公开(公告)号：US5772606A

公开(公告)日：1998-06-30

申请号：US397953

申请日：1995-03-03

申请人： Emi Ashibe ,  Takeshi Sakura ,  Harumi Uenoyama ,  Xu Kexin ,  Hiroko Kubo

发明人： Emi Ashibe ,  Takeshi Sakura ,  Harumi Uenoyama ,  Xu Kexin ,  Hiroko Kubo

IPC分类号： G01N21/35 ,  G01N33/483 ,  G01N33/493 ,  A61B5/00

CPC分类号： G01N33/493 ,  G01N21/359

摘要： A urinal is provided on its forward end with a cell, which internally communicates with the urinal to outwardly project from the same. A measuring part comprises a light source part for applying a measuring beam of the visible or near infrared wavelength region to the cell which is set in a cell setting part and a light receiving part for receiving and detecting the measuring beam transmitted through the cell, and measures absorbances of uric components to be measured at wavelengths selected therefor respectively. A sensor part is adapted to detect that the cell is set in the cell setting part, so that the measuring part starts a measuring operation on the basis of a signal indicating that the sensor detects the cell. It is possible to carry out a urine test on a person who lies on bed.

摘要翻译： 在其前端设有一个小便器，一个细胞，其内部与小便器通信以向外突出。 测量部分包括用于将可见光或近红外波长区域的测量光束施加到设置在单元设置部分中的单元的光源部分和用于接收和检测透过单元的测量光束的光接收部分，以及 测量在分别选择的波长处测量的尿液成分的吸光度。 传感器部分适于检测单元设置在单元设置部分中，使得测量部件基于表示传感器检测到单元的信号开始测量操作。 可以对躺在床上的人进行尿检。

公开(公告)号：US5942754A

公开(公告)日：1999-08-24

申请号：US562814

申请日：1995-11-27

申请人： Yoshinori Yamaguchi ,  Masayuki Yagi ,  Dou Xiaoming ,  Emi Ashibe ,  Harumi Uenoyama

发明人： Yoshinori Yamaguchi ,  Masayuki Yagi ,  Dou Xiaoming ,  Emi Ashibe ,  Harumi Uenoyama

IPC分类号： G01N21/55 ,  G01N21/35

CPC分类号： G01N21/552

摘要： A sample solution is stored in a total reflection cell, and a measuring beam is introduced from an incident optical system to be totally reflected, for measuring a total reflection absorption spectrum. Hydrogen peroxide contained in the sample solution is determined on the basis of absorbance at the position of any absorption peak of the spectrum which is present at 1200 to 1500 cm.sup.-1 or 2600 to 3000 cm.sup.-1. Hydrogen peroxide contained in an aqueous solution can be simply quantitatively analyzed through optical analysis.

摘要翻译： 将样品溶液存储在全反射单元中，并且从入射光学系统引入测量光以被全反射，以测量全反射吸收光谱。 基于在1200至1500cm -1或2600至3000cm -1存在的光谱的任何吸收峰的位置处的吸光度来确定样品溶液中所含的过氧化氢。 含水溶液中的过氧化氢可以通过光学分析简单地定量分析。

公开(公告)号：US5751418A

公开(公告)日：1998-05-12

申请号：US644202

申请日：1996-05-10

申请人： Eiichi Kimura ,  Naoki Yanai ,  Motonobu Shiomi ,  Emi Ashibe ,  Yutaka Yamasaki ,  Harumi Uenoyama

发明人： Eiichi Kimura ,  Naoki Yanai ,  Motonobu Shiomi ,  Emi Ashibe ,  Yutaka Yamasaki ,  Harumi Uenoyama

IPC分类号： G01N21/27 ,  G01N21/31 ,  G01N21/00

CPC分类号： G01N21/314

摘要： In an optical measuring apparatus of the present invention, a spectroscopic optical system emits a measuring light beam that contains a measure light component of a measure wavelength domain where a measured object absorbs part of the light and a reference light component of a reference wavelength domain where the measured object almost completely absorbs the light, and separates the beam into beams, a photometric unit measures the light incident on an integrating sphere when a reference sample is inserted in the light path and stores the measurements in a memory and also measures the light incident on an integrating sphere when a measured object is inserted in the light path, and an arithmetic circuit calculates a light intensity ratio of the compensation light component for the measured object to the compensation light component stored in memory and then estimates background intensities during the measurement by multiplying the measurements stored in the memory by the intensity ratio.

摘要翻译： 在本发明的光学测量装置中，分光光学系统发射测量光束，其包含测量对象吸收部分光的测量波长域的测量光分量和参考波长域的参考光分量， 测量对象几乎完全吸收光，并将光束分成光束，当测量参考样本插入光路中时，光度单元测量入射在积分球上的光，并将测量值存储在存储器中，并测量光入射 在测量对象被插入到光路中的积分球上，并且运算电路将测量对象的补偿光分量的光强度比与存储在存储器中的补偿光分量进行计算，然后估计测量期间的背景强度 将存储在存储器中的测量值乘以强度比 。

公开(公告)号：US06201606B1

公开(公告)日：2001-03-13

申请号：US09068036

申请日：1998-07-07

申请人： Emi Ashibe

发明人： Emi Ashibe

IPC分类号： G01N2100

CPC分类号： G01J3/42 ,  G01J3/28

摘要： The apparatus for processing a spectrum in spectral measurement includes: a measurement section 10 for measuring an energy spectrum of light for measurement from an object to be measured; an addition section 11 for adding a predetermined value to the energy spectrum of the light for measurement; and a conversion section 12 for obtaining an absorbance spectrum with reduced noise by effecting absorbance conversion of the energy spectrum of the light for measurement with the addition of the predetermined value.

摘要翻译： 用于处理光谱测量中的光谱的装置包括：测量部分10，用于测量待测物体的光的能谱; 添加部分11，用于将预定值加到用于测量的光的能谱中; 以及转换部分12，用于通过增加预定值来进行用于测量的光的能谱的吸光度转换来获得具有降低的噪声的吸收光谱。

公开(公告)号：US06618615B1

公开(公告)日：2003-09-09

申请号：US09621585

申请日：2000-07-21

申请人： Eiichi Kimura ,  Emi Ashibe ,  Naoki Yanai ,  Motonobu Shiomi ,  Nobuyoshi Yasuda

发明人： Eiichi Kimura ,  Emi Ashibe ,  Naoki Yanai ,  Motonobu Shiomi ,  Nobuyoshi Yasuda

IPC分类号： A61B500

CPC分类号： A61B5/6843 ,  A61B5/0059 ,  A61B5/4872

摘要： A photometer comprises a projecting mechanism irradiating a physical mass with infrared light within a wavelength region of 1.1 to 2.0 &mgr;m, a photoreceiving mechanism receiving output light from the physical mass and a spectroscope separating the light applied to the physical mass or the output light from the physical mass into its spectral components, for measuring absorbance by the physical mass at a specific wavelength. A compression mechanism can compress a measured region of the physical mass or a peripheral portion thereof, and difference absorbance calculator obtains difference absorbance from first absorbance obtained by the photometer under a state compressed by the compression mechanism with a first pressure and second absorbance obtained by the photometer under a state compressed with a second pressure lower than the first pressure or a non-compressed state. A storage part stores a relation between body fat and difference absorbance, and an operation part quantitatively determines and outputs body fat from the difference absorbance calculated by the difference absorbance calculator on the basis of the relation stored in the storage part.

摘要翻译： 光度计包括用物理物质辐照在1.1〜2.0μm的波长范围内的红外光的投射机构，接收来自物理质量的输出光的光接收机构，以及将施加到物理质量的光或来自 物理质量进入其光谱分量，用于通过特定波长处的物理质量测量吸光度。 压缩机构可以压缩物理质量或其周边部分的测量区域，并且差异吸光度计算器获得由在压缩机构压缩的状态下由光度计获得的第一吸光度的差异吸光度，其中第一吸光度由 在第二压力被压缩的状态下的光度计低于第一压力或非压缩状态。 存储部存储身体脂肪与差异吸光度之间的关系，并且操作部根据存储在存储部中的关系，根据由差吸光度计算器计算出的差吸光度，定量地确定并输出身体脂肪。

公开(公告)号：US06381489B1

公开(公告)日：2002-04-30

申请号：US09068033

申请日：1998-07-07

申请人： Emi Ashibe

发明人： Emi Ashibe

IPC分类号： A61B500

CPC分类号： A61B5/6842 ,  A61B5/0059 ,  A61B5/1455 ,  A61B5/14552 ,  A61B5/6833

摘要： A measurement condition setting fixture 2 is secured to a measurement site 1 of a living body prior to the measurement. At the time of measurement, a light irradiation section 3 and a light receiving section 5 of a measuring optical system are respectively attached and secured to a light irradiation section securing section 10 and a light receiving section securing section 11 of the measurement condition setting fixture 2. Thus, the measurement site 1 and the measuring optical system are secured to each other, and desirable measurement conditions can be realized. Moreover, the measurement conditions can be maintained throughout the measurement. After the measurement is completed, the measurement site 1 can be removed from the measuring optical system by detaching the light irradiation section 3 and the light receiving section 5 from the light irradiation section securing section 10 and the light receiving section securing section 11. When the measurement is performed again, the desirable measurement conditions can be reproduced merely by attaching the light irradiation section 3 and the light receiving section 5 to the light irradiation section securing section 10 and the light receiving section securing section 11.

摘要翻译： 测量条件设定夹具2在测量之前被固定到生物体的测量部位1。 在测量时，测量光学系统的光照射部分3和光接收部分5分别安装并固定到测量条件设置固定装置2的光照射部分固定部分10和光接收部分固定部分11上 因此，测量部位1和测量光学系统彼此固定，并且可以实现期望的测量条件。 此外，可以在整个测量过程中保持测量条件。 测量完成后，通过从光照射部固定部10和受光部固定部11分离光照射部3和受光部5，可以从测量光学系统移除测量部位1。 再次进行测量，仅通过将光照射部分3和光接收部分5附接到光照射部分固定部分10和光接收部分固定部分11来再现期望的测量条件。