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11. 发明授权

US5732370A Method for controlling motion using a two-stage adjustable damper 失效
标题翻译：使用两级可调节阻尼器控制运动的方法
公开(公告)号：US5732370A
公开(公告)日：1998-03-24
申请号：US639142
申请日：1996-04-26
申请人： Frederick P. Boyle , Nicholas K. Petek , Dale P. Smith
发明人： Frederick P. Boyle , Nicholas K. Petek , Dale P. Smith
IPC分类号： B60G17/018 , B60N2/50 , F16F15/02 , B60G17/015 , G06F17/10
CPC分类号： B60N2/501 , B60G17/018 , B60N2/502 , B60N2/505 , B60N2/508 , B60N2/522 , B60N2/525 , F16F15/02 , B60G2500/10
摘要： The relative motion and force between two interconnected elements can be controlled by a semi-active two-stage adjustable damper to maximize isolation between the elements, while minimizing the instances of the motion exceeding acceptable limits. An algorithm determines when to apply the high force state of the damper to provide excellent isolation from input vibration and shocks. The dampers and control algorithms are useful in primary vehicle suspension systems, cab mounts, seat mounts and engine mounts.
摘要翻译：两个相互连接的元件之间的相对运动和力可以通过半主动两级可调节阻尼器来控制，以最大程度地实现元件之间的隔离，同时将运动的实例最小化超出可接受的极限。算法确定何时施加阻尼器的高力状态，以提供与输入振动和冲击的良好隔离。阻尼器和控制算法在主车辆悬架系统，驾驶室安装座，座椅安装座和发动机座上都是有用的。

12. 发明授权

US06568436B1 System for periodic fluid maintenance of apparatus 失效
公开(公告)号：US06568436B1
公开(公告)日：2003-05-27
申请号：US09729512
申请日：2000-12-04
申请人： John H. Matthews , L. William Silzle , John R. Martin , Albert L. Ruff , Gary E. Gerber , Frederick P. Boyle
发明人： John H. Matthews , L. William Silzle , John R. Martin , Albert L. Ruff , Gary E. Gerber , Frederick P. Boyle
IPC分类号： B65B104
CPC分类号： F01M11/04
摘要： A system for periodically maintaining non-fuel fluids required for proper performance by various apparatus and for reporting non-fuel fluid maintenance action taken. Maintenance systems include means for replacing, replenishing or renewing non-fuel fluids or renewing non-fuel fluid filters. Reporting systems include means for communicating information between on- and off-apparatus sub-systems and for generating reports that document non-fuel fluid maintenance actions taken.

13. 发明授权

US06412338B2 On-board rotational viscometers 有权
标题翻译：车载旋转粘度计
公开(公告)号：US06412338B2
公开(公告)日：2002-07-02
申请号：US09725744
申请日：2000-11-29
申请人： Frederick P. Boyle , Gary Garvin , Klaus-Werner Damm , Daniel H. Heath , Herman F. George , Peter J. Moore , Dale Hicks , Terence E. Robinson
发明人： Frederick P. Boyle , Gary Garvin , Klaus-Werner Damm , Daniel H. Heath , Herman F. George , Peter J. Moore , Dale Hicks , Terence E. Robinson
IPC分类号： G01N1114
CPC分类号： B03C3/28 , B05B14/42 , B05B14/43 , Y10S55/39 , Y10S55/46
摘要： A viscometer for sensing or characterizing the stress required to shear a fluid at a given rate includes a pair of members coaxially mounted for relative rotation. Between the members is an annular gap defining a flow path for the fluid. The flow path is configured such that during differential rotation of the members, fluid is caused to flow through the annular gap that is a function of the differential rotation and the viscosity of the fluid. A sensor measures the torque or torque equivalent required to achieve such differential rotation between the members.
摘要翻译：用于感测或表征以给定速率剪切流体所需的应力的粘度计包括同轴地安装用于相对旋转的一对构件。在构件之间是限定流体的流动路径的环形间隙。流动路径构造成使得在构件的差动旋转期间，使流体流过环形间隙，该间隙是流体的差动旋转和粘度的函数。传感器测量在构件之间实现这种差速旋转所需的扭矩或扭矩等效性。

14. 发明授权

US06861851B2 Method for on-line monitoring of quality and condition of non-aqueous fluids 有权
标题翻译：在线监测非水性液体的质量和状况的方法
公开(公告)号：US06861851B2
公开(公告)日：2005-03-01
申请号：US10271885
申请日：2002-10-16
申请人： Vadim F. Lvovich , David B. Skursha , Frederick P. Boyle
发明人： Vadim F. Lvovich , David B. Skursha , Frederick P. Boyle
IPC分类号： G01N33/28 , G01R27/08
CPC分类号： G01N33/2888
摘要： A method for determining quality and condition of a highly resistive fluid in transportation and industrial equipment. The method uses apparatus that applies a multitude of oscillating voltage signals at determined frequencies and offsets to electrodes immersed in the fluid and quantifies fluid response to the signals. The method monitors response of the fluid to a preferred three fixed electrical signals applied by the apparatus, a high and a medium frequency signal with zero offset voltage and a low frequency signal with an offset voltage. For apparatus or applications where the monitored fluid is not controlled to constant temperature, the method includes correcting the temperature sensitive fluid responses for temperature variations for the fluid quality and condition determination. The method can also include determining when essentially complete fluid exchanges are made to the equipment without need for additional input.
摘要翻译：一种用于确定运输和工业设备中高阻性流体质量和状况的方法。该方法使用以确定的频率施加多个振荡电压信号的装置，并且对浸在流体中的电极施加偏移并量化对信号的流体响应。该方法监测流体对由装置施加的优选的三个固定电信号，具有零失调电压的高频和中频信号以及具有偏移电压的低频信号的响应。对于被监测流体不被控制到恒定温度的装置或应用，该方法包括校正用于流体质量和条件确定的温度变化的温度敏感流体响应。该方法还可以包括确定何时基本上完成了对设备的流体交换而不需要额外的输入。

15. 发明授权

US06577112B2 Method and apparatus for on-line monitoring of quality and/or condition of highly resistive fluids 有权
标题翻译：在线监测高电阻流体质量和/或状况的方法和装置
公开(公告)号：US06577112B2
公开(公告)日：2003-06-10
申请号：US09803299
申请日：2001-03-09
申请人： Vadim F. Lvovich , Frederick P. Boyle
发明人： Vadim F. Lvovich , Frederick P. Boyle
IPC分类号： G01N2700
CPC分类号： G01N33/2888 , G01N27/026
摘要： An apparatus and method for monitoring a highly electrically-resistive fluid. The method includes applying across the fluid an AC signal that includes at least two different AC electrical potentials, with at least one AC electrical potential having a non-zero DC offset, measuring the fluid's electrical response at each applied potential, and analyzing the fluid quality and/or condition using the applied AC signal and the corresponding measured electrical responses. The invention finds application in conjunction with the on-line (i.e., while in use) monitoring a highly resistive fluids such as, e.g., lubricants, natural and/or synthetic motor oils optionally including standard additives and/or adjuncts, combustion engine fuels, other hydrocarbon-based fluids used in transportation and industrial applications, and the like.
摘要翻译：一种用于监测高电阻流体的装置和方法。该方法包括跨流体应用包括至少两个不同AC电位的AC信号，其中具有非零DC偏移的至少一个AC电位，在每个施加电位处测量流体的电响应，并分析流体质量和/或使用所施加的AC信号和相应的测量的电响应的条件。本发明结合在线（即在使用中）监测高阻力流体，例如润滑剂，天然和/或合成的机油，任选地包括标准添加剂和/或助剂，内燃机燃料，用于运输和工业应用中的其它基于烃的流体等。

16. 发明授权

US06463967B1 System for diagnosing, maintaining and reporting the performance and safety condition of apparatus during refueling 有权
标题翻译：在加油期间诊断，维护和报告仪器性能和安全状况的系统
公开(公告)号：US06463967B1
公开(公告)日：2002-10-15
申请号：US09715519
申请日：2000-11-17
申请人： Frederick P. Boyle
发明人： Frederick P. Boyle
IPC分类号： B65B130
CPC分类号： B67D7/3209 , B67D7/344 , B67D7/428 , B67D7/54
摘要： A system for automatically and simultaneously diagnosing apparatus performance and safety condition, maintaining on-apparatus components and sub-systems, and reporting apparatus condition and maintenance action taken during apparatus refueling. Diagnostic sub-systems include means for determining the condition of fluids or components that are consumed or deteriorate during use. Maintenance sub-systems include means for replacing, replenishing or renewing non-fuel fluids or components that are consumed or deteriorate during use. Reporting sub-systems include means for communicating information between on- and off-apparatus sub-systems and for generating reports that document apparatus performance and safety condition and the maintenance actions taken during refueling. A report can be presented to the apparatus operator, apparatus maintenance technician and/or to a central reporting facility. The report can be used to identify existing or potential apparatus system/sub-system or component failure, to schedule needed repair, to certify regulatory compliance, to optimize the performance of the apparatus, apparatus sub-system or operator, or to manage the cost of apparatus operation.
摘要翻译：一种用于自动同时诊断设备性能和安全状况的系统，维护设备内部件和子系统，以及在设备加油期间采取的报告设备状态和维护动作。诊断子系统包括用于确定在使用期间消耗或劣化的流体或组分的状况的装置。维护子系统包括在使用过程中更换，补充或更新非燃料流体或消耗或损坏的组件的装置。报告子系统包括用于在设备和子设备子系统之间传送信息的装置，以及用于生成记录装置的性能和安全状况以及在加油期间所采取的维护动作的报告。可以向设备操作员，设备维护技术人员和/或中央报告设施呈现报告。该报告可用于识别现有或潜在的设备系统/子系统或组件故障，安排所需的维修，认证合规性，优化设备，设备子系统或运营商的性能，或管理成本的设备操作。

17. 发明授权

US5582385A Method for controlling motion using an adjustable damper 失效
标题翻译：使用可调节阻尼器控制运动的方法
公开(公告)号：US5582385A
公开(公告)日：1996-12-10
申请号：US429990
申请日：1995-04-27
申请人： Frederick P. Boyle , Nicholas K. Petek , Dale P. Smith
发明人： Frederick P. Boyle , Nicholas K. Petek , Dale P. Smith
IPC分类号： B60N2/42 , B60G17/018 , B60G17/033 , B60G99/00 , B60K5/12 , B60N2/52 , F16F7/00 , F16M13/00
CPC分类号： B60N2/501 , B60G17/018 , B60G99/002 , B60K5/1208 , B60N2/502 , B60N2/505 , B60N2/522 , B60N2/525 , B60G2400/102 , B60G2400/206 , B60G2400/252 , B60G2400/91
摘要： The relative motion and force between two interconnected elements can be controlled by a semi-active damper to minimize the instances of the motion exceeding acceptable limits, while maximizing isolation between the elements. Applying an algorithm to the control parameters of the damper provides excellent isolation from input vibration and shocks. The dampers and control algorithms are useful in primary vehicle suspension systems, cab mounts, seat mounts, and engine mounts.
摘要翻译：两个相互连接的元件之间的相对运动和力可以由半主动阻尼器来控制，以使运动的实例最小化超过可接受的极限，同时最大化元件之间的隔离。对阻尼器的控制参数应用算法提供了极好的隔离输入振动和冲击。阻尼器和控制算法在主车辆悬架系统，驾驶室安装座，座椅安装座和发动机支架中都是有用的。

18. 发明授权

US4469284A Comminuting apparatus with improved rotor and stator recess construction 失效
标题翻译：具有改进的转子和定子凹槽结构的调节装置
公开(公告)号：US4469284A
公开(公告)日：1984-09-04
申请号：US316217
申请日：1981-10-29
申请人： Ronald L. Brubaker , James J. Tloczynski , Melvin Budzol , Clifford J. Ahola , Frederick P. Boyle , Truman D. Parkinson , James C. Rine
发明人： Ronald L. Brubaker , James J. Tloczynski , Melvin Budzol , Clifford J. Ahola , Frederick P. Boyle , Truman D. Parkinson , James C. Rine
IPC分类号： B02C2/10 , B29B17/00 , B02C7/12
CPC分类号： B29B17/0404 , B02C2/10 , B02C7/08 , B02C7/12 , B29B2017/0484 , B29K2021/00 , Y02W30/625 , Y10S241/31
摘要： A pellet feeder (A) feeds pellets of vulcanized rubber or other materials and water or another fluid at controlled rates into a mixing tank (30). An agitator (32) mixes the pellets and fluid into a slurry. The slurry is pumped from the mixing tank to a mill (C) by a pump (34). The mill has a receiving region (70) defined between a stator (48) and a rotor (68) for receiving the slurry. The stator and rotor define a peripheral grinding zone (72) around the slurry receiving region. An impeller (74) has vanes which extend from the upper surface of the rotor to an abrasive surface (82) of the stator such that the impeller vanes are ground at the same rate as the stator and rotor wear to maintain a fluid seal around the impeller blades. Fluid cylinders (50, 52) maintain a constant pressure between the stator and rotor. The stator has a plurality of recesses (86, 86') which preferably have downstream extending relief areas (214). The rotor also has a plurality of recesses ( 104, 104') which have tapered portions along a downstream edge, such as sloping relief areas (220), for wedging the pellets into the grinding zone. The rotor and stator are made of a vitreous bonded stone having a median pore size of about 50 microns.
摘要翻译：颗粒进料器（A）将硫化橡胶或其它材料的颗粒和受控速率的水或其它流体进料到混合罐（30）中。搅拌器（32）将颗粒和流体混合成浆料。浆料通过泵（34）从混合罐泵送到轧机（C）。磨机具有限定在定子（48）和用于接收浆料的转子（68）之间的接收区域（70）。定子和转子限定了围绕浆料接收区域的外围研磨区域（72）。叶轮（74）具有从转子的上表面延伸到定子的研磨表面（82）的叶片，使得叶轮叶片以与定子和转子磨损相同的速度磨削，以保持流体密封叶轮叶片。流体缸（50,52）在定子和转子之间保持恒定的压力。定子具有多个凹槽（86,86'），其优选具有下游延伸的释放区域（214）。转子还具有沿着下游边缘具有锥形部分的多个凹槽（104,104'），例如倾斜的浮雕区域（220），用于将颗粒楔入研磨区域。转子和定子由中等孔径约为50微米的玻璃态粘结石制成。

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