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    • 1. 发明授权
    • Shaft load balancing system
    • 轴负载平衡系统
    • US06579076B2
    • 2003-06-17
    • US09766660
    • 2001-01-23
    • John Kenneth Narney, IIDavid Turner Monk
    • John Kenneth Narney, IIDavid Turner Monk
    • F04B1700
    • F04C23/008F04C29/0021F04C2240/603F04C2270/044
    • A shaft load balancing system includes a housing divided into a first chamber at a first operating pressure and a second chamber at a second, lower operating pressure. A shaft passes from the first chamber into the second chamber. The shaft includes a first end in the first chamber, a second end in the second chamber, and a substantially axial channel connecting the first end and the second end. The first end is in fluid communication with a fluid reservoir in the housing. A reaction member engages the second end. The reaction member includes a compression volume in fluid communication with the channel. A pressure differential between the chambers forces fluid from the fluid reservoir through the channel and into the compression volume. The reaction member transmits the fluid force to the housing, allowing the fluid to create a force on the second end of the shaft.
    • 轴负载平衡系统包括在第一操作压力下分为第一室的壳体和处于第二较低工作压力的第二室。 轴从第一腔室进入第二腔室。 轴包括在第一腔室中的第一端,第二腔室中的第二端和连接第一端部和第二端部的基本轴向通道。 第一端与壳体中的流体储存器流体连通。 反作用构件接合第二端。 反应构件包括与通道流体连通的压缩体积。 室之间的压差迫使来自流体储存器的流体通过通道并进入压缩容积。 反作用构件将流体力传递到壳体,允许流体在轴的第二端上产生力。
    • 2. 发明授权
    • Compressor with internal accumulator for use in split compressor
    • 具有内部蓄压器的压缩机用于分体式压缩机
    • US06637216B1
    • 2003-10-28
    • US10349430
    • 2003-01-22
    • John Kenneth Narney, II
    • John Kenneth Narney, II
    • F25B100
    • F04C29/026F04C18/3562F04C23/008F04C29/0014F04C29/042F04C29/045F25B31/006F25B43/006F25B2400/03F25B2500/01
    • A rotary compressor having a housing with a motor and an internal accumulator located on the low pressure side and an oil sump located on the high pressure side. A sealing means positioned within the housing defines a first chamber and a second chamber. The sealing means substantially maintains the pressure differential between the chambers by segregating high pressure fluid in the second chamber from low pressure fluid in the first chamber. The fluid entering the housing is separated into a gas portion and a liquid portion, the liquid portion being directed downward toward the motor to provide cooling for the motor while the gas portion is directed to a compressor portion. The liquid portion collects about the motor above the sealing means. An orifice or aperture through the sealing means allows liquid collected above the sealing means to be reintroduced into the compressor suction inlet and metered into the refrigerant gas in a controlled fashion and resupply the sump with lubricant.
    • 一种具有壳体的旋转压缩机,其具有位于低压侧的电动机和内部蓄能器以及位于高压侧的油底壳。 定位在壳体内的密封装置限定第一室和第二室。 密封装置通过将第二腔室中的高压流体与第一腔室中的低压流体隔离来实质上保持腔室之间的压力差。 进入壳体的流体被分离成气体部分和液体部分,液体部分朝向马达向下指向电机,同时气体部分被引导到压缩机部分。 液体部分围绕密封装置上方的马达收集。 通过密封装置的孔或孔允许收集在密封装置上方的液体被重新引入压缩机吸入口并以受控的方式计量加入制冷剂气体中,并用润滑剂补充贮槽。
    • 8. 发明授权
    • Compressor utilizing shell with low pressure side motor and high pressure side oil sump
    • 压缩机采用低压侧电机和高压侧油底壳
    • US06499971B2
    • 2002-12-31
    • US09726606
    • 2000-12-01
    • John Kenneth Narney, IIDavid Turner MonkThomas Evans Goodnight
    • John Kenneth Narney, IIDavid Turner MonkThomas Evans Goodnight
    • F04B3504
    • F04B39/023F04B39/12F04C23/008F04C29/0021F04C29/026F04C2240/603
    • A compressor system includes a housing with a low pressure first chamber and a high pressure second chamber. A motor in the first chamber has a shaft that passes into the second chamber. A compressor in the housing is operably connected to the motor by the shaft. The second chamber contains an oil sump storing lubricating oil for the compressor. A fluid path through the compressor system includes a first orifice in the housing communicating a suction tube with the first chamber, a first fluid passage communicating the first chamber with the compressor suction port, a second fluid passage communicating the compressor discharge port with the second chamber, and a second orifice in the housing communicating the second chamber with a discharge tube. By the action of the compressor, the fluid in the first chamber is maintained at compressor suction pressure and the fluid in the second chamber is maintained at compressor discharge pressure. Placement of the motor in the low pressure chamber allows operation of the compressor system in environments with high ambient temperatures without adverse effects on the motor performance. Lubricating oil is separated from the compressed fluid with a baffle in the high pressure chamber. Further oil separation can be carried out using a weighted disk secured on the shaft in the high pressure chamber. Fluid discharged from the compressor can be directed onto the rotating weighted disk, which propels oil in the fluid onto the inner wall of the housing. The separated oil drains into the oil sump.
    • 压缩机系统包括具有低压第一室和高压第二室的壳体。 第一室中的电动机具有进入第二室的轴。 壳体中的压缩机通过轴可操作地连接到电动机。 第二室包含储存用于压缩机的润滑油的油底壳。 通过压缩机系统的流体路径包括在壳体中的第一孔,其将吸入管与第一室连通,使第一室与压缩机吸入口连通的第一流体通道,将压缩机排出口与第二室连通的第二流体通道 ,并且所述壳体中的第二孔口将所述第二腔室与排出管连通。 通过压缩机的作用,第一室中的流体保持在压缩机吸入压力,并且第二室中的流体保持在压缩机排出压力。 电动机在低压室中的放置允许压缩机系统在环境温度高的环境中运行,而不会对电机性能产生不利影响。 润滑油与压缩流体在高压室中与挡板分离。 可以使用固定在高压室中的轴上的加重盘来进行进一步的油分离。 从压缩机排出的流体可以被引导到旋转的加重盘上,该盘将流体中的油推进到壳体的内壁上。 分离的油排入油底壳。