METHOD FOR TESTING MICROORGANISM OR THE LIKE AND TESTING APPARATUS THEREFOR
    2.
    发明申请
    METHOD FOR TESTING MICROORGANISM OR THE LIKE AND TESTING APPARATUS THEREFOR 有权
    用于测试微生物或其类似物和测试装置的方法

    公开(公告)号:US20110104685A1

    公开(公告)日:2011-05-05

    申请号:US12914055

    申请日:2010-10-28

    IPC分类号: C12Q1/68 C12M1/34

    摘要: A means for accurately counting desired cells or microorganisms (viable bacteria) in a sample fluid in which contaminants are included is provided. One or plural types of membrane-permeable fluorochromes whose fluorescence amount is amplified by binding to a nucleic acid and glycerin are added to a sample fluid containing cells or microorganisms to be counted and allowed to stand for a certain time. Glycerin is added before or after or simultaneously with the mixing of the sample fluid and the fluorochrome(s). The cells or microorganisms to be counted are counted by staining the cells or microorganisms to be counted, followed by irradiating with light having a specific wavelength to detect the fluorescence emitted from the cells or microorganisms.

    摘要翻译: 提供了在包含污染物的样品流体中精确计数期望的细胞或微生物(活细菌)的方法。 将其荧光量通过与核酸和甘油结合而扩增的一种或多种透膜型荧光染料加入含有要计数并允许静置一定时间的细胞或微生物的样品液中。 在样品流体和荧光染料的混合之前或之后或同时加入甘油。 通过染色要计数的细胞或微生物计数细胞或微生物,然后用特定波长的光照射以检测从细胞或微生物发出的荧光。

    MICROORGANISM TESTING DEVICE AND MICROORGANISM TESTING CHIP
    3.
    发明申请
    MICROORGANISM TESTING DEVICE AND MICROORGANISM TESTING CHIP 有权
    微生物测试设备和微生物测试芯片

    公开(公告)号:US20100093072A1

    公开(公告)日:2010-04-15

    申请号:US12575489

    申请日:2009-10-08

    IPC分类号: C12M1/34 B23P11/00

    摘要: Provided are a microorganism testing chip capable of suppressing self-fluorescence and enhancing mass productivity, and a microorganism testing device using the same. The microorganism testing chip includes a main body and a fungus body detection unit mounted on the main body. The main body has a detection window frame portion which is a through-hole or a pass-through groove. The fungus body detection unit is disposed to cover the detection window frame portion and has a fungus body detection flow path connected to flow paths provided in the main body. The fungus body detection unit includes a cover member and a flow path member, and is formed by attaching these two members to each other. The flow path member has a groove. By attaching the two members to each other, the groove of the flow path member serves as the fungus body detection flow path.

    摘要翻译: 提供能够抑制自发荧光并提高批量生产率的微生物测试芯片,以及使用其的微生物测试装置。 微生物检测芯片包括安装在主体上的主体和真菌体检测单元。 主体具有作为通孔或贯通槽的检测窗框架部。 真菌体检测单元被设置为覆盖检测窗框部,并且具有连接到设置在主体中的流路的真菌体检测流路。 真菌体检测单元包括盖构件和流路构件,并且通过将这两个构件彼此附接而形成。 流路构件具有凹槽。 通过将两个构件相互连接,流路构件的槽用作真菌体检测流路。

    Microorganism testing device and microorganism testing chip
    4.
    发明授权
    Microorganism testing device and microorganism testing chip 有权
    微生物检测装置和微生物检测芯片

    公开(公告)号:US08404480B2

    公开(公告)日:2013-03-26

    申请号:US12575489

    申请日:2009-10-08

    IPC分类号: C12M1/34 G01N21/03

    摘要: Provided are a microorganism testing chip capable of suppressing self-fluorescence and enhancing mass productivity, and a microorganism testing device using the same. The microorganism testing chip includes a main body and a fungus body detection unit mounted on the main body. The main body has a detection window frame portion which is a through-hole or a pass-through groove. The fungus body detection unit is disposed to cover the detection window frame portion and has a fungus body detection flow path connected to flow paths provided in the main body. The fungus body detection unit includes a cover member and a flow path member, and is formed by attaching these two members to each other. The flow path member has a groove. By attaching the two members to each other, the groove of the flow path member serves as the fungus body detection flow path.

    摘要翻译: 提供能够抑制自发荧光并提高批量生产率的微生物测试芯片,以及使用其的微生物测试装置。 微生物检测芯片包括安装在主体上的主体和真菌体检测单元。 主体具有作为通孔或贯通槽的检测窗框架部。 真菌体检测单元被设置为覆盖检测窗框部,并且具有连接到设置在主体中的流路的真菌体检测流路。 真菌体检测单元包括盖构件和流路构件,并且通过将这两个构件彼此附接而形成。 流路构件具有凹槽。 通过将两个构件相互连接,流路构件的槽用作真菌体检测流路。

    MICROORGANISM TESTING APPARATUS
    5.
    发明申请
    MICROORGANISM TESTING APPARATUS 审中-公开
    微生物测试仪器

    公开(公告)号:US20100273208A1

    公开(公告)日:2010-10-28

    申请号:US12766948

    申请日:2010-04-26

    IPC分类号: C12Q1/04 C12M1/34

    摘要: To eliminate the necessity of a dedicated optical system and the flowing of fluorescent microparticles for aligning excitation light with a flat plate-shaped flow cell which internally includes a flow path, a microorganism testing apparatus includes: a first detector that detects fluorescence emitted from microorganisms flowing through a detection flow path when a microorganism detection unit included in a microorganism testing chip is irradiated with excitation light, and converts the fluorescence to an electrical signal; and a second detector that detects scattered light similarly emitted from the microorganisms flowing through the detection flow path, and converts the scattered light to an electrical signal. The alignment of the detection flow path is performed in the direction of the optical axis of the excitation light by controlling and moving a stage having the microorganism testing chip mounted thereon based on the intensity of fluorescence detected by the first detector.

    摘要翻译: 为了消除专用光学系统的需要和用于使激发光与用于内部包括流路的平板状流动池对准的荧光微粒的流动,微生物测试装置包括:第一检测器,其检测从微生物流出的荧光 当微生物检测芯片中包含的微生物检测单元被激发光照射时,通过检测流路,并将荧光转换成电信号; 以及第二检测器,其检测类似地从流过检测流路的微生物发射的散射光,并将散射光转换成电信号。 基于由第一检测器检测到的荧光强度,通过控制和移动安装有微生物测试芯片的台,来在激发光的光轴的方向上进行检测流路的对准。

    Frequency converter circuit and satellite position signal receiving device
    6.
    发明申请
    Frequency converter circuit and satellite position signal receiving device 有权
    变频电路和卫星位置信号接收装置

    公开(公告)号:US20080119157A1

    公开(公告)日:2008-05-22

    申请号:US11976501

    申请日:2007-10-25

    申请人: Yuusuke Watanabe

    发明人: Yuusuke Watanabe

    IPC分类号: H04B1/10

    CPC分类号: G01S19/33 G01S19/36

    摘要: A mixer mixes respective signals of L1, L2C, and L5-E5a with a local oscillation signal where the frequency of the L1 signal has an image relationship with the frequencies of the L2C and L5-E5a signals to conduct frequency conversion. An image removal mixer mixes the respective position signals of 1stIF with a local oscillation signal where the frequency of the L1 signal of the 1stIF has an image relationship with the frequencies of the L2C signal and the L5-E5a signal of 1stIF to conduct frequency conversion. The image removal mixer then outputs the L1 signal of 2ndIF and the L2C and L5-E5a signals of 2ndIF, independently. A branching filter separates the L2C and L5-E5a signals of 2ndIF from each other, and outputs the separated signals.

    摘要翻译: 混频器将L1,L2C和L5-E5a的各个信号与本地振荡信号混合,其中L1信号的频率与L2C和L5-E5a信号的频率具有图像关系,以进行频率转换。 图像去除混合器将1stIF的各个位置信号与本地振荡信号混合,其中1stIF的L1信号的频率与1IF的信号和L5-E5a信号的频率具有图像关系,以进行频率转换。 然后,图像去除混频器独立地输出2ndIF的L1信号和2ndIF的L2C和L5-E5a信号。 分路滤波器将2ndIF的L2C和L5-E5a信号彼此分离,并输出分离的信号。

    Mobile object positioning device and navigation apparatus
    7.
    发明授权
    Mobile object positioning device and navigation apparatus 有权
    移动物体定位装置和导航装置

    公开(公告)号:US08442760B2

    公开(公告)日:2013-05-14

    申请号:US13276459

    申请日:2011-10-19

    申请人: Yuusuke Watanabe

    发明人: Yuusuke Watanabe

    IPC分类号: G01C21/34 G01S19/40

    摘要: A GPS receiver is used to receive a signal from GPS satellites, and a current vehicle position is detected based on the received signal. A control unit estimates the current vehicle position based on a travel speed of a vehicle from a vehicle speed sensor and a travel direction of the vehicle from a direction sensor. After correcting the estimated current vehicle position based on the current vehicle position from the GPS receiver, a power supply to the GPS receiver is turned off, and thereafter an error of the estimated current vehicle position is calculated based on an error accumulated for a certain time period regarding the speed and the direction. When the error of the estimated current vehicle position exceeds an error tolerance, the power supply for the GPS receiver is restarted to correct the estimated current vehicle position.

    摘要翻译: GPS接收机用于从GPS卫星接收信号,并根据接收到的信号检测当前的车辆位置。 控制单元基于来自车速传感器的车辆行驶速度和来自方向传感器的车辆的行进方向来估计当前车辆位置。 在根据GPS接收机的当前车辆位置校正估计当前车辆位置之后,关闭对GPS接收机的电力供应,然后基于在一定时间内累积的误差来计算估计的当前车辆位置的误差 关于速度和方向的时期。 当估计当前车辆位置的误差超过误差容限时,重新启动GPS接收机的电源以校正估计的当前车辆位置。

    Bolt fixing device of jet pump beam
    8.
    发明授权
    Bolt fixing device of jet pump beam 有权
    喷射泵梁螺栓固定装置

    公开(公告)号:US09076560B2

    公开(公告)日:2015-07-07

    申请号:US13495460

    申请日:2012-06-13

    IPC分类号: G21C15/00 G21C15/25 F16B39/02

    摘要: A jet pump including a riser as a coolant supply tube, an inlet mixer forming a turn-around path for the coolant, a diffuser, and a jet pump beam provided with a bolt fixing device is disclosed. The bolt fixing device includes: a head bolt of a jet pump beam for pushing and supporting the inlet mixer from an upper side of the riser, the head bolt being provided with a polygonal head portion; a lock cap provided on the polygonal head portion of the head bolt; a body housing disposed on an upper surface of the jet pump beam and adapted to accommodate the lock pin; a plurality of tapered external teeth formed on an outer peripheral side surface of the lock cap; and a plurality of internal tooth-shaped grooves formed to the body housing to fix the head bolt of the jet pump beam.

    摘要翻译: 公开了一种喷射泵,其包括作为冷却剂供应管的提升管,形成用于冷却剂的折返路径的入口混合器,扩散器和设置有螺栓固定装置的喷射泵梁。 螺栓固定装置包括:喷射泵梁的头螺栓,用于从提升管的上侧推动和支撑入口混合器,头螺栓设置有多边形头部; 设置在头螺栓的多边形头部上的锁帽; 主体壳体,设置在喷射泵梁的上表面上并适于容纳锁定销; 形成在所述锁盖的外周侧面上的多个锥形外齿​​; 以及形成在主体壳体上以固定喷射泵梁的头螺栓的多个内部的齿形槽。

    Positioning apparatus for calculating and correcting reception position and speed and method for the same
    10.
    发明授权
    Positioning apparatus for calculating and correcting reception position and speed and method for the same 有权
    用于计算和校正接收位置​​和速度的定位装置及其方法

    公开(公告)号:US08384589B2

    公开(公告)日:2013-02-26

    申请号:US12913987

    申请日:2010-10-28

    IPC分类号: G01S19/40

    CPC分类号: G01S19/40 G01S19/52

    摘要: A positioning apparatus includes: a first positioning device for calculating a reception position of a GPS receiver with respect to each combination of satellites based on a pseudo distance from each positioning satellite to the reception position; a component error calculator for calculating an error of at least one component in a calculation result of the first positioning device; a pseudo distance error calculator for obtaining a relation equation between the error of the at least one component and an error of the pseudo distance, and for solving simultaneous equations comprising the relation equation so that the error of the pseudo distance with respect to each positioning satellite is calculated; and a second positioning device for correcting the reception position based on the error of the pseudo distance.

    摘要翻译: 一种定位装置,包括:第一定位装置,用于基于从每个定位卫星到接收位置的伪距离,计算GPS接收机相对于卫星组合的接收位置; 用于计算第一定位装置的计算结果中的至少一个分量的误差的分量误差计算器; 伪距离误差计算器,用于获得所述至少一个分量的误差与所述伪距离的误差之间的关系方程,并且用于求解包括关系式的联立方程,使得相对于每个定位卫星的伪距离的误差 计算; 以及第二定位装置,用于基于伪距离的误差校正接收位置​​。