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    • 1. 发明申请
    • Device for absorbing floor-landing shock for legged mobile robot
    • 用于吸收腿式移动机器人地板撞击的装置
    • US20050077856A1
    • 2005-04-14
    • US10499117
    • 2002-12-11
    • Toru TakenakaHiroshi GomiKazushi HamayaYoshinari TakemuraTakashi MatsumotoTakahide YoshiikeYoichi NishimuraKazushi AkimotoTaro Yokoyama
    • Toru TakenakaHiroshi GomiKazushi HamayaYoshinari TakemuraTakashi MatsumotoTakahide YoshiikeYoichi NishimuraKazushi AkimotoTaro Yokoyama
    • B25J5/00B25J19/00B62D57/032F16F9/04
    • F16F9/0481B25J19/0091B62D57/032
    • A landing shock absorbing device 18 provided in a foot mechanism 6 of a leg of a robot comprises an inflatable and compressible bag-like member 19 (a variable capacity element) on a bottom face side of the foot mechanism 6. The bag-like member 19 is constructed of an elastic material such as rubber. Air in the atmosphere can flow into and out of the bag-like member 19 by inflow/outflow means 20 provided with a solenoid valve 27 and the like. In a landing state of the foot mechanism 6 and in a state immediately after the foot mechanism shifts from the landing state to a lifting state, the solenoid valve 27 is closed to maintain the bag-like member 19 in a compressed state. Furthermore, during the bag-like member 19 in the inflating state during the lifting state of the foot mechanism 6, by controlling timing when the solenoid valve 27 is switched from a valve opening state to a valve closing state, a height of the bag-like member 19 in a compression direction is controlled to be a height suitable for a gait type of the robot. Thereby, posture stability of the robot can be secured easily while reducing a impact load in the landing motion of the leg of the legged mobile robot, and further, a lightweight configuration can be achieved.
    • 设置在机器人腿部的脚部机构6中的着陆减震装置18包括在脚部机构6的底面侧上的可膨胀且可压缩的袋状构件19(可变容量元件)。袋状构件 19由橡胶等弹性材料构成。 大气中的空气可以通过设置有电磁阀27等的流入/流出装置20流入和流出袋状构件19。 在脚部机构6的着陆状态下,并且在脚部机构从着陆状态转移到提升状态之后的状态下,电磁阀27关闭,以将袋状部件19维持在压缩状态。 此外,在脚部机构6的提升状态期间处于充气状态的袋状部件19中,通过控制电磁阀27从开阀状态切换到关闭状态的定时, 压缩方向的板状构件19被控制为适合于步态机器人的高度。 因此,能够容易地确保机器人的姿势稳定性,同时减少有腿可动机器人的腿部的着陆运动中的冲击负荷,并且还可以实现轻量化的构造。
    • 3. 发明授权
    • Device for absorbing floor-landing shock for legged mobile robot
    • 用于吸收腿式移动机器人地板撞击的装置
    • US06967456B2
    • 2005-11-22
    • US10499117
    • 2002-12-11
    • Toru TakenakaHiroshi GomiKazushi HamayaYoshinari TakemuraTakashi MatsumotoTakahide YoshiikeYoichi NishimuraKazushi AkimotoTaro Yokoyama
    • Toru TakenakaHiroshi GomiKazushi HamayaYoshinari TakemuraTakashi MatsumotoTakahide YoshiikeYoichi NishimuraKazushi AkimotoTaro Yokoyama
    • B25J5/00B25J19/00B62D57/032F16F9/04
    • F16F9/0481B25J19/0091B62D57/032
    • A landing shock absorbing device 18 provided in a foot mechanism 6 of a leg of a robot comprises an inflatable and compressible bag-like member 19 (a variable capacity element) on a bottom face side of the foot mechanism 6. The bag-like member 19 is constructed of an elastic material such as rubber. Air in the atmosphere can flow into and out of the bag-like member 19 by inflow/outflow means 20 provided with a solenoid valve 27 and the like. In a landing state of the foot mechanism 6 and in a state immediately after the foot mechanism shifts from the landing state to a lifting state, the solenoid valve 27 is closed to maintain the bag-like member 19 in a compressed state. Furthermore, during the bag-like member 19 in the inflating state during the lifting state of the foot mechanism 6, by controlling timing when the solenoid valve 27 is switched from a valve opening state to a valve closing state, a height of the bag-like member 19 in a compression direction is controlled to be a height suitable for a gait type of the robot. Thereby, posture stability of the robot can be secured easily while reducing a impact load in the landing motion of the leg of the legged mobile robot, and further, a lightweight configuration can be achieved.
    • 设置在机器人腿部的脚部机构6中的着陆减震装置18包括在脚部机构6的底面侧的可膨胀且可压缩的袋状构件19(可变容量元件)。 袋状构件19由橡胶等弹性材料构成。 大气中的空气可以通过设置有电磁阀27等的流入/流出装置20流入和流出袋状构件19。 在脚部机构6的着陆状态下,并且在脚部机构从着陆状态转移到提升状态之后的状态下,电磁阀27关闭,以将袋状部件19维持在压缩状态。 此外,在脚部机构6的提升状态期间处于充气状态的袋状部件19中,通过控制电磁阀27从开阀状态切换到关闭状态的定时, 压缩方向的板状构件19被控制为适合于步态机器人的高度。 因此,能够容易地确保机器人的姿势稳定性,同时减少有腿可动机器人的腿部的着陆运动中的冲击负荷,并且还可以实现轻量化的构造。
    • 6. 发明授权
    • Leg joint assist device for legged movable robot
    • 用于腿式可移动机器人的腿关节辅助装置
    • US07143850B2
    • 2006-12-05
    • US10494846
    • 2002-10-07
    • Toru TakenakaHiroshi GomiKazushi HamayaYoshinari Takemura
    • Toru TakenakaHiroshi GomiKazushi HamayaYoshinari Takemura
    • B62D51/06
    • B62D57/032B25J19/0012Y10T74/20305
    • An assist device is provided with a spring device that generates an auxiliary driving force, by an elastic energy, acting on a joint of a leg. The spring device includes a gas spring having a cylinder and a piston. Bending/stretching motion between link members and at the joint is transmitted to the spring device through a motion transmission device that includes a link arm. The spring device is provided so that the auxiliary driving force increases as a knee bending angle θ increases until the knee bending angle θ reaches a predetermined angle, and so that, once the knee bending angle θ exceeds the predetermined angle, the auxiliary driving force becomes smaller than or equal to the driving force obtaining at the predetermined angle, effectively reducing a burden on an actuator of the legged mobile robot joint.
    • 辅助装置设置有弹簧装置,其通过作用在腿的关节上的弹性能产生辅助驱动力。 弹簧装置包括具有气缸和活塞的气弹簧。 连杆构件和接头之间的弯曲/拉伸运动通过包括连杆臂的运动传递装置传递到弹簧装置。 提供弹簧装置,使得辅助驱动力随着膝部弯曲角度θ增加直到膝部弯曲角度θ达到预定角度而增加,并且使得一旦膝部弯曲角度θ超过预定角度,则辅助驱动力变为 小于或等于以预定角度获得的驱动力,有效地减轻了腿式可移动机器人接头的致动器的负担。