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1. 发明授权

US07228923B2 Device for absorbing floor-landing shock for legged mobile robot 失效
标题翻译：用于吸收腿式移动机器人地板撞击的装置
公开(公告)号：US07228923B2
公开(公告)日：2007-06-12
申请号：US10499056
申请日：2002-12-11
申请人： Toru Takenaka , Hiroshi Gomi , Kazushi Hamaya , Yoshinari Takemura , Takashi Matsumoto , Takahide Yoshiike , Yoichi Nishimura , Kazushi Akimoto , Taro Yokoyama
发明人： Toru Takenaka , Hiroshi Gomi , Kazushi Hamaya , Yoshinari Takemura , Takashi Matsumoto , Takahide Yoshiike , Yoichi Nishimura , Kazushi Akimoto , Taro Yokoyama
IPC分类号： B62D57/032
CPC分类号： B62D57/032 , B25J19/0091 , F16F9/0481
摘要： A landing shock absorbing device 18 disposed in a foot mechanism 6 of a leg of a robot, wherein an inflatable bag-like member 19 (a variable capacity element) is provided at a ground-contacting face side of the foot mechanism 6. The bag-like member 19 is constructed of an elastic material such as rubber and has a restoring force. An interior portion of the bag-like member 19 is communicated with the atmosphere side through a flow passage 20. During a landing motion of the leg, the bag-like member 19 makes contact with the ground to be compressed, and the air in the interior portion thereof flows out into the atmosphere through the flow passage 20, so that its outflow resistance is generated. Accordingly, a landing shock is reduced. In a lifting state of the leg, the restoring force of the bag-like member 19 allows the bag-like member 19 to be inflated while the air flows into the interior portion thereof. An impact load during the landing of the leg of the legged mobile robot may smoothly be reduced in a light-weight configuration.
摘要翻译：设置在机器人腿部的脚部机构6中的着陆减震装置18，其中在脚部机构6的接地面侧设置有可膨胀的袋状构件19（可变容量元件）。袋类构件19由橡胶等弹性材料构成，具有回复力。袋状构件19的内部通过流路20与大气侧连通。在腿的着陆运动期间，袋状构件19与地面接触以被压缩，并且空气在其内部部分通过流路20流入大气，从而产生其流出阻力。因此，降低着陆冲击。在腿的提升状态下，袋状构件19的恢复力允许袋状构件19在空气流入其内部部分时膨胀。腿型移动式机器人腿部着陆时的冲击载荷可以在轻型构型中平滑地减少。

2. 发明授权

US06967456B2 Device for absorbing floor-landing shock for legged mobile robot 失效
标题翻译：用于吸收腿式移动机器人地板撞击的装置
公开(公告)号：US06967456B2
公开(公告)日：2005-11-22
申请号：US10499117
申请日：2002-12-11
申请人： Toru Takenaka , Hiroshi Gomi , Kazushi Hamaya , Yoshinari Takemura , Takashi Matsumoto , Takahide Yoshiike , Yoichi Nishimura , Kazushi Akimoto , Taro Yokoyama
发明人： Toru Takenaka , Hiroshi Gomi , Kazushi Hamaya , Yoshinari Takemura , Takashi Matsumoto , Takahide Yoshiike , Yoichi Nishimura , Kazushi Akimoto , Taro Yokoyama
IPC分类号： B25J5/00 , B25J19/00 , B62D57/032 , F16F9/04
CPC分类号： F16F9/0481 , B25J19/0091 , B62D57/032
摘要： 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.
摘要翻译：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。

3. 发明授权

US06962220B2 Leg joint assist device for leg type movable robot 有权
标题翻译：腿式可动机器人腿部关节辅助装置
公开(公告)号：US06962220B2
公开(公告)日：2005-11-08
申请号：US10490802
申请日：2002-09-24
申请人： Toru Takenaka , Hiroshi Gomi , Kazushi Hamaya , Yoshinari Takemura , Takashi Matsumoto , Takahide Yoshiike , Yoichi Nishimura , Kazushi Akimoto
发明人： Toru Takenaka , Hiroshi Gomi , Kazushi Hamaya , Yoshinari Takemura , Takashi Matsumoto , Takahide Yoshiike , Yoichi Nishimura , Kazushi Akimoto
IPC分类号： A63H11/18 , B25J5/00 , B25J19/00 , F16F9/06 , G06F19/00
CPC分类号： F16F9/06 , B25J19/0008 , B25J19/0091 , Y10T74/20305
摘要： An assist device that applies an auxiliary driving force to a joint in parallel with a driving force of a joint actuator between a thigh portion and a crus portion, which are a pair of link members of a leg. The assist device generates the auxiliary driving force by use of spring device, such as a solid spring or an air spring. A member supporting a rod member connected to the spring device is provided with a device for transmitting a bending and stretching motion of the leg at the joint (a relative displacement motion between the thigh portion and the crus portion) to the spring device to generate an elastic force of the spring device, and for discontinuing the transmission of the bending and stretching motion to the spring device. This transmitting device is controlled in accordance with a gait of a robot. Thus, a burden on the joint actuator is reduced where necessary and favorable utilization efficiency of energy can be stably ensured.
摘要翻译：一种辅助装置，其将辅助驱动力与作为腿部的一对连杆构件的腿部和腿部之间的关节致动器的驱动力平行的接头施加。辅助装置通过使用诸如固体弹簧或空气弹簧的弹簧装置产生辅助驱动力。支撑连接到弹簧装置的杆构件的构件设置有用于将腿部在关节处的弯曲和拉伸运动（大腿部分和小腿部分之间的相对位移运动）传递到弹簧装置的装置，以产生弹簧装置的弹性力，以及用于中止弯曲和拉伸运动到弹簧装置的传递。该发送装置根据机器人的步态进行控制。因此，必要时能够减轻关节致动器的负担，能够稳定地确保能量利用效率。

4. 发明申请

US20050077856A1 Device for absorbing floor-landing shock for legged mobile robot 失效
标题翻译：用于吸收腿式移动机器人地板撞击的装置
公开(公告)号：US20050077856A1
公开(公告)日：2005-04-14
申请号：US10499117
申请日：2002-12-11
申请人： Toru Takenaka , Hiroshi Gomi , Kazushi Hamaya , Yoshinari Takemura , Takashi Matsumoto , Takahide Yoshiike , Yoichi Nishimura , Kazushi Akimoto , Taro Yokoyama
发明人： Toru Takenaka , Hiroshi Gomi , Kazushi Hamaya , Yoshinari Takemura , Takashi Matsumoto , Takahide Yoshiike , Yoichi Nishimura , Kazushi Akimoto , Taro Yokoyama
IPC分类号： B25J5/00 , B25J19/00 , B62D57/032 , F16F9/04
CPC分类号： F16F9/0481 , B25J19/0091 , B62D57/032
摘要： 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.
摘要翻译：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。

5. 发明授权

US07378811B2 Device for absorbing floor-landing shock for legged mobile robot 失效
标题翻译：用于吸收腿式移动机器人地板撞击的装置
公开(公告)号：US07378811B2
公开(公告)日：2008-05-27
申请号：US10499116
申请日：2002-12-11
申请人： Toru Takenaka , Hiroshi Gomi , Kazushi Hamaya , Yoshinari Takemura , Takashi Matsumoto , Takahide Yoshiike , Yoichi Nishimura , Kazushi Akimoto , Taro Yokoyama
发明人： Toru Takenaka , Hiroshi Gomi , Kazushi Hamaya , Yoshinari Takemura , Takashi Matsumoto , Takahide Yoshiike , Yoichi Nishimura , Kazushi Akimoto , Taro Yokoyama
IPC分类号： B25J9/08
CPC分类号： B62D57/032 , B25J19/0091 , B62D57/02 , F16F9/0481 , F16F15/023 , Y10T74/20299
摘要： A landing shock absorbing device 18 disposed in a foot mechanism 6 of a leg of a robot, wherein an inflatable bag-like member 19 (variable capacity element) is provided at a bottom face side of the foot mechanism 6. The bag-like member 19 is constructed of an elastic material such as rubber. The air in atmosphere may flow into and out of the bag-like member 19 by inflow/outflow means 20 equipped with a solenoid valve 27, and the like. In a lifting state of the foot mechanism 6, inflow of the air into the bag-like member 19 is controlled, thereby controlling the final height of the bag-like member 19 in an inflated state to the height in response to a gait type of the robot. While properly reducing an impact load during a landing motion of the leg of a legged mobile robot depending on the gait type of the robot, stability of a posture of the robot may easily be secured, resulting in allowing a configuration to be lighter in weight.
摘要翻译：一种设置在机器人腿部的脚部机构6中的着陆减震装置18，其中在脚部机构6的底面侧设置有可膨胀的袋状构件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装有电磁阀27的流入/流出装置20流入和流出袋状构件19。在脚部机构6的提升状态下，空气进入袋状部件19的流入被控制，从而根据步态类型控制囊状部件19处于膨胀状态的最终高度至高度机器人。根据机器人的步态类型，在腿式移动机器人的脚的着陆运动期间恰当地减小冲击负荷的同时，可以容易地确保机器人姿势的稳定性，从而允许配置更轻。

6. 发明申请

US20050120820A1 Device for absorbing floor-landing shock for legged mobile robot 失效
标题翻译：用于吸收腿式移动机器人地板撞击的装置
公开(公告)号：US20050120820A1
公开(公告)日：2005-06-09
申请号：US10499116
申请日：2002-12-11
申请人： Toru Takenaka , Hiroshi Gomi , Kazushi Hamaya , Yoshinari Takemura , Takashi Matsumoto , Takahide Yoshiike , Yoichi Nishimura , Kazushi Akimoto , Taro Yokoyama
发明人： Toru Takenaka , Hiroshi Gomi , Kazushi Hamaya , Yoshinari Takemura , Takashi Matsumoto , Takahide Yoshiike , Yoichi Nishimura , Kazushi Akimoto , Taro Yokoyama
IPC分类号： A63H11/18 , B25J5/00 , B25J19/00 , B62D57/02 , B62D57/032 , F16F9/04 , F16F15/023 , G05G11/00 , G05G13/00
CPC分类号： B62D57/032 , B25J19/0091 , B62D57/02 , F16F9/0481 , F16F15/023 , Y10T74/20299
摘要： A landing shock absorbing device 18 disposed in a foot mechanism 6 of a leg of a robot, wherein an inflatable bag-like member 19 (variable capacity element) is provided at a bottom face side of the foot mechanism 6. The bag-like member 19 is constructed of an elastic material such as rubber. The air in atmosphere may flow into and out of the bag-like member 19 by inflow/outflow means 20 equipped with a solenoid valve 27, and the like. In a lifting state of the foot mechanism 6, inflow of the air into the bag-like member 19 is controlled, thereby controlling the final height of the bag-like member 19 in an inflated state to the height in response to a gait type of the robot. While properly reducing an impact load during a landing motion of the leg of a legged mobile robot depending on the gait type of the robot, stability of a posture of the robot may easily be secured, resulting in allowing a configuration to be lighter in weight.
摘要翻译：一种设置在机器人腿部的脚部机构6中的着陆减震装置18，其中在脚部机构6的底面侧设置有可膨胀的袋状构件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装有电磁阀27的流入/流出装置20流入和流出袋状构件19。在脚部机构6的提升状态下，空气进入袋状部件19的流入被控制，从而根据步态类型控制囊状部件19处于膨胀状态的最终高度至高度机器人。根据机器人的步态类型，在腿式移动机器人的脚的着陆运动期间恰当地减小冲击负荷的同时，可以容易地确保机器人的姿势的稳定性，从而允许配置更轻。

7. 发明申请

US20050011685A1 Device for absorbing floor-landing shock for legged mobile robot 失效
标题翻译：用于吸收腿式移动机器人地板撞击的装置
公开(公告)号：US20050011685A1
公开(公告)日：2005-01-20
申请号：US10499056
申请日：2002-12-11
申请人： Toru Takenaka , Hiroshi Gomi , Kazushi Hamaya , Yoshinari Takemura , Takashi Matsumoto , Takahide Yoshiike , Yoichi Nishimura , Kazushi Akimoto , Taro Yokoyama
发明人： Toru Takenaka , Hiroshi Gomi , Kazushi Hamaya , Yoshinari Takemura , Takashi Matsumoto , Takahide Yoshiike , Yoichi Nishimura , Kazushi Akimoto , Taro Yokoyama
IPC分类号： A63H11/18 , B25J5/00 , B25J19/00 , B62D57/032 , F16F9/04 , B62D51/06
CPC分类号： B62D57/032 , B25J19/0091 , F16F9/0481
摘要： A landing shock absorbing device 18 disposed in a foot mechanism 6 of a leg of a robot, wherein an inflatable bag-like member 19 (a variable capacity element) is provided at a ground-contacting face side of the foot mechanism 6. The bag-like member 19 is constructed of an elastic material such as rubber and has a restoring force. An interior portion of the bag-like member 19 is communicated with the atmosphere side through a flow passage 20. During a landing motion of the leg, the bag-like member 19 makes contact with the ground to be compressed, and the air in the interior portion thereof flows out into the atmosphere through the flow passage 20, so that its outflow resistance is generated. Accordingly, a landing shock is reduced. In a lifting state of the leg, the restoring force of the bag-like member 19 allows the bag-like member 19 to be inflated while the air flows into the interior portion thereof. An impact load during the landing of the leg of the legged mobile robot may smoothly be reduced in a light-weight configuration.
摘要翻译：设置在机器人腿部的脚部机构6中的着陆减震装置18，其中在脚部机构6的接地面侧设置有可膨胀的袋状构件19（可变容量元件）。袋类构件19由橡胶等弹性材料构成，具有回复力。袋状构件19的内部通过流路20与大气侧连通。在腿部的着陆运动期间，袋状构件19与地面接触以被压缩，并且空气在其内部部分通过流路20流入大气，从而产生其流出阻力。因此，降低着陆冲击。在腿的提升状态下，袋状构件19的恢复力允许袋状构件19在空气流入其内部部分时膨胀。腿型移动式机器人腿部着陆时的冲击载荷可以在轻型构型中平滑地减少。

8. 发明授权

US06564888B1 Biped mobile robot 失效
标题翻译： Biped移动机器人
公开(公告)号：US06564888B1
公开(公告)日：2003-05-20
申请号：US09630742
申请日：2000-08-02
申请人： Hiroshi Gomi , Kazushi Hamaya , Takashi Matsumoto
发明人： Hiroshi Gomi , Kazushi Hamaya , Takashi Matsumoto
IPC分类号： B62D5702
CPC分类号： B62D57/032
摘要： In a biped mobile robot having at least a body and two leg links connected to the body, a parallel linkage is provided between the body and the two leg links such that each of the two leg links are movable relative to the body in a direction of the gravity axis. More specifically, the parallel linkage is composed of upper and lower links and right and left links each connected to the upper and lower links, and the body is connected to the upper and lower links through first and second fulcrums, while the two leg links are each connected to the right and left links. An actuator is provided at the second fulcrum to move the two leg links relative to the body in the gravity axis. Moreover, the body is connected to the parallel linkage through a joint such that the body is movable relative to the two leg links around the gravity axis. With this, the robot can effectively absorb and mitigate footfall impact, offer a high degree of freedom in gait design, thereby enabling rapid, energy-efficient locomotion in a stable attitude, and permit free body movement.
摘要翻译：在具有连接到身体的至少一个主体和两个腿部连杆的两足动物机器人中，在主体和两个腿部连杆之间设置有平行的连杆，使得两个腿部连杆中的每一个可相对于主体沿着重力轴。更具体地说，平行连杆由上，下连杆和左右连杆组成，每个连杆分别连接到上连杆和下连杆，主体通过第一和第二支点连接到上连杆和下连杆，而两个连杆是每个连接到右侧和左侧的链接。致动器设置在第二支点处，以在重力轴线上相对于主体移动两条腿连杆。此外，主体通过接头连接到平行连杆，使得主体相对于围绕重力轴线的两个腿部连杆是可移动的。这样，机器人可以有效吸收和减轻脚步冲击，提供步态设计的高度自由度，从而以稳定的态度实现快速，节能的运动，并允许自由的身体运动。

9. 发明授权

US06332372B1 Arm structure for man type working robots 有权
标题翻译：人型工作机器人臂结构
公开(公告)号：US06332372B1
公开(公告)日：2001-12-25
申请号：US09581220
申请日：2000-06-22
申请人： Toru Takenaka , Takayuki Kawai , Tadaaki Hasegawa , Takashi Matsumoto , Hiroshi Gomi , Hideaki Takahashi
发明人： Toru Takenaka , Takayuki Kawai , Tadaaki Hasegawa , Takashi Matsumoto , Hiroshi Gomi , Hideaki Takahashi
IPC分类号： B25J906
CPC分类号： B25J9/06 , B25J17/025 , Y10T74/20329
摘要： An arm structure for anthropomorphic robots minimizes the occurrence of a singularity state of a shoulder joint assembly while the arm of the anthropomorphic robot is normally working, for thereby allowing the arm to operate smoothly. The position and posture of first through third joints (11), (13), (15) of a shoulder joint assembly (5) and the position of an elbow joint assembly (6) with respect to the third joint (15) are established such that the elbow joint assembly (6) is located above a horizontal plane lying through the point of intersection of the axes (10), (12), (14) of the first through third joints (11), (13), (15), while the shoulder joint assembly (5) is operated into a singularity state wherein the first axis (10) of the first joint (11) and the third axis (14) of the third joint (15) are aligned with each other and the elbow joint assembly (6) is positioned laterally of a torso (1).
摘要翻译：用于拟人机器人的臂结构使人形机器人的臂正常工作时，使肩关节组件的奇点状态的发生最小化，从而允许手臂平稳地操作。建立肩关节组件（5）的第一至第三关节（11），（13），（15）和肘关节组件（6）相对于第三关节（15）的位置和姿势使得肘关节组件（6）位于通过第一至第三关节（11），（13），（13），（13）的轴线（10），（12），（14） 15），而肩关节组件（5）被操作成其中第一关节（11）的第一轴线（10）和第三关节（15）的第三轴线（14）彼此对准的奇点状态并且肘关节组件（6）位于躯干（1）的侧面。

10. 发明授权

US06401846B1 Knee pad for a legged walking robot 有权
标题翻译：用于腿式步行机器人的膝垫
公开(公告)号：US06401846B1
公开(公告)日：2002-06-11
申请号：US09630743
申请日：2000-08-02
申请人： Toru Takenaka , Takayuki Kawai , Hiroshi Gomi , Tadaaki Hasegawa , Takashi Matsumoto
发明人： Toru Takenaka , Takayuki Kawai , Hiroshi Gomi , Tadaaki Hasegawa , Takashi Matsumoto
IPC分类号： B62D5702
CPC分类号： B62D57/032 , B25J19/0091
摘要： In a biped walking robot having a body and two articulated legs each connected to the body through a hip joint and having a knee joint and an ankle joint, connected by a shank link, a knee pad is mounted on the shank link as a landing/shock absorbing means at a position adjacent to the knee joint which is brought into contact with the floor when coming into knee-first contact with the floor such that the knee joint is to be positioned at a location forward of the center of gravity of the robot in a direction of robot advance, while absorbing impact occurring from the contact with the floor. With this, the robot can be easily stood up from an attitude with its knee joint regions in contact with the floor. Moreover, when coming into knee-first contact with the floor, it can absorb the impact of the contact to protect the knee joint regions and the floor from damage.
摘要翻译：在具有主体和两个铰接腿的双足步行机器人中，每个腿部通过髋关节连接到身体，并且具有通过柄连杆连接的膝关节和踝关节，膝关节垫作为着陆/ 冲击吸收装置位于与膝关节相邻的位置处，当与地板进行膝盖 - 第一次接触时，其与地板接触，使得膝关节位于机器人重心的前方位置在机器人前进的方向上，同时吸收与地板接触发生的冲击。这样，机器人可以容易地从与膝盖接合区域与地板接触的姿态站起来。此外，当与地板进行膝盖首次接触时，它可以吸收接触的冲击，以保护膝关节区域和地板免受损坏。

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