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    • 2. 发明授权
    • Means for generating oscillating fluid jets having specified flow patterns
    • 用于产生具有特定流动模式的振荡流体射流的装置
    • US06805164B2
    • 2004-10-19
    • US10309490
    • 2002-12-04
    • Ronald D. Stouffer
    • Ronald D. Stouffer
    • F15C106
    • F15C1/22B05B1/08Y10T137/206Y10T137/2076Y10T137/2185Y10T137/2224
    • A fluidic oscillator capable of generating free fluid jets having distinctive, controllable and industrially/commercially useful flow patterns has a switching chamber having an inlet port that allows a pressurized fluid to enter and flow through the oscillator, an exhaust passage having a sidewall that forms one boundary wall of the switching chamber, a container passage having a sidewall that forms the second boundary wall of the switching chamber, a compliance member connected to the distal end of the container passage, and an expansion chamber connected to the distal end of the exhaust passage, with the expansion chamber having an exhaust orifice that allows fluid to flow from the oscillator. In operation, such an oscillator yields a contained fluid jet that issues from the inlet port into the swishing chamber and alternately switches its flow direction between the container and exhaust passages. This switching action serves to generate controllable pressure waves in the exhaust passage and expansion chamber which act to control the pattern of the free fluid jet that flows from the orifice.
    • 能够产生具有独特的,可控的和工业上/商业上有用的流动模式的自由流体射流的流体振荡器具有开关室,其具有允许加压流体进入和流过振荡器的入口端口,具有形成一个侧壁的排气通道 开关室的边界壁,具有形成切换室的第二边界壁的侧壁的容器通道,连接到容器通道的远端的柔顺构件和连接到排气通道的远端的膨胀室 膨胀室具有允许流体从振荡器流出的排气孔。 在操作中,这样的振荡器产生从入口端口进入扫帚室的容纳流体射流,并且在容器和排气通道之间交替地切换其流动方向。 这种切换动作用于在排气通道和膨胀室中产生可控的压力波,其用于控制​​从孔口流出的自由流体射流的图案。
    • 3. 发明授权
    • Low cost, low pressure fluidic oscillator which is free of feedback
    • 低成本,低压流体振荡器,无反馈
    • US5213270A
    • 1993-05-25
    • US759557
    • 1991-09-13
    • Ronald D. StoufferDharapuram Srinath
    • Ronald D. StoufferDharapuram Srinath
    • B05B1/08F15C1/22
    • F15C1/22B05B1/08Y10S239/03Y10T137/2104
    • A fluidic oscillator which is free of feedback passages has an oscillation chamber having a length greater than its width, a pair of mutually facing and complementarily-shaped sidewalls and planar top and bottom walls, and first and second end walls. An input power nozzle is formed in said first end wall having a width W and a depth D, for issuing a stream of fluid into the oscillation chamber, and form alternately pulsating, cavitation-free vortices in said oscillation chamber on each side of the stream. An outlet opening formed in the downstream end wall and axially aligned with the power nozzle and has a width and depth such that internal pressure in the oscillation chamber is greater than ambient. The outlet wall is hingedly connected to a chamber wall and the chamber is such that it can be molded with the outlet wall hingedly connected thereto in one molding.
    • 没有反馈通道的流体振荡器具有长度大于其宽度的振荡室,一对相互面对和互补形状的侧壁以及平面顶壁和底壁以及第一和第二端壁。 在具有宽度W和深度D的所述第一端壁中形成输入功率喷嘴,用于将流体流发射到振荡室中,并且在流的每一侧的所述振荡室中形成交替脉动的无气蚀涡流 。 出口开口形成在下游端壁中并且与动力喷嘴轴向对齐并且具有宽度和深度,使得振荡室中的内部压力大于环境温度。 出口壁铰接地连接到室壁,并且室可以在一个模制件中以与其铰接连接的出口壁成型。
    • 4. 发明授权
    • Low cost, low pressure, feedback passage-free fluidic oscillator with
stabilizer
    • 低成本,低压,反馈无通道流体振荡器与稳定器
    • US5181660A
    • 1993-01-26
    • US771979
    • 1991-10-08
    • Ronald D. StoufferDharapuram Srinath
    • Ronald D. StoufferDharapuram Srinath
    • B05B1/08F15C1/22
    • F15C1/22B05B1/08Y10T137/2104Y10T137/2185
    • A fluidic oscillator which is free of feedback passages has an oscillation chamber having a length greater than its width, a pair of mutually facing and complimentary-shaped sidewalls and planar top and bottom walls, and first and second end walls. Stabilization ribs are formed on at least one of the top and bottom walls. An input power nozzle is formed in said first end wall having a width W and a depth D, for issuing a stream of fluid into the oscillation chamber, and form alternately pulsating, cavitation-free vortices in said oscillation chamber on each side of the stream. An outlet opening formed in the downstream end wall and axially aligned with the power nozzle and has a width and depth such that internal pressure in the oscillation chamber is greater than ambient. The outlet wall is hingedly connected to a chamber wall and the chamber is such that it can be molded with the outlet wall hingedly connected thereto in one molding.
    • 没有反馈通道的流体振荡器具有长度大于其宽度的振荡室,一对相互面对和互补形状的侧壁以及平面顶壁和底壁以及第一和第二端壁。 稳定肋形成在顶壁和底壁中的至少一个上。 在具有宽度W和深度D的所述第一端壁中形成输入功率喷嘴,用于将流体流发射到振荡室中,并且在流的每一侧的所述振荡室中形成交替脉动的无气蚀涡流 。 出口开口形成在下游端壁中并且与动力喷嘴轴向对齐并且具有宽度和深度,使得振荡室中的内部压力大于环境温度。 出口壁铰接地连接到室壁,并且室可以在一个模制件中以与其铰接连接的出口壁成型。
    • 5. 发明授权
    • Oscillating air stream apparatus for automobile defroster
    • 用于汽车除霜器的振荡气流装置
    • US4672886A
    • 1987-06-16
    • US737609
    • 1985-05-24
    • Ronald D. Stouffer
    • Ronald D. Stouffer
    • F24F13/06B60H1/24B60H1/34B60S1/54B60H1/00B05B1/26
    • B60H1/242B60S1/54Y10T137/206Y10T137/87684
    • Air is detected from opposing ends of a trough-like continuous contour which defines a guide path for the two opposing streams. The air streams will be attached to flow along the trough and where the oppositely directed streams impact or impinge upon each other, they will be deflected normal to their path and the two combined streams will be projected or directed perpendicularly outwardly from the trough in the form of a fan-shaped jet. By controlling the velocity of the two opposing jets, the point of impact or impingement of the two jets can be moved along the trough with the trough defining the path of movement of the point or virtual outlet of outward projection of the combined jets. In preferred embodiments, the defrost and heating and air conditioning outlets for automobiles incorporate the invention so as to avoid protrusions and provide a continuous clean and unbroken appearance.
    • 从槽状连续轮廓的相对端检测空气,其限定了两个相对流的引导路径。 气流将被连接以沿着槽流动,并且相对定向的流冲击或冲击彼此,它们将被偏离到它们的路径上,并且两个组合的流将以形式从槽垂直地向外突出或定向 的扇形射流。 通过控制两个相对射流的速度,两个射流的冲击点或冲击点可以沿着槽移动,其中槽限定组合射流的向外投影的点或虚拟出口的移动路径。 在优选实施例中,用于汽车的除霜和加热和空气调节出口结合本发明以避免突起并提供连续清洁且不间断的外观。
    • 8. 发明授权
    • Fluid spray apparatus
    • 流体喷涂装置
    • US07111800B2
    • 2006-09-26
    • US10673727
    • 2003-09-29
    • Keith R. BerningRussell D. HesterAland SantamarinaRonald D. Stouffer
    • Keith R. BerningRussell D. HesterAland SantamarinaRonald D. Stouffer
    • B05B1/05F15C1/16F15C1/22
    • B05B1/08B05B1/14Y10T137/2093
    • An improved spray head that is more effective and efficient at providing a wider range of desired spray distributions includes the following elements: (a) a plurality of fluidic oscillators, each oscillator having a fluidic circuit embedded in its top surface, with this circuit forming a path in which a fluid may flow through the oscillator, wherein these oscillators are stacked one on top of the other, with the sides of the oscillators being configured so that they stack such that the flow of fluid from adjoining oscillators in the stack have an angle of divergence between the centerlines of the planes defined by the flows from the outlets of the adjoining oscillators that is in the range of 2–5 degrees, (b) a plurality of cover plates, with each cover plate being proximate the top surface of one of the fluidic oscillators and attached to the oscillator so as to provide a seal against the flow of fluid from the oscillator's fluidic circuit, (c) a carrier assembly having a front and a rear surface and a cavity extending between these surfaces, with this cavity being configured so to receive and hold the stack of fluidic oscillators in the spray head, and (d) a stopper unit that attaches to the assembly's rear surface and seals it against leakage from the assembly's rear surface.
    • 改进的喷头在提供更广泛的期望的喷雾分布方面更有效和更有效率包括以下元件:(a)多个流体振荡器,每个振荡器具有嵌入在其顶表面中的流体回路,该电路形成 其中流体可以流过振荡器的路径,其中这些振荡器一个在另一个之上堆叠,其中振荡器的侧面被配置成使得它们堆叠,使得来自堆叠中的相邻振荡器的流体流具有角度 由相邻振荡器的出口流出的平面的中心线之间的偏差在2-5度的范围内,(b)多个盖板,每个盖板靠近一个顶板 的流体振荡器并附接到振荡器,以便提供抵抗来自振荡器的流体回路的流体的流动的密封,(c)具有前部和 后表面和在这些表面之间延伸的空腔,其中该空腔被配置为在喷头中容纳和保持流体振荡器的堆叠,以及(d)止动器单元,其连接到组件的后表面并将其密封以防止 组件的后表面。
    • 9. 发明授权
    • Leak detection method and apparatus
    • 泄漏检测方法和装置
    • US06338268B1
    • 2002-01-15
    • US09634592
    • 2000-08-08
    • Ronald D. Stouffer
    • Ronald D. Stouffer
    • G01M304
    • G01M3/184
    • A leak detection system and method for fluid operated device includes a backloaded fluidic oscillator having an interaction chamber, a power nozzle at its upstream end coupled to a source of fluid under pressure and an exit throat at its downstream end. The interaction chamber first diverges from the power nozzle and then converges towards the exit throat. A pair of outlet passages are connected to the exit throat; one of the outlet passages is connected to the fluid operated device and the other of the outlet passages is connected to a fixed volume and a vent whereby the backloaded fluidic oscillator oscillates at a rate which is a function of the leakage of the fluid operated device.
    • 用于流体操作装置的泄漏检测系统和方法包括具有相互作用室的背负载流体振荡器,在其上游端处连接到压力下的流体源的动力喷嘴和在其下游端处的出口喉部。 相互作用室首先从动力喷嘴发散,然后朝向出口喉部收敛。 一对出口通道连接到出口喉部; 出口通道中的一个连接到流体操作装置,另一个出口通道连接到固定容积和排气口,由此背负式流体振荡器以与流体驱动装置的泄漏的关系的速率振荡。