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    • 52. 发明申请
    • POWER STEERING APPARATUS FOR SMALL VESSEL
    • 小型船用动力转向装置
    • US20120137947A1
    • 2012-06-07
    • US13390168
    • 2010-08-25
    • Yoshihiro HaradaKoichi OkaMasanobu MiyazakiShinsuke SekikawaYoshimitsu Komuro
    • Yoshihiro HaradaKoichi OkaMasanobu MiyazakiShinsuke SekikawaYoshimitsu Komuro
    • B63H20/12
    • B63H20/12B63H21/265B63H25/02B63H2025/022
    • In a power steering apparatus for a small vessel, an electrically driven assist device (26) and a helm pump (27) formed of a swash plate type axial piston pump are arranged in parallel on a common base (28). The electrically driven assist device (26) and the helm pump 27 are connected through a transmission system (34) under the common base 28 and integrated into a steering oil pressure generating unit (6) functioning as the power steering apparatus. The electrically driven assist device (26) is carried on an instrument panel (3). The parallel arrangement of the electrically driven assist device (26) and the helm pump (27) allows the steering oil pressure generating device (6) to be reduced in vertical length, so that it is possible to shorten the distance between the instrument panel (3) and a bottom (2) of the vessel and to lower positions of a handle and an operator's seat, thereby realizing the low center of gravity.
    • 在用于小容器的动力转向装置中,电动辅助装置(26)和由斜盘式轴向柱塞泵形成的舵泵(27)平行布置在公共基座(28)上。 电动辅助装置(26)和舵泵27通过公共基座28下方的传动系统(34)连接,并且与作为动力转向装置起作用的转向油压力发生单元(6)结合。 电驱动辅助装置(26)被携带在仪表板(3)上。 电动辅助装置(26)和舵泵(27)的平行布置允许转向油压产生装置(6)的垂直长度减小,从而可以缩短仪表板( 3)和底部(2),并且能够降低手柄和操作者座椅的位置,从而实现低重心。
    • 53. 发明授权
    • Data processing apparatus and method
    • 数据处理装置及方法
    • US08095338B2
    • 2012-01-10
    • US12320995
    • 2009-02-10
    • Yoshihiro HaradaShinji TakaoKiyoshi KitamuraIsao Takata
    • Yoshihiro HaradaShinji TakaoKiyoshi KitamuraIsao Takata
    • G05B13/00G06F19/00G06F17/40
    • G01R31/31721G01R21/01
    • A data processing apparatus includes a storing unit that stores, for each device, pieces of configuration data defining respective logic circuits that demonstrate different processing performance; a logic circuit configuration unit that configures a combination of the logic circuits onto the devices by reading a piece of the configuration data for each device, from among the pieces of the configuration data stored, and inputting the read pieces of the configuration data to the devices, respectively; a measuring unit that measures total power consumption required at execution of the data processing by the devices; and a logic circuit determining unit that determines, from among combinations of the logic circuits configured, a combination in which an actually measured value of total power consumption falls within a predetermined target value and which demonstrates optimum processing performance as the logic circuits to be configured onto the devices at actual execution of the data processing.
    • 一种数据处理装置,包括存储单元,用于为每个设备存储定义显示不同处理性能的相应逻辑电路的配置数据; 逻辑电路配置单元,通过从存储的所述配置数据中读取每个设备的配置数据,并将所述配置数据的读取部分输入到所述设备中,将所述逻辑电路的组合配置到所述设备上 , 分别; 一个测量单元,用于测量由设备执行数据处理所需的总功耗; 以及逻辑电路确定单元,其从配置的逻辑电路的组合中确定总功耗的实际测量值落在预定目标值内并且证明作为要配置到的逻辑电路的最佳处理性能的组合 该设备在实际执行数据处理。
    • 57. 发明授权
    • Dynamoelectric stator core and method for manufacture thereof
    • 发电定子铁心及其制造方法
    • US07705509B2
    • 2010-04-27
    • US11486178
    • 2006-07-14
    • Yoshihiro HaradaToshiaki Kashihara
    • Yoshihiro HaradaToshiaki Kashihara
    • H02K1/00
    • H02K1/16H02K15/02Y10T29/49009
    • A core assembly is manufactured by punching core segments at a predetermined pitch in a short-side direction thereof with long sides aligned in a width direction of a rolled steel plate, the long sides of the core segments having lengths that are half a length of a long side of the core assembly; preparing four (two first and two second) laminated core sections by aligning punching directions of the core segments and laminating the core segments to a thickness that is half a laminated thickness of the core assembly; preparing two core subassemblies by inverting the second laminated core sections and laminating them onto the first laminated core sections such that the punching directions of the core segments are in opposite directions; and preparing the core assembly by arranging the two core subassemblies in a longitudinal direction and integrating them by joining.
    • 芯组件通过在短边方向以预定间距以轧制钢板的宽度方向排列的长边冲压芯部段而制造,芯部段的长边长度为 核心组件的长边; 通过对准芯部段的冲压方向并将芯部段层合到芯组件的层压厚度的一半的厚度,制备四个(两个第一和两个第二)层压芯部分; 通过反转第二层叠铁芯部分并将它们层压到第一层压芯部上使得芯部分的冲压方向处于相反方向来制备两个芯子组件; 并通过在纵向方向上布置两个芯子组件并通过接合来集成它们来准备芯组件。