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    • 2. 发明授权
    • Charging system for walking robot and charging method therefor
    • 步行机器人充电系统及其充电方法
    • US08098042B2
    • 2012-01-17
    • US12267011
    • 2008-11-07
    • Takashi NakayamaKoji OkazakiMasaaki Muromachi
    • Takashi NakayamaKoji OkazakiMasaaki Muromachi
    • H02J7/00
    • B25J19/005H01R13/6315H01R43/26
    • A charging system for a walking robot which charges a battery mounted on the walking robot by connecting a power supplying connector provided in a charging station to a power receiving connector in the walking robot, wherein the walking robot is capable of moving without significant restrictions during charging. The charging system includes a lock mechanism for locking the power supplying connector to the power receiving connector. A connector holder holds the power supplying connector detachably, an advancing/retracting mechanism advances and retracts the connector holder in the anteroposterior direction, and a lock operation mechanism performs a lock operation and an unlock operation of the lock mechanism via the connector holder. After an advance of the connector holder, the lock mechanism performs the lock operation to lock the power supplying connector to the power receiving connector. Thereafter, the connector holder is retracted out of the power supplying connector.
    • 一种用于步行机器人的充电系统,其通过将设置在充电站中的供电连接器连接到步行机器人中的受电连接器而对安装在步行机器人上的电池进行充电,其中,步行机器人能够在充电期间能够移动而没有显着的限制 。 充电系统包括用于将电力供应连接器锁定到电力接收连接器的锁定机构。 连接器保持器可拆卸地保持供电连接器,前进/后退机构在前后方向前进和后退连接器保持器,并且锁定操作机构经由连接器保持器执行锁定机构的锁定操作和解锁操作。 在连接器保持器的前进之后,锁定机构执行锁定操作以将供电连接器锁定到电力接收连接器。 此后,连接器支架从电源连接器中退出。
    • 5. 发明申请
    • CHARGING SYSTEM FOR WALKING ROBOT AND CHARGING METHOD THEREFOR
    • 用于运动机器人的充电系统及其充电方法
    • US20090121673A1
    • 2009-05-14
    • US12267011
    • 2008-11-07
    • Takashi NakayamaKoji OkazakiMasaaki Muromachi
    • Takashi NakayamaKoji OkazakiMasaaki Muromachi
    • H02J7/00
    • B25J19/005H01R13/6315H01R43/26
    • A charging system for a walking robot which charges a battery mounted on the walking robot by connecting a power supplying connector provided in a charging station to a power receiving connector in the walking robot, wherein the walking robot is capable of moving without significant restrictions during charging. The charging system includes a lock mechanism for locking the power supplying connector to the power receiving connector. A connector holder holds the power supplying connector detachably, an advancing/retracting mechanism advances and retracts the connector holder in the anteroposterior direction, and a lock operation mechanism performs a lock operation and an unlock operation of the lock mechanism via the connector holder. After an advance of the connector holder, the lock mechanism performs the lock operation to lock the power supplying connector to the power receiving connector. Thereafter, the connector holder is retracted out of the power supplying connector.
    • 一种用于步行机器人的充电系统,其通过将设置在充电站中的供电连接器连接到步行机器人中的受电连接器而对安装在步行机器人上的电池进行充电,其中,步行机器人能够在充电期间能够移动而没有显着的限制 。 充电系统包括用于将电力供应连接器锁定到电力接收连接器的锁定机构。 连接器保持器可拆卸地保持供电连接器,前进/后退机构在前后方向前进和后退连接器保持器,并且锁定操作机构经由连接器保持器执行锁定机构的锁定操作和解锁操作。 在连接器保持器的前进之后,锁定机构执行锁定操作以将供电连接器锁定到电力接收连接器。 此后,连接器支架从电源连接器中退出。
    • 6. 发明申请
    • CHARGING APPARATUS
    • 充电器
    • US20080238365A1
    • 2008-10-02
    • US12059237
    • 2008-03-31
    • Satoshi KanekoKoji OkazakiNorio NekiHiroyuki MakinoTakashi NakayamaMasaaki Muromachi
    • Satoshi KanekoKoji OkazakiNorio NekiHiroyuki MakinoTakashi NakayamaMasaaki Muromachi
    • H02J7/00
    • B25J19/005H01M10/44H01M10/46
    • An apparatus capable of charging a battery mounted on a robot while allowing the robot to remain stably still in the state of standing on its legs is provided. Driving a first connector backward while it is connected with a second connector would cause a body of the robot to tilt as if being pulled by the first connector. However, it is possible to prevent the posture of the robot from becoming unstable by utilizing the fact that the connected state of first signal terminals and second signal terminals is maintained in that state. The backward driving of the first connector is restricted when a charge control unit is capable of communicating with a control system via the first signal terminals and the second signal terminals. This prevents the undesirable event that the posture of the robot becomes unstable due to the first connector being driven backward unconditionally.
    • 提供一种能够对安装在机器人上的电池进行充电的装置,同时允许机器人保持稳定地处于其腿部的状态。 在与第二连接器连接的同时向后驱动第一连接器将导致机器人的主体倾斜,如同被第一连接器拉动一样。 然而,通过利用第一信号端子和第二信号端子的连接状态保持在该状态的事实,可以防止机器人的姿势变得不稳定。 当充电控制单元能够经由第一信号端子和第二信号端子与控制系统通信时,第一连接器的反向驱动受到限制。 这防止了由于第一连接器无条件地向后驱动而使机器人的姿势变得不稳定的不期望的事件。
    • 9. 发明授权
    • Charging apparatus
    • 充电设备
    • US07642745B2
    • 2010-01-05
    • US12059237
    • 2008-03-31
    • Satoshi KanekoKoji OkazakiNorio NekiHiroyuki MakinoTakashi NakayamaMasaaki Muromachi
    • Satoshi KanekoKoji OkazakiNorio NekiHiroyuki MakinoTakashi NakayamaMasaaki Muromachi
    • H02J7/00
    • B25J19/005H01M10/44H01M10/46
    • An apparatus capable of charging a battery mounted on a robot while allowing the robot to remain stably still in the state of standing on its legs is provided. Driving a first connector backward while it is connected with a second connector would cause a body of the robot to tilt as if being pulled by the first connector. However, it is possible to prevent the posture of the robot from becoming unstable by utilizing the fact that the connected state of first signal terminals and second signal terminals is maintained in that state. The backward driving of the first connector is restricted when a charge control unit is capable of communicating with a control system via the first signal terminals and the second signal terminals. This prevents the undesirable event that the posture of the robot becomes unstable due to the first connector being driven backward unconditionally.
    • 提供一种能够对安装在机器人上的电池进行充电的装置,同时允许机器人保持稳定地处于其腿部的状态。 在与第二连接器连接的同时向后驱动第一连接器将导致机器人的主体倾斜,好像被第一连接器拉动。 然而,通过利用第一信号端子和第二信号端子的连接状态保持在该状态的事实,可以防止机器人的姿势变得不稳定。 当充电控制单元能够经由第一信号端子和第二信号端子与控制系统通信时,第一连接器的反向驱动受到限制。 这防止了由于第一连接器无条件地向后驱动而使机器人的姿势变得不稳定的不期望的事件。