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1. 发明申请

WO2007044354A3 ENCLOSURES FOR FLUIDIC OSCILLATORS 审中-公开
标题翻译：流体振荡器的外壳
公开(公告)号：WO2007044354A3
公开(公告)日：2007-07-26
申请号：PCT/US2006038683
申请日：2006-10-03
申请人： BOWLES FLUIDICS CORP
发明人： RUSSELL GREGORY , BERNING KEITH , HESTER RUSSELL D
IPC分类号： B05B1/08 , B05B1/14 , B05B1/18 , B60S1/52
CPC分类号： B05B1/08 , B05B1/14 , B05B1/18 , B60S1/52 , Y10T137/2224
摘要： For those spray applications that use a fluidic oscillator (4) of the type that generates a spray by having a pressurized liquid flow through the oscillator and exhaust into a surrounding environment, and where such an oscillator has a boundary surface (4b) which has fabricated into it a channel (4c) in the form of what is referred to herein as fluidic circuit, an improved enclosure (2) for this oscillator includes: a body (10) having an interior (13) and an exterior (12) surface, wherein a portion of this interior surface (13) is configured to attach to the oscillator boundary surface (4b) so as to form with the oscillator's channel (4c) an enclosed pathway through which the to-be-sprayed liquid may flow, and wherein a segment (23) of this interior surface is configured so as to yield specified properties of the resulting spray.
摘要翻译：对于那些使用流体振荡器（4）的喷雾应用，该流体振荡器（4）通过使加压液体流过振荡器并排出到周围环境中而产生喷雾，并且其中这种振荡器具有制造出的边界表面（4b）以其中形成为本文称为流体回路的形式的通道（4c），用于该振荡器的改进的外壳（2）包括：具有内部（13）和外部（12）表面的主体（10）其中该内表面（13）的一部分被配置为附接到振荡器边界表面（4b），以与振荡器的通道（4c）一起形成封闭通道，待喷射液体可通过该封闭通道流动，并且其中该内表面的区段（23）被构造成产生所得到的喷雾的指定特性。

2. 发明专利

AT364536T 未知
公开(公告)号：AT364536T
公开(公告)日：2007-07-15
申请号：AT03719689
申请日：2003-04-10
申请人： BOWLES FLUIDICS CORP
发明人： BERNING KEITH , STEERMAN DANIEL , SRIDHARA SRINIVASAIAH , RUSSELL GREGORY
IPC分类号： B60S1/52 , B05B1/08 , B05B1/10 , B05B1/14 , B05B15/00 , F15C1/22
摘要： A fluidic insert that receives fluid under pressure from a fluid inlet tube and generates a specified spatial distribution of the fluid exiting the insert includes: (1) a body member having top, bottom, front and rear outer surfaces, (2) top and bottom fluidic circuits located, respectively, at least partially within the member's top and bottom surfaces, wherein each of these circuits has at least one power nozzle, an interaction chamber, and an outlet whose exit lies within the member front surface, (3) the bottom fluidic circuit having a portion of its surface area located upstream of the power nozzle and adapted so that it can mate with a fluid inlet tube that supplies fluid to the insert, and (4) an inter-circuit flow passage that allows fluid to flow from the bottom fluid circuit to the top fluid circuit, the bottom end of this passage located such that it is downstream of the point where the inlet tube mates with the bottom circuit and upstream of the bottom circuit's power nozzle, with the top end of this passage located upstream of the top circuit's power nozzle.

3. 发明公开

EP2858755A4 INTEGRATED AUTOMOTIVE SYSTEM, NOZZLE ASSEMBLY AND REMOTE CONTROL METHOD FOR CLEANING AN IMAGE SENSOR'S LENS 有权转让
标题翻译：集成驱动系统，JETS系统和远程控制方法用于清洁图像传感器的镜头
公开(公告)号：EP2858755A4
公开(公告)日：2016-07-27
申请号：EP12767222
申请日：2012-03-12
申请人： BOWLES FLUIDICS CORP
发明人： ROMACK ALAN , BERNING KEITH , HESTER RUSSELL , HARTRANFT EVAN , BOWER ROBERT , SRIDHARA SRINIVASAIAH , KOEHLER ERIC
IPC分类号： B05B1/10 , B60S1/52 , B60S1/56
CPC分类号： H04N7/185 , B05B1/06 , B05B1/08 , B05B15/70 , B60R11/04 , B60S1/0848 , B60S1/52 , B60S1/56 , G03B17/08
摘要： An external lens washing system has an aiming fixture configured to support and constrain an external lens which is exposed to the elements and apt to become soiled with debris. A nozzle assembly is configured to be supported and aimed toward the external lens by the aiming fixture and has at least one laterally offset washing nozzle projecting from the aiming fixture to a spray washing fluid toward the external lens surface, spraying at a shallow, glancing spray aiming angle to impinge upon and wash the lens external surface. Optionally, an integrated image sensor and lens washing assembly is configured for use with a remote control method for cleaning an exterior objective lens surface and includes a sealed image sensor housing assembly including an integral, remotely controllable lens cleaning system with an optimized configuration for aiming one or more cleansing sprays from one or more laterally offset fluidic oscillators.
摘要翻译：外部透镜洗涤系统具有瞄准夹具构造成支撑和约束到外部透镜所有这一切都被暴露于元件和易于变得碎片弄脏。的喷嘴组件被配置为支撑并朝向由瞄准夹具外部透镜瞄准和具有至少一个后期反弹偏移清洗喷嘴从所述瞄准夹具朝向外部透镜表面喷雾清洗流体投射，以浅，掠喷雾喷投射角度来撞击在洗透镜外表面。可选地，为了集成图像传感器和透镜的洗涤组件在优化的配置被配置为与用于外部物镜表面的清洁的远程控制方法中使用，并且包括一个密封的图像传感器壳体组件包括上一体，远程可控透镜清洁系统具有用于瞄准一个或从一个或多个尾盘反弹更清洁喷雾剂抵消流体振荡器。

4. 发明公开

EP2817185A4 ADAPTIVE, MULTI-MODE WASHER SYSTEM AND CONTROL METHOD 审中-公开
标题翻译：自适应多模式清洗系统和控制方法
公开(公告)号：EP2817185A4
公开(公告)日：2016-01-13
申请号：EP12869363
申请日：2012-12-26
申请人： BOWLES FLUIDICS CORP
发明人： KOEHLER ERIC , MARSDEN THOMAS , SRIDHARA SRINIVASAIAH , GOPALAN SRIDHAR , BERNING KEITH , ROMACK ALAN
IPC分类号： B60S1/46
CPC分类号： B60S1/52 , B60S1/481 , B60S1/485 , B60S1/486
摘要： A vehicle speed, ambient temperature or surface-condition responsive wash system 89 has a control system configured to adapt the wash system's operation to sensed operating conditions. The adaptive system and method selectively controlling aimed windshield washer fluid sprays comprises a multi (e.g., two) mode system with a washer fluid driving pump 80 having an impeller 121 that is activated to supply fluid under pressure to a multi-mode nozzle assembly 98. Selectable first, or low pressure, and second, or high pressure, modes are provided by controlling the pump's polarity and impeller spin direction, hi an exemplary embodiment, a two-mode pump 80 is initially operated in the second mode, or reverse direction, producing a lower pressure flow.

5. 发明专利

DE60314416D1 未知
公开(公告)号：DE60314416D1
公开(公告)日：2007-07-26
申请号：DE60314416
申请日：2003-04-10
申请人： BOWLES FLUIDICS CORP
发明人： BERNING KEITH , STEERMAN DANIEL E , SRIDHARA SRINIVASAIAH , RUSSELL GREGORY
IPC分类号： B60S1/52 , B05B1/08 , B05B1/10 , B05B1/14 , B05B15/00 , F15C1/22
摘要： A fluidic insert that receives fluid under pressure from a fluid inlet tube and generates a specified spatial distribution of the fluid exiting the insert includes: (1) a body member having top, bottom, front and rear outer surfaces, (2) top and bottom fluidic circuits located, respectively, at least partially within the member's top and bottom surfaces, wherein each of these circuits has at least one power nozzle, an interaction chamber, and an outlet whose exit lies within the member front surface, (3) the bottom fluidic circuit having a portion of its surface area located upstream of the power nozzle and adapted so that it can mate with a fluid inlet tube that supplies fluid to the insert, and (4) an inter-circuit flow passage that allows fluid to flow from the bottom fluid circuit to the top fluid circuit, the bottom end of this passage located such that it is downstream of the point where the inlet tube mates with the bottom circuit and upstream of the bottom circuit's power nozzle, with the top end of this passage located upstream of the top circuit's power nozzle.

6. 发明专利

DE60314416T2 未知
公开(公告)号：DE60314416T2
公开(公告)日：2008-02-14
申请号：DE60314416
申请日：2003-04-10
申请人： BOWLES FLUIDICS CORP
发明人： BERNING KEITH , STEERMAN DANIEL E , SRIDHARA SRINIVASAIAH , RUSSELL GREGORY
IPC分类号： B60S1/52 , B05B1/08 , B05B1/10 , B05B1/14 , B05B15/00 , F15C1/22
摘要： A fluidic insert that receives fluid under pressure from a fluid inlet tube and generates a specified spatial distribution of the fluid exiting the insert includes: (1) a body member having top, bottom, front and rear outer surfaces, (2) top and bottom fluidic circuits located, respectively, at least partially within the member's top and bottom surfaces, wherein each of these circuits has at least one power nozzle, an interaction chamber, and an outlet whose exit lies within the member front surface, (3) the bottom fluidic circuit having a portion of its surface area located upstream of the power nozzle and adapted so that it can mate with a fluid inlet tube that supplies fluid to the insert, and (4) an inter-circuit flow passage that allows fluid to flow from the bottom fluid circuit to the top fluid circuit, the bottom end of this passage located such that it is downstream of the point where the inlet tube mates with the bottom circuit and upstream of the bottom circuit's power nozzle, with the top end of this passage located upstream of the top circuit's power nozzle.

7. 发明专利

DE03719689T1 未知
公开(公告)号：DE03719689T1
公开(公告)日：2005-08-18
申请号：DE03719689
申请日：2003-04-10
申请人： BOWLES FLUIDICS CORP
发明人： BERNING KEITH , STEERMAN E , SRIDHARA SRINIVASAIAH , RUSSELL GREGORY
IPC分类号： B05B1/08 , B05B1/10 , B05B15/00 , B60S1/52 , F15C1/22 , B05B1/14
摘要： A fluidic insert that receives fluid under pressure from a fluid inlet tube and generates a specified spatial distribution of the fluid exiting the insert includes: (1) a body member having top, bottom, front and rear outer surfaces, (2) top and bottom fluidic circuits located, respectively, at least partially within the member's top and bottom surfaces, wherein each of these circuits has at least one power nozzle, an interaction chamber, and an outlet whose exit lies within the member front surface, (3) the bottom fluidic circuit having a portion of its surface area located upstream of the power nozzle and adapted so that it can mate with a fluid inlet tube that supplies fluid to the insert, and (4) an inter-circuit flow passage that allows fluid to flow from the bottom fluid circuit to the top fluid circuit, the bottom end of this passage located such that it is downstream of the point where the inlet tube mates with the bottom circuit and upstream of the bottom circuit's power nozzle, with the top end of this passage located upstream of the top circuit's power nozzle.

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