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    • 1. 发明授权
    • Offset mounting foot
    • 偏移安装脚
    • US07281907B2
    • 2007-10-16
    • US10764400
    • 2004-01-23
    • David Rex GilliamDavid Turner MonkRobert Bruce PetersWilliam Terry Addison
    • David Rex GilliamDavid Turner MonkRobert Bruce PetersWilliam Terry Addison
    • F04B17/03F04B35/04F16M1/00
    • F04C23/008F04B39/0044F04B53/003F04B53/22F04C18/0207F04C2230/604
    • A single piece offset mounting foot is positioned between the compressor and the floor of a cabinet for the compressor. The offset mounting foot has a main body having a geometric shape with a top and bottom surface connected by sidewalls that form a perimeter. A depression in the top surface receives a compressor and is offset in the direction of one of the sidewalls. A plurality of substantially equally spaced legs extend outward from the main body. The thickness of the offset mounting foot may be substantially uniform through the main body. The profile of the top surface in the main body is substantially concave forming a bowl-like surface that transitions smoothly from a minimum within the concave surface or concavity to a maximum in the direction toward the periphery and in the direction away from the center of the concavity. The bottom surface of the main body is configured or profiled to contact the floor or base of the cabinet into which the compressor is to be installed.
    • 压缩机和压缩机机柜的地板之间定位有单件偏移安装脚。 偏置安装脚具有具有几何形状的主体,其顶表面和底表面通过形成周边的侧壁连接。 顶表面中的凹陷接收压缩机并沿其中一个侧壁的方向偏移。 多个基本相等间隔的腿从主体向外延伸。 偏移安装脚的厚度可以通过主体基本均匀。 主体中的顶面的轮廓基本上是凹形的,形成碗状表面,该碗状表面从凹面或凹部内的最小平滑过渡到朝向周边的方向和远离中心的方向的最大值 凹。 主体的底面被构造或成型为与要安装压缩机的机柜的地板或底座接触。
    • 3. 发明授权
    • Resistive suction muffler for refrigerant compressors
    • 用于制冷压缩机的电阻吸入消声器
    • US06840746B2
    • 2005-01-11
    • US10188276
    • 2002-07-02
    • Steven Edwin MarshallDavid Rex GilliamTimothy Michael WamplerDavid Turner Monk
    • Steven Edwin MarshallDavid Rex GilliamTimothy Michael WamplerDavid Turner Monk
    • F04B39/00F04B53/00
    • F04B39/0061F04B39/005Y10S181/403Y10S417/902
    • A resistive muffler attenuates sound generated by the gas intake and suction valve during compressor operation of a refrigerant compressor. The resistive muffler is assembled inline with the suction gas flow of the compressor and is positioned within the compressor housing. The resistive muffler attenuates the sound generated by the compressor during its operation as refrigerant gas is drawn into the compressor from an evaporator and passes through the resistive muffler in transit to the suction valve and hence to the region of the compressor where the gas is physically compressed. The resistive muffler includes a muffler housing having an intake end and an exhaust end. An acoustic foam assembly is incorporated into the muffler housing. The acoustic foam assembly is selected on the basis of its ability to absorb sound over a broad range of frequencies and is the muffler containing the acoustic foam is assembled within the compressor so that the sound does not bypass the muffler and transmit significant amounts of the sound to the compressor housing. The acoustic foam remains chemically inert when exposed to the compressor fluids at elevated temperatures of operation, and retains its ability to absorb sound over a broad range of frequencies even when saturated with compressor fluids. The foam assembly should also be able to withstand very large pressure fluctuations without experiencing deterioration.
    • 电阻式消声器在制冷剂压缩机的压缩机运行期间衰减由进气和吸入阀产生的声音。 电阻消声器与压缩机的吸入气流一起组装并且位于压缩机壳体内。 电阻式消声器在其运行期间衰减由压缩机产生的声音,因为制冷剂气体从蒸发器吸入压缩机中并且通过电阻消声器传送到吸入阀,并因此通过压缩机的被物理压缩的区域 。 电阻消声器包括具有进气端和排气端的消声器壳体。 声学泡沫组件结合到消音器壳体中。 基于其在宽频率范围内吸收声音的能力来选择声学泡沫组件,并且将包含声学泡沫的消声器组装在压缩机内,使得声音不绕过消音器并传输大量的声音 到压缩机壳体。 声波泡沫在高压运行的温度下暴露于压缩机流体时仍保持化学惰性,并且即使在压缩机流体饱和时也能保持其在宽频率范围内吸收声音的能力。 泡沫组件也应能够经受非常大的压力波动而不会经历劣化。
    • 10. 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。