会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明授权
    • Supplementary support structure for robot
    • 机器人补充支撑结构
    • US07896112B2
    • 2011-03-01
    • US10513827
    • 2003-05-07
    • Takakatsu IsozumiMasakazu IshizakiTadaaki OsawaKazuhiko AkachiKenji KanekoFumio KanehiroKiyoshi Fujiwara
    • Takakatsu IsozumiMasakazu IshizakiTadaaki OsawaKazuhiko AkachiKenji KanekoFumio KanehiroKiyoshi Fujiwara
    • B62D51/06
    • B62D57/032B25J19/0091
    • A supplementary support structure, which supports the body of a robot (1), comprises a contact component (7) which is disposed in a part near a joint (2c) on the distal end, having a hand (3) disposed thereon, of an arm (2) of the robot (1) so as to come into contact with a surface on which the robot (1) is supported, such as a floor surface, and a member which lies between the part having the contact component (7) disposed therein and the proximal end of the arm (2). Thus, the supplementary support structure can avoid an increase in the weight of the hand resulting from the support structure, thus eliminate an extra load on a driving system for the hand or the arm, and thus achieve the simplification and size reduction of the driving system. Moreover, the support structure can increase the degree of freedom of the shape or functional design of the hand and thus improve the functioning of the robot.
    • 一种辅助支撑结构,其支撑机器人(1)的主体,包括接触部件(7),该接触部件设置在远端上的接头(2c)附近,具有设置在其上的手(3) 所述机器人(1)的臂(2)与所述机器人(1)所支撑的表面(例如地板表面)接触,并且所述部件位于具有所述接触部件(7) )和臂(2)的近端。 因此,辅助支撑结构可以避免由支撑结构产生的手的重量的增加,从而消除用于手或臂的驱动系统的额外的负载,并且因此实现驱动系统的简化和减小尺寸 。 此外,支撑结构可以增加手的形状或功能设计的自由度,从而改善机器人的功能。
    • 6. 发明申请
    • Method and device for controlling walking of legged robot
    • 用于控制腿式机器人走路的方法和装置
    • US20050240308A1
    • 2005-10-27
    • US10511608
    • 2003-05-07
    • Kenji KanekoKazuhiko YokoiFumio KanehiroShuuji KajitaKiyoshi FujiwaraHirohisa Hirukawa
    • Kenji KanekoKazuhiko YokoiFumio KanehiroShuuji KajitaKiyoshi FujiwaraHirohisa Hirukawa
    • B25J13/00B25J5/00B62D57/032G06F19/00
    • B62D57/032
    • The present invention provides a walking control method and a walking control apparatus for achieving stable attitude control of a legged robot. In the walking control of the legged robot, basically, a foot-sole coordinate system based on sole positions and having at least a first coordinate axis in a direction connecting soles of both legs and a second coordinate axis perpendicular to the first coordinate axis in a horizontal plane is used as a control coordinate system, and attitude control is performed with different control characteristics for the first and second coordinate axes. Accordingly, the legged robot includes sole position sensors for detecting the sole positions of ground-contacting legs, ground contact sensors for detecting the state of the ground-contacting legs or a motion controller for generating the state of the ground-contacting legs, a control device which performs the walking control using a coordinate system based on the direction connecting the soles of the legs as a control coordinate system in accordance with the detected sole positions and the state of the ground-contacting legs, and leg actuators controlled by the control device.
    • 本发明提供了一种用于实现腿式机器人的稳定姿态控制的步行控制方法和步行控制装置。 在腿式机器人的步行控制中,基本上是基于鞋底位置的脚底坐标系,并且在与第一坐标轴垂直的方向上具有至少第一坐标轴和第二坐标轴的坐标轴 水平面用作控制坐标系,并且对于第一和第二坐标轴执行具有不同控制特性的姿态控制。 因此,腿式机器人包括用于检测地面接触腿的唯一位置的底部位置传感器,用于检测地面接触腿的状态的接地接触传感器或用于产生接地腿的状态的运动控制器, 装置,其使用基于根据检测到的底部位置和接地腿的状态的腿的腿部的方向作为控制坐标系的坐标系执行步行控制,以及由控制装置控制的腿致动器 。
    • 7. 发明申请
    • PRESSURE-SENSITIVE ADHESIVE DOUBLE-COATED SHEET
    • 压敏胶粘双面涂层
    • US20090165920A1
    • 2009-07-02
    • US12403460
    • 2009-03-13
    • Tomoo YamaguchiMasayuki IshikawaKenji KanekoKazumasa AsanoYasunobu Ina
    • Tomoo YamaguchiMasayuki IshikawaKenji KanekoKazumasa AsanoYasunobu Ina
    • B32B37/00
    • C09J7/22C09J7/38C09J7/383C09J2201/128C09J2421/00Y10T428/2848Y10T428/2857
    • A pressure-sensitive adhesive double-coated sheet comprising a substrate, a pressure-sensitive adhesive layer (A) formed on one side of the substrate and a pressure-sensitive adhesive layer (B) formed on the other side of the substrate, wherein at least the pressure-sensitive adhesive layer (A) is formed with a pressure-sensitive adhesive comprising a butyl rubber as base material, and after the pressure-sensitive adhesive double-coated sheet is allowed to stand at 60° C. for five days while being placed between a moisture vapor-permeable waterproof sheet attached to the adhesive layer (A) and an aluminum plate attached to the adhesive layer (B), an expansion coefficient of the moisture vapor-permeable waterproof sheet is 0.5% or less. The pressure-sensitive adhesive double-coated sheet can allow the moisture vapor-permeable waterproof sheet to less expand over time when attached between the moisture vapor-permeable waterproof sheet and the adherend in a waterproof airtight structure of a construction.
    • 一种压敏粘合剂双面涂布片,其包含基材,形成在所述基材一侧上的粘合剂层(A)和形成在所述基材的另一侧上的压敏粘合剂层(B),其中在 至少压敏粘合剂层(A)由包含丁基橡胶作为基材的压敏粘合剂形成,并且将压敏粘合剂双面涂布片在60℃下放置5天, 放置在附着在粘合剂层(A)的透湿性防水薄片和附着在粘合剂层(B)上的铝板之间,透湿防水薄膜的膨胀系数为0.5%以下。 粘合剂双面涂布片可以在构造的防水密封结构中,在透湿水性防水片和被粘物之间附着时,能够使透湿性防水薄片随时间扩张。
    • 9. 发明申请
    • Method of working metal, metal body obtained by the method and metal-containting ceramic body obtained by the method
    • 通过该方法获得的金属加工金属体和通过该方法获得的含金属陶瓷体的方法
    • US20080110227A1
    • 2008-05-15
    • US12002967
    • 2007-12-19
    • Zenji HoritaKatsuaki NakamuraKoji NeishiMichihiko NakagakiKenji Kaneko
    • Zenji HoritaKatsuaki NakamuraKoji NeishiMichihiko NakagakiKenji Kaneko
    • B21D31/00
    • C21D7/02B21C23/001B21J1/025B62D27/023C21D7/00C21D7/13C21D9/0075C21D9/08C21D9/28C21D9/60C21D10/00C21D2201/03C21D2221/00C21D2251/00C21D2281/00C22F1/00Y02P10/253Y10S72/71Y10T428/12
    • A method of working metal in which the microstructure of metal body is rendered fine to thereby enhance the strength, ductility or homogeneity thereof; a metal body obtained by the metal working method; and a metal-containing ceramic body obtained by the metal working method. In this metal working method, the deformation resistance of metal body or metal-containing ceramic body (hereinafter referred to simply as “metal body”) is lowered locally to thereby form low deformation resistance regions in the metal body, and shear deformation of the low deformation resistance regions is effected so as to fine the microstructure of metal body. In particular, the metal body is formed in unidirectionally drawn configuration so as to produce low deformation resistance regions crossing the metal body. Further, with respect to two non-low deformation resistance regions arranged to sandwich low deformation resistance region crossing the metal body, one non-low deformation resistance region is caused to have a relative position change to the other non-low deformation resistance region so as to effect shear deformation of the low deformation resistance region. The low deformation resistance regions can be moved along the direction of drawing of the metal body.
    • 一种金属加工方法,其中金属体的微细结构细化,从而提高其强度,延展性或均匀性; 通过金属加工方法获得的金属体; 和通过金属加工方法得到的含金属陶瓷体。 在这种金属加工方法中,金属体或含金属陶瓷体(以下简称为“金属体”)的变形阻力局部地降低,从而在金属体中形成低变形阻力区域,并且低的剪切变形 实现变形阻力区域,以使金属体的微观结构细化。 特别地,金属体形成为单向拉伸构造,以便产生与金属体交叉的低变形阻力区域。 此外,对于与夹着与金属体交叉的低变形阻力区域配置的两个非低变形阻力区域,使一个非低变形阻力区域相对于另一非低变形阻力区域发生相对位置变化, 以实现低变形阻力区域的剪切变形。 低变形阻力区域可以沿着金属体的拉伸方向移动。