Component measuring device
    3.
    发明申请
    Component measuring device 有权
    元件测量装置

    公开(公告)号:US20060243031A1

    公开(公告)日:2006-11-02

    申请号:US10557782

    申请日:2004-05-21

    IPC分类号: G01N11/00

    CPC分类号: G01N21/8483

    摘要: A component measuring device for measuring the quantity and/or the property of a given component in a specimen by colorimetrically measuring a test strip includes a tip mount on which is to be mounted a tip having the test strip, and a photometric unit. The photometric unit comprises a light-emitting element that applies light to the test strip while the tip is mounted on the tip mount, a light-detecting element that detects light reflected from the test strip, and a holder in which is held the light-emitting element and the light-detecting element. The holder possesses a passage through which passes the light and the reflected light. A light-transmissive member closes the passage with a sealing member interposed therebetween in a portion of the holder which faces the test strip. The component measuring device can also be provided with a stain detecting device which is adapted to detect a stain on the light-transmissive member.

    摘要翻译: 用于通过比色测量试纸测量试样中的给定组分的量和/或性质的组分测量装置包括其上安装有具有测试条的尖端的尖端安装件和一个测光单元。 所述测光单元包括发光元件,所述发光元件在所述尖端安装在所述尖端安装件上时将光施加到所述测试条,检测光检测元件,其检测从所述测试条反射的光;以及保持器, 发光元件和光检测元件。 支架具有一个通过它的通道,通过光和反射光。 透光构件在夹持器的面向测试条的部分中间插入有密封构件而封闭通道。 部件测量装置还可以设置有用于检测透光部件上的污渍的污渍检测装置。

    Total-internal-reflection type deposit point sensor
    4.
    发明授权
    Total-internal-reflection type deposit point sensor 失效
    全内反射型沉积点传感器

    公开(公告)号:US6076959A

    公开(公告)日:2000-06-20

    申请号:US29772

    申请日:1998-04-06

    申请人: Yasushi Nagasawa

    发明人: Yasushi Nagasawa

    IPC分类号: G01N21/43 G01N25/04 G01N33/28

    摘要: A novel method for measuring a deposit point is provided, which makes it possible to quickly and accurately measure a cloud point. A test sample is irradiated at an angle of incidence .theta. with an incoming light beam which satisfies an expression .theta.

    摘要翻译: PCT No.PCT / JP97 / 02280 Sec。 371日期1998年3月3日 102(e)1998年3月3日PCT PCT 1997年7月2日PCT公布。 出版物WO98 / 01748 日期1998年1月15日提供了一种用于测量沉积点的新颖方法,可以快速准确地测量浊点。 测试样品以入射光束与满足表达式θθ的入射光束照射,同时逐渐冷却诸如瓦斯油的测试样品,并且从每个温度检测来自测试样品的全反射光束 ,条件是θ2表示当测试样品冷却时沉积的沉积物诸如沉积的沉积物的全反射的临界角。 测试样品的沉积点根据全反射光束相对于温度变化的强度变化来确定。 在各温度下由传感器阵列检测的光强度分布被统计处理以更精确地确定沉积点。 在确定沉积点时,使用具有形成有光入射光路和发光光路的波导结构的全反射型传感器。 CCD用作检测器。

    Probe needle
    5.
    发明授权
    Probe needle 失效
    探针

    公开(公告)号:US5532613A

    公开(公告)日:1996-07-02

    申请号:US227638

    申请日:1994-04-14

    IPC分类号: G01R1/067 G01R1/073 G01R3/00

    摘要: The present invention relates to a probe needle wherein a conductive film is formed over a first insulating film formed around the outer periphery of a rod-like member through which a signal current flows, a second insulating film is formed over the outer periphery of the conductive film, and the conductive film is grounded. Since the rod-like member through which a signal current flows is thereby shielded, it is not affected by noise, and mutual crosstalk between signal currents is also prevented. Moreover, since ill effects caused by mutual contact with other probe needles is prevented by the second insulating film, reliable and stable measurement is possible. The coating of the probe needle is implemented by covering non-coating portions of the probe needle by a melted thermally liquefiable wax, hardening the thermally liquefiable wax covering the non-coating portions at room temperature, applying a coating to the probe needle by vacuum deposition, heating the thermally liquefiable wax once again, and then removing the thermally liquefiable wax from the probe needle. As a result, a probe needle is obtained wherein a non-coating portion is reliably delimited from a coating portion by a masking boundary. When the coating process is completed, the probe needle could be subjected to washing to completely remove any remaining wax.

    摘要翻译: 本发明涉及一种探针,其中导电膜形成在围绕信号电流流动的杆状构件的外周围形成的第一绝缘膜上,第二绝缘膜形成在导电的外周上 膜,导电膜接地。 由于信号电流流过的杆状构件被屏蔽,所以不受噪声的影响,并且也防止了信号电流之间的相互串扰。 此外,由于通过第二绝缘膜防止与其他探针的相互接触引起的不良影响,因此可靠且稳定的测量是可能的。 探针的涂层通过用熔融的可热化的液体蜡覆盖探针的未涂覆部分来实现,在室温下固化覆盖非涂覆部分的热可液化蜡,通过真空沉积将涂层施加到探针上 再次加热可热化的蜡,然后从探针取出热可液化的蜡。 结果,获得探针,其中非涂覆部分通过掩蔽边界与涂布部分可靠地界定。 当涂布过程完成时,可以对探针进行洗涤以完全除去任何剩余的蜡。

    COMPONENT MEASURING APPARATUS
    6.
    发明申请
    COMPONENT MEASURING APPARATUS 有权
    组件测量装置

    公开(公告)号:US20100317092A1

    公开(公告)日:2010-12-16

    申请号:US12521718

    申请日:2008-01-08

    IPC分类号: C12M1/34 G01N33/493

    摘要: A component measuring apparatus is provided with a case having a cylindrical case main body and a cover arranged to cover the base end opening section of the case main body; a chip mounting section for mounting a chip; a light measuring section for detecting a prescribed component; a printed board whereupon a control section having a function of controlling the operation of the light measuring section is arranged; a liquid crystal display device; a battery arranging section for arranging a battery provided on the cover; an O-ring arranged between the case main body and the light measuring section on the leading end section of the case main body; and an O-ring arranged between the case main body and the cover on the base end opening section of the case main body. Sealing of inside the case is ensured by the O-ring.

    摘要翻译: 元件测量装置设有壳体,其具有圆筒形壳体主体和覆盖壳体主体的基端开口部的盖体; 用于安装芯片的芯片安装部分; 光测量部,用于检测规定的分量; 布置有具有控制光测量部的操作功能的控制部的印刷电路板; 液晶显示装置; 电池布置部,用于布置设置在盖上的电池; O形环,其布置在所述壳体主体和所述壳体主体的前端部分上的所述光测量部之间; 以及O形环,其布置在壳体主体和壳体主体的基端开口部分上的盖之间。 通过O型圈确保箱体内的密封。

    Component measuring apparatus
    7.
    发明授权
    Component measuring apparatus 有权
    元件测量仪器

    公开(公告)号:US08206649B2

    公开(公告)日:2012-06-26

    申请号:US12521718

    申请日:2008-01-08

    IPC分类号: G01N15/06 G01N33/00 G01N33/48

    摘要: A component measuring apparatus is provided with a case having a cylindrical case main body and a cover arranged to cover the base end opening section of the case main body; a chip mounting section for mounting a chip; a light measuring section for detecting a prescribed component; a printed board whereupon a control section having a function of controlling the operation of the light measuring section is arranged; a liquid crystal display device; a battery arranging section for arranging a battery provided on the cover; an O-ring arranged between the case main body and the light measuring section on the leading end section of the case main body; and an O-ring arranged between the case main body and the cover on the base end opening section of the case main body. Sealing of inside the case is ensured by the O-ring.

    摘要翻译: 元件测量装置设有壳体,其具有圆筒形壳体主体和覆盖壳体主体的基端开口部的盖体; 用于安装芯片的芯片安装部分; 光测量部,用于检测规定的分量; 布置有具有控制光测量部的操作功能的控制部的印刷电路板; 液晶显示装置; 电池布置部,用于布置设置在盖上的电池; O形环,其布置在所述壳体主体和所述壳体主体的前端部分上的所述光测量部之间; 以及O形环,其布置在壳体主体和壳体主体的基端开口部分上的盖之间。 通过O型圈确保箱体内的密封。

    Component measuring device
    8.
    发明授权
    Component measuring device 有权
    元件测量装置

    公开(公告)号:US07586610B2

    公开(公告)日:2009-09-08

    申请号:US10557782

    申请日:2004-05-21

    申请人: Yasushi Nagasawa

    发明人: Yasushi Nagasawa

    IPC分类号: G01N21/25

    CPC分类号: G01N21/8483

    摘要: A component measuring device for measuring the quantity and/or the property of a given component in a specimen by calorimetrically measuring a test strip includes a tip mount on which is to be mounted a tip having the test strip, and a photometric unit. The photometric unit comprises a light-emitting element that applies light to the test strip while the tip is mounted on the tip mount, a light-detecting element that detects light reflected from the test strip, and a holder in which is held the light-emitting element and the light-detecting element. The holder possesses a passage through which passes the light and the reflected light. A light-transmissive member closes the passage with a sealing member interposed therebetween in a portion of the holder which faces the test strip. The component measuring device can also be provided with a stain detecting device which is adapted to detect a stain on the light-transmissive member.

    摘要翻译: 用于通过对测试条进行量热测量来测量样品中的给定组分的量和/或性质的组分测量装置包括其上安装有具有测试条的尖端的尖端安装件和一个测光单元。 所述测光单元包括发光元件,所述发光元件在所述尖端安装在所述尖端安装件上时将光施加到所述测试条,检测光检测元件,其检测从所述测试条反射的光;以及保持器, 发光元件和光检测元件。 支架具有一个通过它的通道,通过光和反射光。 透光构件在夹持器的面向测试条的部分中间插入有密封构件而封闭通道。 部件测量装置还可以设置有用于检测透光部件上的污渍的污渍检测装置。

    Method of coating a conductive probe needle
    9.
    发明授权
    Method of coating a conductive probe needle 失效
    涂敷导电探针的方法

    公开(公告)号:US5690998A

    公开(公告)日:1997-11-25

    申请号:US622854

    申请日:1996-03-29

    摘要: The present invention relates to a probe needle wherein a conductive film is formed over a first insulating film formed around the outer periphery of a rod-like member through which a signal current flows, a second insulating film is formed over the outer periphery of the conductive film, and the conductive film is grounded. Since the rod-like member through which a signal current flows is thereby shielded, it is not affected by noise, and mutual crosstalk between signal currents is also prevented. Moreover, since ill effects caused by mutual contact with other probe needles is prevented by the second insulating film, reliable and stable measurement is possible. The coating of the probe needle is implemented by covering non-coating portions of the probe needle by a melted thermally liquefiable wax, hardening the thermally liquefiable wax covering the non-coating portions at room temperature, applying a coating to the probe needle by vacuum deposition, heating the thermally liquefiable wax once again, and then removing the thermally liquefiable wax from the probe needle. As a result, a probe needle is obtained wherein a non-coating portion is reliably delimited from a coating portion by a masking boundary. When the coating process is completed, the probe needle could be subjected to washing to completely remove any remaining wax.

    摘要翻译: 本发明涉及一种探针,其中导电膜形成在围绕信号电流流动的杆状构件的外周围形成的第一绝缘膜上,第二绝缘膜形成在导电的外周上 膜,导电膜接地。 由于信号电流流过的杆状构件被屏蔽,所以不受噪声的影响,并且也防止了信号电流之间的相互串扰。 此外,由于通过第二绝缘膜防止与其他探针的相互接触引起的不良影响,因此可靠且稳定的测量是可能的。 探针的涂层通过用熔融的可热化的液体蜡覆盖探针的未涂覆部分来实现,在室温下固化覆盖非涂覆部分的热可液化蜡,通过真空沉积将涂层施加到探针上 再次加热可热化的蜡,然后从探针取出热可液化的蜡。 结果,获得探针,其中非涂覆部分通过掩蔽边界与涂布部分可靠地界定。 当涂布过程完成时,可以对探针进行洗涤以完全除去任何剩余的蜡。

    Total-reflection type refractive index sensor
    10.
    发明授权
    Total-reflection type refractive index sensor 失效
    全反射型折射率传感器

    公开(公告)号:US5565978A

    公开(公告)日:1996-10-15

    申请号:US356233

    申请日:1994-12-13

    IPC分类号: G01N21/43 G01N21/41

    CPC分类号: G01N21/43

    摘要: A refractive index sensor of a total-reflection type comprises a waveguiding layer of a cladding/core/cladding waveguide structure formed on a substrate. The waveguiding layer has an input face connected to either a single optical fiber or a plurality of optical fibers for injecting a light(s) into the layer, a detection face which, obeying Snell's law, totally reflects/transmits the light beam or beams that have arrived there with an expansion angle from the optical fiber or fibers and which constitutes a surface with which a material whose refractive index is to be measured comes in contact, and an output face which outputs the light reflected from the detection face and is connected to an optical detector. The refractive index of the material of interest is detected from a bright-dark boundary of the presence of the corresponding total reflected light from the detection face. With no need of a bulk prism or lamp-type light source, the sensor is small in size and high in sensitivity.

    摘要翻译: PCT No.PCT / JP94 / 00470 Sec。 371日期1994年12月13日第 102(e)日期1994年12月13日PCT 1994年3月24日PCT公布。 第WO94 / 24543号公报 日期:1994年10月27日全反射型折射率传感器包括在基板上形成的包层/芯/包层波导结构的波导层。 波导层具有连接到单个光纤或用于将光注入到该层中的多个光纤的输入面,符合斯涅耳定律的检测面完全反射/透射光束或光束, 从光纤或纤维到达那里,并且其构成与要测量的折射率的材料接触的表面,以及输出从检测面反射并连接到 光学检测器。 从存在来自检测面的相应的总反射光的明暗边界检测感兴趣材料的折射率。 无需散装棱镜或灯型光源,传感器尺寸小,灵敏度高。