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    • 1. 发明授权
    • Fluid control system for rotating shaft or flywheel
    • 用于旋转轴或飞轮的流体控制系统
    • US5628248A
    • 1997-05-13
    • US583756
    • 1996-01-11
    • Richard J. OenEdward A. Daniel
    • Richard J. OenEdward A. Daniel
    • F16J15/54B30B15/00F16C32/06F16N31/00
    • B30B15/0052B30B15/0088
    • A fluid control system for a rotating shaft which provides a seal to limit fluid leakage from around the shaft and which vacuums away any fluid leaking past the provided seal. The fluid control system may be installed around a rotating shaft such as a flywheel in a press. The fluid control system includes a housing which forms a clearance space with the rotating shaft in which fluid, such as oil being used to create or service the flywheel bearing, can be collected. A seal is provided between the rotating shaft and the housing to prevent fluid leakage from the clearance space. A vacuum mechanism positioned along a leakage path beyond the seal is provided with an air duct through which passes a vacuum induced air flow which vacuums away fluid leaked from the seal. The air duct is preferably configured to include a radial clearance between a portion of the fluid collection system and the rotating shaft such that relative axial movement therebetween does not compromise the vacuuming capabilities of the vacuum mechanism, and therefore the fluid collection system can be employed with axially reciprocating or moving rotating shafts.
    • 一种用于旋转轴的流体控制系统,其提供密封件以限制来自轴的流体泄漏,并且将通过所提供的密封件泄漏的任何流体抽真空。 流体控制系统可以安装在旋转轴(例如压机中的飞轮)周围。 流体控制系统包括与旋转轴形成间隙空间的壳体,其中可以采集诸如用于产生或维修飞轮轴承的油的流体。 在旋转轴和壳体之间设置密封件,以防止流体从间隙空间泄漏。 设置有沿密封件之外的泄漏路径定位的真空机构具有空气管道,通过该空气管道通过真空引起的空气流,真空吸入空气将真空从密封件泄漏出来。 空气管道优选地构造成在流体收集系统的一部分和旋转轴之间包括径向间隙,使得它们之间的相对轴向移动不会影响真空机构的抽真空能力,因此可以采用流体收集系统 轴向往复运动或运动转轴。
    • 2. 发明授权
    • Fluid control system for rotating shaft or flywheel
    • 用于旋转轴或飞轮的流体控制系统
    • US5967526A
    • 1999-10-19
    • US792775
    • 1997-02-03
    • Richard J. OenEdward A. Daniel
    • Richard J. OenEdward A. Daniel
    • F16J15/54B30B15/00F16C32/06F16N31/00
    • B30B15/0052B30B15/0088
    • A fluid control system for a rotating shaft which provides a seal to limit fluid leakage from around the shaft and which vacuums away any fluid leaking past the provided seal. The fluid control system may be installed around a rotating shaft such as a flywheel in a press. The fluid control system includes a housing which forms a clearance space with the rotating shaft in which fluid, such as oil being used to create or service the flywheel bearing, can be collected. A seal is provided between the rotating shaft and the housing to prevent fluid leakage from the clearance space. A vacuum mechanism positioned along a leakage path beyond the seal is provided with an air duct through which passes a vacuum induced air flow which vacuums away fluid leaked from the seal. The air duct is preferably configured to include a radial clearance between a portion of the fluid collection system and the rotating shaft such that relative axial movement therebetween does not compromise the vacuuming capabilities of the vacuum mechanism, and therefore the fluid collection system can be employed with axially reciprocating or moving rotating shafts.
    • 一种用于旋转轴的流体控制系统,其提供密封件以限制来自轴的流体泄漏,并且将通过所提供的密封件泄漏的任何流体抽真空。 流体控制系统可以安装在旋转轴(例如压机中的飞轮)周围。 流体控制系统包括与旋转轴形成间隙空间的壳体,其中可以采集诸如用于产生或维修飞轮轴承的油的流体。 在旋转轴和壳体之间设置密封件,以防止流体从间隙空间泄漏。 设置有沿密封件之外的泄漏路径定位的真空机构具有空气管道,通过该空气管道通过真空引起的空气流,真空吸入空气将真空从密封件泄漏出来。 空气管道优选地构造成在流体收集系统的一部分和旋转轴之间包括径向间隙,使得它们之间的相对轴向移动不会影响真空机构的抽真空能力,因此可以采用流体收集系统 轴向往复运动或运动转轴。
    • 8. 发明授权
    • Adjustable stroke mechanism
    • 可调节行程机构
    • US07694545B2
    • 2010-04-13
    • US11343404
    • 2006-01-31
    • Wenliang TangJohn B. BornhorstRichard J. OenCharles H. DickmanKevin J. EversRyan M. StoltzJoseph H. Hamberg
    • Wenliang TangJohn B. BornhorstRichard J. OenCharles H. DickmanKevin J. EversRyan M. StoltzJoseph H. Hamberg
    • B30B1/26
    • B30B1/263
    • An adjustment stroke connection for a mechanical press includes an eccentric bushing disposed within a press connection member and an eccentric crankshaft member disposed within the eccentric bushing. A rotatable crankshaft is connected to the eccentric member. A mechanism is provided for connecting the eccentric bushing with the press connection member in a manner that prevents rotation therebetween and concurrently permits rotation of the eccentric member relative to the eccentric bushing. When the mechanism is activated, driving rotation of the crankshaft produces a press stroke adjustment. A torque actuator delivers equal driving torque to plural eccentric crankshaft members to enable minimization of relative bushing angle slip. Suitable control of the bushing angle and slide position crank angle during bushing expansion and contraction also minimizes relative bushing angle slip.
    • 用于机械压力机的调节行程连接器包括设置在压力连接构件内的偏心衬套和设置在偏心衬套内的偏心曲轴构件。 可旋转的曲轴连接到偏心构件。 提供了一种机构,其以防止在其间旋转的方式连接偏心衬套和压力连接构件,同时允许偏心构件相对于偏心衬套旋转。 当机构被激活时,曲轴的驱动旋转产生压力冲程调整。 扭矩致动器向多个偏心曲轴构件提供相等的驱动扭矩,以使相对套管角度滑移最小化。 在套管膨胀和收缩期间适当控制套管角度和滑动位置曲柄角度也可使相对衬套角度滑移最小化。