公开(公告)号：US09010897B2

公开(公告)日：2015-04-21

申请号：US13396826

申请日：2012-02-15

Applicant: Kazuyoshi Tanase ,  Toru Miyamoto ,  Toru Takahashi ,  Takamitsu Kondo ,  Hiroshi Wada ,  Naoki Maruyama

Inventor： Kazuyoshi Tanase ,  Toru Miyamoto ,  Toru Takahashi ,  Takamitsu Kondo ,  Hiroshi Wada ,  Naoki Maruyama

IPC: B41J29/38 ,  B41J2/155 ,  B41J2/21

CPC classification number: B41J2/155 ,  B41J2/2132

Abstract: To minimize any decrease in image quality, even in an instance in which there is a displacement in a landing position of a fluid in a region in which nozzle rows overlap, (A) a fluid-ejecting device including: a first nozzle column; (B) a second nozzle column, the second nozzle column being arranged so as to form an overlapping region; and (C) a control part for causing the fluid to be ejected so that in each of a plurality of raster lines arranged in a row in the predetermined direction in the overlapping region, dots to be formed are apportioned between the first nozzles and the second nozzles; the control part causing the fluid to be ejected so that there are produced.

Abstract translation: 为了尽可能减少图像质量的降低，即使在喷嘴列重叠的区域中的流体的着落位置存在位移的情况下，（A）流体喷射装置，包括：第一喷嘴柱; （B）第二喷嘴列，所述第二喷嘴列被布置成形成重叠区域; 和（C）用于使流体喷射的控制部分，使得在重叠区域中在预定方向上排列成一列的多个光栅线中的每一个中，要形成的点在第一喷嘴和第二喷嘴之间分配 喷嘴 控制部分使得流体被喷射，使得产生。

公开(公告)号：US09008899B2

公开(公告)日：2015-04-14

申请号：US13699531

申请日：2011-05-19

Applicant: Kentarou Nishikawa ,  Takayuki Norimatsu ,  Toru Takahashi

Inventor： Kentarou Nishikawa ,  Takayuki Norimatsu ,  Toru Takahashi

IPC: G01M17/007 ,  B21K1/00 ,  F16C19/18 ,  F16C19/52 ,  G01L5/00 ,  B60B27/00 ,  G01L25/00

CPC classification number: G01M17/007 ,  B21K1/00 ,  B60B27/0005 ,  B60B27/0068 ,  F16C19/186 ,  F16C19/522 ,  F16C2326/02 ,  G01L5/0019 ,  G01L25/00 ,  Y10T29/49636

Abstract: A sensor equipped wheel support bearing assembly having good assemblability with a compact structure and capable of accurately detecting load acting on a bearing of a vehicle wheel is provided. One of an outer member and an inner member that serves as a stationary member has a vehicle body fitting flange to be fitted to a knuckle. One or more load detecting sensor unit is provided on the stationary member and includes a strain generating member having two or more contact fixing segments fixed to the stationary member, and one or more sensors fitted to the strain generating member for detecting a strain occurring in the strain generating member. A circuit fixing stay is provided on a side face of the vehicle body fitting flange and a calculation processing circuit is fitted to this stay for calculating and processing an output signal of the sensor.

Abstract translation: 提供一种传感器配备的轮支撑轴承组件，其具有良好的组装性并且具有紧凑的结构并且能够精确地检测作用在车轮的轴承上的负载。 用作固定构件的外部构件和内部构件中的一个具有要装配到转向节的车体装配法兰。 一个或多个负载检测传感器单元设置在固定构件上，并且包括具有固定到固定构件上的两个或更多个接触固定段的应变发生构件，以及安装在应变发生构件上的一个或多个传感器，用于检测在 应变发生部件。 在车身安装凸缘的侧面设置有电路固定支架，并且在该停留时间内配有计算处理电路，用于计算和处理传感器的输出信号。

公开(公告)号：US08974048B2

公开(公告)日：2015-03-10

申请号：US13426279

申请日：2012-03-21

Applicant: Takamitsu Kondo ,  Toru Takahashi ,  Hiroshi Wada ,  Kazuyoshi Tanase

Inventor： Takamitsu Kondo ,  Toru Takahashi ,  Hiroshi Wada ,  Kazuyoshi Tanase

IPC: C09D11/00 ,  C09D11/101 ,  B41J2/155 ,  B41J2/165

CPC classification number: C09D11/101 ,  B41J2/155 ,  B41J2/16585

Abstract: A printing method including: ejecting an ink which includes a designated compound is ejected from a first nozzle row which is relatively move in an intersection direction intersecting a direction along the nozzle row with respect to a medium, ejecting the ink while relatively moving in the intersection direction to the medium, from the end portion of a second nozzle row which is overlapped with the end portion of the first nozzle row in a direction along the nozzle row direction, wherein when nozzles of the nozzle rows which are partly overlapped with each other in a direction along the nozzle row share with each other to form a common dot line, the amount of ink ejected per unit area in the partly overlapping region is larger than the amount of ink ejected per unit area in a non-overlapping region.

Abstract translation: 一种打印方法，包括：喷射包含指定化合物的油墨从相对于介质沿与喷嘴列的方向相交的交叉方向相对移动的第一喷嘴列喷出，同时在交叉点相对移动时喷射墨 从与第一喷嘴列的端部重叠的第二喷嘴列的沿着喷嘴行方向的方向的介质的方向，其中当喷嘴列的喷嘴彼此部分重叠时， 沿着喷嘴列的方向彼此共享以形成公共点线，部分重叠区域中每单位面积喷射的墨的量大于在非重叠区域中每单位面积喷射的墨的量。

公开(公告)号：US08942458B2

公开(公告)日：2015-01-27

申请号：US13001128

申请日：2009-06-19

Applicant: Toru Takahashi ,  Ken Tsukii ,  Jie Xu

Inventor： Toru Takahashi ,  Ken Tsukii ,  Jie Xu

IPC: G06K9/00 ,  G01N15/14

CPC classification number: G01N15/147 ,  G01N2015/1438 ,  G01N2015/1493 ,  G01N2015/1497

Abstract: A method for distinguishing and sorting cells characterized by comprising distinguishing and sorting a specific cell mass or a part of the cells in the cell mass with the use of transmitted light data reflecting the morphological characteristics of the cells such as size and shape optionally together with side-scattering light data reflecting the characteristics of the internal structure of the cells. The part of the cells in the specific cell mass as described above are at the G1 stage or at a part of the M stage in the cell cycle. A part of the cells at the G1 stage are referred to as the left bottom line in an analytical dispersion diagram of the cells wherein the abscissa indicates the transmitted light data, while a part of the cells at the M stage are referred to as the right bottom line in the analytical dispersion diagram of the cells wherein the abscissa indicates the transmitted light data.

Abstract translation: 一种用于区分和分选细胞的方法，其特征在于包括使用反映细胞形态学特征的透射光数据（例如尺寸和形状）来选择性地与侧面区分和分选细胞块中的特定细胞块或细胞的一部分 反映细胞内部结构特征的散射光数据。 如上所述的特定细胞团中的细胞的部分在细胞周期中处于G1阶段或M阶段的一部分。 在G1阶段的细胞的一部分在细胞的分析色散图中被称为左下底线，其中横坐标表示透射光数据，而M阶段的一部分细胞被称为右 细胞的分析色散图中的底线，其中横坐标表示透射的光数据。

公开(公告)号：US08901275B2

公开(公告)日：2014-12-02

申请号：US13321022

申请日：2010-06-17

Applicant: Mitsushige Hamaguchi ,  Takuma Naotsuka ,  Yoshitake Takahashi ,  Toru Takahashi ,  Hiroyuki Ome

Inventor： Mitsushige Hamaguchi ,  Takuma Naotsuka ,  Yoshitake Takahashi ,  Toru Takahashi ,  Hiroyuki Ome

IPC: C08G63/91 ,  C08G63/88 ,  C08G63/08

CPC classification number: C08G63/88 ,  C08G63/08

Abstract: A method for producing a crystallized polyester comprises the crystallization step of applying a shear and/or a pressure to a polyester selected from an aliphatic polyester and a polyalkylene terephthalate at a temperature of (Tm−70° C.) to (Tm+20° C.), where Tm is a melting point of the polyester, thereby converting the polyester into a state having a crystallinity of 10% or more and fluidity.

Abstract translation: 一种结晶聚酯的制造方法包括在（Tm-70℃）〜（Tm + 20℃）的温度下，向选自脂肪族聚酯和聚对苯二甲酸亚烷基酯的聚酯施加剪切和/或压力的结晶化步骤 C.），其中Tm是聚酯的熔点，从而将聚酯转化为结晶度为10％以上和流动性的状态。

公开(公告)号：US20140314859A1

公开(公告)日：2014-10-23

申请号：US14238616

申请日：2012-08-03

Applicant: Keietsu Abe ,  Kazuyoshi Kawakami ,  Tadafumi Ajiri ,  Manabu Fukumoto ,  Seiichi Takami ,  Takanari Togashi ,  Kimihide Muragaki ,  Toru Takahashi

Inventor： Keietsu Abe ,  Kazuyoshi Kawakami ,  Tadafumi Ajiri ,  Manabu Fukumoto ,  Seiichi Takami ,  Takanari Togashi ,  Kimihide Muragaki ,  Toru Takahashi

IPC: A61K9/16 ,  A61K38/16

CPC classification number: A61K9/1676 ,  A61K38/168 ,  A61K49/1863 ,  B22F1/0018 ,  B22F1/0062 ,  B82Y5/00 ,  B82Y30/00 ,  B82Y40/00 ,  C01G49/08 ,  C01P2004/62 ,  C01P2006/12 ,  C09C1/24

Abstract: It has been found that modification of surfaces of nanoparticles with a RolA protein decreases an immunostimulation activity of the nanoparticles on myeloid dendritic cells and also decreases phagocytosis of the nanoparticles by macrophages. The present invention provides nanoparticles being modified with a biological molecule and having an immune-response evasion function.

Abstract translation: 已经发现用RolA蛋白修饰纳米颗粒的表面降低了纳米颗粒在骨髓树突状细胞上的免疫刺激活性，并且还降低了巨噬细胞对纳米颗粒的吞噬作用。 本发明提供了用生物分子修饰并具有免疫应答逃避功能的纳米颗粒。

公开(公告)号：US08820873B2

公开(公告)日：2014-09-02

申请号：US13428432

申请日：2012-03-23

Applicant: Kazuyoshi Tanase ,  Toru Takahashi ,  Takamitsu Kondo ,  Hiroshi Wada

Inventor： Kazuyoshi Tanase ,  Toru Takahashi ,  Takamitsu Kondo ,  Hiroshi Wada

IPC: B41J29/38 ,  B41J2/01 ,  B41J11/00 ,  B41M7/00

CPC classification number: B41J11/002 ,  B41M7/00 ,  B41M7/0081

Abstract: A printing apparatus: the medium-conveying part conveying the medium; the nozzles discharging ink droplets curable by light irradiation onto the medium; the light-irradiation part irradiating the medium with light; the medium-deforming part being arranged on the downstream side of the light-irradiation part, holding the medium from the front and back, and deforming the medium so that an irregular shape is formed in cross section; the controller performing an image-forming step, a light-irradiating step, and a medium-deforming step; in the image-forming step, the ink droplets being discharged by the nozzles to form an image on the surface of the medium; in the light-irradiating step, the ink droplets discharged onto the medium being irradiated with light by the light-irradiation part to cure the droplets; and in the medium-deforming step, the medium being released by the medium-conveying part after the medium is deformed by the medium-deforming part.

Abstract translation: 印刷装置：传送介质的介质传送部分; 喷嘴将通过光照射固化的墨滴喷射到介质上; 光照射部分用光照射介质; 所述中等变形部分布置在所述光照射部分的下游侧，从所述前侧和后侧保持所述介质，并且使所述介质变形以使得形成横截面的不规则形状; 控制器执行图像形成步骤，光照射步骤和介质变形步骤; 在图像形成步骤中，墨滴被喷嘴排出以在介质的表面上形成图像; 在光照射步骤中，通过光照射部分将被喷射到介质上的墨水被光照射以固化液滴; 并且在中等变形步骤中，介质在介质由介质变形部变形之后由介质输送部分释放。

公开(公告)号：US20140226797A1

公开(公告)日：2014-08-14

申请号：US14343590

申请日：2012-08-31

Applicant: Toshihiko Ogura ,  Toru Takahashi

Inventor： Toshihiko Ogura ,  Toru Takahashi

IPC: G21K5/08 ,  G21K7/00

CPC classification number: G21K5/08 ,  G01N23/04 ,  G01N2223/309 ,  G01N2223/612 ,  G21K7/00

Abstract: Observation samples in a sample solution are held due to absorption or the like on a rear face of a first X-ray transmission film. In a mirror body, while an X-ray emission film and X-ray transmission films are bent to be convex outward due to a pressure difference, an X-ray transmission film is bent to be convex toward the X-ray transmission film side due to gas expansion in a second cavity part. This bending results in widening of a gap between the first and second X-ray transmission films in their center part more compared with a gap between their end parts. However, there is almost no change between the X-ray transmission films.

Abstract translation: 样品溶液中的观察样品由于吸收等而保持在第一X射线透射膜的背面上。 在镜体中，当X射线发射膜和X射线透射膜由于压差而弯曲成向外凸出时，X射线透射膜弯曲成朝向X射线透射膜侧凸起，因为 在第二空腔部分中进行气体膨胀。 这种弯曲导致其中心部分的第一和第二X射线透射膜之间的间隙与它们的端部之间的间隙相比更大。 然而，X射线透射膜之间几乎没有变化。

公开(公告)号：US20140158522A1

公开(公告)日：2014-06-12

申请号：US13876968

申请日：2012-06-26

Applicant: Toru Takahashi ,  Yasuyoshi Nishikawa ,  Shoji Morita

Inventor： Toru Takahashi ,  Yasuyoshi Nishikawa ,  Shoji Morita

IPC: C07C249/06

CPC classification number: C07C249/06 ,  B01J19/123 ,  B01J19/127 ,  C07C2601/14 ,  C07C251/44

Abstract: A method produces a cycloalkanone oxime by photonitrosation using light emitting diodes as the light source for the next generation that replaces an electric discharge lamp with, for example, mercury or sodium sealed therein. The method produces the cycloalkanone oxime by a photochemical reaction of a cycloalkane with a photo nitrosating agent in a liquid by light irradiation. The method uses a light source satisfying conditions that, in an emission energy distribution with respect to wavelength of the light source, a wavelength at which emission energy has a maximum value is in a range of 550 nm to 700 nm and a wavelength range outputting energy of or over 5% strength of the peak strength is equal to or less than 150 nm. An irradiation distance in the liquid is equal to or greater than 200 mm, and concentration of the photo nitrosating agent in the liquid is 0.1 mol % to 0.5 mol %.

Abstract translation: 通过使用发光二极管作为下一代的光源，通过光子学反应产生环烷酮肟，其用例如汞或钠密封在其中的放电灯取代。 该方法通过光照射在液体中通过环烷烃与光亚硝化剂的光化学反应产生环烷酮肟。 该方法使用满足以下条件的光源：在相对于光源的波长的发射能量分布中，发射能量具有最大值的波长在550nm至700nm的范围内，并且输出能量的波长范围 超过5％的峰强度强度等于或小于150nm。 液体中的照射距离等于或大于200mm，液体中的亚硝基化剂的浓度为0.1mol％至0.5mol％。

公开(公告)号：US20130327601A1

公开(公告)日：2013-12-12

申请号：US13978450

申请日：2011-12-15

Applicant: Yui Masuda ,  Toru Takahashi

Inventor： Yui Masuda ,  Toru Takahashi

IPC: F16D66/00 ,  F16D55/226

CPC classification number: F16D55/226 ,  F16D65/18 ,  F16D66/00 ,  F16D2066/003 ,  F16D2066/005 ,  F16D2121/24 ,  F16D2125/36 ,  F16D2125/40 ,  F16D2125/48

Abstract: An electric brake system includes a plurality of planetary rollers kept in rolling contact with the radially outer surface of a rotary shaft, a carrier which is restrained from axial movement, an axially movable outer ring member, and a friction pad provided at the axially front end of the outer ring member. The rotation of the rotary shaft is converted to axial movement of the outer ring member, thereby pressing the friction pad with the outer ring member. The brake system further includes a reaction force receiving member provided axially rearwardly of the outer ring member for receiving an axial rearward reaction force applied to the outer ring member when the friction pad is pressed by the outer ring member. A displacement sensor measures the displacement of the reaction force receiving member, thereby detecting the pressing force of the friction pad.

Abstract translation: 电动制动系统包括与旋转轴的径向外表面保持滚动接触的多个行星辊，限制轴向移动的载体，可轴向移动的外圈构件和设置在轴向前端的摩擦垫 的外圈构件。 旋转轴的旋转转换为外圈构件的轴向运动，从而将摩擦垫与外圈构件按压。 制动系统还包括反作用力接收构件，该反作用力接收构件设置在外圈构件的轴向后方，用于当摩擦垫被外圈构件按压时接受施加到外圈构件的轴向后向反作用力。 位移传感器测量反作用力接收构件的位移，从而检测摩擦垫的按压力。