公开(公告)号：US20150102126A1

公开(公告)日：2015-04-16

申请号：US14535557

申请日：2014-11-07

申请人： Gregory Russell ,  Shridhar Gopalan ,  Christopher South ,  Russell Hester ,  Eric Koehler ,  Kerrie Allen ,  Srinivasaiah Sridhara

发明人： Gregory Russell ,  Shridhar Gopalan ,  Christopher South ,  Russell Hester ,  Eric Koehler ,  Kerrie Allen ,  Srinivasaiah Sridhara

IPC分类号： B05B1/02 ,  A01G25/00 ,  B05B15/10

CPC分类号： B05B1/02 ,  A01G25/00 ,  B05B1/08 ,  B05B1/14 ,  B05B1/304 ,  B05B15/65 ,  B05B15/70 ,  B05B15/74

摘要： A long throw Pop-Up Irrigation Nozzle assembly has no oscillating or rotating parts and includes a cylindrical body having a fluid inlet and a sidewall defining at least one fluidic circuit configured to generate a selected spray pattern when irrigation fluid flows through the body. In order to throw long distance, droplet velocity, droplet size and droplet initial aim angle determine the throw to provide a low precipitation rate (“PR”) for fluidic sprays. The nozzle assembly and method of the present invention achieve a PR of 1 in/hr or less and good spray distribution with a scheduling coefficient (“SC”) of about 1.5 without utilizing any moving components to provide a significantly more cost effective nozzle assembly, as compared to prior art rotator nozzles.

摘要翻译： 长投弹出喷嘴喷嘴组件没有摆动或旋转部件，并且包括具有流体入口和限定至少一个流体回路的侧壁的圆柱体，该流体回路构造成当冲洗流体流过身体时产生选定的喷雾图案。 为了投射长距离，液滴速度，液滴尺寸和液滴初始目标角度决定投掷，以提供流体喷雾的低沉淀速率（“PR”）。 本发明的喷嘴组件和方法实现了1英寸/小时以下的PR和良好的喷雾分布，其调度系数（“SC”）为约1.5，而不利用任何移动部件来提供显着更成本有效的喷嘴组件， 与现有技术的旋转器喷嘴相比。

公开(公告)号：US09776195B2

公开(公告)日：2017-10-03

申请号：US12314242

申请日：2008-12-05

申请人： Gregory Russell ,  Shridar Gopalan ,  Chris South ,  Russell Hester ,  Eric Koehler ,  Kerrie Allen ,  Srinivasaiah Sridhara

发明人： Gregory Russell ,  Shridar Gopalan ,  Chris South ,  Russell Hester ,  Eric Koehler ,  Kerrie Allen ,  Srinivasaiah Sridhara

IPC分类号： B05B1/08 ,  B05B1/02 ,  B05B1/30 ,  B05B15/10 ,  A01G25/00 ,  B05B1/14 ,  B05B15/06

CPC分类号： B05B1/02 ,  A01G25/00 ,  B05B1/08 ,  B05B1/14 ,  B05B1/304 ,  B05B15/65 ,  B05B15/70 ,  B05B15/74

摘要： A long throw Pop-Up Irrigation Nozzle assembly has no oscillating or rotating parts and includes a cylindrical body having a fluid inlet and a sidewall defining at least one fluidic circuit configured to generate a selected spray pattern when irrigation fluid flows through the body. In order to throw long distance, droplet velocity, droplet size and droplet initial aim angle determine the throw to provide a low precipitation rate (“PR”) for fluidic sprays. The nozzle assembly and method of the present invention achieve a PR of 1 in/hr or less and good spray distribution with a scheduling coefficient (“SC”) of about 1.5 without utilizing any moving components to provide a significantly more cost effective nozzle assembly, as compared to prior art rotator nozzles.

公开(公告)号：US20090188991A1

公开(公告)日：2009-07-30

申请号：US12314242

申请日：2008-12-05

申请人： Gregory Russell ,  Shridar Gopalan ,  Chris South ,  Russell Hester ,  Eric Koehler ,  Kerrie Allen ,  Srinivasaiah Sridhara

发明人： Gregory Russell ,  Shridar Gopalan ,  Chris South ,  Russell Hester ,  Eric Koehler ,  Kerrie Allen ,  Srinivasaiah Sridhara

IPC分类号： B05B15/10 ,  B05B1/08

CPC分类号： B05B1/02 ,  A01G25/00 ,  B05B1/08 ,  B05B1/14 ,  B05B1/304 ,  B05B15/65 ,  B05B15/70 ,  B05B15/74

摘要： A long throw Pop-Up Irrigation Nozzle assembly has no oscillating or rotating parts and includes a cylindrical body having a fluid inlet and a sidewall defining at least one fluidic circuit configured to generate a selected spray pattern when irrigation fluid flows through the body. In order to throw long distance, droplet velocity, droplet size and droplet initial aim angle determine the throw to provide a low precipitation rate (“PR”) for fluidic sprays. The nozzle assembly and method of the present invention achieve a PR of 1 in/hr or less and good spray distribution with a scheduling coefficient (“SC”) of about 1.5 without utilizing any moving components to provide a significantly more cost effective nozzle assembly, as compared to prior art rotator nozzles.

摘要翻译： 长投弹出喷嘴喷嘴组件没有摆动或旋转部件，并且包括具有流体入口和限定至少一个流体回路的侧壁的圆柱体，该流体回路构造成当冲洗流体流过身体时产生选定的喷雾图案。 为了投射长距离，液滴速度，液滴尺寸和液滴初始目标角度决定投掷，以提供流体喷雾的低沉淀速率（“PR”）。 本发明的喷嘴组件和方法实现了1英寸/小时以下的PR和良好的喷雾分布，其调度系数（“SC”）为约1.5，而不利用任何移动部件来提供显着更成本有效的喷嘴组件， 与现有技术的旋转器喷嘴相比。

公开(公告)号：US20160001330A1

公开(公告)日：2016-01-07

申请号：US14320734

申请日：2014-07-01

申请人： ALAN ROMACK ,  Keith Berning ,  Russell Hester ,  Evan Hartranft ,  Robert Bower ,  Srinivasaiah Sridhara ,  Eric Koehler

发明人： ALAN ROMACK ,  Keith Berning ,  Russell Hester ,  Evan Hartranft ,  Robert Bower ,  Srinivasaiah Sridhara ,  Eric Koehler

IPC分类号： B08B3/02 ,  B60S1/52 ,  B60S1/62 ,  B60S1/56 ,  H04N7/18 ,  B60S3/04

CPC分类号： B08B3/02 ,  B05B1/08 ,  B60R11/04 ,  B60S1/0848 ,  B60S1/52 ,  B60S1/56 ,  B60S1/62 ,  B60S3/04 ,  G02B27/0006 ,  H04N5/2252 ,  H04N5/2254 ,  H04N7/185

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： 外部透镜清洗系统具有瞄准夹具，其构造成支撑和约束暴露于元件并容易被碎屑污染的外部透镜。 喷嘴组件被配置为被瞄准夹具支撑并瞄准外部透镜，并且具有至少一个横向偏移的清洗喷嘴，其从瞄准器突出到喷射洗涤流体朝向外部透镜表面，以浅的扫视喷雾 瞄准角度撞击并清洗镜头外表面。 可选地，集成的图像传感器和透镜清洗组件被配置为与用于清洁外部物镜表面的遥控方法一起使用，并且包括密封的图像传感器壳体组件，其包括具有优化配置的整体的可远程控制的镜片清洁系统，用于瞄准一个 或更多的来自一个或多个侧向偏移的流体振荡器的清洁喷雾。

公开(公告)号：US10432827B2

公开(公告)日：2019-10-01

申请号：US14004269

申请日：2012-03-12

申请人： Evan Hartranft ,  Robert Bower ,  Srinivasaiah Sridhara ,  Alan Romack ,  Keith Berning ,  Russell Hester ,  Eric Koehler

发明人： Evan Hartranft ,  Robert Bower ,  Srinivasaiah Sridhara ,  Alan Romack ,  Keith Berning ,  Russell Hester ,  Eric Koehler

IPC分类号： H04N5/217 ,  B05B1/06 ,  B05B1/08 ,  B60S1/08 ,  B60S1/52 ,  B60S1/56 ,  G03B17/08 ,  B60R11/04 ,  H04N7/18 ,  B08B3/02 ,  G02B27/00 ,  H04N5/225 ,  H04N5/232 ,  B05B15/70

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.

公开(公告)号：US07014131B2

公开(公告)日：2006-03-21

申请号：US10372597

申请日：2003-02-24

申请人： Keith Berning ,  Daniel E. Steerman ,  Srinivasaiah Sridhara ,  Gregory Russell

发明人： Keith Berning ,  Daniel E. Steerman ,  Srinivasaiah Sridhara ,  Gregory Russell

IPC分类号： B05B1/08

CPC分类号： F15C1/22 ,  B05B1/08 ,  B05B15/40 ,  B60S1/52 ,  Y10T137/0396 ,  Y10T137/2093 ,  Y10T137/2098

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.