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    • 1. 发明申请
    • GAS BIASED PRESSURE REGULATOR
    • 气体偏压调节器
    • WO2013009924A1
    • 2013-01-17
    • PCT/US2012/046324
    • 2012-07-11
    • NEWMAN, Shmuel, DovidBROWN, Jeffrey, O.YSN IMPORTS, INC.
    • NEWMAN, Shmuel, DovidBROWN, Jeffrey, O.
    • F16K31/12F16K17/02G05D16/02F24C3/12
    • F02M21/0239G05D16/106Y02T10/32Y10S137/906Y10T137/7793Y10T137/7796Y10T137/7827
    • Exemplary embodiments of a gas biased pressure regulator comprise a capsule subassembly and a regulator body. The regulator body is adapted to connect to a source of pressurized gas. The capsule subassembly is removably received within the regulator body and includes a capsule body and a piston. The piston is axially slidable between fluid release and fluid seal configurations. When the piston is in its fluid release configuration, an output chamber is placed in fluid communication with the source. When the piston is in its fluid seal configuration, the output chamber is sealed from fluid communication with the source. A pressurizable bias chamber within the capsule body contains a bias pressure urging the piston toward its fluid release configuration. Pressure from the source urges the piston toward its fluid seal configuration. The piston may also have a fluid charge configuration for facilitating the pressurization of the bias chamber.
    • 气体偏压调压器的示例性实施例包括胶囊子组件和调节器本体。 调节器主体适于连接到加压气体源。 胶囊子组件可移除地容纳在调节器主体内并且包括胶囊主体和活塞。 活塞在流体释放和流体密封配置之间可轴向滑动。 当活塞处于其流体释放构造时,输出室与源流体连通。 当活塞处于其流体密封结构时,输出室与源流体连通地密封。 胶囊主体内的可加压偏压室包含使活塞朝向其流体释放构造的偏压。 来自源的压力促使活塞朝向其流体密封结构。 活塞还可以具有用于促进偏压室的加压的流体供应构造。
    • 2. 发明申请
    • COMPRESSED GAS REGULATOR APPARATUS
    • 压缩气体调节器装置
    • WO2010083358A1
    • 2010-07-22
    • PCT/US2010/021110
    • 2010-01-15
    • YSN IMPORTS, INC.NEWMAN, Shmuel, DovidBROWN, Jeffrey, O.
    • NEWMAN, Shmuel, DovidBROWN, Jeffrey, O.
    • F17C13/04F16K17/00G05D16/02
    • G05D16/103F41B11/723Y10T137/7793Y10T137/7826
    • Regulators for regulating gas that is delivered in discrete charges from a tank that contains compressed gas to a paintball gun, marker, or other application that utilizes or is activated by pressure controlled discrete charges of gas. The regulator has holding, discharge, and fill configurations, controlled by the movement of a piston member in a pressurized chamber, and the activation of a poppet valve on the discharge of the system. One or two low side pressure relief members are provided to prevent the over-pressurization of the pressurized chamber. An externally threaded sleeve member is non-rotatably, but axially slidably received on a distal portion of the body of the regulator. The sleeve and regulator body are non-rotatably interengaged through one or more mating spline-groove sets, one or more stud-socket sets, frictional engagement or polygonal socket engagement. The spline-groove or stud- socket sets are symmetrically arrayed around a longitudinal axis of the regulator so that the sleeve member and distal portion may be axially slidably disengaged, and rotation of the regulator to a desired rotational position may be accomplished. In other embodiments, axially tapered surface engagement between the sleeve and regulator, or polygonal socket engagement between the sleeve and regulator, allow the initial rotation of the regulator to a desired rotational position. The regulator is then locked in the desired rotational position by sliding the sleeve member axially onto the distal portion of the regulator. In this way a pressure gauge mounted in a port in the body of the regulator may be positioned for ease of viewing by an operator.
    • 调节器,用于调节从包含压缩气体的罐中以不同的电荷输送到彩弹枪,标记或其他通过压力控制的离散电荷使用或激活的应用的气体。 调节器具有保持,排出和填充构造,由活塞构件在加压室中的运动控制,并且在系统的排出物上启动提升阀。 提供一个或两个低压泄压构件以防止加压室的过度加压。 外螺纹套筒构件是不可旋转的,但轴向可滑动地容纳在调节器主体的远端部分上。 套管和调节器主体通过一个或多个配合花键槽组,一个或多个螺柱插座组,摩擦接合或多边形插座接合而不可转动地相互接合。 花键槽或螺柱插座组围绕调节器的纵向轴线对称地排列,使得套筒构件和远侧部分可以轴向滑动地脱离,并且可以实现调节器到期望的旋转位置的旋转。 在其他实施例中,套筒和调节器之间的轴向锥形表面接合或套筒和调节器之间的多边形插座接合允许调节器的初始旋转到期望的旋转位置。 然后通过将套筒构件轴向滑动到调节器的远端部分上将调节器锁定在期望的旋转位置。 以这种方式,安装在调节器主体中的端口中的压力计可以被定位以便于操作者观看。
    • 3. 发明公开
    • COMPRESSED GAS REGULATOR APPARATUS
    • 气体压力尺装置,
    • EP2387687A1
    • 2011-11-23
    • EP10732121.8
    • 2010-01-15
    • Ysn Imports, Inc.
    • NEWMAN, Shmuel, DovidBROWN, Jeffrey, O.
    • F17C13/04F16K17/00G05D16/02
    • G05D16/103F41B11/723Y10T137/7793Y10T137/7826
    • Regulators for regulating gas that is delivered in discrete charges from a tank that contains compressed gas to a paintball gun, marker, or other application that utilizes or is activated by pressure controlled discrete charges of gas. The regulator has holding, discharge, and fill configurations, controlled by the movement of a piston member in a pressurized chamber, and the activation of a poppet valve on the discharge of the system. One or two low side pressure relief members are provided to prevent the over-pressurization of the pressurized chamber. An externally threaded sleeve member is non-rotatably, but axially slidably received on a distal portion of the body of the regulator. The sleeve and regulator body are non-rotatably interengaged through one or more mating spline-groove sets, one or more stud-socket sets, frictional engagement or polygonal socket engagement. The spline-groove or stud- socket sets are symmetrically arrayed around a longitudinal axis of the regulator so that the sleeve member and distal portion may be axially slidably disengaged, and rotation of the regulator to a desired rotational position may be accomplished. In other embodiments, axially tapered surface engagement between the sleeve and regulator, or polygonal socket engagement between the sleeve and regulator, allow the initial rotation of the regulator to a desired rotational position. The regulator is then locked in the desired rotational position by sliding the sleeve member axially onto the distal portion of the regulator. In this way a pressure gauge mounted in a port in the body of the regulator may be positioned for ease of viewing by an operator.
    • 4. 发明申请
    • LIQUID DISPENSING SYSTEM
    • 液体分配系统
    • WO2008121325A1
    • 2008-10-09
    • PCT/US2008/004064
    • 2008-03-28
    • BEROK ENVIRONMENTAL SERVICES INC.BELL, D., StewartBROWN, Jeffrey, O.
    • BELL, D., StewartBROWN, Jeffrey, O.
    • B67D5/08G01F23/00B67D5/32B67D5/34
    • B67D7/425B67D7/362B67D7/46
    • The present invention is directed to a liquid dispensing system having a valve subsystem and pumping subsystem. The valve subsystem is configured with a pressure sensor subassembly having an electronic interface to determine the liquid level in a vehicle gasoline tank or other liquid vessel. The valve subassembly of the present invention may include a piezoelectric subassembly to detect pressure changes at a nozzle subassembly to shut off the liquid flow through the valve subsystem and from the pump subsystem. Aspects of the present invention may also sense when the nozzle subassembly has been partially removed from a liquid tank fill tube. The present invention may include wireless technology to transmit information from the valve subsystem to the pump subsystem to prevent an overfill condition in the vessel. For example, the pump subsystem will not pump without confirmatory signal from valve subassembly that all components are operating properly.
    • 本发明涉及一种具有阀子系统和泵子系统的液体分配系统。 阀子系统配置有具有电子接口的压力传感器子组件,以确定车辆汽油罐或其它液体容器中的液位。 本发明的阀子组件可以包括压电子组件,用于检测喷嘴子组件处的压力变化,以切断通过阀子系统和泵子系统的液体流。 当喷嘴子组件已经从液体罐填充管部分地移除时,本发明的方面也可以感觉到。 本发明可以包括从阀子系统向泵子系统传送信息以防止容器中的过度填充状况的无线技术。 例如,泵子系统不会泵送没有来自阀组件的确认信号,所有组件均正常运行。