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    • 3. 发明申请
    • Gas handling method for dual bottle subsea accumulators
    • 双瓶海底蓄水器的气体处理方法
    • US20150322972A1
    • 2015-11-12
    • US14274094
    • 2014-05-09
    • Reel Power Licensing Corp.
    • Benton Frederick Baugh
    • F15B3/00
    • F15B3/00E21B33/0355F15B1/08F15B1/24F15B21/006F15B2201/205F15B2201/31F15B2201/32F15B2201/4155Y02E60/15
    • The method of safely handling compressed gas in a dual bottle subsea accumulator during service operations comprising providing a gas bottle for the primary purpose of storing gas which will be compressed to provide accumulated energy, providing a hydraulic bottle with the primary purpose of converting the energy stored in the gas bottle into pressurized hydraulic supply fluid, providing interconnecting plates at the top and bottom of the gas bottle and the hydraulic bottle with porting to communicate the gas from the gas bottle to the hydraulic bottle, providing a first closure valve in a protected position within the top of the gas bottle, providing a second closure valve in a protected position within the bottom of the gas bottle, expelling a majority of the gas from the hydraulic bottle into the gas bottle, closing the first closure valve and the second closure valve, and removing the interconnecting plates from the gas bottle and the hydraulic bottle, and servicing the hydraulic bottle.
    • 在维修操作期间安全地处理双瓶海底蓄能器中的压缩气体的方法包括提供气瓶,其主要目的是储存将被压缩以提供累积能量的气体,提供主要用于转换存储的能量的主要目的的液压瓶 在气瓶中加入液压供应流体,在气瓶的顶部和底部提供互连板,液压瓶具有将气体从气瓶与液压瓶连通的液压瓶,提供处于受保护位置的第一关闭阀 在气瓶的顶部内,在气瓶的底部内的受保护位置提供第二闭合阀,将大部分气体从液压瓶排出到气瓶中,将第一闭合阀和第二闭合阀 ,并从气瓶和液压瓶中取出互连板,并对液压b进行维修 小丑
    • 4. 发明申请
    • BLADDER SURGE SUPPRESOR
    • US20150167886A1
    • 2015-06-18
    • US14108278
    • 2013-12-16
    • Young Engineering & Manafacturing, Inc.
    • Winston B. Young
    • F16L55/053
    • F16L55/053F15B1/165F15B2201/3152F15B2201/4155F15B2201/615Y10T137/0486Y10T137/3118
    • A bladder and attachment member assembly for use with a container comprises an elastomeric gas-filled bladder comprising a valve stem. A first attachment member is disposed over the valve stem within the container with the bladder. A second attachment member is disposed over the valve stem and over the first attachment member. The second attachment member is outside of the container interposed between the valve stem and a container opening. Rotational movement of the valve stem is fixed relative to one or both of the first and second attachment members. In an example, the valve stem comprises one or more surface features that register with one or more surface features of the first and/or second attachment member to thereby fix relative valve stem rotational movement. In an example, the valve stem surface feature is a flat surface that registers with a flat surface of the second attachment member inside diameter.
    • 用于容器的气囊和附接构件组件包括包括阀杆的弹性气体填充气囊。 第一附接构件设置在具有气囊的容器内的阀杆的上方。 第二附接构件设置在阀杆上方并且在第一附接构件上方。 第二附接构件位于容纳在阀杆和容器开口之间的容器的外部。 阀杆的旋转运动相对于第一和第二附接构件中的一个或两个固定。 在一个示例中,阀杆包括与第一和/或第二附接构件的一个或多个表面特征对准的一个或多个表面特征,从而固定相对阀杆旋转运动。 在一个示例中,阀杆表面特征是与第二附接构件内径的平坦表面对准的平坦表面。
    • 9. 发明申请
    • Method for the production of piston-type accumulators
    • 活塞式蓄能器生产方法
    • US20060016074A1
    • 2006-01-26
    • US10540011
    • 2004-01-15
    • Herbert BaltesWalter Dorr
    • Herbert BaltesWalter Dorr
    • B21D51/16
    • F15B1/24F15B2201/205F15B2201/312F15B2201/4155F15B2201/605Y10T29/49394Y10T29/49915Y10T29/49918
    • The invention relates to a method for producing piston-type accumulators comprising an accumulator housing (10) and a separating piston which can be displaced in a longitudinal direction inside the accumulator housing (10) and separates two working spaces located therein. The end faces of the accumulator housing are sealed by means of one respective cover part (20). Previously known production methods are further improved due to the fact that the cover part (20) is fixed on one side (40) thereof via the free longitudinal edge (32) of the accumulator housing (10), which is displaced towards the cover part (20) in order to do so, such that a functionally and positionally secure connection of a cover part is ensured within the housing of a piston-type accumulator without using standard threaded connections.
    • 本发明涉及一种用于生产活塞式蓄能器的方法,其包括蓄能器壳体(10)和分离活塞,所述蓄能器壳体(10)和分离活塞可以在蓄能器壳体(10)的内部沿长度方向移位并且分离位于其中的两个工作空间。 蓄能器壳体的端面通过一个相应的盖部分(20)密封。 由于盖部分(20)经由蓄能器壳体(10)的自由纵向边缘(32)固定在其一侧(40)上,因此先前已知的制造方法进一步改进, (20),以便在不使用标准螺纹连接的情况下确保活塞式蓄能器的壳体内的盖部件的功能和位置固定的连接。
    • 10. 发明授权
    • Hydraulic accumulator
    • 液压蓄能器
    • US06866066B2
    • 2005-03-15
    • US10399857
    • 2001-11-07
    • Norbert Weber
    • Norbert Weber
    • F15B1/033F15B1/22F15B1/24F15B13/00F16L55/04
    • F15B1/22F15B1/033F15B1/24F15B2013/004F15B2201/205F15B2201/31F15B2201/411F15B2201/4155Y10T137/7792
    • A hydraulic accumulator, especially a piston accumulator, includes an accumulator housing (10) with at least one gas chamber (12) and a fluid chamber (14). These chambers are separated from each other by a separating element (16). At least one of these chambers (12, 14) can be filled with a pressure medium or at least partially emptied through at least one valve control unit (26) which has switching valves (28, 30). One switching valve (28) is accommodated in a corresponding valve location (29), and can be moved in the direction of movement of the separating element (16) from an opening position into closing position and vice-versa. Expensive line network between the hydraulic accumulator and the valve control unit is avoided. Sealing or leakage problems, such as are common in a line network, never occur. The valve control unit (26) is accommodated in a valve block (24) which is independent from the housing (10). The valve block (24) has an additional valve location (31) for an additional switching valve (30) for performing another switching task. The valve locations (29, 31) are configured essentially identically and are situated eccentrically in relation to the longitudinal axis (33) of the hydraulic accumulator for modular use of the switching valves (28, 30), which are configured as identical parts.
    • 液压蓄能器,特别是活塞蓄能器包括具有至少一个气室(12)和流体室(14)的蓄能器壳体(10)。 这些室通过分离元件(16)彼此分离。 这些腔室(12,14)中的至少一个可以用压力介质填充或至少部分地通过具有切换阀(28,30)的阀控制单元(26)排空。 一个切换阀(28)容纳在对应的阀位(29)中,并且可以在分离元件(16)从打开位置移动到关闭位置的方向上移动,反之亦然。 避免了液压蓄能器和阀门控制单元之间的昂贵的线路网络。 密封或泄漏问题,如线路网络中常见的,永远不会发生。 阀控制单元(26)容纳在与壳体(10)独立的阀块(24)中。 阀块(24)具有用于执行另一切换任务的附加切换阀(30)的附加阀位(31)。 阀位置(29,31)基本上相同地配置,并且相对于液压蓄能器的纵向轴线(33)偏心地设置,用于模块化地使用配置为相同部件的切换阀(28,30)。