering thereof leads to the increase of the potential difference. Accordingly, a corrosion-resisting alloy is designed in accordance with the following guidelines: a) The electron energy level (Ev) of the valence band is low, b) an oxide film to be formed on the alloy is an n-type semiconductor, c) a band gap (Ec-Ev) is wide where Ec denotes the conduction band of the electrons, and d) a flatband potential (E.sub.f1) is low. Further, the operation of a plant and the evaluation of a corrosional damage can be based on such a theory.

摘要翻译： 合金的组成是不均匀的，使得合金表面中的费米子电子水平根据位置而不同。 因此，考虑到易于腐蚀的部分和对其不太敏感的部分将在合金中共存。 合金的腐蚀速率表示为电双层内的电位差（DELTA PHI H）的指数函数。 只要费米能级位于电子的禁带内，电位差就保持不变。 然而，在费米能级落在电子的价带内的范围内，其降低导致电位差的增加。 因此，根据以下准则设计耐腐蚀合金：a）价带的电子能级（Ev）低，b）在合金上形成的氧化膜是n型半导体， c）带隙（Ec-Ev）宽，其中Ec表示电子的导带，d）扁平带电位（Ef1）低。 此外，植物的操作和腐蚀性损害的评估可以基于这样的理论。

公开(公告)号：US5623109A

公开(公告)日：1997-04-22

申请号：US247039

申请日：1994-05-20

申请人： Shunsuke Uchida ,  Haruo Fujimori ,  Fuminobu Takahashi ,  Takaharu Fukuzaki ,  Izumi Yamada

发明人： Shunsuke Uchida ,  Haruo Fujimori ,  Fuminobu Takahashi ,  Takaharu Fukuzaki ,  Izumi Yamada

IPC分类号： G01D21/00 ,  G01M99/00 ,  G05B23/02 ,  G21C17/00 ,  G21C7/36

CPC分类号： G05B23/0259 ,  G05B23/0254 ,  G21C17/00 ,  G21Y2002/206 ,  G21Y2002/40 ,  G21Y2004/40

摘要： Plant operating conditions 1, apparatus operating conditions 2 and environment conditions 3 are accumulated, combined and put together as a set of plant status variables 8 -through a monitor 6, while water chemistry information 4 is accumulated as another set of plant status variables 9. The set of status variables 8 is updated and the past data are accumulated in the set of status variables 9. Periodical inspection data 5 are also accumulated in the set of status variables 9 along with the water chemistry information 4. The set 9 is compressed and stored as a plant chart 11 such as a personal clinical chart. A status variable prediction 12 is performed in consideration of the personality of a plant. Both data of the sets 8 and 10 are compared with each other by comparison means 13. If both the data nearly coincide with each other, the plant is diagnosed to be normal and, if not, it is diagnosed to be abnormal. When the plant is diagnosed to be abnormal, an abnormal apparatus and an abnormal factor are identified.

摘要翻译： 工厂操作条件1，设备操作条件2和环境条件3通过监视器6被累积，组合并作为一组工厂状态变量8组合，而水化学信息4被累积为另一组工厂状态变量9。 更新状态变量8的集合，并将过去的数据累积在状态变量组9中。定期检查数据5也与水化学信息4一起积累在状态变量组9中。组9被压缩，并且 存储为植物图11，如个人临床图表。 考虑到植物的个性来执行状态变量预测12。 通过比较装置13将组8和10的两个数据相互比较。如果这两个数据彼此几乎一致，则诊断为正常，如果不是，则被诊断为异常。 当植物诊断为异常时，识别出异常装置和异常因素。