公开(公告)号：US4170276A

公开(公告)日：1979-10-09

申请号：US762131

申请日：1977-01-24

Applicant: Yoshihiro Hashimoto ,  Shigeaki Oyama ,  Hiroshi Araki

Inventor： Yoshihiro Hashimoto ,  Shigeaki Oyama ,  Hiroshi Araki

IPC: H02K23/66 ,  F16D27/04 ,  F16D48/06 ,  H02K7/108 ,  F16D27/12

CPC classification number: H02K7/1085 ,  F16D27/04 ,  F16D48/064 ,  F16D2027/002 ,  F16D2500/1045 ,  F16D2500/7041 ,  F16D2500/70418

Abstract: A motor having a clutch device which can provide a desired one of two (or more) rotating speeds of a rotor of the motor, comprising: an armature which is rotated by a driving shaft of said rotor and is slidable along the axis thereof; two rotating drive members which are rotatably supported by said driving shaft; electromagnetic exciting members which can attract said armature to a desired one of said rotating drive members, wherein a desired one of said rotating drive members produces rotational power due to the rotation of said driving shaft via said armature.

Abstract translation: 一种具有离合器装置的电动机，其能够提供所述电动机的转子的两个（或更多）转速的期望的一个，包括：由所述转子的驱动轴旋转并且可沿其轴线滑动的电枢; 由所述驱动轴可旋转地支撑的两个旋转驱动构件; 电磁激励构件，其可以将所述电枢吸引到所述旋转驱动构件中的期望的一个，其中所述旋转驱动构件中期望的一个由于所述驱动轴经由所述衔铁的旋转而产生旋转动力。

公开(公告)号：US4042812A

公开(公告)日：1977-08-16

申请号：US618762

申请日：1975-10-02

Applicant: Yoshihiro Hashimoto ,  Shinichi Isobe

Inventor： Yoshihiro Hashimoto ,  Shinichi Isobe

IPC: G05B19/40 ,  G05B19/4103 ,  G05B19/18

CPC classification number: G05B19/4103 ,  G05B2219/42254

Abstract: The present invention discloses a method and apparatus for distributing command pulses to a numerically controlled machine which is provided with a first and a second control axis having different resolution. The first control axis has a smaller resolution than the second control axis. The numerical datum for each control axis, based on the smaller resolution are given to the pulse distributing circuit. When the command pulse obtained by the pulse distributing operation is supplied to the first control axis, the movable part of the machine is displaced by an amount corresponding to the smaller resolution. At this time, the distributing point is also moved by the same amount in the first axis direction. When the command pulse is supplied to the second control axis, the movable part of the machine is displaced by an amount which is a multiple of the smaller resolution by the ratio of the resolutions of the two control axes, and the distributing point is also moved by the same amount in the second axis direction.

Abstract translation: 本发明公开了一种用于将命令脉冲分配给数控机器的方法和装置，该数控机器具有不同分辨率的第一和第二控制轴。 第一控制轴具有比第二控制轴更小的分辨率。 基于较小分辨率的每个控制轴的数字基准被给予脉冲分配电路。 当通过脉冲分配操作获得的指令脉冲被提供给第一控制轴时，机器的可移动部分移位相应于较小分辨率的量。 此时，分配点也在第一轴方向上移动相同的量。 当向第二控制轴提供指令脉冲时，机器的可移动部分以两个控制轴的分辨率的比例以较小分辨率的倍数移位，分配点也移动 在第二轴方向上具有相同的量。

公开(公告)号：US08558560B2

公开(公告)日：2013-10-15

申请号：US12876057

申请日：2010-09-03

Applicant: Yoshihiro Hashimoto

Inventor： Yoshihiro Hashimoto

IPC: G01R27/26

CPC classification number: G01R31/2889 ,  G01R19/04 ,  G01R31/2839 ,  G01R31/40

Abstract: Provided is a test apparatus that measures a peak in a current supplied to a device under test via a transmission path which transmits power from a power supply to a device under test, the peak including a frequency component higher than a frequency corresponding to a product of an inductance component from the power supply to the device under test and a capacitance component between the transmission path and a ground potential, and judges acceptability of the device under test based on the peak measured by the current measuring section.

Abstract translation: 提供了一种测试装置，其通过从电源向被测设备发送电力的传输路径来测量提供给被测设备的电流中的峰值，所述峰值包括高于对应于被测设备的频率的频率的频率分量 从电源到被测器件的电感分量以及传输路径和接地电位之间的电容分量，并根据由电流测量部分测得的峰值来判断被测器件的可接受性。

公开(公告)号：US20130201424A1

公开(公告)日：2013-08-08

申请号：US13643728

申请日：2010-12-22

Applicant: Tatsuo Uchida ,  Yoshito Suzuki ,  Tohru Kawakami ,  Kazuo Sekiya ,  Masahiro Nishizawa ,  Takahiro Ishinabe ,  Baku Katagiri ,  Katsunori Ehara ,  Yoshihiro Hashimoto ,  Shoichi Ishihara ,  Shuichi Kozaki ,  Yutaka Ishii

Inventor： Tatsuo Uchida ,  Yoshito Suzuki ,  Tohru Kawakami ,  Kazuo Sekiya ,  Masahiro Nishizawa ,  Takahiro Ishinabe ,  Baku Katagiri ,  Katsunori Ehara ,  Yoshihiro Hashimoto ,  Shoichi Ishihara ,  Shuichi Kozaki ,  Yutaka Ishii

IPC: G02F1/1335

CPC classification number: G02F1/133606 ,  G02B6/0008 ,  G02B6/0035 ,  G02B6/0053 ,  G02B6/0068 ,  G02F1/133603 ,  G02F2001/133607

Abstract: A backlight system (30) includes a light emitting section (31) and an imaging optical system. The imaging optical system includes a first microlens array (MLA1) and a second microlens array (MLA2). The lenses (1A) separates the beams of light emitted from the light emitting section (31) by RGB, and causes them to be converged at a pitch same as a pitch at which the picture elements are arrayed. The lenses (2A) are provided in one-to-one correspondence to the picture elements such that the lenses (2A) have their respective focal points at positions onto which beams of light having passed through the lenses (1A) are converged. The lenses (2A) thus deflect the beams of light which have passed through the lenses (1A) in a substantially vertical direction with respect to the display surface of the liquid crystal panel.

Abstract translation: 背光系统（30）包括发光部（31）和成像光学系统。 成像光学系统包括第一微透镜阵列（MLA1）和第二微透镜阵列（MLA2）。 透镜（1A）将从发光部分（31）发射的光束分离RGB，并使它们以与排列像素的间距相同的间距会聚。 透镜（2A）与图像元素一一对应地设置，使得透镜（2A）在其中通过透镜（1A）的光束会聚的位置处具有各自的焦点。 因此，透镜（2A）因此相对于液晶面板的显示面在大致垂直的方向上偏转已经穿过透镜（1A）的光束。

公开(公告)号：US20110307591A1

公开(公告)日：2011-12-15

申请号：US12866880

申请日：2010-06-14

Applicant: Yuki Sugata ,  Takaki Kuroda ,  Yoshihiro Hashimoto

Inventor： Yuki Sugata ,  Takaki Kuroda ,  Yoshihiro Hashimoto

IPC: G06F15/173

CPC classification number: G06F11/30 ,  G06F11/3051 ,  G06F11/3055 ,  G06F11/324 ,  G06F11/3409 ,  G06F11/3495 ,  G06F13/00 ,  G06F2201/81

Abstract: A system management apparatus for managing a computer system receives plug-in distribution data from a plug-in distribution apparatus. The plug-in distribution data comprises plug-in definition information and template definition information. The system management apparatus uses the plug-in definition information to acquire information from the management target apparatus, and determines whether or not to issue an alert based on the template definition information. The distribution of the plug-in and the template at the same time means that the user can avoid confusion regarding the threshold setting.

Abstract translation: 用于管理计算机系统的系统管理装置从插件分配装置接收插件分发数据。 插件分发数据包括插件定义信息和模板定义信息。 系统管理装置使用插件定义信息从管理目标装置获取信息，并且基于模板定义信息来确定是否发出警报。 同时插件和模板的分发意味着用户可以避免与阈值设置有关的混淆。

公开(公告)号：US08054404B2

公开(公告)日：2011-11-08

申请号：US13056174

申请日：2009-08-04

Applicant: Tatsuo Uchida ,  Yoshito Suzuki ,  Tohru Kawakami ,  Takahiro Ishinabe ,  Baku Katagiri ,  Yoshihiro Hashimoto ,  Shoichi Ishihara ,  Shuichi Kozaki ,  Yutaka Ishii

Inventor： Tatsuo Uchida ,  Yoshito Suzuki ,  Tohru Kawakami ,  Takahiro Ishinabe ,  Baku Katagiri ,  Yoshihiro Hashimoto ,  Shoichi Ishihara ,  Shuichi Kozaki ,  Yutaka Ishii

IPC: G02F1/1335

CPC classification number: G02B6/0026 ,  G02B6/002 ,  G02B6/0031 ,  G02B6/0078

Abstract: A dichroic filter column (4) is provided on an incident surface (11). At least one of two end parts of a light guide plate (1) in a thickness direction is divided into a plurality of light guide paths (6), in a width direction of the light guide plate (1) by a plurality of cutout grooves (5). Portions of the plurality of light guide paths (6) on an incident surface (11) side are aligned in accordance with positions of a plurality of dichroic filters (31), respectively. The plurality of dichroic filters (31) are elements of the dichroic filter column (4).

Abstract translation: 在入射面（11）上设置二向色过滤柱（4）。 导光板（1）的厚度方向的两端部中的至少一方在导光板（1）的宽度方向上被多个切口槽（6）分割成多个导光路 （5）。 入射面（11）侧的多个导光路径（6）的一部分分别与多个二向色滤光器（31）的位置对准。 多个二向色过滤器（31）是二向色过滤柱（4）的元件。

公开(公告)号：US20110228558A1

公开(公告)日：2011-09-22

申请号：US13130758

申请日：2009-10-13

Applicant: Tatsuo Uchida ,  Yoshito Suzuki ,  Tohru Kawakami ,  Takahiro Ishinabe ,  Baku Katagiri ,  Yoshihiro Hashimoto ,  Shoichi Ishihara ,  Shuichi Kozaki ,  Yutaka Ishii

Inventor： Tatsuo Uchida ,  Yoshito Suzuki ,  Tohru Kawakami ,  Takahiro Ishinabe ,  Baku Katagiri ,  Yoshihiro Hashimoto ,  Shoichi Ishihara ,  Shuichi Kozaki ,  Yutaka Ishii

IPC: F21V7/22

CPC classification number: G02B6/0055 ,  G02B6/0031 ,  G02B6/0046 ,  G02B6/0053

Abstract: Conventional planar light source devices have a problem that increasing a utilization ratio of light results in a very narrow angle distribution of light. A planar light source device of the present invention has a light source (1), a light guide plate (2) for introducing light coming from the light source via a light-incident plane of the light guide plate and emits the light from almost all area of a light emission plane, and a light source side reflector (3) for reflecting the light coming from the light source and light which comes from the light source and is reflected by the light-incident plane of the light guide plate so that the reflected light is emitted to the light-incident plane of the light guide plate. The planar light source device further includes a lower side reflector (5) for introducing light emitted from the lower plane of the light guide plate into the light guide plate again, and an optical member (4) for changing a traveling direction of first light (10) which is introduced via the light-incident plane to pass through the light guide plate and is emitted from an upper plane of the light guide plate to a vertical upper direction. The lower side reflector is inclined by an angle of 5°-60° with respect to the lower plane of the light guide plate, and θ2=90°−θ1±10° is met where θ1 (°) represents a maximum angle between the upper plane and a direction in which the first light is emitted from the upper plane and θ2 (°) represents an apex angle of the optical member.

Abstract translation: 传统的平面光源装置具有提高光的利用率导致光的非常窄的角度分布的问题。 本发明的平面光源装置具有：光源（1），导光板（2），用于经由导光板的入射面导入来自光源的光，并从几乎全部发射光 光源侧反射器（3），用于反射来自光源的光和来自光源的光，并被导光板的光入射面反射，使得 反射光被发射到导光板的光入射面。 平面光源装置还包括用于将从导光板的下平面发射的光再次引入导光板的下侧反射器（5），以及用于改变第一光的行进方向的光学部件（4） 10），其经由光入射面引入以穿过导光板，并且从导光板的上平面发射到垂直上方。 下侧反射器相对于导光板的下平面倾斜5°-60°，和2θ= 90° - 角度; 1±10°，其中＆1;（°） 表示上平面与第一光从上平面发射的方向和角度之间的最大角度; 2（°）表示光学构件的顶角。

公开(公告)号：US07860584B2

公开(公告)日：2010-12-28

申请号：US12214113

申请日：2008-06-17

Applicant: Yoshihiro Hashimoto ,  Yuichiro Sampei ,  Tomoyuki Hiroyasu

Inventor： Yoshihiro Hashimoto ,  Yuichiro Sampei ,  Tomoyuki Hiroyasu

IPC: G05B13/02 ,  G06F11/30 ,  G06C17/00 ,  G06F7/60 ,  G06F17/10

CPC classification number: G06F17/5009 ,  G06F17/5095 ,  G06F2217/08

Abstract: A method, computer, and recording medium storing a program are provided which, based on local optimal solutions, more efficiently calculate an optimal global optimal solution in a global operating area. System calculates the global optimal solution by solving, using a genetic algorithm based on the local optimal solutions and the initial values, an equation, which should be satisfied by the plurality of design variables, by obtaining the plurality of combinations of design variables composing local optimal solutions for each design variable respectively calculated for each of a plurality of combinations of a plurality of operating states, and by obtaining initial values for the plurality of combinations of design variables used for calculating the global optimal solution.

Abstract translation: 提供一种存储程序的方法，计算机和记录介质，其基于局部最优解，更有效地计算全局操作区域中的最佳全局最优解。 系统通过使用基于局部最优解的遗传算法和初始值来求解全局最优解，通过获得构成局部最优的设计变量的多个组合，由多个设计变量满足的方程 分别针对多个操作状态的多个组合中的每一个计算出的每个设计变量的解，以及通过获得用于计算全局最优解的设计变量的多个组合的初始值。

公开(公告)号：US20090121725A1

公开(公告)日：2009-05-14

申请号：US11936799

申请日：2007-11-08

Applicant: YOSHIHIRO HASHIMOTO

Inventor： YOSHIHIRO HASHIMOTO

IPC: G01R31/02

CPC classification number: G01R31/31721

Abstract: There is provided a test apparatus for testing a device under test, which includes a voltage supplying section which supplies a voltage to the device under test through a wire, a first capacitor which is arranged between the wire and a common potential in series, a current detecting section which detects a current flowing through the wire at a location closer to the device under test than the first capacitor is, an integrating section which outputs an integration value obtained by integrating a difference between the current detected by the current detecting section and a predetermined reference current, and a judging section which judges whether the device under test is a pass or a failure based on the integration value.

Abstract translation: 提供了一种用于测试被测器件的测试装置，其包括通过导线向被测器件提供电压的电压提供部分，布置在线和公共电位串联的第一电容器，电流 检测部分，其检测在比所述第一电容器更靠近被测器件的位置处流过所述线的电流;积分部，其输出通过将由所述电流检测部检测到的电流与预定的电流之间的差积分而得到的积分值 参考电流，以及判断部，根据积分值判定被测设备是通过还是故障。

公开(公告)号：US07313292B2

公开(公告)日：2007-12-25

申请号：US10941940

申请日：2004-09-16

Applicant: Yoshihiro Hashimoto ,  Ken Matsuoka ,  Shinichi Takagi ,  Katsunori Suzuki ,  Tetsutsugu Hamano

Inventor： Yoshihiro Hashimoto ,  Ken Matsuoka ,  Shinichi Takagi ,  Katsunori Suzuki ,  Tetsutsugu Hamano

IPC: G02B6/12 ,  G02B6/32 ,  G02B6/02

CPC classification number: G02B7/025 ,  G02B7/008 ,  G02B7/028

Abstract: An optical component comprises an optical transmission element (e.g., an optical lens) whose circumferential wall partially joins a metal holder via a joining material (e.g., a low melting point glass), wherein stress is normally applied to the optical transmission element in a compression direction when joining the metal holder. The optical transmission element is inserted into a through hole of the metal holder, and the joining material is kept in a bank actualized by a tapered portion formed in proximity to one end of the through hole of the metal holder. This prevents tensile stress from being applied to the optical transmission element; thus, it is possible to avoid the occurrence of cracks and separations in the optical transmission element; and it is possible to avoid the occurrence of errors in optical characteristics, regardless of variations of the environmental temperature, so that, the optical component is improved in reliability.

Abstract translation: 光学部件包括光学传输元件（例如，光学透镜），其周壁通过接合材料（例如，低熔点玻璃）部分地连接金属保持器，其中应力通常以压缩方式施加到光传输元件 连接金属支架时的方向。 光传输元件插入到金属保持器的通孔中，并且接合材料保持在由金属保持器的通孔的一端附近形成的锥形部分实现的堤岸中。 这防止了拉伸应力施加到光传输元件上; 因此，可以避免在光传输元件中发生裂纹和分离; 并且不管环境温度的变化如何，可以避免出现光学特性的误差，从而提高了光学部件的可靠性。