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
    • 4. 发明授权
    • Interchangeable accessories for a remote controlled inspection vehicle
    • 用于远程控制检查车辆的可互换配件
    • US06814169B2
    • 2004-11-09
    • US10456039
    • 2003-06-06
    • Michael C. MooreCharles C. MooreMark W. FischerJames A. Bauer
    • Michael C. MooreCharles C. MooreMark W. FischerJames A. Bauer
    • B62D55065
    • B62D57/024
    • A remote-controlled vehicle and method for performing a plurality of tasks in a location generally inaccessible to humans are provided. The vehicle may include a propulsion frame, and a platform attached to the frame or integral therewith for supporting an interchangeable accessory selected from a set of distinct interchangeable accessories. Each distinct interchangeable accessory may be configured to perform a distinct operational task. The platform includes at least one mechanical power takeoff, and each accessory includes at least one mechanical power receptor configured to interface with the mechanical power takeoff for coupling mechanical energy to the accessory. The platform constitutes a universal platform for the set of distinct interchangeable accessories.
    • 提供了一种用于在通常不能被人接近的位置执行多个任务的遥控车辆和方法。 车辆可以包括推进框架和附接到框架或与其一体的平台,用于支撑从一组不同的可互换附件中选择的可互换配件。 每个不同的可互换配件可以被配置为执行不同的操作任务。 该平台包括至少一个机械动力输出,并且每个附件包括至少一个机械功率接收器,该机械功率接收器被配置为与机械动力输出接口以将机械能耦合到附件。 该平台构成了一套独特的可互换配件的通用平台。
    • 6. 发明授权
    • Steam turbine inlet sleeve inspection apparatus and method
    • 蒸汽轮机进口套筒检查装置及方法
    • US06487922B1
    • 2002-12-03
    • US09669783
    • 2000-09-25
    • James A. BauerMichael J. MetalaCharles C. MooreGeorge F. Dailey
    • James A. BauerMichael J. MetalaCharles C. MooreGeorge F. Dailey
    • G01N2910
    • G01N29/225G01N29/265G01N29/28G01N2291/044G01N2291/2636Y10T74/19674Y10T74/19949Y10T74/19953Y10T74/19958Y10T74/19963
    • An inspection apparatus (40) for remote inspection of the trepan radius area (34) of the inlet sleeve (24) of a steam turbine (10). The apparatus (40) provides a sealed volume (50) between a pair of inflatable bladders (46,48) for the introduction of a liquid couplant for the immersion of ultrasonic transducers (42,44). A laser line generator (62) generates a beam of light visible through camera (60) which impinges upon the inlet bell seal (30) when the apparatus (40) is in a proper inspection position within the inlet sleeve (24). Guide vanes (56) provide centering and generate an insertion force during air assisted insertion of apparatus (40). Transducers (42,44) are indexed axially and circumfretially by the independent rotation of axial drive gear (72) and longitudinal drive gear (70) engaged with a pattern of gear teeth (69) formed as a combination of circumferential spur gear teeth and axial rack gear teeth cut into a single surface of a spline shaft (68).
    • 一种用于远程检查蒸汽涡轮机(10)的入口套管(24)的平板半径区域(34)的检查装置(40)。 装置(40)在一对可充气气囊(46,48)之间提供密封的体积(50),用于引入用于浸没超声换能器(42,44)的液体耦合剂。 当设备(40)处于入口套筒(24)内的适当检查位置时,激光线发生器(62)产生通过照相机(60)可见的光束,该光束撞击入口钟形密封件(30)。 导向叶片(56)在空气辅助插入装置(40)期间提供定心并产生插入力。 传感器(42,44)通过轴向驱动齿轮(72)和纵向驱动齿轮(70)的独立旋转轴向和圆周地转位,该纵向驱动齿轮(70)与形成为圆周正齿轮齿的组合的齿轮齿(69)和轴向驱动齿轮 齿条齿切割成花键轴(68)的单个表面。
    • 8. 发明授权
    • Self-aligning turbine disc inspection apparatus
    • 自调心涡轮盘检测仪
    • US06792809B1
    • 2004-09-21
    • US10428694
    • 2003-05-02
    • Charles C. Moore
    • Charles C. Moore
    • G01N2904
    • F01D25/285G01N29/225G01N29/265G01N2291/044G01N2291/2638G01N2291/2693
    • A self-aligning turbine disc inspection apparatus (30) for positioning a non-destructive examination sensor (38) proximate the disc web surface (20) of a turbine rotor assembly (10). The apparatus supports the sensor at a proper height above a support surface (34) while simultaneously providing passive freedom of movement in X, Y and theta directions so that the sensor is free to follow the slight movements of the web surface as the rotor assembly is rotated on a test stand. The freedoms of movement are provided by a first sled (52) rolling on a base (42), by a theta alignment assembly (62) rotating on the first sled, and a second sled (54) sliding on the theta alignment assembly. A vertical drive assembly (48) attached to the second sled provides a selectable height. The sensor may be moved across the disc web surface by a motorized slide (82) attached to a head assembly (46) attached to the vertical drive assembly. A radial centering assembly (70) makes contact with the rotor assembly at two spaced-apart points to ensure that the inspection apparatus is positioned at a bottom-dead-center location.
    • 一种用于定位靠近涡轮转子组件(10)的盘片表面(20)的非破坏性检查传感器(38)的自对准涡轮盘检查装置(30)。 该设备将传感器支撑在支撑表面(34)上方的适当高度处,同时在X,Y和θ方向上提供被动的移动自由度,使得传感器随着转子组件的位置自由地跟随腹板表面的微小移动 在测试台上旋转。 运动自由由在基座(42)上滚动的第一滑板(52),在第一滑板上旋转的θ对准组件(62)和在θ对准组件上滑动的第二滑板(54)提供。 附接到第二滑架的垂直驱动组件(48)提供可选择的高度。 传感器可以通过附接到附接到垂直驱动组件的头部组件(46)的电动滑动件(82)而在盘片表面上移动。 径向对中组件(70)在两个间隔开的位置与转子组件接触,以确保检查装置位于下死点位置。
    • 9. 发明授权
    • Nondestructive inspection device and method for monitoring defects
inside a turbine engine
    • 用于监测涡轮发动机内的缺陷的非破坏性检查装置和方法
    • US5670879A
    • 1997-09-23
    • US165289
    • 1993-12-13
    • Paul J. ZomboPaul GuentherCharles C. MooreMichael J. Metala
    • Paul J. ZomboPaul GuentherCharles C. MooreMichael J. Metala
    • G01N27/90G01N29/06G01N29/22G01M1/22G01N27/82
    • G01N29/223G01N27/9013G01N29/0618G01N29/0645G01N2291/2693
    • A nondestructive inspection device and a method of monitoring a defective condition in a rotating member of a combustion turbine engine using a nondestructive inspection device is presented. The nondestructive inspection device includes a sensor for monitoring the rotating member and a holder assembly for positioning the sensor near the rotating member without disassembling the combustion turbine engine. The holder assembly is capable of interchangeably positioning either an ultrasound transducer or an eddy current sensor. Signals indicative of the monitored condition are recorded and compared to a signal representation generated from a reference standard having a known defect so that a defective condition can be ascertained. The location of a defective condition is ascertained by using a magnetic belt having a plurality of magnets wrapped around the rotating member and an additional sensor to detect the magnets as they rotate. A signal indicative of the detected magnets is recorded along with the signal indicative of the monitored condition so that the angular position of the rotating member can be correlated with a detected defect.
    • 提出了一种非破坏性检查装置和使用非破坏性检查装置监测燃气涡轮发动机的旋转构件的缺陷状况的方法。 非破坏性检查装置包括用于监测旋转构件的传感器和用于将传感器定位在旋转构件附近而不拆卸燃气涡轮发动机的保持器组件。 保持器组件能够互换地定位超声换能器或涡流传感器。 记录指示监视条件的信号,并将其与从具有已知缺陷的参考标准产生的信号表示进行比较,从而可以确定缺陷状况。 通过使用具有缠绕在旋转构件上的多个磁体的磁带和附加的传感器来确定有缺陷状况的位置,以便在旋转时检测磁体。 指示检测到的磁体的信号与指示监视条件的信号一起被记录,使得旋转部件的角位置可以与检测到的缺陷相关联。