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    • 22. 发明申请
    • AIR SEPARATOR FOR OPHTHALMIC SURGICAL SYSTEM
    • 用于眼科手术系统的空气分离器
    • US20090157018A1
    • 2009-06-18
    • US11955638
    • 2007-12-13
    • Ross Peter JonesMark Ian Lutwyche
    • Ross Peter JonesMark Ian Lutwyche
    • A61M1/00
    • A61M1/0023A61M1/0029A61M2205/12A61M2205/3317A61M2205/3379
    • An air bubble separator is provided for ophthalmic surgical systems, which includes a housing 102 having a diagonally-oriented flow channel 110 and a vertically-oriented flow channel 130 adjoining the diagonally oriented channel. The diagonally-oriented flow channel 110 has a downstream portion 112 disposed downstream of the vertically-oriented flow channel 130, and an upstream portion 118 disposed upstream of the vertically-oriented flow channel 130. The downstream portion 112 of the diagonally-oriented flow channel 110 has a cross-sectional area 114 that is greater than that of the upstream portion 118. The downstream portion's cross-sectional area 114 is greater than the upstream portion's cross-sectional area 124 by an amount or percentage that is sufficient to slow fluid flow through the diagonally-oriented flow channel 110, so as to cause air within the fluid to rise and flow into the vertically-oriented flow channel 130.
    • 为眼科手术系统提供气泡分离器,其包括具有对角线定向的流动通道110和与对角线定向的通道邻接的垂直定向的流动通道130的壳体102。 对角定向的流动通道110具有设置在垂直定向的流动通道130的下游的下游部分112和设置在垂直定向的流动通道130的上游的上游部分118.对角线定向的流动通道 110具有大于上游部分118的横截面面积114.下游部分的横截面面积114大于上游部分的横截面面积124,其量或百分比足以减缓流体流动 通过对角线定向的流动通道110,以使流体内的空气升高并流入垂直取向的流动通道130。
    • 24. 发明授权
    • Sensing apparatus and method
    • 检测装置及方法
    • US07319319B2
    • 2008-01-15
    • US11677803
    • 2007-02-22
    • Ross Peter JonesRichard Allen DoyleMark Anthony HowardDavid Alun JamesDarran KreitColin Stuart Sills
    • Ross Peter JonesRichard Allen DoyleMark Anthony HowardDavid Alun JamesDarran KreitColin Stuart Sills
    • G01B7/14G01R33/12
    • G01D5/2073D06F39/003D06F39/087
    • There is described a sensor comprising an excitation winding, a signal generator operable to generate an excitation signal and arranged to apply the generated excitation signal to the excitation winding, a sensor winding electromagnetically coupled to the excitation winding and a signal processor operable to process a periodic electric signal generated in the sensor winding when the excitation signal is applied to the excitation winding by the signal generator to determine a value of a sensed parameter. The excitation signal comprises a periodic carrier signal having a first frequency modulated by a periodic modulation signal having a second frequency, the first frequency being greater than the second frequency. In this way, the sensor is well suited to using digital processing techniques both to generate the excitation signal and to process the signal induced in the sensor windings. In an embodiment, the sensor is used to detect the relative position of two members. In other embodiments, the sensor is used to detect environmental factors such as temperature and humidity.
    • 描述了一种传感器,其包括激励绕组,信号发生器,其可操作以产生激励信号并被布置成将产生的激励信号施加到激励绕组,电磁耦合到激励绕组的传感器绕组和可操作以处理周期性的信号处理器 当激励信号由信号发生器施加到激励绕组以确定感测参数的值时,在传感器绕组中产生的电信号。 激励信号包括具有由具有第二频率的周期性调制信号调制的第一频率的周期性载波信号,第一频率大于第二频率。 以这种方式,传感器非常适合于使用数字处理技术来产生激励信号并处理在传感器绕组中感应的信号。 在一个实施例中,传感器用于检测两个构件的相对位置。 在其他实施例中,传感器用于检测诸如温度和湿度的环境因素。
    • 27. 发明申请
    • Sensor Cart Positioning System and Method
    • 传感器推车定位系统及方法
    • US20120200445A1
    • 2012-08-09
    • US13342330
    • 2012-01-03
    • Ross Peter JonesPeter John Kelly
    • Ross Peter JonesPeter John Kelly
    • G01S13/00
    • G01S13/885G01C15/00G01S13/86G01V1/001
    • A movable platform has a front end, a back end, a longitudinal axis, and at least one axle oriented generally transverse to the longitudinal axis and located between the front and back ends for supporting wheels of the platform. A position sensor is affixed on the platform at a location other than at a location defined by a plane passing through the axle and normal to the longitudinal axis. The position sensor provides position data as the platform traverses a path. A sensor arrangement is supported by the platform and configured to provide subsurface sensor data as the platform traverses the path. A processor is configured to associate the position data with the sensor data relative to a reference frame and in a manner that accounts for dynamic motion of the platform.
    • 可移动平台具有前端,后端,纵向轴线以及至少一个轴,其大致横向于纵向轴线定位,并且位于前端和后端之间,用于支撑平台的车轮。 位置传感器固定在平台上的除了通过轴并平行于纵向轴线的平面限定的位置之外的位置。 当平台穿过路径时,位置传感器提供位置数据。 传感器布置由平台支​​撑并且被配置为当平台穿过路径时提供地下传感器数据。 处理器被配置为将位置数据与传感器数据相对于参考帧相关联,并且以考虑到平台的动态运动的方式相关联。
    • 29. 发明申请
    • Sensor cart positioning system and method
    • 传感器车定位系统及方法
    • US20100259438A1
    • 2010-10-14
    • US11804217
    • 2007-05-16
    • Ross Peter JonesPeter John Kelly
    • Ross Peter JonesPeter John Kelly
    • G01S13/00G01C3/08G01S19/42
    • G01S13/885G01C15/00G01S13/86G01V1/001
    • A movable platform has a front end, a back end, a longitudinal axis, and at least one axle oriented generally transverse to the longitudinal axis and located between the front and back ends for supporting wheels of the platform. A position sensor is affixed on the platform at a location other than at a location defined by a plane passing through the axle and normal to the longitudinal axis. The position sensor provides position data as the platform traverses a path. A sensor arrangement is supported by the platform and configured to provide subsurface sensor data as the platform traverses the path. A processor is configured to associate the position data with the sensor data relative to a reference frame and in a manner that accounts for dynamic motion of the platform.
    • 可移动平台具有前端,后端,纵向轴线以及至少一个轴,其大致横向于纵向轴线定位,并且位于前端和后端之间,用于支撑平台的车轮。 位置传感器固定在平台上的除了通过轴并平行于纵向轴线的平面限定的位置之外的位置。 当平台穿过路径时,位置传感器提供位置数据。 传感器布置由平台支​​撑并且被配置为当平台穿过路径时提供地下传感器数据。 处理器被配置为将位置数据与传感器数据相对于参考帧相关联,并且以考虑到平台的动态运动的方式相关联。
    • 30. 发明申请
    • Recessed Electrodes for Sensing Flow in Ophthalmic Surgical System
    • 隐藏在眼科手术系统中感应流动的电极
    • US20090157001A1
    • 2009-06-18
    • US11957841
    • 2007-12-17
    • Ross Peter JonesMark Ian LutwycheDavid Martin Pooley
    • Ross Peter JonesMark Ian LutwycheDavid Martin Pooley
    • A61M1/00G01F1/58
    • G01F1/584A61M1/0023A61M1/0029A61M2205/12G01F1/58
    • A flow measurement device 100 is provided that includes an electrode terminal chamber 102 with an inlet 104 in communication with a flow channel 108 for receiving fluid and viscoelastic material aspirated from a surgical site, and an outlet 106 that tapers into a flow channel 108. The outlet 108 has a taper angle that is sufficient to smooth flow and cause viscoelastic material entering the electrode terminal chamber 102 to flow substantially within a center portion of the chamber and through the outlet 106. The electrode terminal chamber 102 further includes first and second electrode terminals 130 and 140 disposed on generally opposite sides of the electrode terminal chamber 102 in a spaced-apart manner. The first and second electrode terminals 130 and 140 are positioned a distance from the center of the chamber 102 that is sufficient to substantially avoid contact between the terminals and viscoelastic materials flowing through the chamber 102.
    • 提供了流量测量装置100,其包括电极端子室102,电极端子室102具有与用于接收流体的流动通道108连通的入口104和用于从外科手术部位抽吸的粘弹性材料,以及逐渐变细成流动通道108的出口106。 出口108具有足以平滑流动并使粘弹性材料进入电极端子室102的锥角大致在室的中心部分内流过出口106.电极端子室102还包括第一和第二电极端子 130和140以间隔开的方式设置在电极端子室102的大体相对的两侧。 第一和第二电极端子130和140被定位成距腔室102的中心一定距离,其足以基本上避免端子与流过腔室102的粘弹性材料之间的接触。