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    • 1. 发明授权
    • Control valve for cryogenic use
    • 低温控制阀
    • US06321774B1
    • 2001-11-27
    • US09483609
    • 2000-01-14
    • Karl-Heinz Ott
    • Karl-Heinz Ott
    • F16K326
    • F16K31/52F02K9/58F16K1/12F16K31/047F16K31/52433F16K31/54G05D16/202Y10T137/3367Y10T137/86734
    • A motor-driven control valve for cryogenically liquified rocket propellant comprises a valve casing with a co-axial inlet port and outlet port, a slidable regulating sleeve, an electric motor, a gear, a drive chamber within the casing, and a drive transmission in the drive chamber. The regulating sleeve is centrally arranged and slidably mounted and sealed in the valve casing and the drive chamber. Flow slots are circumferentially distributed around the regulating sleeve. The externally mounted motor and gear control the position of the regulating sleeve through the drive transmission. Sliding adjustment of the position of the sleeve regulates the exposed cross-section of the flow slots, thereby also regulating the open and closed switching of the control valve. The regulating sleeve is the only moving part exposed to the flowing liquid, and the liquid pressure and flow forces act only radially on the axially slidable sleeve, so that the hydraulic forces do not influence the driving force required for opening and closing the valve.
    • 用于低温液化火箭推进剂的电动控制阀包括具有同轴入口和出口的阀壳,可滑动调节套,电动马达,齿轮,壳体内的驱动室,以及驱动传动装置 驱动室。 调节套筒集中布置并可滑动地安装并密封在阀壳体和驱动室中。 流动槽围绕调节套筒周向分布。 外部安装的电机和齿轮通过驱动传动装置控制调节套筒的位置。 套筒的位置的滑动调节调节流槽的暴露横截面,从而也调节控制阀的打开和闭合切换。 调节套筒是仅暴露于流动液体的唯一移动部件,液体压力和流动力仅在径向上作用在可轴向滑动的套筒上,使得液压力不影响打开和关闭阀门所需的驱动力。
    • 2. 发明授权
    • Valve with seat assembly
    • US06648001B2
    • 2003-11-18
    • US09994530
    • 2001-11-27
    • Vijay R. Chatufale
    • Vijay R. Chatufale
    • F16K326
    • F16K5/0471F16K5/188Y10T137/0491Y10T137/0508
    • A rotary plug valve is disclosed in a preferred embodiment that has two telescoping seat assemblies that fit into respective recesses provided in the valve body surrounding a passageway through the plug valve. A valve chamber is formed in the valve body into which the rotary plug may be positioned to control flow through the valve by rotation thereof. In a preferred embodiment, the telescoping seat assemblies provide an upstream and a downstream seal with the rotary plug. The telescoping seat assemblies preferably function differently when in the open and closed position so that both assemblies expand when in the open position whereas in the closed position one assembly expands and one is compressed A line pressure surface is provided to provide a force against the plug seal seat element. The plug seal seat element and plug mate with a curved surface and the contact stress varies depending on the location along the curved surface. The line pressure surface is made large enough so that a sufficient portion of the mating surface has a contact stress greater than line pressure so as to form a fluid tight, e.g., gas tight, seal. In one preferred embodiment, the line pressure surface is made large enough so that the average contact stress is greater than line pressure. In another embodiment, the seals are comprised of a non-permeable material that is sufficiently flexible to conform to sealing surfaces.
    • 4. 发明授权
    • Flow control valve for cooling tower
    • 冷却塔流量控制阀
    • US06357481B2
    • 2002-03-19
    • US09921812
    • 2001-08-03
    • James O. Schagunn
    • James O. Schagunn
    • F16K326
    • F28F25/02F16K5/163F28F27/003F28F27/02Y10S165/90Y10T137/6416Y10T137/87877
    • A lightweight flow control valve for use in cooling towers is provided. The valve includes a lightweight, thin-walled valve body having a flow bore, an inlet port, and an outlet port. The outlet port is disposed in a substantially perpendicular relationship relative to the inlet port. The valve body has a substantially frusto-conically shaped interior surface defining the flow bore. A lightweight, thin-walled barrel having an inlet, an outlet, and a fluid passageway extending between the inlet and the outlet is disposed within the flow bore of the valve body. The inlet of the barrel is concentrically positioned relative to the inlet port of the valve body and the outlet of the barrel is disposed in a substantially perpendicular relationship relative to the inlet of the barrel. The barrel has a substantially frusto-conically shaped exterior surface sealingly engageable against the frusto-conically shaped interior surface of the valve body to provide a substantially fluid-tight seal when the barrel is in a closed position wherein the outlet of the barrel is aligned with the interior surface of the valve body. The barrel is disposed in the internal cavity of the valve body so as to be axially movable to a non-sealing position relative to the valve body to permit the barrel to be rotated to an open position wherein at least a portion of the outlet of the barrel is in open communication with the outlet port of the valve body.
    • 提供了一种用于冷却塔的轻型流量控制阀。 该阀包括具有流动孔,入口和出口的轻质薄壁阀体。 出口端口相对于入口端口大致垂直地设置。 阀体具有限定流动孔的基本截头圆锥形的内表面。 具有入口,出口和在入口和出口之间延伸的流体通道的轻质薄壁桶设置在阀体的流动孔内。 筒的入口相对于阀体的入口同心地定位,并且筒的出口相对于筒的入口以基本垂直的关系设置。 枪管具有基本上截头圆锥形的外表面,密封地可接合于阀体的截头圆锥形内表面,以在枪管处于关闭位置时提供基本上不流体密封的密封,其中枪管的出口与 阀体的内表面。 筒体设置在阀体的内腔中,以便相对于阀体可轴向移动到非密封位置,以允许筒旋转到打开位置,其中至少一部分出口 桶与阀体的出口开口连通。