公开(公告)号：US20060164761A1

公开(公告)日：2006-07-27

申请号：US11341240

申请日：2006-01-26

Applicant: Hiroshi Okabe

Inventor： Hiroshi Okabe

IPC: G11B5/48

CPC classification number: G11B5/486

Abstract: Embodiments of the invention enable high-speed data recording on a magnetic recording medium. In one embodiment, a first section is provided at the recording and reproducing circuit IC side of the inter-connect substrate while a second section is provided at the head side and a third section is provided between a position closer to the head than a section crossed by a spring part of the suspension and the head. Then, the characteristic impedance of the third section recording line is set lower than that of the recording line in the second section except for the first and third sections and the wiring distance between the recording line and the reproducing line in the third section is set longer than that between the recording line and the reproducing line in each of the first and second sections. In addition, the output resistance of the recording and reproducing circuit IC is equated with the characteristic impedance of the main FPC recording line.

Abstract translation: 本发明的实施例使得能够在磁记录介质上进行高速数据记录。 在一个实施例中，第一部分设置在连接基板的记录和再现电路IC侧，而第二部分设置在头部侧，并且第三部分设置在距离头部的位置更靠近头部的位置 通过弹簧部分的悬架和头部。 然后，除了第一和第三部分之外，第三部分记录线的特征阻抗被设定为低于第二部分中的记录线的特征阻抗，并且将第三部分中的记录线和再现线之间的布线距离设定得更长 比在第一和第二部分中的每一个中的记录线和再现线之间的距离大。 此外，记录和再现电路IC的输出电阻等于主FPC记录线的特性阻抗。

公开(公告)号：US20050085803A1

公开(公告)日：2005-04-21

申请号：US10967364

申请日：2004-10-18

Applicant: Hiroshi Okabe

Inventor： Hiroshi Okabe

IPC: A61B18/00 ,  A61B17/32 ,  A61B18/04 ,  A61B18/12

CPC classification number: A61B17/320068 ,  A61B2018/00101

Abstract: An ultrasonic handpiece for use in operations comprises an oscillation source and a casing unit. The oscillation source has an ultrasonic transducer formed by plural piezoelectric layers layered one on another to form a substantially rod shape having both ends in an axial direction. A radially expanded flange is attached one end of the ultrasonic transducer. The casing unit has a cylindrical casing formed to contain the oscillation source therein, formed to have a blocking layer formed to have a predetermined length in, the axial direction, and positioned to cover both the flange and at least a first piezoelectric layer of the ultrasonic transducer in the axial direction. The casing unit also has a holder holding the oscillation source within the casing using the flange. The blocking layer is in charge of blocking (reducing or preventing) vibration and heat from being transmitted to the outer surface of the casing.

Abstract translation: 用于操作的超声波手持件包括振荡源和壳体单元。 振荡源具有由彼此层叠的多个压电层形成的超声波换能器，以形成轴向两端的大致棒状。 径向膨胀的凸缘连接在超声波换能器的一端。 壳体单元具有形成为容纳其中的振荡源的圆柱形壳体，形成为具有形成为在轴向方向上具有预定长度的阻挡层，并且定位成覆盖凸缘和至少第一超声波压电层 传感器在轴向上。 壳体单元还具有使用凸缘将振动源保持在壳体内的保持器。 阻挡层负责阻止（减少或防止）振动和热量传递到外壳的外表面。

公开(公告)号：US5914693A

公开(公告)日：1999-06-22

申请号：US708563

申请日：1996-09-05

Applicant: Ken Takei ,  Mikio Kuwahara ,  Hiroshi Okabe ,  Hiroshi Kishida ,  Kazuyuki Hori ,  Yoshitaka Imakado ,  Tomonori Nomura

Inventor： Ken Takei ,  Mikio Kuwahara ,  Hiroshi Okabe ,  Hiroshi Kishida ,  Kazuyuki Hori ,  Yoshitaka Imakado ,  Tomonori Nomura

IPC: H01Q1/24 ,  H01Q13/16 ,  H01Q13/10

CPC classification number: H01Q1/243 ,  H01Q13/16

Abstract: A coaxial resonant slot antenna having a novel structure is provided to further reduce the dimensions of radio terminals incorporating such an antenna. Also provided are a novel method of fabricating such a coaxial resonant slot antenna and a radio terminal having a novel structure using such a coaxial resonant slot antenna. An entire strip conductor is arranged inside a flat conductive cubic such that the strip conductor is insulated from the conductive cubic. A connection point between the strip conductor and a radio frequency transmission line is provided at a position about 1/4 of wavelength away from one end of the strip conductor. A slot is shaped into a narrow rectangle, a generally upside-down "U", or a generally upside-down "U" having another slot on each end. It is desired that the center slot crosses the strip conductor along the length thereof and in the height direction thereof, the distance between the ends being equivalent to about 1/2 of wavelength used. The radio terminal has a plurality of antennas associated with the present invention arranged on a plurality of surfaces and provides a connection mechanism for varying the number of antennas to be used in the talk mode and the standby mode.

Abstract translation: 提供具有新颖结构的同轴谐振缝隙天线，以进一步减小结合这种天线的无线电终端的尺寸。 还提供了一种使用这种同轴谐振缝隙天线制造这种同轴谐振缝隙天线和具有新颖结构的无线电终端的新方法。 整个带状导体布置在平坦导电立方体的内部，使得带状导体与导电立方体绝缘。 带状导体和射频传输线之间的连接点设置在远离带状导体一端的距离为+ E，fra 1/4 + EE波长的位置处。 狭槽成形为一个狭窄的矩形，一般是倒置的“U”，或者在每一端有另一个槽的大体倒置的“U”。 期望中心狭槽沿着其长度和带状导体的高度方向与条形导体相交，端部之间的距离等于使用的波长的大约+ E，fra 1/2 + EE。 无线电终端具有布置在多个表面上的与本发明相关联的多个天线，并提供用于改变在通话模式和待机模式中要使用的天线数量的连接机构。

公开(公告)号：US08048011B2

公开(公告)日：2011-11-01

申请号：US10967364

申请日：2004-10-18

Applicant: Hiroshi Okabe

Inventor： Hiroshi Okabe

IPC: A61B17/32

CPC classification number: A61B17/320068 ,  A61B2018/00101

Abstract: An ultrasonic handpiece for use in operations comprises an oscillation source and a casing unit. The oscillation source has an ultrasonic transducer formed by plural piezoelectric layers layered one on another to form a substantially rod shape having both ends in an axial direction. A radially expanded flange is attached one end of the ultrasonic transducer. The casing unit has a cylindrical casing formed to contain the oscillation source therein, formed to have a blocking layer formed to have a predetermined length in, the axial direction, and positioned to cover both the flange and at least a first piezoelectric layer of the ultrasonic transducer in the axial direction. The casing unit also has a holder holding the oscillation source within the casing using the flange. The blocking layer is in charge of blocking (reducing or preventing) vibration and heat from being transmitted to the outer surface of the casing.

Abstract translation: 用于操作的超声波手持件包括振荡源和壳体单元。 振荡源具有由彼此层叠的多个压电层形成的超声波换能器，以形成轴向两端的大致棒状。 径向膨胀的凸缘连接在超声波换能器的一端。 壳体单元具有形成为容纳其中的振荡源的圆柱形壳体，形成为具有形成为在轴向方向上具有预定长度的阻挡层，并且定位成覆盖凸缘和至少第一超声波压电层 传感器在轴向上。 壳体单元还具有使用凸缘将振动源保持在壳体内的保持器。 阻挡层负责阻止（减少或防止）振动和热量传递到外壳的外表面。

公开(公告)号：US07675384B2

公开(公告)日：2010-03-09

申请号：US12122347

申请日：2008-05-16

Applicant: Tatsuo Itoh ,  Christophe Caloz ,  I-Hsiang Lin ,  Hiroshi Okabe

Inventor： Tatsuo Itoh ,  Christophe Caloz ,  I-Hsiang Lin ,  Hiroshi Okabe

IPC: H01P5/12 ,  H01P5/22 ,  H04B1/58

CPC classification number: H01P5/227

Abstract: High-frequency couplers and coupling techniques are described utilizing artificial composite right/left-handed transmission line (CRLH-TL). Three specific forms of couplers are described; (1) a coupled-line backward coupler is described with arbitrary tight/loose coupling and broad bandwidth; (2) a compact enhanced-bandwidth hybrid ring coupler is described with increased bandwidth and decreased size; and (3) a dual-band branch-line coupler that is not limited to a harmonic relation between the bands. These variations are preferably implemented in a microstrip fabrication process and may use lumped-element components. The couplers and coupling techniques are directed at increasing the utility while decreasing the size of high-frequency couplers, and are suitable for use with separate coupler or couplers integrated within integrated devices.

Abstract translation: 利用人造复合右/左传输线（CRLH-TL）描述高频耦合器和耦合技术。 描述了三种具体形式的耦合器; （1）耦合线反向耦合器被描述为具有任意的紧/松耦合和宽带宽; （2）以增加的带宽和减小的尺寸描述紧凑的增强带宽混合环耦合器; 和（3）双频分支线耦合器，不限于频带之间的谐波关系。 这些变化优选地在微带制造过程中实现，并且可以使用集总元件部件。 耦合器和耦合技术旨在增加效用，同时降低高频耦合器的尺寸，并且适用于集成在集成器件内的单独的耦合器或耦合器。

公开(公告)号：US20100012338A1

公开(公告)日：2010-01-21

申请号：US12490530

申请日：2009-06-24

Applicant: Hiroshi Okabe ,  Takehiko Nishimura

Inventor： Hiroshi Okabe ,  Takehiko Nishimura

IPC: A01G3/053 ,  B26B25/00

CPC classification number: A01D34/902 ,  A01D34/824

Abstract: According to an aspect of the present invention, there is provided a portable bush cutter including: a pole; a working part that is provided at one end of the pole; an engine part that drives the working part and that is provided at the other end of the pole; a drive shaft that connects the working part and the engine part; a maneuvering handle that is provided on an intermediate portion of the pole along a length direction thereof; and a vibration isolating member that is interposed between the maneuvering handle and the pole.

Abstract translation: 根据本发明的一个方面，提供了一种便携式切割机，包括：杆; 设在杆的一端的工作部分; 驱动所述工作部并且设置在所述杆的另一端的发动机部; 连接工作部件和发动机部件的驱动轴; 设置在所述杆的长度方向的中间部的操纵手柄; 以及插入在操纵手柄和杆之间的隔振构件。

公开(公告)号：US07645245B2

公开(公告)日：2010-01-12

申请号：US10729074

申请日：2003-12-04

Applicant: Naomi Sekino ,  Tsuruo Hatori ,  Koji Shimomura ,  Hiroshi Okabe ,  Shinji Hatta ,  Hiroo Ono ,  Tomohisa Sakurai ,  Takeaki Nakamura

Inventor： Naomi Sekino ,  Tsuruo Hatori ,  Koji Shimomura ,  Hiroshi Okabe ,  Shinji Hatta ,  Hiroo Ono ,  Tomohisa Sakurai ,  Takeaki Nakamura

IPC: A61H1/00

CPC classification number: A61B17/22012 ,  A61B17/2202 ,  A61B2017/22014 ,  A61B2017/22025 ,  A61B2017/922 ,  A61B2217/005

Abstract: An endoscopic lithotripsy probe apparatus includes a probe, ultrasonic-vibration source, mechanical shock generation source, and switch-mechanism. The ultrasonic-vibration source is detachably attached to the probe to transmit an ultrasonic-vibration to the probe in a state in which the proximal end of the probe is connected to the ultrasonic-vibration source. The mechanical shock generation source, which is disposed on the side of the proximal end of the probe, applies a force to the ultrasonic-vibration source in a state in which the ultrasonic-vibration source is detached from the proximal end of the probe, and allows the ultrasonic-vibration source to collide with the proximal end of the probe so that a mechanical shock is applied to the probe. The switch-mechanism switches a state in which the ultrasonic-vibration from the ultrasonic-vibration source is transmitted to the probe and a state in which the mechanical shock from the mechanical shock generation source is transmitted.

Abstract translation: 内窥镜碎石探针装置包括探针，超声波振动源，机械冲击发生源和开关机构。 超声波振动源可拆卸地安装在探针上，以使探头的基端与超声波振动源连接的状态向探头传递超声波振动。 设置在探头的近端侧的机械冲击产生源在超声波振动源从探头的近端分离的状态下向超声波振动源施加力，并且 允许超声波振动源与探头的近端碰撞，从而对探头施加机械冲击。 开关机构切换来自超声波振动源的超声波振动传递到探头的状态以及来自机械冲击发生源的机械冲击的状态。

公开(公告)号：US07336360B2

公开(公告)日：2008-02-26

申请号：US11352458

申请日：2006-02-13

Applicant: Kazuhiko Oka ,  Tomohiro Mizuno ,  Atsushi Taniguchi ,  Hiroshi Okabe

Inventor： Kazuhiko Oka ,  Tomohiro Mizuno ,  Atsushi Taniguchi ,  Hiroshi Okabe

IPC: G01J4/00

CPC classification number: G02B27/281 ,  G01J4/04

Abstract: To effectively reduce a measurement error in a parameter indicating two-dimensional spatial distribution of a state of polarization generated by variations in retardation of a birefringent prism pair due to a temperature change or other factors, while holding a variety of properties of an imaging polarimetry using the birefringent prism pair. By noting that reference phase functions φ1(x, y) and φ2(x, y) are obtained by solving an equation from each vibration component contained in an intensity distribution I(x, y), the reference phase functions φ1(x, y) and φ2(x, y) are calibrated concurrently with measurement of two-dimensional spatial distribution S0(x, y), S1(x, y), S2(x, y), and S3(x, y) of Stokes parameters.

Abstract translation: 为了有效地降低由于温度变化或其他因素导致的双折射棱镜对的延迟变化产生的偏振态的二维空间分布的参数的测量误差，同时保持成像偏振法的各种性质，使用 双折射棱镜对。 通过注意到通过求解包含在强度分布中的每个振动分量的方程来获得参考相位函数phi1（x，y）和φi2（x，y） I（x，y），参考相位函数phi <1>（x，y）和phi <2>（x，y）与二维空间 （x，y），S＆lt; 1＆gt;（x，y），S 2（x，y）以及S _{3 （x，y）。}

公开(公告)号：US20070030551A1

公开(公告)日：2007-02-08

申请号：US11352458

申请日：2006-02-13

Applicant: Kazuhiko Oka ,  Tomohiro Mizuno ,  Atsushi Taniguchi ,  Hiroshi Okabe

Inventor： Kazuhiko Oka ,  Tomohiro Mizuno ,  Atsushi Taniguchi ,  Hiroshi Okabe

IPC: G02B26/00 ,  G02F1/01

CPC classification number: G02B27/281 ,  G01J4/04

Abstract: To effectively reduce a measurement error in a parameter indicating two-dimensional spatial distribution of a state of polarization generated by variations in retardation of a birefringent prism pair due to a temperature change or other factors, while holding a variety of properties of an imaging polarimetry using the birefringent prism pair. By noting that reference phase functions φ1(x, y) and φ2(x, y) are obtained by solving an equation from each vibration component contained in an intensity distribution I(x, y), the reference phase functions φ1(x, y) and φ2(x, y) are calibrated concurrently with measurement of two-dimensional spatial distribution S0(x, y), S1(x, y), S2(x, y), and S3(x, y) of Stokes parameters.

Abstract translation: 为了有效地降低由于温度变化或其他因素导致的双折射棱镜对的延迟变化产生的偏振态的二维空间分布的参数的测量误差，同时保持成像偏振法的各种性质，使用 双折射棱镜对。 通过注意到通过求解包含在强度分布中的每个振动分量的方程来获得参考相位函数phi1（x，y）和φi2（x，y） I（x，y），参考相位函数phi <1>（x，y）和phi <2>（x，y）与二维空间 （x，y），S＆lt; 1＆gt;（x，y），S 2（x，y）和S _{3 （x，y）。}

公开(公告)号：US20070026431A1

公开(公告)日：2007-02-01

申请号：US11441806

申请日：2006-05-26

Applicant: Hiroshi Okabe ,  Frank McCormick ,  Osamu Tetsu

Inventor： Hiroshi Okabe ,  Frank McCormick ,  Osamu Tetsu

IPC: C12Q1/68 ,  G01N33/567 ,  C12Q1/48 ,  C07H21/04 ,  C12P21/06 ,  C12N9/10

CPC classification number: G01N33/5011 ,  C12Q1/485 ,  G01N2333/4739 ,  G01N2500/00

Abstract: The invention features methods and compositions for screening for agents that modulate cellular proliferation, particularly in cells that have elevated cyclin D1 (e.g., cancerous cells), where the methods provide for detection of agents that modulate phosphorylation of cyclin D1 by MAPK and/or detection of agents that modulate ubiquitination of cyclin D1 by FBXW8. The invention also features methods of controlling cellular proliferation, and agents useful in such methods.

Abstract translation: 本发明的特征在于筛选调节细胞增殖的试剂的方法和组合物，特别是在具有升高的细胞周期蛋白D1（例如癌细胞）的细胞中，其中所述方法提供了通过MAPK和/或检测调节细胞周期蛋白D1的磷酸化的试剂 通过FBXW8调节细胞周期蛋白D1泛素化的药剂。 本发明还特征在于控制细胞增殖的方法以及在这些方法中有用的试剂。