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    • 2. 发明授权
    • Apparatus for counting cycles of fluid flow
    • 用于计算流体流动循环的装置
    • US5419191A
    • 1995-05-30
    • US38458
    • 1993-03-29
    • K. Lynn NiehausKevin L. Newcomer
    • K. Lynn NiehausKevin L. Newcomer
    • G01F1/72G01F3/16G06M1/10G01F3/20
    • G01F1/72G01F3/16G06M1/102
    • A counting apparatus which is designed to be placed in parallel to a fluid flow line has a differential pressure switch which is placed across an orifice positioned within the fluid flow line. A counting mechanism is associated with the differential pressure switch to register a count when signaled by the differential pressure switch. The differential pressure switch is operable to react to the difference in pressure across the orifice to signal the counter to register a count. The orifice can be a fixed or a variable orifice. In another embodiment of the invention, a fixed or variable orifice is placed within the diaphragm of a diaphragm type differential pressure switch to adapt the differential pressure switch to be placed in series with the fluid flow line rather than in parallel to it.
    • 被设计为与流体流动管线平行设置的计数装置具有差压开关,其位于流过流体管线内的孔口上。 计数机构与差压开关相关联,用于通过差压开关发出信号时记录计数。 差压开关可操作以对应于孔口两端的压力差,以通知计数器来计数。 孔可以是固定的或可变的孔。 在本发明的另一个实施例中,固定的或可变的孔被放置在隔膜式差压开关的膜片内,以使压差开关与流体流动管线串联放置,而不是平行于其。
    • 3. 发明授权
    • Float operated pneumatic pump to separate hydrocarbon from water
    • 浮动式气动泵将碳氢化合物与水分离
    • US06039546A
    • 2000-03-21
    • US939775
    • 1997-09-29
    • David H. EdwardsKevin L. NewcomerK. Lynn Niehaus
    • David H. EdwardsKevin L. NewcomerK. Lynn Niehaus
    • F04F1/08F04B53/00F04F1/06
    • F04F1/08
    • A float operated pneumatic pump which separates water from hydrocarbons within a well at the pump in accordance with the density or specific gravity of the water and hydrocarbon fluid. The pump includes a displaceable fluid inlet for allowing fluid to enter the pump which generally tracks the level of the water/hydrocarbon interface. The pump includes an outer tube forming an outer chamber and an inner or dip tube placed within the outer chamber of the outer tube and forming an inner chamber. A well float includes the fluid inlet and has a density which enable the float to remain in proximity to the water/hydrocarbon interface. A tubular coil or conduit provides fluid passage between the fluid inlet and the outer chamber. Also, a fluid separator is located at the bottom end of the outer tube and defines a fluid passage between the inner and outer chambers. In one configuration, the separator allows water to exit the pump from the outer chamber while the hydrocarbons remain within the outer chamber. In a second configuration, the separator prevents water from entering the pump and enables hydrocarbons to be discharged from the pump. In an alternative embodiment a single piece intake manifold is used which has a fixed fluid inlet. This permits the overall pump to be made significantly less in length to permit the pumping of shallower amounts of fluids from within a well.
    • 一种浮动操作的气动泵,其根据水和烃流体的密度或比重将泵与泵内的井中的烃分离。 泵包括可移动流体入口,用于允许流体进入泵,其通常跟踪水/烃界面的水平。 泵包括形成外室的外管和放置在外管的外室内部并形成内室的内管或汲取管。 浮子包括流体入口,并且具有使浮子保持靠近水/烃界面的密度。 管状线圈或导管在流体入口和外室之间提供流体通道。 此外,流体分离器位于外管的底端,并且在内室和外室之间限定流体通道。 在一种构造中,分离器允许水从外室离开泵,而烃保留在外室内。 在第二种构造中,分离器防止水进入泵并使烃从泵排出。 在替代实施例中,使用具有固定流体入口的单件进气歧管。 这允许整体泵的长度明显更小,以允许从井内泵送较浅量的流体。
    • 4. 发明授权
    • Float operated pneumatic pump
    • 浮动式气动泵
    • US5358038A
    • 1994-10-25
    • US116288
    • 1993-09-03
    • David H. EdwardsKevin L. NewcomerK. Lynn Niehaus
    • David H. EdwardsKevin L. NewcomerK. Lynn Niehaus
    • F04F1/08E21B43/00F04F1/06
    • F04F1/08
    • A float operated, top fill, recovery unit floats in a body of contaminated groundwater to recover a layer of liquid hydrocarbons residing on top of the groundwater. The recovery unit has an upper end fitted with a discharge check valve assembly and a lower end that is closed, the discharge valve assembly including a semi-permeable screen which is positioned in and skims the liquid hydrocarbons, and a series of passages and check valves for directing the hydrocarbons via a return line to a holding tank. In an embodiment disclosed, the lower end of the unit is formed in part by an inlet check valve arrangement which has had its check ball removed such that the arrangement does not operate to inhibit flow, and a closure plate is secured to the inlet valve arrangement to prevent external fluid from entering the unit. Sinking of the recovery unit allows hydrocarbons to pass through the screen to fill the interior of the unit so that it can be pumped out of the unit by compressed air and conveyed to the holding tank. The top fill recovery unit is easily modified to a bottom fill underground contaminated water recovery unit by removing the closure plate and replacing the check ball in the inlet valve arrangement, removing the top discharge valve assembly, and connecting the return line directly to the top of the unit.
    • 浮动操作的顶部填充回收单元漂浮在受污染的地下水的体内,以回收位于地下水顶部的一层液体烃。 回收单元具有装配有排气止回阀组件和封闭的下端的上端,排出阀组件包括位于液体烃中并使其滑动的半渗透屏幕,以及一系列通道和止回阀 用于将碳氢化合物经由返回管线引导到储存罐。 在所公开的实施例中,单元的下端部分地由进口止回阀装置形成,该止回阀装置已将其止回球移除,使得该装置不工作以阻止流动,并且封闭板固定到入口阀装置 以防止外部流体进入设备。 回收单元的下沉允许碳氢化合物通过筛网以填充单元的内部,使得其可以通过压缩空气被泵出单元并被输送到储存罐。 顶部填充回收单元可以通过移除封闭板并更换入口阀装置中的止回球,移除顶部排放阀组件,并将返回管线直接连接到顶部填充回收单元的顶部 那个单位。
    • 5. 发明授权
    • Float operated pneumatic pump
    • 浮动式气动泵
    • US5495890A
    • 1996-03-05
    • US325699
    • 1994-10-19
    • David H. EdwardsKevin L. NewcomerK. Lynn Niehaus
    • David H. EdwardsKevin L. NewcomerK. Lynn Niehaus
    • F04F1/08E21B43/00F04F1/06
    • F04F1/08
    • A float operated, top fill, recovery unit floats in a body of contaminated groundwater to recover a layer of liquid hydrocarbons residing on top of the groundwater. The recovery unit has an upper end fitted with a discharge check valve assembly and a lower end that is closed, the discharge valve assembly including a semi-permeable screen which is positioned in and skims the liquid hydrocarbons, and a series of passages and check valves for directing the hydrocarbons via a return line to a holding tank. In an embodiment disclosed, the lower end of the unit is formed in part by an inlet check valve arrangement which has had its check ball removed such that the arrangement does not operate to inhibit flow, and a closure plate is secured to the inlet valve arrangement to prevent external fluid from entering the unit. Sinking of the recovery unit allows hydrocarbons to pass through the screen to fill the interior of the unit so that it can be pumped out of the unit by compressed air and conveyed to the holding tank. The top fill recovery unit is easily modified to a bottom fill underground contaminated water recovery unit by removing the closure plate and replacing the check ball in the inlet valve arrangement, removing the top discharge valve assembly, and connecting the return line directly to the top of the unit.
    • 浮动操作的顶部填充回收单元漂浮在受污染的地下水的体内,以回收位于地下水顶部的一层液体烃。 回收单元具有装配有排气止回阀组件和封闭的下端的上端,排出阀组件包括位于液体烃中并使其滑动的半渗透屏幕,以及一系列通道和止回阀 用于将碳氢化合物经由返回管线引导到储存罐。 在所公开的实施例中,单元的下端部分地由进口止回阀装置形成,该止回阀装置已将其止回球移除,使得该装置不工作以阻止流动,并且封闭板固定到入口阀装置 以防止外部流体进入设备。 回收单元的下沉允许碳氢化合物通过筛网以填充单元的内部,使得其可以通过压缩空气被泵出单元并被输送到储存罐。 顶部填充回收单元可以通过移除封闭板并更换入口阀装置中的止回球,移除顶部排放阀组件,并将返回管线直接连接到顶部填充回收单元的顶部 那个单位。
    • 6. 发明授权
    • Apparatus for counting cycles of fluid flow
    • 用于计算流体流动循环的装置
    • US5400650A
    • 1995-03-28
    • US931267
    • 1992-08-17
    • K. Lynn NiehausKevin L. Newcomer
    • K. Lynn NiehausKevin L. Newcomer
    • G01F1/72G01F3/16G06M1/10
    • G01F1/72G01F3/16G06M1/102
    • There is provided a counting apparatus which is designed to be located in any position in series with a fluid flow line. The apparatus has a first magnet in an air chamber of the body of the counter. As the fluid passes through the air chamber, the first magnet is forced down the air chamber by the fluid flow. The magnetic field of the first magnet passes through a magnetic field of a second magnet located in the mechanical counter causing the counter to mechanically change the number. When the fluid flow is stopped, a spring returns the first magnet to its original position again passing by the second magnet in the counter allowing the counter to reset for the counting of the next cycle.
    • 提供了一种计数装置,其设计成位于与流体流动管线串联的任何位置。 该装置在计数器的主体的空气室中具有第一磁体。 当流体通过空气室时,第一个磁体被流体流动压向空气室。 第一磁体的磁场通过位于机械计数器中的第二磁体的磁场,使得计数器机械地改变数量。 当流体流动停止时,弹簧将第一磁体返回到其初始位置,再次通过计数器中的第二磁体,允许计数器复位以用于下一个循环的计数。
    • 7. 发明授权
    • Float operated pneumatic pump
    • US5358037A
    • 1994-10-25
    • US38835
    • 1993-03-29
    • David H. EdwardsKevin L. NewcomerK. Lynn Niehaus
    • David H. EdwardsKevin L. NewcomerK. Lynn Niehaus
    • F04F1/08E21B43/00
    • F04F1/08
    • A float operated pneumatic pump has an outer pump body forming an outer chamber and a dip tube forming an inner chamber therein. The inner chamber of the dip tube is in communication with the outer chamber of the pump body through a back flow discharge check valve. An inlet is located at a first end of the outer pump body for permitting liquids to enter both the inner and outer chambers. A discharge housing is located at a second end of the tubes and contains a liquid discharge port in communication with the second end of the dip tube. An air inlet port is located in the discharge housing for permitting pressurized air to enter the second end of the outer pump body. An air exhaust port is provided for permitting air in the outlet chamber to escape to atmosphere when fluid is entering the inner and outer chambers. A float is disposed on the outside of the dip tube within the outer chamber of the pump body. The float provides buoyancy to actuate the pump and provides weight to de-activate the pump. An inlet valve is disposed within the air inlet port for selectively admitting in a discharge mode, and blocking in a refill mode the source of compressed air into the outer chamber of the pump body. An exhaust valve is disposed within the air exhaust port for selectively venting in the refill mode and blocking in the discharge mode the outer chamber to the air discharge port. An actuator linkage, or a lost motion device, is coupled between the float and an off center pivot lever. The off center pivot lever actuates both the inlet and exhaust valves with the off center feature of the pivot lever increasing the force of the buoyant float. The float operated fluid pump further includes first and second attracting magnets, the first magnet being located on the movable end of the off center pivot lever and the second magnet being located within the discharge housing. The first and second magnets come together by movement of the float and operate to keep the pumping system in the discharge mode until the weight of the float separates the magnets and moves the pumping system into the refill mode.
    • 8. 发明授权
    • Air-operated pump with bladder-controlled inlet structure useful in floating-layer separation applications
    • 气动泵具有膀胱控制的入口结构,可用于浮选层分离应用
    • US06632073B2
    • 2003-10-14
    • US10001608
    • 2001-10-23
    • Kevin L. Newcomer
    • Kevin L. Newcomer
    • F04F106
    • F04F1/06Y10T137/3009
    • An air-operated, submersible pump features a bladder-controlled inlet applicable to water pumping or fluid separation, including the recovery of viscous hydrocarbon products. The inlet area fluidly penetrates through a portion of the wall of the pump, and the bladder, disposed within the pump body, is supported in overlying registration therewith. A pressure-operated valve in fluid communication with the discharge port facilitates a refill mode of operation, wherein fluid surrounding the pump flows into the pump body through the inlet area, and a discharge mode of operation wherein the air inlet is pressurized, causing the bladder to inflate and seat against and seal off the inlet area, and fluid which flowed into the pump body to be discharged through the discharge port. In the preferred embodiment, the inlet area comprises a plurality of apertures formed through the wall of the pump body arranged as one or more linear arrays lengthwise along the pump. When deployed to separate and recover a layer of fluid floating on water, a pump according to the invention pump further includes a water outlet and a water-outlet seal. During the refill mode of operation, water including the floating layer of fluid flows into the pump body through the inlet area, and in the discharge mode of operation, the pressurization further causes water which flowed into the pump body to be discharged through the water outlet until the outlet is sealed, after which the fluid which flowed into the pump body is discharged through the discharge port.
    • 气动潜水泵具有适用于抽水或液体分离的膀胱控制入口,包括回收粘性烃产品。 入口区域流体地穿过泵的壁的一部分,并且布置在泵体内的气囊被支撑在与其对齐的位置上。 与排放口流体连通的压力操作阀促进了再填充操作模式,其中围绕泵的流体通过入口区域流入泵体,并且其中进气口被加压的排出操作模式,使得气囊 使入口区域膨胀并且抵靠并密封,以及流入泵体的流体通过排出口排出。 在优选实施例中,入口区域包括通过泵体的壁形成的多个孔,其被布置为沿着泵纵向的一个或多个线性阵列。 当部署以分离和回收漂浮在水上的一层流体时,根据本发明的泵的泵还包括出水口和出水口密封件。 在再填充操作模式中,包括流体浮动层的水通过入口区域流入泵体,并且在排放操作模式下,加压进一步使流入泵体的水通过出水口排出 直到出口被密封,此后流入泵体的流体通过排放口排放。
    • 9. 发明授权
    • Dual pump floating layer recovery apparatus
    • 双泵浮层回收装置
    • US5301749A
    • 1994-04-12
    • US945513
    • 1992-09-16
    • David A. FischerKevin L. Newcomer
    • David A. FischerKevin L. Newcomer
    • B01D17/02B09C1/02E21B43/12F04B43/10F04F1/08E21B43/34
    • B01D17/0214B09C1/02E21B43/121F04B43/10F04F1/08
    • There is provided a dual pump floating layer recovery apparatus for pumping a floating layer of contaminant out of a well. The apparatus comprises an upper pump and a lower pump. The lower pump creates a cone of depression which increases the amount of the floating layer within the well. The upper pump pumps the contaminant from the well or cone of depression. The upper and lower pumps preferably are gas-actuated pumps. The lower pump preferably includes an automatic switching device to activate the lower pump upon sensing a predetermined amount of fluid within the pump. A gas conduit interconnects the actuation chambers on both pumps such that when the lower automatic pump is provided with pressurized gas, the upper pump is simultaneously provided with the identical pressurized gas. Upon deactivation, both pumps relieve the activation pressure through the lower pump.
    • 提供了一种双泵浮选回收装置,用于从井中抽出污染物的漂浮层。 该装置包括上泵和下泵。 下泵产生一个凹陷锥,这增加了井内浮动层的数量。 上泵将污染物从凹陷的凹坑或锥体中泵出。 上泵和下泵优选为气驱泵。 下泵优选地包括自动切换装置,以在感测泵内的预定量的流体时启动下泵。 气体管道将两个泵上的致动室互连,使得当下部自动泵设置有加压气体时,上部泵同时具有相同的加压气体。 停用时,两个泵通过下泵减轻启动压力。