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    • 4. 发明授权
    • Robot hand and method for handling planar article
    • 机器人手和处理平面物品的方法
    • US08287017B2
    • 2012-10-16
    • US12737769
    • 2008-09-10
    • Junji KoyamaSyunichi TezukaKazuhiro KosugeYasuhisa HirataJunya Ichinose
    • Junji KoyamaSyunichi TezukaKazuhiro KosugeYasuhisa HirataJunya Ichinose
    • B66C1/42
    • B25J15/0009B25J15/08
    • When dishes are held by means of a robot hand (10), its fixed side engaging plate (13) and movable side engaging finger (14) are moved under horizontal state toward a dish (20) to be handled, and the outer circumferential edge side portion of the dish (20) is inserted between them. The distal end portion (14b) of the movable side engaging finger (14) is then bent by a predetermined amount to the side of the dish (20) and the robot hand (10) is raised. Consequently, the dish (20) is brought into a state where it is held by its own weight between the fixed side engaging plate (13) and the movable side engaging finger (14). Thereafter, the right and left first finger units (15, 16) are bent to the side of the dish (20) and the dish (20) is pushed by their dish pushing faces (15g, 16g), thus bringing about such a state as the dish (20) is held surely between the fixed side engaging plate (13) and the movable side engaging finger (14).
    • 当通过机器人手(10)保持盘时,其固定侧接合板(13)和可动侧接合指状物(14)在水平状态下朝向待操作的盘(20)移动,并且外周边缘 盘(20)的侧部插入它们之间。 然后,可动侧接合爪(14)的前端部(14b)向盘(20)的侧面弯曲规定量,使机械手(10)上升。 因此,盘(20)进入固定侧卡合板(13)与可动侧卡合爪(14)之间的自重保持状态。 此后,左右第一指状单元(15,16)向盘(20)侧弯曲,并通过其盘推动面(15g,16g)推动盘20,从而形成这样的状态 因为盘(20)可靠地固定在固定侧接合板(13)和可动侧接合指状物(14)之间。
    • 5. 发明申请
    • ROBOT HAND AND METHOD FOR HANDLING PLANAR ARTICLE
    • 机器人手柄和方法处理平面文章
    • US20110133502A1
    • 2011-06-09
    • US12737769
    • 2008-09-10
    • Junji KoyamaSyunichi TezukaKazuhiro KosugeYasuhisa HirataJunya Ichinose
    • Junji KoyamaSyunichi TezukaKazuhiro KosugeYasuhisa HirataJunya Ichinose
    • B25J15/08
    • B25J15/0009B25J15/08
    • When dishes are held by means of a robot hand (10), its fixed side engaging plate (13) and movable side engaging finger (14) are moved under horizontal state toward a dish (20) to be handled, and the outer circumferential edge side portion of the dish (20) is inserted between them. The distal end portion (14b) of the movable side engaging finger (14) is then bent by a predetermined amount to the side of the dish (20) and the robot hand (10) is raised. Consequently, the dish (20) is brought into a state where it is held by its own weight between the fixed side engaging plate (13) and the movable side engaging finger (14). Thereafter, the right and left first finger units (15, 16) are bent to the side of the dish (20) and the dish (20) is pushed by their dish pushing faces (15g, 16g), thus bringing about such a state as the dish (20) is held surely between the fixed side engaging plate (13) and the movable side engaging finger (14).
    • 当通过机器人手(10)保持盘时,其固定侧接合板(13)和可动侧接合指状物(14)在水平状态下朝向待操作的盘(20)移动,并且外周边缘 盘(20)的侧部插入它们之间。 然后,可动侧接合爪(14)的前端部(14b)向盘(20)的侧面弯曲规定量,使机械手(10)上升。 因此,盘(20)进入固定侧卡合板(13)与可动侧卡合爪(14)之间的自重保持状态。 此后,左右第一指状单元(15,16)向盘(20)侧弯曲,并通过其盘推动面(15g,16g)推动盘20,从而形成这样的状态 因为盘(20)可靠地固定在固定侧接合板(13)和可动侧接合指状物(14)之间。
    • 8. 发明授权
    • Robot and robot hand
    • 机器人和机器人手
    • US08622452B2
    • 2014-01-07
    • US13331041
    • 2011-12-20
    • Yukihiro YamaguchiKazuhiro KosugeYasuhisa HirataKengo YamaguchiAya Kaisumi
    • Yukihiro YamaguchiKazuhiro KosugeYasuhisa HirataKengo YamaguchiAya Kaisumi
    • B25J15/08
    • B25J15/0028
    • A recess has a proximal-end-side surface and a distal-end-side surface. When an intersection between a straight line included in the proximal-end-side surface and a straight line included in the distal-end-side surface is a base point, a line passing through the base point is a base line, a line between two claw portions, passing through an end point of the recess and orthogonal to the base line is an orthogonal line, the angle α made between the base line, and the straight line included in the distal-end-side surface is greater than 0 degrees and less than 90 degrees, the angle β made between the orthogonal line, and the straight line included in the proximal-end-side surface is greater than 0 degrees and less than 90 degrees, and the length d from the base point to the orthogonal line is greater than 0.
    • 凹部具有近端侧表面和远端侧表面。 当基端侧表面所包括的直线和包含在前端侧表面中的直线之间的交点为基点时,通过基点的线为基线,两条线 穿过凹部的终点并与基线正交的爪部是正交线,在基线与包括在前端侧表面中的直线之间形成的角α大于0度, 在正交线和近端侧表面所包含的直线之间形成的角度β大于0度且小于90度,从基点到正交线的长度d小于90度 大于0。
    • 9. 发明授权
    • Robot hand and robot apparatus
    • 机器人手和机器人装置
    • US08585111B2
    • 2013-11-19
    • US13371771
    • 2012-02-13
    • Takashi NammotoKazuhiro KosugeHaruaki Chiba
    • Takashi NammotoKazuhiro KosugeHaruaki Chiba
    • B66C1/00B66C1/42
    • B25J15/10
    • A robot hand includes a first finger unit and a second finger unit, a driving unit that causes the finger units to perform an opening and closing action, and a finger-unit moving mechanism that changes a direction in which the opening and closing action of the first finger unit and the second finger unit is performed. The finger-unit moving mechanism includes a worm wheel, a motor, and a worm. A first gear that rotates in a direction different from the rotating direction of the worm in association with the rotation of the worm is provided in the first finger unit. A second gear that rotates in a direction opposite to the rotating direction of the first gear in association with the rotation of the worm is provided in the second finger unit.
    • 机器人手包括第一手指单元和第二手指单元,使得手指单元执行打开和关闭动作的驱动单元,以及手指单元移动机构,其改变开启和关闭动作的方向 执行第一手指单元和第二手指单元。 手指单元移动机构包括蜗轮,马达和蜗杆。 在第一手指单元中设置有与蜗杆的旋转相关联的沿着与蜗杆的旋转方向不同的方向旋转的第一齿轮。 在第二手指单元中设置有与蜗杆的旋转相关联地沿与第一齿轮的旋转方向相反的方向旋转的第二齿轮。
    • 10. 发明授权
    • Object moving apparatus
    • 物体移动装置
    • US08272828B2
    • 2012-09-25
    • US12740305
    • 2008-10-28
    • Kazuhiro KosugeYasuhisa HirataMitsuru EndoKoki SuzukiTakashi KanbayashiMitsukazu OhmotoKei AkuneHiroyuki AraiHiroyuki Shinozuka
    • Kazuhiro KosugeYasuhisa HirataMitsuru EndoKoki SuzukiTakashi KanbayashiMitsukazu OhmotoKei AkuneHiroyuki AraiHiroyuki Shinozuka
    • E04H6/24
    • E04H6/245
    • An object moving apparatus is provided which is different from coordinated conveyance through real-time information exchange between carriages only by wireless communication and which can move an object reliably and in a more stable manner by coordinated control of carriages without the object falling off. Arranged is a leader carriage A with a carriage body 2 travelable in all directions by travel drivers 1 and a lifter 5 attached to the carriage body via a link mechanism 3 for lifting up a vehicle 4 as object. The leader carriage is movable along a given target track. Further arranged is a follower carriage B with a carriage body 2 travelable in all directions and a lifter 5 attached to the carriage body via a link mechanism 3 for lifting up the vehicle 4. The follower carriage estimates and follows movement of the leader carriage so as to move the vehicle 4 in coordination with the leader carriage.
    • 提供了一种不同于通过无线通信的车厢之间的实时信息交换的协调传送的物体移动装置,并且可以通过对托架的协调控制而可靠地以更稳定的方式移动物体,而不会使物体脱落。 安排是带有行进车厢2的行驶车厢A,行驶车辆2可以通过行驶驾驶员1和通过用于提升作为物体的车辆4的连杆机构3而附接到车厢本体的升降器5在各个方向上行驶。 领导者可以沿给定的目标轨道移动。 进一步布置有随动托架B,其具有可在所有方向上移动的托架主体2和通过用于提升车辆4的连杆机构3附接到托架主体的升降器5.随动托架估计并跟随引导托架的运动,以便 与前导支架协调移动车辆4。