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    • 1. 发明申请
    • COMPOUND MACHINING METHOD AND APPARATUS
    • 化合物加工方法和装置
    • US20120096999A1
    • 2012-04-26
    • US13290901
    • 2011-11-07
    • Gregory A. HyattNitin Chaphalkar
    • Gregory A. HyattNitin Chaphalkar
    • B23B1/00G05B19/18
    • G05B19/40938B23B3/22B23C2220/48B23Q27/00G05B2219/49092G05B2219/49361Y02P90/265Y10T29/5109Y10T82/10Y10T82/16131Y10T409/303808Y10T409/305656
    • A method of machining a workpiece may include continuously rotating the workpiece, continuously rotating a tool having at least one cutting surface, and positioning the tool relative to the workpiece so that the at least one cutting surface engages the workpiece at a first discrete location at a periphery of the workpiece. The method may further include continuing to rotate the workpiece and the tool so that the at least one cutting surface engages a second discrete location at the periphery of the workpiece, and controlling a tool surface velocity VT relative to the workpiece surface velocity VW so that the first and second discrete locations are discontinuous. The tool may make multiple iterative passes over the workpiece to engage subsequent discrete locations, wherein the first discrete location, second discrete location, and multiple subsequent discrete locations may form a machined surface that extends continuously around the workpiece.
    • 加工工件的方法可以包括连续旋转工件,连续旋转具有至少一个切割表面的工具,并且相对于工件定位工具,使得至少一个切割表面在第一离散位置处与工件接合 工件周边。 该方法还可以包括继续旋转工件和工具,使得至少一个切割表面接合在工件的周边处的第二离散位置,并且相对于工件表面速度VW控制工具表面速度VT,使得 第一和第二离散位置是不连续的。 该工具可以在工件上进行多次迭代过程以接合随后的离散位置,其中第一离散位置,第二离散位置和多个后续离散位置可以形成连续围绕工件延伸的加工表面。
    • 5. 发明授权
    • Measuring apparatus and method
    • 测量装置和方法
    • US09427843B2
    • 2016-08-30
    • US13037589
    • 2011-03-01
    • Gregory A. HyattNitin Chaphalkar
    • Gregory A. HyattNitin Chaphalkar
    • B24B49/08B24B49/04B26F3/00G01B13/10B26D5/00
    • B24B49/04B24B49/08B26D5/00B26F3/004G01B13/10
    • An apparatus for obtaining information about a workpiece may include a measuring device having a nozzle defining an orifice in fluid communication with a source of incompressible fluid. A fluid monitoring apparatus may monitor a parameter of the substantially incompressible fluid, and a pump may be fluidly coupled to the source and configured to supply incompressible fluid to the orifice. The pump may have a pump chamber with a first displacement setting having a first fixed volume, so that operation of the pump at a first pump speed with the pump chamber in the first displacement setting generates a first fluid flow having a substantially constant first volumetric rate. The pump may have more than one displacement setting, or the pump may be operated at different speeds to change the volumetric flow rate. The nozzle may include multiple, independent orifice sets that may be selectively provided fluid, thereby to obtain information on different parts of the workpiece with a single placement of the nozzle. Additionally, the apparatus may be incorporated into a CNC machine to perform simultaneous measurement and machining operations.
    • 用于获得关于工件的信息的装置可以包括测量装置,其具有限定与不可压缩流体源流体连通的孔口的喷嘴。 流体监测装置可以监测基本不可压缩的流体的参数,并且泵可以流体耦合到源并且被配置为向孔口提供不可压缩的流体。 泵可以具有泵室,其具有第一固定容积的第一位移设置,使得泵以第一泵速度在泵室处于第一位移设置中的操作产生具有基本恒定的第一体积流量的第一流体流 。 泵可以具有多于一个位移设置,或者泵可以以不同的速度操作以改变体积流量。 喷嘴可以包括多个独立的孔组,其可以选择性地提供流体,从而通过喷嘴的单个放置来获得关于工件的不同部分的信息。 此外,该装置可以并入CNC机器中以执行同时的测量和加工操作。
    • 8. 发明授权
    • Compound machining method and apparatus
    • 复合加工方法和装置
    • US09575485B2
    • 2017-02-21
    • US13290901
    • 2011-11-07
    • Gregory A. HyattNitin Chaphalkar
    • Gregory A. HyattNitin Chaphalkar
    • B23C3/00B23B3/22B23Q27/00G05B19/4093
    • G05B19/40938B23B3/22B23C2220/48B23Q27/00G05B2219/49092G05B2219/49361Y02P90/265Y10T29/5109Y10T82/10Y10T82/16131Y10T409/303808Y10T409/305656
    • A method of machining a workpiece may include continuously rotating the workpiece, continuously rotating a tool having at least one cutting surface, and positioning the tool relative to the workpiece so that the at least one cutting surface engages the workpiece at a first discrete location at a periphery of the workpiece. The method may further include continuing to rotate the workpiece and the tool so that the at least one cutting surface engages a second discrete location at the periphery of the workpiece, and controlling a tool surface velocity VT relative to the workpiece surface velocity VW so that the first and second discrete locations are discontinuous. The tool may make multiple iterative passes over the workpiece to engage subsequent discrete locations, wherein the first discrete location, second discrete location, and multiple subsequent discrete locations may form a machined surface that extends continuously around the workpiece.
    • 加工工件的方法可以包括连续旋转工件,连续旋转具有至少一个切割表面的工具,并且相对于工件定位工具,使得至少一个切割表面在第一离散位置处与工件接合 工件周边。 该方法还可以包括继续旋转工件和工具,使得至少一个切割表面接合在工件的周边处的第二离散位置,并且相对于工件表面速度VW控制工具表面速度VT,使得 第一和第二离散位置是不连续的。 该工具可以在工件上进行多次迭代过程以接合随后的离散位置,其中第一离散位置,第二离散位置和多个后续离散位置可以形成连续围绕工件延伸的加工表面。
    • 10. 发明申请
    • COMPONENT BALANCING ON A CNC MACHINING CENTER
    • CNC加工中心的组件平衡
    • US20110238335A1
    • 2011-09-29
    • US13062539
    • 2009-09-04
    • Jeffry D. SharpNitin ChaphalkarTomohiko HayashiGregory Aaron Hyatt
    • Jeffry D. SharpNitin ChaphalkarTomohiko HayashiGregory Aaron Hyatt
    • G01M1/22
    • G01M1/22Y10S82/903Y10T29/5109Y10T82/10
    • The present invention broadly comprises a method of establishing parameters of a balancer to predict part unbalance on a computer numerically controlled machine comprising the steps of varying unbalance of the balancer and measuring vibration to develop influence parameters of the balancer, varying unbalance of a test part and measuring vibration to develop influence parameters of the test part, comparing the influence parameters of the balancer and the test part, and, determining a range of test part unbalance over which the influence parameters of the balancer and the test part approximately match. The present invention also broadly comprises a system for machining and balancing a workpiece comprising a computer numerically controlled machine, and, a rotating balancer assembly arranged to determine a measurement of unbalance when a first initial vibration measured by a first vibration sensor exceeds a limited range of vibration sensed by the first vibration sensor.
    • 本发明广泛地包括一种建立平衡器的参数以预测计算机数控机器上的部分不平衡的方法,该方法包括以下步骤:改变平衡器的不平衡性并测量振动以产生平衡器的影响参数,改变测试部件的不平衡,以及 测量振动以产生测试部件的影响参数,比较平衡器和测试部件的影响参数,以及确定平衡器和测试部件的影响参数近似匹配的测试部件不平衡的范围。 本发明还广泛地包括一种用于加工和平衡包括计算机数控机床的工件的系统,以及旋转平衡器组件,其被布置成当由第一振动传感器测量的第一初始振动超过限定范围时确定不平衡的测量值 由第一振动传感器感测到的振动。