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    • 1. 发明授权
    • Fluid energy transfer device
    • 流体能量传递装置
    • US06174151B1
    • 2001-01-16
    • US09193491
    • 1998-11-17
    • George A. Yarr
    • George A. Yarr
    • F04C200
    • F01C1/103Y10T137/7738
    • A trochoidal gear pump or engine uses a coaxial hub with the outer and/or inner rotor and an associated rolling element bearing assembly that preferably uses pre-loaded bearings to precisely set the rotational axis and/or the axial position of the rotor with which it is associated. This allows the fixed-gap clearance between the rotor surfaces and the housing surfaces or the other rotor surfaces to be set at a distance that minimizes operating fluid shear forces and/or by-pass leakage and eliminates gear tooth wear thus preserving effective chamber to chamber sealing. The device is useful in handling gaseous and two-phase fluids in expansion/contracting fluid engines/compressors and can incorporate an output shaft that accommodates an integrated condensate pump for use with Rankine cycles. A vent from the housing cavity to a lower pressure input or output port regulates built-up fluid pressure in the housing thereby optimizing the efficiency of the device by controlling bypass leakage.
    • 摆线齿轮泵或发动机使用具有外转子和/或内转子的同轴毂,以及相关联的滚动元件轴承组件,其优选地使用预加载的轴承来精确地设定转子的旋转轴线和/或轴向位置 已关联的。 这允许转子表面和壳体表面或其它转子表面之间的固定间隙间隙被设定为使工作流体剪切力和/或旁路泄漏最小化的距离,并且消除齿轮磨损,从而保持有效的室到室 密封。 该装置可用于处理膨胀/收缩流体发动机/压缩机中的气体和两相流体,并且可以结合一个输出轴,其容纳用于兰金循环的集成冷凝泵。 从壳体腔体到低压输入或输出端口的排气口调节壳体中积聚的流体压力,从而通过控制旁路泄漏来优化设备的效率。
    • 3. 发明授权
    • Shaft structure in screw rotor of screw fluid assembly
    • 螺杆流体组件螺杆转子轴结构
    • US06186756B1
    • 2001-02-13
    • US09572049
    • 2000-05-16
    • Yukihiro KojimaTetsuya SasageNoboru Toda
    • Yukihiro KojimaTetsuya SasageNoboru Toda
    • F04C200
    • F04C29/0071F04C18/16F04C2240/60F16B2200/406Y10T403/473Y10T428/24322
    • A rotor 1 forming screw teeth is projectingly provided at its outer end 2 on the axis thereof with a center shaft 3. The center shaft 3 is provided at its outer end 4 with a smaller-diameter shaft 5 or a concaved fitting hole. A separate rotor shaft 6 which is to be fitted over the smaller-diameter shaft 5 or fitted into the concaved fitting hole is provided with another concaved fitting hole 7 or smaller-diameter shaft. A metal shaft around which synthetic resin is molded is formed at its peripheral surface with a spiral groove or corrugated groove in the opposite revolutional direction with respect to the revolutional direction of the screw rotor. The spiral groove is formed with smooth arc curved line connecting profiles of adjacent grooves. The shaft is provided with a step, and synthetic resin is molded around the shaft surface to form a screw rotor.
    • 形成螺旋齿的转子1在其外端部2的轴线上以中心轴3突出地设置。中心轴3在其外端4处设置有较小直径的轴5或凹入的嵌合孔。 要安装在小直径轴5上或装配在凹形装配孔中的单独的转子轴6设置有另一个凹入的装配孔7或较小直径的轴。 在其圆周表面上形成有相对于螺杆转子的旋转方向在相反旋转方向上的螺旋形槽或波纹状槽的金属轴。 螺旋槽形成有相邻凹槽的平滑弧形曲线连接轮廓。 轴设置有台阶,合成树脂围绕轴表面模制以形成螺杆转子。
    • 4. 发明授权
    • Oil pump
    • 油泵
    • US06835054B2
    • 2004-12-28
    • US10774661
    • 2004-02-10
    • Shoji Morita
    • Shoji Morita
    • F04C200
    • F04C15/062F04C15/0049
    • A pump chamber defines a capacity increased in a first certain angle range and decreased in a second certain angle range. An intake port is open in an increase range where the pump chamber moves from a minimum capacity position to a maximum capacity position. A discharge port is open in a decrease range where the pump chamber moves from the maximum capacity position to the minimum capacity position, the discharge port being biased to the minimum capacity position. A seal land portion seals a communication between the intake port and the discharge port via the pump chamber. A reduced portion is defined between a communication portion and the pump chamber. A bypass path connects the communication portion with the discharge port. A relief valve intervened in the bypass path opens the bypass path with a pressure of the communication portion increased to or over a set pressure.
    • 泵室限定在第一特定角度范围内增加的容量并且在第二特定角度范围内减小。 进气口在泵室从最小容量位置移动到最大容量位置的增加范围内打开。 排出口在泵室从最大容量位置移动到最小容量位置的减小范围内打开,排出口被偏压到最小容量位置。 密封陆部经由泵室密封进气口和排出口之间的连通。 在连通部和泵室之间限定缩小部。 旁通路将连通部与排出口连接。 插入在旁路中的安全阀在连通部的压力增加到设定压力以上的状态下打开旁路。