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    • 1. 发明授权
    • Connector for fluid container
    • 流体容器连接器
    • US06568427B2
    • 2003-05-27
    • US09930027
    • 2001-08-14
    • Takashi Imai
    • Takashi Imai
    • F17D100
    • B67D7/0283B67D7/0294F16L37/23F16L37/413Y10T137/86348
    • A connector comprises a synthetic resin plug 11 fitted to an opening portion 1a of a container 1 that stores a liquid, and a socket 13 for connection to the plug 11. The plug 11 comprises, a lid body 14 secured in a fluid tight manner to the opening portion 1a, a plug portion 16 provided on the lid body 14 and connectable to the socket 13, and a siphon tube 17 extending downward from a lower portion of the lid body 14 such that when the lid body 14 is secured to the opening portion 1a, a lower end is arranged near a bottom of the container 1. The siphon tube 17 comprises a tube integrally formed with the lid body 14. As a result, when the liquid inside the container 1 is drawn out, gas leakage from the siphon tube 17 can be reliably prevented, so that erroneous detection of an “empty” detection can be reliably prevented and the liquid completely used up.
    • 连接器包括装配到容纳液体的容器1的开口部分1a上的合成树脂插头11和用于连接到插头11的插座13.插头11包括:盖体14,其以流体密封的方式固定到 开口部1a,设置在盖体14上并与插座13连接的插头部16,以及从​​盖体14的下部向下方延伸的虹吸管17,使得当盖体14固定在开口部 部分1a,下端设置在容器1的底部附近。虹吸管17包括与盖体14一体形成的管。结果,当容器1内的液体被抽出时,气体从 可以可靠地防止虹吸管17,从而可以可靠地防止“空”检测的错误检测,并且液体完全消耗。
    • 2. 发明授权
    • Fool-proof plug in fluid system
    • 流体系统防潮插头
    • US06668851B2
    • 2003-12-30
    • US10115742
    • 2002-04-03
    • Dale L. HunsbergerJack A. Price
    • Dale L. HunsbergerJack A. Price
    • F17D100
    • F04C14/28F02M37/04F04C15/00Y10T137/5109Y10T137/598
    • A plug for plugging a first port and blocking insertion of a second plug into a second port of a fluid system. The plug includes a threaded plug portion and a blocking stem portion extending from the threaded plug portion. The stem portion projects into the second port and blocks insertion or mounting of a second plug and thereby keeps the second port unplugged. In a disclosed embodiment, the plug is mounted into the return port of an oil pump unit of an oil burner to block bypassed flow from returning to the local reservoir of the oil pump unit. This prevents two plugs from being inadvertently mounted that could otherwise block all bypass flow in the pump unit and cause excess pressure build ups and blown seals.
    • 用于插入第一端口并阻止将第二插头插入流体系统的第二端口的插头。 塞子包括螺纹塞部分和从螺纹塞部分延伸的阻挡杆部分。 杆部分突出到第二端口中并且阻止第二插头的插入或安装,从而保持第二端口被拔出。 在公开的实施例中,塞子被安装到油燃烧器的油泵单元的返回口中,以阻止旁路流量返回到油泵单元的局部储存器。 这样可以防止两个插头被无意安装,否则可能会阻塞泵单元中的所有旁路流,并导致过大的压力积聚和吹风密封。
    • 3. 发明授权
    • Two-piece manifold system for pressure sensing transmitters
    • 用于压力传感器的两件式歧管系统
    • US06176262B1
    • 2001-01-23
    • US09394753
    • 1999-09-13
    • Spencer M. Nimberger
    • Spencer M. Nimberger
    • F17D100
    • G01L19/0015F16K27/003Y10T137/6851Y10T137/87249
    • Different functional control manifolds, adapted for specific process and test applications, are selectively mounted on a common base manifold which independently provides sealing of the process lines of a fluid handling system. This enables a specific functional control manifold such as a single block and controlled vent manifold, a single block and vent manifold, or a double block and bleed cross-over manifold, to be preassembled with a test instrument prior to installation of the test instrument to the base manifold. Each embodiment of the functional control manifold is designed so that the sensing cavities of the test instrument are able to fully drain through the functional control manifold into the base manifold, thereby eliminating a potential source of error during calibration of the test instrument.
    • 适用于特定工艺和测试应用的不同功能控制歧管被选择性地安装在公共基座歧管上,该基座歧管独立地提供流体处理系统的过程管线的密封。 这使得在将测试仪器安装到测试仪器之前,能够将特定的功能控制歧管(例如单个块和受控排气歧管,单个块和排气歧管,或双块和排泄歧管)预先组装在测试仪器上 基座歧管。 功能控制歧管的每个实施例被设计成使得测试仪器的感测腔能够完全通过功能控制歧管排入基座歧管,从而在校准测试仪器期间消除潜在的误差源。
    • 4. 发明授权
    • Apparatus for use of single point watering system with monobloc lead-acid batteries
    • 使用单点浇水系统与单体铅酸电池的设备
    • US06644338B1
    • 2003-11-11
    • US10348797
    • 2003-01-22
    • Daniel N. Campau
    • Daniel N. Campau
    • F17D100
    • H01M10/06H01M2/362Y10T137/4757Y10T137/4857
    • The present invention is directed to a single point watering system for refilling individual cells of a multi cell monobloc lead-acid battery wherein each battery cell is fitted with a refill control valve. The system includes a manifold and a swivel connector fitting. The manifold has (i) a plurality of outlet bosses positioned at a predetermined spacing to permit the manifold to be assembled to the battery with each outlet boss in sealed fluid communication with one of the refill control valves, (ii) at least one inlet port adapted to receive the swivel connector fitting, and (iii) a longitudinally extending passageway for fluid communication between the inlet port and each outlet boss. The swivel connector fitting has an outlet boss which is mounted within the manifold inlet port in sealed fluid communication and is rotatable within the inlet port through 360 degrees. The swivel connector fitting also includes ports to communicate with other components of the single point watering system.
    • 本发明涉及一种用于重新填充多单元单体铅酸电池的单个电池的单点浇水系统,其中每个电池单元装配有再填充控制阀。 该系统包括歧管和旋转连接器配件。 歧管具有(i)多个出口凸台,其以预定间隔定位,以允许歧管组装到电池,每个出口凸台与再填充控制阀之一密封流体连通,(ii)至少一个入口端口 适于接收旋转连接器配件,以及(iii)纵向延伸的通道,用于在入口端口和每个出口凸台之间流体连通。 旋转连接器配件具有出口凸台,该出口凸台以密封的流体连通的方式安装在歧管入口端口内并且可以在入口端口内360度旋转。 旋转连接器配件还包括与单点浇灌系统的其他部件通信的端口。
    • 6. 发明授权
    • Venturi injector with self-adjusting port
    • 文丘里注射器具有自调整端口
    • US06192911B1
    • 2001-02-27
    • US09393437
    • 1999-09-10
    • Ronald L. Barnes
    • Ronald L. Barnes
    • F17D100
    • B01F5/0428B01F3/04099B01F2003/04886B01F2005/044Y10T137/0379Y10T137/2202Y10T137/87587Y10T137/87611
    • A self-adjusting venturi/mixer is disclosed. An inlet port body and outlet port body having a converging region and diverging region, respectively, are longitudinally slidably disposed with respect to each other, forming an annular injection gap that widens when the ports are moved apart and narrows when the ports are moved together. The movement is accomplished by virtue of varying fluid pressure at the inlet port, which exerts frictional pull on the outlet port, pulling the inlet port body away from the outlet port body. In other embodiments, a flexible member is positioned peripherially around the annular gap so that as the gap widens, the flexible member deforms to partially close the gap. This keeps the bubble size small where a gas is being injected into a liquid, and also limits a maximum flow of additive material at excessive flow rates.
    • 公开了一种自调节文氏管/混合器。 分别具有会聚区域和发散区域的入口端口主体和出口端口主体相对于彼此纵向可滑动地设置,形成当端口移动分开时变宽的环形注入间隙,并且当端口一起移动时变窄。 通过在入口端口处改变流体压力来实现运动,该压力在出口端口施加摩擦力拉动,将进口端口体体远离出口端口主体。 在其它实施例中,柔性构件围绕环形间隙定位在周边,使得随着间隙变宽,柔性构件变形以部分地闭合间隙。 这在气体注入液体时保持气泡尺寸小,并且还限制了过量流速下添加剂材料的最大流量。
    • 7. 发明授权
    • Shut-off device for conveyor conduits
    • 输送管道切断装置
    • US06170521B2
    • 2001-01-09
    • US09232474
    • 1999-01-15
    • Marcel O. RohrPeter Mueller
    • Marcel O. RohrPeter Mueller
    • F17D100
    • F16L55/10Y10T137/87917
    • A shut-off device for selectively stopping the flow of conveyed loose bulk materials in a conveyor conduit includes a housing (2) with a flow passage (3) therethrough, and at least one shut-off element (4, 5) movably arranged in the housing. The at least one shut-off element (4, 5) is driven by at least one drive (7, 8) and is arranged in such a manner that it moves between a first open position in which the flow passage (3) is completely open, and a second nearly closed position in which the flow passage (3) is nearly but not completely closed. Namely, a flow gap (6) preferably having a dimension on the order of the particle size of the goods to be conveyed, remains open even when the shut-off element (4, 5) is in its most-closed position. Particles of the conveyed material become caught on or in the gap (6) to effectively close off and stop the flow of conveyed materials. Avoiding the complete closure of the flow passage (3) prevents particles of the conveyed material from interfering with the closing operation or become pinched by the closing shut-off element, and the required closing force is reduced. Such a shut-off device can be arranged in series with a second shut-off device that completely closes the flow passage in an airtight sealed manner, whereby this second shut-off device does not have to separate or pinch off the flow of solid material particles.
    • 用于选择性地停止在输送管道中输送的松散散装材料的流动的切断装置包括具有穿过其中的流动通道(3)的壳体(2)和至少一个切断元件(4,5),可移动地布置在 住房。 所述至少一个切断元件(4,5)由至少一个驱动器(7,8)驱动,并且被布置成使得其在流动通道(3)完全在其中的第一打开位置之间移动 打开和第二近似关闭位置,其中流动通道(3)几乎但不完全关闭。 也就是说,即使当关闭元件(4,5)处于其最接近的位置时,优选地具有待运输的商品的粒度的大小的尺寸的流动间隙(6)保持打开。 所输送的材料的颗粒被捕获在间隙(6)中或间隙(6)中以有效地闭合和停止输送的材料的流动。 避免流动通道(3)的完全关闭防止输送的材料的颗粒干扰闭合操作或被闭合切断元件夹住,并且所需的闭合力减小。 这种截止装置可以与第二截止装置串联布置,其以气密密封的方式完全关闭流动通道,由此该第二截止装置不必分离或夹紧固体材料的流动 粒子。
    • 8. 发明授权
    • Selector valve arrangement
    • 选择阀配置
    • US06799604B1
    • 2004-10-05
    • US10070229
    • 2002-02-28
    • Christopher SamwellRobert William Bishop
    • Christopher SamwellRobert William Bishop
    • F17D100
    • F16K11/074F16K11/18Y10T137/86501Y10T137/87088Y10T137/87249Y10T137/87981
    • A selector valve arrangement (4 or 6) primarily for a shower bath unit comprises a radially directed and angularly movable flow directing ported valve member (40 or 60) within a valve chamber (41 or 61) having ports (45-48 or 63-65) with which porting (44 or 66) of the valve member (40 or 60) selectively communicates on appropriate rotational positioning of the valve member (40 or 60). The valve member (40 or 60) receives fluid (usually water) for distribution through a selected port or ports (45-48 or 63-65) from an on/off fluid flow control inlet valve (43 or 30). In one arrangement a spindle (42) for rotating the valve member (40) is also axially operable and releasably lockable (49, 50) for operating the on/off flow valve (43). In a further development an operating spindle has a co-axial hollow shaft (62) about it which can be releasably locked (70,73) to the spindle (32) and when they are so locked together the shaft (62) operates the ported valve member (60) with the on/off flow inlet valve such as a ceramic disc type valve (30) remaining inoperative i.e. during port selection. On release of the shaft (62) from the spindle (32) the latter can independently operate the on/off flow inlet valve (30) for admitting fluid flow to the ported valve member (60) and to the porting (66). The selector valve arrangement (4 or 6) may be received in a body (10) or body assembly (100) having passageways (15-17 or 113 and 114) for directing selected fluid flow to locations of use such as to shower heads or the like.
    • 主要用于淋浴器单元的选择阀装置(4或6)包括在具有端口(45-48或63-)的阀室(41或61)内的径向和角度可移动的导流阀构件(40或60) 65),阀构件(40或60)的移动(44或66)在阀构件(40或60)的适当旋转定位上选择性地连通。 阀构件(40或60)接收流体(通常为水),用于从开/关流体流量控制入口阀(43或30)通过选定的端口(45-48或63-65)分配。 在一种布置中,用于旋转阀构件(40)的主轴(42)也可轴向地操作和可释放地锁定(49,50),用于操作开/关流量阀(43)。 在进一步的发展中,操作主轴具有围绕其的同轴中空轴(62),其可以可释放地锁定(70,73)到主轴(32),并且当它们被锁定在一起时,轴(62)操作端口 具有诸如陶瓷盘式阀(30)的开/关流入口阀的阀构件(60)在端口选择期间保持不动作。 在轴(62)从主轴(32)释放时,后者可以独立地操作开/关流入口阀(30),用于允许流体流入入口阀构件(60)和移入端口(66)。 选择阀装置(4或6)可以容纳在具有通道(15-17或113和114)的主体(10)或主体组件(100)中,用于将选定的流体流引导到使用位置,例如淋浴头或 类似。
    • 10. 发明授权
    • Annular fluid manipulation in lined tubular systems to enhance component mechanical properties and flow integrity
    • 衬里管状系统中的环形流体操纵,以增强部件机械性能和流动完整性
    • US06601600B1
    • 2003-08-05
    • US10018147
    • 2002-05-21
    • Jack Curtis Taylor
    • Jack Curtis Taylor
    • F17D100
    • G05D11/03F17D5/04G05D21/00Y10T137/0419Y10T137/0424Y10T137/5762
    • A method of treating fluids in an annulus (18), comprising the steps of: providing a fluid-circulation annulus (18) between a host tubular (10) and a liner (17) therein; and manipulating fluids in the annulus (18) so that the relative proportions of fluid components in the annular fluid correspond to the relative permeation rates of the fluid components from the bore to the annulus (18). The method may further comprise the steps of: detecting an undesired fluid in the annulus (18); and manipulating the annular fluids in response to the undesired fluid, so that the relative proportions of fluid components in the annular fluid, including the undesired fluid, correspond to the relative permeation rates of the fluid components from the bore to the annulus (18). In a case where the undesired fluid has potential for harm to the host tubular (10), the manipulating step may reduce the potential for harm.
    • 一种处理环空(18)中的流体的方法,包括以下步骤:在主管(10)和衬管(17)之间提供流体循环环(18); 以及操纵所述环空(18)中的流体,使得所述环形流体中的流体组分的相对比例对应于所述流体组分从所述孔到所述环(18)的相对渗透速率。 该方法还可以包括以下步骤:检测环空(18)中的不需要的流体; 以及响应于不期望的流体操纵环形流体,使得包括不需要的流体的环形流体中的流体组分的相对比例对应于流体组分从孔到环(18)的相对渗透速率。 在不期望的流体具有对主管(10)的危害的可能性的情况下,操纵步骤可以减少危害的可能性。