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    • 2. 发明申请
    • FLUID RECOVERY DISPENSER HAVING INDEPENDENTLY BIASED VALVES
    • 具有独立偏心阀的流体回收分配器
    • WO2012126097A1
    • 2012-09-27
    • PCT/CA2012/000261
    • 2012-03-21
    • FUEL TRANSFER TECHNOLOGIES, INC.BONNER, MarkUNDERHILL, Gary
    • BONNER, MarkUNDERHILL, Gary
    • B67D7/54B67D7/46
    • B67D7/54B67D7/3209B67D7/42
    • A dispenser for delivering a fluid from a source to a vessel, where the dispenser includes a fluid delivery passage for receiving the fluid from the source and delivering the fluid to the vessel, and a fluid recovery passage for receiving fluid from the vessel delivering the fluid to the source. The dispenser also includes a first valve for controlling flow of the fluid through the fluid delivery outlet and a second valve for controlling flow of the fluid through the fluid recovery passage. The dispenser also includes an actuator operatively coupled to the first valve and the second valve for effecting movement of the first valve and the second valve from the respective closed positioned to respective opened positions. The first valve and the second valve are independently biased in their respective closed positions.
    • 一种用于将流体从源输送到容器的分配器,其中所述分配器包括用于从所述源接收流体并将流体输送到所述容器的流体输送通道,以及流体回收通道,用于从输送流体的容器接收流体 来源。 分配器还包括用于控制流体通过流体输送出口的流动的第一阀和用于控制流体流过流体回收通道的流体的第二阀。 分配器还包括可操作地联接到第一阀和第二阀的致动器,用于使第一阀和第二阀从相应的闭合位置移动到相应的打开位置。 第一阀和第二阀在各自的关闭位置被独立地偏置。
    • 7. 发明申请
    • A NOZZLE FOR USE IN A NON-OVERFLOW LIQUID DELIVERY SYSTEM
    • 用于非液体液体输送系统的喷嘴
    • WO2010085885A1
    • 2010-08-05
    • PCT/CA2010/000116
    • 2010-01-28
    • FUEL TRANSFER TECHNOLOGIES INC.BONNER, MarkUNDERHILL, Gary
    • BONNER, MarkUNDERHILL, Gary
    • B67D7/54B67D7/52B05B1/00
    • B65B3/30B67D7/46B67D7/54
    • A nozzle for use in a non-overflow liquid delivery system comprises a nozzle body, a liquid delivery conduit having a liquid-receiving inlet and a liquid-dispensing outlet, and a non-bifurcated liquid recovery conduit having a liquid-receiving inlet and a liquid-conveying outlet. The minimum effective internal cross-sectional area of the liquid recovery throughpassage is greater than half the minimum effective internal cross-sectional area of the liquid delivery throughpassage. A valve has a first movable valve portion and a second movable valve portion that are interconnected one to the other for co-operative movement one with the other. A manually operable trigger is connected to the first movable valve portion for corresponding positive uninterruptable movement of the first movable valve portion between a valve-closed configuration and the valve-open configuration.
    • 用于非溢流液体输送系统的喷嘴包括喷嘴主体,具有液体接收入口和液体分配出口的液体输送管道以及具有液体接收入口和非液体分配出口的非分叉液体回收管道 液体输送出口。 液体回收通过的最小有效内部横截面积大于液体输送通过的最小有效内部横截面面积的一半。 阀具有第一可移动阀部分和第二可移动阀部分,第一可移动阀部分和第二可移动阀部分彼此相互连接,用于与另一个相配合。 手动操作的触发器连接到第一可移动阀部分,用于在阀关闭构造和阀打开构型之间的第一可移动阀部分的相应的不间断运动。
    • 8. 发明申请
    • AN AUTOMATIC SHUT-OFF NOZZLE FOR USE IN A NON-OVERFLOW LIQUID DELIVERY SYSTEM
    • 用于非液体液体输送系统的自动关闭喷嘴
    • WO2010085884A1
    • 2010-08-05
    • PCT/CA2010/000115
    • 2010-01-28
    • FUEL TRANSFER TECHNOLOGIES INC.BONNER, MarkUNDERHILL, Gary
    • BONNER, MarkUNDERHILL, Gary
    • B67D7/54B67D7/04B67D7/44
    • B65B3/30B67D7/46B67D7/54
    • An automatic shut-off nozzle comprises a liquid delivery conduit and a liquid recovery conduit. A valve has a first movable valve portion movable between a valve closed position whereat liquid is precluded from being dispensed from the liquid-dispensing outlet of the liquid delivery conduit and a valve open position whereat liquid is permitted to be dispensed from the liquid-dispensing outlet of the liquid delivery conduit. A manually operable valve control mechanism is ^configurable between an operating configuration whereat force can be transmitted from the valve control mechanism to the valve to thereby move the first movable valve portion to the valve open position, and a non-operating configuration whereat force cannot be transmitted from the valve control mechanism to the valve. A liquid sensor has a rest state and an actuated state whereat the liquid sensor reconfigures the manually operable valve control mechanism from the operating configuration to the non-operating configuration.
    • 自动关闭喷嘴包括液体输送管道和液体回收管道。 阀具有第一可移动阀部分,该第一可移动阀部分在阀关闭位置之间移动,其中液体不被从液体输送管道的液体分配出口分配,阀打开位置允许液体从液体分配出口 的液体输送管道。 可手动操作的阀控制机构可以在操作构型之间配置,其中力可以从阀控制机构传递到阀,从而将第一可移动阀部分移动到阀打开位置,并且不能在力作用的非操作构型 从阀门控制机构传递到阀门。 液体传感器具有静止状态和致动状态,其中液体传感器将手动操作的阀控制机构从操作配置重新配置为非操作配置。
    • 9. 发明申请
    • DISPENSING SPOUT
    • 分配SPOUT
    • WO2007065263A1
    • 2007-06-14
    • PCT/CA2006/001993
    • 2006-12-07
    • FUEL TRANSFER TECHNOLOGIES INC.
    • BONNER, Mark
    • B67D5/373B05B1/22B65D25/40B67D5/04B67D5/34B67D5/372F16K21/20
    • B67D7/42B67D7/005
    • This invention relates to a spout for a hose, nozzle or a container and to a hose, nozzle and a container used to dispense liquids into a receptacle from a liquid source such as a gas container, delivery hose or pump. In each case, there is a spout means having a delivery trunk body formed with a dispensing passageway leading to a dispensing opening for delivery of the liquid; a venturi means within the delivery trunk to reduce the pressure within the dispensing passageway as liquid flows through it during use; a control means; said control means having a deactivation means, said deactivation means including an air conduit with an air opening, the air conduit being in communication with the dispensing passageway to permit the drawing of air into the dispensing passageway through the air opening when pressure IH reduced by the venluri means, but inhibiting the flow of air into the dispensing passageway when the air opening is blocked or covered as the liquid level of dispensed liquid reaches the air opening and cuts off access of air into the air opening; a deactivation means to shut off the dispensing opening when the air opening is closed to inhibit air from entering during use.
    • 本发明涉及一种用于软管,喷嘴或容器以及软管,喷嘴和用于将液体从诸如气体容器,输送软管或泵的液体源分配到容器中的容器的喷口。 在每种情况下,都有一个出口装置,具有一个输送主体,形成有分配通道,通向一个用于输送液体的分配开口; 文丘里装置在输送干线内,以减少在使用过程中液体流过分配通道内的压力; 控制装置; 所述控制装置具有停用装置,所述失活装置包括具有空气开口的空气管道,所述空气管道与所述分配通道连通,以便当压力IH减小时通过所述空气开口抽吸空气进入所述分配通道 当所分配的液体的液面达到空气开口并且切断空气进入空气开口的通道时,当空气开口被阻塞或覆盖时,阻止空气流入分配通道中; 当关闭空气开口以禁止空气在使用期间进入时,停用装置来切断分配开口。