公开(公告)号：US08864382B2

公开(公告)日：2014-10-21

申请号：US12282340

申请日：2007-03-09

Applicant: Koichiro Ono ,  Takeshi Takizawa ,  Mamoru Aoki

Inventor： Koichiro Ono ,  Takeshi Takizawa ,  Mamoru Aoki

IPC: F16C32/00 ,  F16C13/00 ,  B60B7/00 ,  G01L5/00 ,  B60B7/06 ,  F16C25/06 ,  B60B27/00 ,  F16C19/52 ,  G01L5/12 ,  F16C19/18 ,  F16C41/00

CPC classification number: G01L5/0023 ,  B60B7/0013 ,  B60B7/061 ,  B60B7/066 ,  B60B27/0005 ,  B60B27/0068 ,  B60B27/0094 ,  F16C19/186 ,  F16C19/522 ,  F16C25/06 ,  F16C41/007 ,  F16C2229/00 ,  F16C2326/02 ,  G01L5/12

Abstract: A preload measuring device for a double row rolling bearing unit includes an outer bearing ring member having double rows of outer ring raceways on an inner circumferential surface, an inner bearing ring member having double rows of inner ring raceways on an outer circumferential surface, rolling elements rollably arranged between the outer ring raceways and the inner ring raceways in each of the rows such that contact angles given to the respective rows are opposite to one another, axial displacement measuring means for obtaining an axial relative displacement between the outer bearing ring member and the inner bearing ring member, inclination angle measuring means for obtaining an inclination angle between center axes of the outer bearing ring member and the inner bearing ring member, and preload calculating means for obtaining a preload applied to the rolling elements based on the inclination angle and the axial relative displacement.

Abstract translation: 一种用于双列滚动轴承单元的预载测量装置包括：在内周面上具有双排外圈滚道的外轴承圈构件，在外周面上具有双列内圈滚道的内轴承环构件，滚动体 可滚动地布置在每个排中的外圈滚道和内圈滚道之间，使得给予相应行的接触角彼此相反;轴向位移测量装置，用于获得外轴承环构件和 内轴承环构件，用于获得外轴承环构件的中心轴线与内轴承环构件之间的倾斜角度的倾斜角度测量装置，以及用于基于倾斜角度获得施加到滚动元件的预载荷的预压计算装置， 轴向相对位移。

公开(公告)号：US20100269770A1

公开(公告)日：2010-10-28

申请号：US12760155

申请日：2010-04-14

Applicant: Naoki KOKUBO ,  Atsushi YAMANAKA ,  Shinichi KAWADA ,  Michinori SAITO ,  Koichiro ONO ,  Kazuhiko TAKAYANAGI

Inventor： Naoki KOKUBO ,  Atsushi YAMANAKA ,  Shinichi KAWADA ,  Michinori SAITO ,  Koichiro ONO ,  Kazuhiko TAKAYANAGI

IPC: F01L1/34 ,  F01M9/10 ,  F16C33/34 ,  H02K11/00

CPC classification number: H02K5/141 ,  F01L1/022 ,  F01L1/344 ,  F01L2101/00 ,  F01L2820/032 ,  F01M9/10 ,  H02K5/10 ,  H02K5/225 ,  H02K7/083 ,  H02K7/14 ,  H02K16/025

Abstract: A drive rotation member is driven by a crankshaft of the engine, and a driven rotation member is rotatable relative to the drive rotation member and secured to a cam shaft of the engine. An electric motor is arranged to rotate together with the drive rotation member and produces a dynamic power when fed with an electric current through brushes. A hollow control shaft is rotatable relative to the drive rotation member and forces the driven rotation member to rotate relative to the drive rotation member when rotated by the power of the electric motor. A bearing device is arranged between the driven rotation member and the hollow control shaft for smoothing a relative rotation therebetween. The bearing device includes a plurality of rollers. A lubrication oil feeding structure is provided for causing the rollers of the bearing device to be submerged in a lubrication oil at least when the engine is in operation.

Abstract translation: 驱动旋转构件由发动机的曲轴驱动，并且从动旋转构件可相对于驱动旋转构件旋转并且固定到发动机的凸轮轴。 电动机被布置成与驱动旋转构件一起旋转，并且当通过电刷馈送电流时产生动力。 中空控制轴可相对于驱动旋转构件旋转，并且当由电动机的动力旋转时迫使被驱动旋转构件相对于驱动旋转构件旋转。 轴承装置设置在从动旋转构件和中空控制轴之间，用于平滑其间的相对旋转。 轴承装置包括多个辊。 提供润滑油供给结构，用于至少在发动机运转时使轴承装置的辊子浸没在润滑油中。

公开(公告)号：US20090052825A1

公开(公告)日：2009-02-26

申请号：US12282340

申请日：2007-03-09

Applicant: Koichiro Ono ,  Takeshi Takizawa ,  Mamoru Aoki

Inventor： Koichiro Ono ,  Takeshi Takizawa ,  Mamoru Aoki

IPC: G01L5/00

CPC classification number: G01L5/0023 ,  B60B7/0013 ,  B60B7/061 ,  B60B7/066 ,  B60B27/0005 ,  B60B27/0068 ,  B60B27/0094 ,  F16C19/186 ,  F16C19/522 ,  F16C25/06 ,  F16C41/007 ,  F16C2229/00 ,  F16C2326/02 ,  G01L5/12

Abstract: A preload measuring device for a double row rolling bearing unit includes an outer bearing ring member having double rows of outer ring raceways on an inner circumferential surface, an inner bearing ring member having double rows of inner ring raceways on an outer circumferential surface, rolling elements rollably arranged between the outer ring raceways and the inner ring raceways in each of the rows such that contact angles given to the respective rows are opposite to one another, axial displacement measuring means for obtaining an axial relative displacement between the outer bearing ring member and the inner bearing ring member, inclination angle measuring means for obtaining an inclination angle between center axes of the outer bearing ring member and the inner bearing ring member, and preload calculating means for obtaining a preload applied to the rolling elements based on the inclination angle and the axial relative displacement.

Abstract translation: 一种用于双列滚动轴承单元的预载测量装置包括：在内周面上具有双排外圈滚道的外轴承圈构件，在外周面上具有双列内圈滚道的内轴承环构件，滚动体 可滚动地布置在每个排中的外圈滚道和内圈滚道之间，使得给予相应行的接触角彼此相反;轴向位移测量装置，用于获得外轴承环构件和 内轴承环构件，用于获得外轴承环构件的中心轴线与内轴承环构件之间的倾斜角度的倾斜角度测量装置，以及用于基于倾斜角度获得施加到滚动元件的预载荷的预压计算装置， 轴向相对位移。

公开(公告)号：US20060167230A1

公开(公告)日：2006-07-27

申请号：US10542682

申请日：2004-01-20

Applicant: Takaki Koga ,  Naoki Kimura ,  Takeshi Yoshino ,  Koichiro Ono

Inventor： Takaki Koga ,  Naoki Kimura ,  Takeshi Yoshino ,  Koichiro Ono

IPC: C07K16/44 ,  C07K16/40

CPC classification number: C07K16/38 ,  C07K14/8121 ,  C07K2317/50 ,  C07K2317/565 ,  C07K2317/76 ,  C07K2317/92

Abstract: The present invention provides anti-PCI antibodies having Protein C inhibitor (PCI)-neutralizing activity, and the uses thereof. Through the generation and screening of anti-PCI antibodies, the inventors successfully isolated anti-PCI antibodies which inhibit PCI's inhibitory effect on the production and activity of activated Protein C (aPC). The antibodies of the present invention suppress PCI's inhibitory effect on aPC production and/or the aPC inactivation by PCI, and thus can be used to maintain aPC activity and sustain the effects of aPC physiological activities, such as suppression of the activation of blood coagulation system and anti-inflammatory functions. The present invention also provides uses of the antibodies of the present invention in treating diseases such as thrombosis and sepsis using aPC. In treatments by aPC administration, the therapeutic effect of aPC can be sustained by administering an antibody of the present invention. The antibodies of the present invention can be used in the treatment and prevention of diseases such as thrombosis and sepsis.

Abstract translation: 本发明提供具有蛋白C抑制剂（PCI） - 中和活性的抗PCI抗体及其用途。 通过抗PCI抗体的产生和筛选，本发明人成功地分离了抗PCI抗体，其抑制PCI对活化蛋白C（aPC）的产生和活性的抑制作用。 本发明的抗体抑制PCI对aPC生成的抑制作用和/或PCI的aPC失活，因此可用于维持aPC活性并维持aPC生理活性的作用，例如抑制血液凝固系统的活化 和抗炎功能。 本发明还提供了本发明的抗体在使用aPC治疗诸如血栓形成和败血症的疾病中的用途。 在通过aPC施用的治疗中，通过施用本发明的抗体可以维持aPC的治疗效果。 本发明的抗体可用于治疗和预防诸如血栓形成和败血症等疾病。

公开(公告)号：US08443772B2

公开(公告)日：2013-05-21

申请号：US12760155

申请日：2010-04-14

Applicant: Naoki Kokubo ,  Atsushi Yamanaka ,  Shinichi Kawada ,  Michinori Saito ,  Koichiro Ono ,  Kazuhiko Takayanagi

Inventor： Naoki Kokubo ,  Atsushi Yamanaka ,  Shinichi Kawada ,  Michinori Saito ,  Koichiro Ono ,  Kazuhiko Takayanagi

IPC: F01L1/34

CPC classification number: H02K5/141 ,  F01L1/022 ,  F01L1/344 ,  F01L2101/00 ,  F01L2820/032 ,  F01M9/10 ,  H02K5/10 ,  H02K5/225 ,  H02K7/083 ,  H02K7/14 ,  H02K16/025

Abstract: A drive rotation member is driven by a crankshaft of the engine, and a driven rotation member is rotatable relative to the drive rotation member and secured to a cam shaft of the engine. An electric motor is arranged to rotate together with the drive rotation member and produces a dynamic power when fed with an electric current through brushes. A hollow control shaft is rotatable relative to the drive rotation member and forces the driven rotation member to rotate relative to the drive rotation member when rotated by the power of the electric motor. A bearing device is arranged between the driven rotation member and the hollow control shaft for smoothing a relative rotation therebetween. The bearing device includes a plurality of rollers. A lubrication oil feeding structure is provided for causing the rollers of the bearing device to be submerged in a lubrication oil at least when the engine is in operation.

Abstract translation: 驱动旋转构件由发动机的曲轴驱动，并且从动旋转构件可相对于驱动旋转构件旋转并且固定到发动机的凸轮轴。 电动机被布置成与驱动旋转构件一起旋转，并且当通过电刷馈送电流时产生动力。 中空控制轴可相对于驱动旋转构件旋转，并且当由电动机的动力旋转时迫使被驱动旋转构件相对于驱动旋转构件旋转。 轴承装置设置在从动旋转构件和中空控制轴之间，用于平滑其间的相对旋转。 轴承装置包括多个辊。 提供润滑油供给结构，用于至少在发动机运转时使轴承装置的辊子浸没在润滑油中。

公开(公告)号：US20090078455A1

公开(公告)日：2009-03-26

申请号：US12238251

申请日：2008-09-25

Applicant: Sadamichi Takakusaki ,  Koichiro Ono ,  Akihisa Matsumoto

Inventor： Sadamichi Takakusaki ,  Koichiro Ono ,  Akihisa Matsumoto

IPC: H05K1/16 ,  H01R43/00 ,  F21V19/00

CPC classification number: H05K1/056 ,  H01L33/486 ,  H01L33/62 ,  H01L33/64 ,  H01L2224/48465 ,  H01L2224/73265 ,  H05K3/002 ,  H05K3/0032 ,  H05K2201/0989 ,  H05K2201/10106 ,  Y10T29/49169 ,  H01L2224/48091 ,  H01L2924/00014

Abstract: Provided are: a light emitting module which has an improved heat-dissipating property and whose reflectance reduction is prevented. The light emitting module mainly includes: a metal substrate; a conductive pattern formed on the upper surface of the metal substrate; and a light emitting element disposed on the upper surface of the metal substrate and electrically connected to the conductive pattern. Furthermore, in the light emitting module, an insulating layer is removed in a region where the conductive pattern is not formed, but is left unremoved in a region right below (or covered with) the conductive pattern. In other words, in the region where the conductive pattern is not formed, the upper surface of the metal substrate is not covered with the conductive pattern, and a metal material constituting the metal substrate is exposed.

Abstract translation: 提供：具有改善的散热特性并防止其反射率降低的发光模块。 发光模块主要包括：金属基板; 形成在所述金属基板的上表面上的导电图案; 以及设置在金属基板的上表面并电连接到导电图案的发光元件。 此外，在发光模块中，在未形成导电图案的区域中去除绝缘层，但在导电图案的正下方（或被覆盖）的区域中不会去除绝缘层。 换句话说，在未形成导电图案的区域中，金属基板的上表面不被导电图案覆盖，并且构成金属基板的金属材料露出。

公开(公告)号：US20090033322A1

公开(公告)日：2009-02-05

申请号：US12280870

申请日：2007-02-27

Applicant: Koichiro Ono ,  Nagao Dohi

Inventor： Koichiro Ono ,  Nagao Dohi

IPC: G01B7/30

CPC classification number: G01D5/2451 ,  B60B27/0005 ,  B60B27/0068 ,  B60B27/0094 ,  F16C19/186 ,  F16C19/522 ,  F16C41/00 ,  F16C2326/02 ,  G01L5/0023

Abstract: There are provided first and second characteristic change portions 9 and 10 having characteristic boundary inclination directions different from each other in an inner half portion and an outer half portion of the encoder 4. Detections portions of one pair of sensors 6a1 (6b1, 6c1) and 6a2 (6b2, 6c2) are opposed to three circumferential positions of both the characteristic change portions 9 and 10. A operator has a function of calculating the displacements x, y, z, and inclinations Φx, Φz, on the basis of phase differences among output signals of the sensors 6a1, 6a2, 6b1, 6b2, 6c1, and 6c2.

Abstract translation: 在编码器4的内半部分和外半部分设有第一和第二特征变化部分9和10，它们具有彼此不同的特征边界倾斜方向。一对传感器6a1（6b1,6c1）和 6a2（6b2,6c2）与两个特征变化部分9和10的三个圆周位置相对。操作者具有基于相位差计算位移x，y，z和倾斜度Phix，Phiz的功能 传感器6a1,6a2,6b1,6b2,6c1,6c2的输出信号。

公开(公告)号：US07320256B2

公开(公告)日：2008-01-22

申请号：US10534748

申请日：2004-08-26

Applicant: Koichiro Ono

Inventor： Koichiro Ono

IPC: G01L1/00

CPC classification number: G01L5/0023 ,  F16C19/186 ,  F16C19/522 ,  F16C33/414 ,  F16C41/007 ,  F16C2326/02 ,  G01P3/446

Abstract: Revolution speeds of rolling elements in respective rows are sensed, and then the axial load or the radial load is derived based on the revolution speeds. In case the acting directions of these loads are displaced, the contact angles of the rolling elements in respective rows are differentiated in response to this displacement, or values of influence coefficients used to detect respective loads are changed based on the revolution speeds.

Abstract translation: 感测各行中的滚动元件的转速，然后基于转速导出轴向载荷或径向载荷。 在这些载荷的作用方向发生位移的情况下，响应于该位移，各行中的滚动体的接触角是微分的，或者用于检测各个载荷的影响系数的值根据转速而改变。

公开(公告)号：US20060042406A1

公开(公告)日：2006-03-02

申请号：US10534748

申请日：2004-08-26

Applicant: Koichiro Ono

Inventor： Koichiro Ono

IPC: G01L1/00

CPC classification number: G01L5/0023 ,  F16C19/186 ,  F16C19/522 ,  F16C33/414 ,  F16C41/007 ,  F16C2326/02 ,  G01P3/446

Abstract: Revolution speeds of rolling elements in respective rows are sensed, and then the axial load or the radial load is derived based on the revolution speeds. In case the acting directions of these loads are displaced, the contact angles of the rolling elements in respective rows are differentiated in response to this displacement, or values of influence coefficients used to detect respective loads are changed based on the revolution speeds.

Abstract translation: 感测各行中的滚动元件的转速，然后基于转速导出轴向载荷或径向载荷。 在这些载荷的作用方向发生位移的情况下，响应于该位移，各行中的滚动体的接触角是微分的，或者用于检测各个载荷的影响系数的值根据转速而改变。

公开(公告)号：US07686516B2

公开(公告)日：2010-03-30

申请号：US11597567

申请日：2005-05-12

Applicant: Kenichi Shibasaki ,  Koichiro Ono ,  Kinji Yukawa ,  Mamoru Aoki ,  Junji Ono ,  Taketoshi Chifu

Inventor： Kenichi Shibasaki ,  Koichiro Ono ,  Kinji Yukawa ,  Mamoru Aoki ,  Junji Ono ,  Taketoshi Chifu

IPC: F16C32/00

CPC classification number: G01L5/0023 ,  F16C19/186 ,  F16C19/386 ,  F16C19/522 ,  F16C41/007 ,  F16C2326/02 ,  G01D5/2455 ,  G01P3/443 ,  G01P3/446 ,  G01P3/488

Abstract: An encoder 12 a characteristic of which is changed alternately at an equal interval in a circumferential direction is supported/fixed onto a hub 4 concentrically with the hub 4. A sensing portion of a sensor 13 supported on the outer ring 3 is positioned in close vicinity to a sensed surface of the encoder 12 to face thereto. Width dimensions of first and second sensed portions provided onto the sensed surface are changed continuously in a direction along which a to-be-sensed load is applied. Since a pattern according to which an output signal of the sensor 13 is changed is changed pursuant to a change of the load, the load is derived by observing this pattern. The output signal is also utilized to sense a rotation speed of the hub 4 in ABS or TCS control.

Abstract translation: 其特征是沿周向等间隔交替地改变的编码器12与轮毂4同心地支撑/固定在轮毂4上。支撑在外圈3上的传感器13的感测部分位于靠近 到编码器12的感测表面以面对其。 设置在检测到的表面上的第一和第二感测部分的宽度尺寸在被施加感测负载的方向上连续地改变。 由于传感器13的输出信号变化的图案根据负载的变化而变化，所以通过观察该图案导出负载。 输出信号还用于感测轮毂4在ABS或TCS控制中的转速。