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    • 3. 发明申请
    • INTEGRATED MANIFOLD SYSTEM FOR CONTROLLING AN AIR SUSPENSION
    • 用于控制空气悬架的集成式管理系统
    • WO2012078255A3
    • 2012-08-09
    • PCT/US2011057831
    • 2011-10-26
    • AIR LIFT COCOOMBS JOSHUA DMULDER AARON
    • COOMBS JOSHUA DMULDER AARON
    • B60G17/00F15B13/08
    • F15B13/0814F15B13/0853Y10T29/49002Y10T137/87169Y10T137/877Y10T137/87885
    • An integrated manifold system 10 maximizes space for the circuit board 16 while enabling efficient control of one or more pneumatic devices. The manifold system includes a manifold block 12, a solenoid valve 8, 9 attached to the manifold block, and a circuit board for controlling the solenoid 14 and other components of an air suspension system. The manifold block includes at least one service port 22 for connecting to a pneumatic device such as an air spring, and a supply port 20 for connecting to a compressor. The solenoid valve is mounted to the manifold block with its longitudinal length being generally parallel to the service port. The circuit board is mounted adjacent to the solenoid valve and oriented generally parallel to the solenoid and service port. A cover 18 encloses the solenoid valve and the circuit board. In one embodiment, the solenoid valve is in fluid communication with the supply port. The solenoid valve is uniquely associated with the service port.
    • 集成歧管系统10最大化电路板16的空间,同时能够有效地控制一个或多个气动装置。 歧管系统包括歧管块12,连接到歧管块的电磁阀8,9和用于控制螺线管14和空气悬架系统的其它部件的电路板。 歧管块包括用于连接到例如空气弹簧的气动装置的至少一个维修口22和用于连接到压缩机的供应口20。 电磁阀安装到歧管块,其纵向长度通常与服务端口平行。 电路板安装在电磁阀附近,大致平行于螺线管和维修口。 盖18包围电磁阀和电路板。 在一个实施例中,电磁阀与供给口流体连通。 电磁阀与服务端口唯一相关联。
    • 5. 发明申请
    • BACKFLUSH METHODS AND DEVICES FOR CHROMATOGRAPHY
    • 背景荧光法和色谱装置
    • WO2012040327A1
    • 2012-03-29
    • PCT/US2011/052550
    • 2011-09-21
    • PERKINELMER HEALTH SCIENCES, INC.TIPLER, Andrew
    • TIPLER, Andrew
    • B01D53/02
    • G01N30/40G01N30/32G01N30/463G01N30/465G01N30/468G01N30/6095G01N2030/402G01N2030/445Y10T137/0318Y10T137/0396Y10T137/877
    • Chromatography systems include a micro fluidic device and that implement one or more methods to direct sample to a desired fluid flow path. A method of modulating flow of a fluid in a chromatography system including a micro fluidic device fluidic ally coupled to an injector is described. In certain examples, the method comprises controlling fluid pressure of the system to permit a sample to flow from the injector and into the microfluidic device and to a first fluid flow path and a second fluid flow path each fluidically coupled to the micro fluidic device at a separate outlet port of the micro fluidic device, and altering the pressure of the system to reverse the flow of the sample in at least one of the first fluid flow path and the second fluid flow path to backflush sample in the fluid flow path where the pressure is reversed.
    • 色谱系统包括微流体装置,并且实施一种或多种方法将样品引导到期望的流体流动路径。 描述了一种在色谱系统中调节流体流动的方法,该色谱系统包括耦合到注射器的流体联合微流体装置。 在某些实施例中,该方法包括控制系统的流体压力,以允许样品从注射器流入微流体装置,并流动到第一流体流动路径和第二流体流动路径,每个流体流动路径和第二流体流动路径流体耦合到微流体装置 单独的微流体装置的出口,并且改变系统的压力以使第一流体流动路径和第二流体流动路径中的至少一个中的样品的流动反向,以在流体流动路径中反吹样品,其中压力 相反。
    • 6. 发明申请
    • 内視鏡洗浄消毒装置連結具、流体供給装置
    • 内窥镜清洗和消毒装置的联合器,流体供应装置
    • WO2012005089A1
    • 2012-01-12
    • PCT/JP2011/063512
    • 2011-06-13
    • オリンパスメディカルシステムズ株式会社中西 信之
    • 中西 信之
    • A61B1/12A61B1/00G02B23/24
    • G02B23/2476A61B1/121A61B1/125Y10T137/877
    • 流体供給装置接続部5と、流体供給装置接続部5に各一端が連通された、流体供給装置100から供給された流体が通過する第1流通部3及び第2流通部4と、第1流通部3及び第2流通部4の各他端に設けられ、内視鏡10が具備する管路18に連通する開口部17kに対して接続される、開口部17k内に挿入されて第1流通部3を通過した流体を、管路18内に吐出する第1吐出部3tと、開口部17k周りに配置されて第2流通部4を通過した流体を開口部17k周りに吐出する第2吐出部4tとを有する内視鏡接続部6と、を具備する。
    • 公开了一种用于内窥镜清洁和消毒装置和流体供应装置的联接器,包括:流体供应装置连接单元(5); 第一流动部分(3)和第二流动部分(4),其一端连接到流体供应装置连接单元(5),流体供应装置(100)供应的流体通过该第一流动部分; 以及设置在每个所述第一流动部分(3)和所述第二流动部分(4)的另一端的内窥镜连接单元(6),其连接到连接到设置在所述内窥镜中的管道(18)的开口(17k) (10),并且具有第一排出部(3t),其排出到已经插入到所述开口(17k)中并且已经通过所述第一流动部分(3)的流体(18)中,并且第二排出 (4t),位于开口(17k)的周边并排放到已经通过第二流动部分(4)的开口(17k)流体的周边。
    • 7. 发明申请
    • INJECTION OR OTHER SYSTEM WITH ANTI-THERMAL LOCKDOWN MECHANISM AND RELATED METHOD
    • 注射或其他具有防热锁定机构的系统及相关方法
    • WO2011100160A1
    • 2011-08-18
    • PCT/US2011/023670
    • 2011-02-04
    • HONEYWELL INTERNATIONAL INC.VAN BEKKUM, Frank
    • VAN BEKKUM, Frank
    • E21B34/10E21B43/12
    • F02M43/00F02M2200/95Y10T137/0396Y10T137/877
    • An apparatus (100) includes a first valve (114) configured to selectively direct material to first and second outlets (118, 122) and a second valve (120) configured to block the second outlet. The first and second valves define a dead space (126) that has a volume between the first and second valves. The apparatus also includes a pressure compensation unit (128) configured to dynamically provide an additional volume for material trapped in the dead space when the trapped material expands. The pressure compensation unit could include a piston (132) configured to move within a space (130) of the pressure compensation unit, where increased pressure in the dead space causes the trapped material to push against the piston in order to provide the additional volume for the trapped material. The pressure compensation unit could further include a spring (134) configured to bias the piston and a seal (136) configured to substantially prevent the trapped material from passing the piston and contacting the spring.
    • 设备(100)包括被配置为选择性地将材料引导到第一和第二出口(118,122)的第一阀(114)和被配置为阻挡第二出口的第二阀(120)。 第一和第二阀限定了在第一和第二阀之间具有一个体积的死空间(126)。 该装置还包括压力补偿单元(128),该压力补偿单元(128)被配置为当被捕获的材料膨胀时动态地提供被困在死空间中的材料的附加体积。 压力补偿单元可以包括构造成在压力补偿单元的空间(130)内移动的活塞(132),其中死区中的增加的压力导致被捕获的材料推靠在活塞上,以便为 被困材料。 压力补偿单元还可以包括构造成偏置活塞的弹簧(134)和构造成基本上防止被捕获的材料通过活塞并接触弹簧的密封件(136)。
    • 8. 发明申请
    • HYDRAULIC CIRCUIT AND MANIFOLD WITH MULTIFUNCTION VALVE
    • 带多功能阀的液压回路和歧管
    • WO2011037612A3
    • 2011-08-04
    • PCT/US2010002561
    • 2010-09-20
    • US ENVIRONMENTGRAY CHARLES L
    • GRAY CHARLES L
    • F15B13/02F15B11/02F16K1/22F16K11/00F16K31/52
    • G05D7/0641Y10T137/0318Y10T137/0396Y10T137/7771Y10T137/778Y10T137/7878Y10T137/7898Y10T137/7906Y10T137/877
    • A hydraulic manifold has features adapted to the needs of hybrid vehicle applications. In one embodiment, multifunction valves selectively regulate fluid flow among primary and auxiliary flow paths. A normally closed butterfly valve is biased by a relatively small secondary biasing force against rotation in first and second (opposite) directions, and by a relatively large principal biasing force against rotation in the first direction past a transitional angular position at which the principal biasing force takes effect. An actuator selectively controls the transitional angular position and the magnitude of the principal biasing force. In the first direction, flow must overcome only the secondary biasing force to pass the valve. In the second direction, any flow sufficient to overcome the secondary biasing force but not the principal biasing force will divide into a first flow passing the valve and a second flow induced to enter an auxiliary path upstream. Additional flow causing the principal biasing force to additionally be overcome will substantially pass the valve as part of the first flow. This and other embodiments provide a manifold that is controllable to allocate flow among primary and auxiliary paths while remaining responsive to sudden large changes in flow independently of immediate control response.
    • 液压歧管具有适应混合动力车辆应用需求的特征。 在一个实施例中,多功能阀选择性地调节主和辅助流动路径之间的流体流动。 常闭蝶形阀在第一和第二(相反)方向上受到相对较小的第二偏置力的偏转,并且受到相对较大的主偏置力的作用,以抵抗第一方向上的旋转经过过渡角位置,在该过渡角位置处,主偏置力 生效。 致动器选择性地控制主偏置力的过渡角位置和大小。 在第一个方向上,流量必须仅克服通过阀门的辅助偏置力。 在第二方向上,任何足以克服二级偏置力而不是主偏置力的流动将分成通过阀的第一流动和被诱导进入上游的辅助路径的第二流动。 引起主偏压力额外被克服的附加流动将基本上通过阀作为第一流的一部分。 该实施例和其它实施例提供了一种可控制的歧管,以在主流程和辅助流程之间分配流量,同时保持响应流量的突然的大的变化,而与立即的控制响应无关。