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    • 1. 发明授权
    • Portable fastener driving device
    • 便携式紧固件驱动装置
    • US07918374B2
    • 2011-04-05
    • US11944607
    • 2007-11-24
    • Michael GardnerGlenn A. BakerMirko ChampaJim BiasJeff Sutherland
    • Michael GardnerGlenn A. BakerMirko ChampaJim BiasJeff Sutherland
    • B25C1/061
    • B25C5/15B25C5/1696F16B15/0015F16B15/0092F16B15/08F16L3/04Y10T29/49947
    • The present invention includes various embodiments directed to apparatus and methods surrounding a fastener device. In particular embodiments, the fastener device is a quick charging and discharging device that includes a solenoid, a fastener striker, a flash capacitor, and a control circuit. Other novel features of the fastener device exist. In particular embodiments, the present invention also includes apparatus and methods related to deforming staples for securing conduit and the like, and staple insulation and insulated staples that may be discharged by the fastener device. The insulation may be provided in an ordinary staple strip for use in the fastener device. Each insulation form may include deformation voids to assist the adaptation of the insulation about a target object that is being secured by the insulated staple.
    • 本发明包括针对围绕紧固件装置的装置和方法的各种实施例。 在具体实施例中,紧固件装置是一种快速充放电装置,其包括螺线管,紧固件撞击器,闪光电容器和控制电路。 存在紧固件装置的其它新颖特征。 在具体实施例中,本发明还包括与用于固定导管等的缝钉变形有关的装置和方法,以及可由紧固件装置排出的钉绝缘和绝缘钉。 绝缘体可以设置在用于紧固件装置的普通的短纤维条中。 每个绝缘形式可以包括变形空隙,以帮助围绕由绝缘缝钉固定的目标物体的绝缘体的适应。
    • 4. 发明授权
    • Inline inspection system and method for calibration of mounted acoustic monitoring system
    • 在线检测系统和安装声学监测系统校准方法
    • US08311759B2
    • 2012-11-13
    • US12648568
    • 2009-12-29
    • Jeff Sutherland
    • Jeff Sutherland
    • G01D18/00G01H17/00G06F19/00G06F17/40
    • F16L55/48G01M3/007G01M3/243G01N29/2481G01N29/34G01N2291/2634
    • An inline inspection system and method for calibrating an acoustic monitoring structure installed along a pipe. The system includes a pipe inspection vehicle; a microprocessor configured to attach a time stamp to a measured distance traveled by the pipe inspection vehicle; an acoustic source attached to the pipe inspection vehicle and configured to generate sound waves inside the pipe, the sound waves having predetermined frequencies and predetermined amplitudes; plural sensors disposed along the pipe and configured to record time of arrivals and intensities of the sound waves generated by the acoustic source; and a processing unit configured to communicate with the plural sensors and receive the time of arrivals, intensities and frequencies of the sound waves from the plural sensors. The processing unit calibrates the acoustic monitoring structure by calculating a distance between the acoustic source and a first sensor of the plural sensors.
    • 用于校准沿管道安装的声学监测结构的在线检查系统和方法。 该系统包括一个管道检查车辆; 微处理器,被配置为将时间戳附加到由所述管道检查车辆行进的测量距离; 附接到所述管道检查车辆并被配置为在所述管道内产生声波的声源,所述声波具有预定的频率和预定的幅度; 沿着管道设置的多个传感器,其被配置为记录由声源产生的声波的到达时间和强度; 以及处理单元,被配置为与多个传感器通信并且接收来自多个传感器的声波的到达时间,强度和频率。 处理单元通过计算声源和多个传感器的第一传感器之间的距离来校准声学监测结构。
    • 5. 发明申请
    • Inline Inspection System and Method for Calibration of Mounted Acoustic Monitoring System
    • 在线检测系统和安装声学监测系统校准方法
    • US20110161037A1
    • 2011-06-30
    • US12648568
    • 2009-12-29
    • Jeff Sutherland
    • Jeff Sutherland
    • G01N29/04G01C22/00
    • F16L55/48G01M3/007G01M3/243G01N29/2481G01N29/34G01N2291/2634
    • An inline inspection system and method for calibrating an acoustic monitoring structure installed along a pipe. The system includes a pipe inspection vehicle; a microprocessor configured to attach a time stamp to a measured distance traveled by the pipe inspection vehicle; an acoustic source attached to the pipe inspection vehicle and configured to generate sound waves inside the pipe, the sound waves having predetermined frequencies and predetermined amplitudes; plural sensors disposed along the pipe and configured to record time of arrivals and intensities of the sound waves generated by the acoustic source; and a processing unit configured to communicate with the plural sensors and receive the time of arrivals, intensities and frequencies of the sound waves from the plural sensors. The processing unit calibrates the acoustic monitoring structure by calculating a distance between the acoustic source and a first sensor of the plural sensors.
    • 用于校准沿管道安装的声学监测结构的在线检查系统和方法。 该系统包括一个管道检查车辆; 微处理器,被配置为将时间戳附加到由所述管道检查车辆行进的测量距离; 附接到所述管道检查车辆并被配置为在所述管道内产生声波的声源,所述声波具有预定的频率和预定的幅度; 沿着管道设置的多个传感器,其被配置为记录由声源产生的声波的到达时间和强度; 以及处理单元,被配置为与多个传感器通信并且接收来自多个传感器的声波的到达时间,强度和频率。 处理单元通过计算声源和多个传感器的第一传感器之间的距离来校准声学监测结构。
    • 7. 发明申请
    • SMART TRANSPARENCY FOR HOLOGRAPHIC OBJECTS
    • 用于全息图的智能透明度
    • US20160025982A1
    • 2016-01-28
    • US14722942
    • 2015-05-27
    • Jeff SutherlandBen SugdenTom Salter
    • Jeff SutherlandBen SugdenTom Salter
    • G02B27/01
    • G02B27/0172G02B27/0093G02B27/017G02B2027/0141G02B2027/0174G02B2027/0178G06F3/011G06F3/04815
    • A head mounted display (HMD) device is configured with a sensor package that enables head tracking to determine the device user's proximity to holographic objects in mixed reality or virtual reality environments. A fade volume including concentrically-arranged volumetric shells is placed around the user including a near shell that is closest to the user, and a far shell that is farthest from the user. When a holographic object is beyond the far shell, the HMD device renders the object with full opacity (i.e., with no transparency). As the user moves towards a holographic object and it intersects the far shell, its opacity begins to fade out with increasing transparency to reveal the background behind it. The transparency of the holographic object increases as the object gets closer to the near shell and the object becomes fully transparent when the near shell reaches it so that the background becomes fully visible.
    • 头戴式显示器(HMD)装置配置有传感器包,其使头部跟踪能够确定设备用户在混合现实或虚拟现实环境中与全息物体的接近度。 围绕使用者放置包括同心排列的容积壳的淡入淡出量,包括最靠近使用者的近壳和距离用户最远的远壳。 当全息物体超出远壳时,HMD装置使物体具有完全不透明度(即,没有透明度)。 当用户朝向全息物体移动并且其与远壳相交时,其不透明度随着透明度的增加而开始淡出,以揭示背景背景。 全息物体的透明度随着物体越来越接近壳体而增加,当近壳体到达时,物体变得完全透明,使得背景完全可见。
    • 9. 发明申请
    • System and Method for Calibration of Mounted Acoustic Monitoring System with Mapping Unit
    • 用映射单元校准安装声学监测系统的系统和方法
    • US20110161038A1
    • 2011-06-30
    • US12648612
    • 2009-12-29
    • Jeff Sutherland
    • Jeff Sutherland
    • G01N29/04
    • G01N29/34F16L55/48G01M3/007G01M3/24G01N29/2481G01N2291/2634
    • An inline inspection system and method for calibrating an acoustic monitoring structure installed along a pipe. The system includes a pipe inspection vehicle, an acoustic source configured to generate sound waves inside the pipe, a mapping unit configured to record three dimensional motion data associated with the mapping unit, a microprocessor configured to attach time stamps to the three dimensional motion data; plural sensors disposed along the pipe and configured to record time of arrivals, intensities and frequencies of the sound waves generated by the acoustic source, and a processing unit configured to calibrate the acoustic monitoring structure based on the received time of arrivals, amplitudes and frequencies of the sound waves from the plural sensors, and calculated three dimensional spatial positions of the vehicle and associated time stamps.
    • 用于校准沿管道安装的声学监测结构的在线检查系统和方法。 该系统包括管道检查车辆,被配置为在管道内产生声波的声源,被配置为记录与映射单元相关联的三维运动数据的映射单元,配置成将时间戳附加到三维运动数据的微处理器; 沿着管道设置的多个传感器,其被配置为记录由声源产生的声波的到达时间,强度和频率;以及处理单元,其被配置为基于接收的到达时间,幅度和频率来校准声学监测结构 来自多个传感器的声波,以及车辆的计算的三维空间位置和相关联的时间戳。