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21. 发明申请

US20110059821A1 INFINITELY VARIABLE TRANSMISSION 审中-公开
标题翻译：无限可变传输
公开(公告)号：US20110059821A1
公开(公告)日：2011-03-10
申请号：US12876862
申请日：2010-09-07
申请人： Gary D. Lee , William M. Decker , Brian M. Olsen , Eric E. Aston , Brian T. Barnum , Steven R. Aposhian , Andrew J. Orme , Isaac R. Jones , Peter J. Jones , Regis A. David
发明人： Gary D. Lee , William M. Decker , Brian M. Olsen , Eric E. Aston , Brian T. Barnum , Steven R. Aposhian , Andrew J. Orme , Isaac R. Jones , Peter J. Jones , Regis A. David
IPC分类号： F16H55/56
CPC分类号： F16H37/0846 , F16H9/10 , F16H9/24 , F16H55/56 , F16H2037/088
摘要： Transmission systems, assemblies, and components are described. In particular, aspects of the present disclosure relate to an infinitely variable transmission that maintains constant tooth engagement during changes in gear ratio. In one aspect, a transmission includes an axially movable sheave coupled to a chain. The sheave rotates around a drive axis. At least partially within the sheave is a set of moon gears. The moon gears orbit around the drive axis and are rotatable around respective internal axis. As the sheave moves axially, the chain and the set of moon gears move radially to define different gear ratios, with the gear ratios being changeable in infinitely small increments. A synchronization system moves the set of moon gears radially to correspond to the axial position of the sheave. A correction system optionally controls rotation of the moon gears to rotate teeth of the moon gears into alignment with the chain.
摘要翻译：描述传动系统，组件和部件。特别地，本公开的方面涉及在变速比变化期间保持恒定的齿啮合的无级变速器。一方面，变速器包括联接到链条的可轴向移动的滑轮。滑轮绕驱动轴旋转。滑轮中至少部分是一组月球齿轮。月球齿轮围绕驱动轴线轨道并且可围绕相应的内部轴线旋转。当滑轮轴向移动时，链条和一组月球齿轮径向移动以限定不同的传动比，齿轮比可以无限小的增量改变。同步系统将月球齿轮组沿径向移动以对应于滑轮的轴向位置。校正系统可选地控制月球齿轮的旋转，以使月球齿轮与链条对准。

22. 发明申请

US20100057409A1 METHOD FOR DETERMINING VOLUME OF ORGANIC MATTER IN RESERVOIR ROCK 有权
标题翻译：用于确定储层岩体中有机物体积的方法
公开(公告)号：US20100057409A1
公开(公告)日：2010-03-04
申请号：US12449209
申请日：2008-02-15
申请人： Peter J. Jones , Henry I. Halpern
发明人： Peter J. Jones , Henry I. Halpern
IPC分类号： G06F7/60
CPC分类号： G01N33/24
摘要： A method for calculating the volume of various predetermined organic end-members in samples of rock at various depths in oil reservoir rock is utilized to produce one or more graphic displays that are use to interpret the data to identify, e.g., tar mats, in order to improve the efficient production of hydrocarbons from the well. Data is collected from the samples by known pyrolysis and compositional modeling methods; additional data is obtained by elemental analysis to determine weight percentages of C, H, N, S and O in the selected end-members and characterization of physical properties of representative samples of the reservoir rock, e.g., from core samples; the data is then processed in accordance with the method to provide a series of data points used to produce the graphic displays for visual interpretation.
摘要翻译：用于计算在油藏岩石中各种深度的岩石样品中的各种预定有机末端构件的体积的方法用于产生一个或多个图形显示器，其用于解释数据以按顺序识别例如焦油毡从井中提高碳氢化合物的有效生产。通过已知的热解和组成建模方法从样品中收集数据; 通过元素分析获得附加数据，以确定所选端基中C，H，N，S和O的重量百分比，以及例如来自核心样品的储层岩石的代表性样品的物理性质的表征; 然后根据该方法处理数据以提供用于产生用于视觉解释的图形显示的一系列数据点。

23. 发明授权

US06823298B1 Pyrolytic oil-productivity index method for predicting reservoir rock and oil characteristics 有权
标题翻译：热解油 - 生产率指数法预测油藏岩石和油气特征
公开(公告)号：US06823298B1
公开(公告)日：2004-11-23
申请号：US09576949
申请日：2000-05-23
申请人： Peter J. Jones , Emad N. Al-Shafei , Henry I Halpern , Jaffar M. Al-Dubaisi , Robert E. Ballay , James J. Funk
发明人： Peter J. Jones , Emad N. Al-Shafei , Henry I Halpern , Jaffar M. Al-Dubaisi , Robert E. Ballay , James J. Funk
IPC分类号： G06G748
CPC分类号： G01N33/2823 , E21B49/00
摘要： In the pyrolytic oil-production index method, or POPI method, the numerical values obtained by the application of the prior art POPI method are standardized or normalized. In another aspect, the POPI method and associated data are employed in combination with other empirically determined information to provide values of (1) the API gravity for the reservoir oil; (2) the Apparent Water Saturation (ASw) of the reservoir rock; and (3) the cementation and saturation exponents that are used in the Archie equation for calculating the water saturation in the oil-reservoir rock. This method results in the standardization of the numerical values derived by the POPI method. Applying the normalization or standardization process to the POPI method results in the conversion of the numerical value of POPIo for good oil-producing reservoir rock to a standard value.
摘要翻译：在热解油生产指标法或POPI法中，通过应用现有技术的POPI方法获得的数值被标准化或归一化。在另一方面，POPI方法和相关数据与其他经验确定的信息结合使用，以提供（1）储层油的API比重的值; （2）储层岩石的表观水饱和度（ASw）; 和（3）在Archie方程中用于计算油藏岩石中的水饱和度的胶结和饱和指数。这种方法导致了通过POPI方法得出的数值的标准化。将标准化或标准化过程应用于POPI方法导致良好的生产油藏岩石的POPIo的数值转换为标准值。

24. 发明授权

US06511253B1 Method for mounting a housing to an object and devices related thereto 失效
标题翻译：将壳体安装到与其相关的物体和装置的方法
公开(公告)号：US06511253B1
公开(公告)日：2003-01-28
申请号：US09440871
申请日：1999-11-16
申请人： Steve Grimes , Peter J. Jones
发明人： Steve Grimes , Peter J. Jones
IPC分类号： B65D4532
CPC分类号： F16B21/18 , F16B2/08 , Y10T403/602 , Y10T403/7052 , Y10T403/7061
摘要： Featured is a mounting device and methods related thereto for mounting the device to an object including cylindrical objects such as camera lenses, rifle scopes, telescopes, monoculars and binoculars. The mounting device includes a housing, having an exterior surface, that is to be mounted to an object and a resilient member. The housing is configured so as to include an interior passage having an inner cross section larger than that of the object to which the housing is to be mounted onto, and at least one slot extending from the housing exterior surface and into the housing interior passage. The resilient member is disposed about at least a portion of the housing exterior surface so a portion of the resilient member is positioned within each of the at least one slot in the housing and so this portion of the resilient member protrudes into the interior passage. In more specific aspects of the present invention, the housing is configured with a plurality of slots being arranged concentrically about the housing. A portion of the resilient member is positioned within each of the plurality of slots so these resilient member portions protrude into the interior passage. This protruding portion or these protruding portions of the resilient member contact and frictionally grab the object when it is inserted into the interior passage.
摘要翻译：特别是与其相关的安装装置和方法，用于将装置安装到包括诸如照相机镜头，步枪瞄准镜，望远镜，单目镜和双筒望远镜的圆柱形物体的物体上。安装装置包括具有外表面的壳体，其将被安装到物体和弹性构件。壳体构造成包括具有大于被安装壳体的物体的内部横截面的内部通道，以及从壳体外表面延伸到壳体内部通道中的至少一个狭槽。弹性构件围绕壳体外表面的至少一部分设置，使得弹性构件的一部分定位在壳体中的至少一个槽的每一个内，并且弹性构件的该部分突出到内部通道中。在本发明的更具体的方面，壳体构造成具有围绕壳体同心布置的多个槽。弹性构件的一部分定位在多个狭槽的每一个中，使得这些弹性构件部分突出到内部通道中。弹性构件的该突出部分或这些突出部分在插入到内部通道中时接触并摩擦物体。

25. 发明授权

US5947457A Fluid-filled active vibration absorber 失效
标题翻译：流体填充主动减震器
公开(公告)号：US5947457A
公开(公告)日：1999-09-07
申请号：US835436
申请日：1997-04-08
申请人： Douglas A. Swanson , Peter J. Jones , Douglas E. Ivers , Kevin C. Cooney
发明人： Douglas A. Swanson , Peter J. Jones , Douglas E. Ivers , Kevin C. Cooney
IPC分类号： F16F7/10 , F16F13/22 , F16F13/26 , F16F5/00
CPC分类号： F16F13/264 , F16F13/22 , F16F7/10
摘要： A fluid-filled Active Vibration Absorber (AVA) (20) is described for attaching to, and controlling dynamic vibration of the member (22). The AVA (20) is comprised of primary tuning mass (23) preferably including an additional inertial tuning mass (26) which is associated with a primary resonant frequency (fn1), a flexible element (28) for interconnecting the primary mass (23) and, thus, interconnecting inertial tuning mass (26) to member (22), at least one, and preferably two, fluid chambers, (30) and (32), each having a defined volume stiffness Kv'1, Kv'2, a fluid (34) contained within the at least one and preferably two, fluid chambers, (30) and (32), a moveable piston (36) dynamically interacting with the fluid (34) in the at least one fluid chamber and preferably, in first and second fluid chambers, (30) and (32), to cause pressure variations which dynamically drive the primary tuning mass (23) within a range about the primary resonant frequency (fn1). Preferably, a coil (40) and magnet-and-pole assembly (38) driving the piston (36). The AVA (20) preferably includes a secondary resonance (fn2) which is tunable by adjusting the mass of the piston (36), volume stiffness Kv'1 of the first fluid chambers (30), and a piston area Ap1, amongst other parameters.
摘要翻译：描述了流体填充的主动减振器（AVA）（20），用于附接到并控制构件（22）的动态振动。 AVA（20）由初级调谐质量（23）组成，优选地包括与初级共振频率（fn1）相关联的附加惯性调谐质量块（26），用于使主质量（23）互连的柔性元件（28）并且因此将惯性调节质量（26）与构件（22），至少一个，优选两个流体室（30）和（32）相互连接，每个具有限定的体积刚度Kv'1，Kv'2，包含在所述至少一个且优选两个流体室（30）和（32）内的流体（34），与所述至少一个流体室中的流体（34）动态相互作用的可移动活塞（36）在第一和第二流体室（30）和（32）中，引起在围绕初级谐振频率（fn1）的范围内动态驱动初级调谐质量（23）的压力变化。优选地，驱动活塞（36）的线圈（40）和磁极组件（38）。 AVA（20）优选地包括通过调节活塞（36）的质量，第一流体室（30）的体积刚度Kv'1和活塞区域Ap1可调谐的次级共振（fn2），以及其他参数。

26. 发明授权

US5770749A Process of isolating a phytosterol composition from pulping soap 失效
标题翻译：从制浆皂中分离植物甾醇组合物的方法
公开(公告)号：US5770749A
公开(公告)日：1998-06-23
申请号：US706354
申请日：1996-08-30
申请人： James P. Kutney , Egon Novak , Peter J. Jones
发明人： James P. Kutney , Egon Novak , Peter J. Jones
IPC分类号： A23L1/30 , A23L1/302 , A61K31/575 , A61P3/06 , C07J9/00 , C07J75/00
CPC分类号： C07J9/00 , A23L33/11 , A23L33/15 , A61K31/575 , A23V2002/00
摘要： The invention is drawn to a process for isolating and purifying a phytosterol composition from a pulping soap by first extracting a creamy precipitate from the pulping soap using a solvent mixture of water, ketone, and hydrocarbon, and then purifying the cremy precipitate to form the phytosterol composition. The invention also includes the phytosterol composition formed by this method.
摘要翻译：本发明涉及从制浆皂分离和纯化植物甾醇组合物的方法，首先使用水，酮和烃的溶剂混合物从制浆皂中提取乳状沉淀物，然后纯化残存物形成植物甾醇组成。本发明还包括通过该方法形成的植物甾醇组合物。

27. 发明授权

US5197692A Adaptive fluid mount 失效
标题翻译：自适应流体安装
公开(公告)号：US5197692A
公开(公告)日：1993-03-30
申请号：US706622
申请日：1991-05-29
申请人： Peter J. Jones , Marshall W. Downing
发明人： Peter J. Jones , Marshall W. Downing
IPC分类号： B64D27/18 , B64D27/26 , F16F13/14 , F16F13/28
CPC分类号： B64D27/18 , B64D27/26 , F16F13/1463 , F16F13/28 , B64D2027/264
摘要： A double pumper mount useful as a front mount for an aircraft engine. A pair of fluid chambers are selectively interconnectable by one of a plurality of inertia tracks by use of an adjustable cylindrical member which has the tracks formed as generally helical grooves extending about the periphery of the cylindrical member. These inertia tracks have different flow characteristics so as to produce differing notch frequencies so as to attenuate different vibrational frequencies. A second embodiment has a single inertia track whose length can be altered by rotating the cylindrical member to change the point at which the ingress/egress port of the fluid chamber engages the circumferential portion of the inertia track.

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