公开(公告)号：US09988020B2

公开(公告)日：2018-06-05

申请号：US15140690

申请日：2016-04-28

Applicant: Continental Automotive GmbH

Inventor： Heiko Weitzel ,  Dirk Ringler ,  Michael Droessler

IPC: B60S1/52 ,  B05B1/10 ,  B05B1/08 ,  F16K15/14

CPC classification number: B60S1/52 ,  B05B1/08 ,  B05B1/10 ,  F16K15/14

Abstract: A washer nozzle for a screen wash system of a motor vehicle has a pre-assembled structural unit of a jet insert and a check valve. This structural unit is pressed into a shaft of a housing. This makes the washer nozzle particularly easy to install.

公开(公告)号：US20180071754A1

公开(公告)日：2018-03-15

申请号：US15819384

申请日：2017-11-21

Applicant: DLHBOWLES, INC.

Inventor： Evan Hartranft ,  Shridhar Gopalan ,  Gregory Russell

IPC: B05B1/08 ,  F15B21/12 ,  B65D83/14 ,  B65D83/28

CPC classification number: B05B1/08 ,  B65D83/28 ,  B65D83/753 ,  F15B21/12 ,  Y10T29/49826

Abstract: A conformal, cup-shaped fluidic nozzle engineered to generate an oscillating spray is configured as a (e.g., 100, 400, 600 or 700). Preferably, the fluidic circuit's oscillation inducing geometry 710 is molded directly into the cup's interior wall surfaces and the one-piece fluidic cup may then fitted into an actuator (e.g., 340). The fluidic cup (e.g., 100, 400, 600 or 700) conforms to the actuator stem used in typical aerosol sprayers and trigger sprayers and so replaces the prior art “swirl cup” 70 that goes over the actuator stem (e.g., 320), With the fluidic cup (e.g., 100, 400, 600 or 700) and method of the present invention, vendors of liquid products and fluids sold in commercial aerosol sprayers 20 and trigger sprayers 800 can now provide very specifically tailored or customized sprays.

公开(公告)号：US09821337B2

公开(公告)日：2017-11-21

申请号：US15297265

申请日：2016-10-19

Applicant: VLN Advanced Technologies Inc.

Inventor： Mohan M. Vijay ,  Meisheng M. Xu ,  Emilio Panarella ,  Wenzhuo Yan ,  Andrew Hung Tieu ,  Bruce R. Daniels

IPC: B05B5/08 ,  B05B5/10 ,  B05B5/03 ,  B05B5/053 ,  B05B17/06 ,  B05C19/00 ,  B05C15/00 ,  B05D1/12 ,  C25D5/00 ,  C25D21/12 ,  C25D5/34 ,  C25D5/50 ,  C25D15/00 ,  C25D5/08 ,  B05B15/12 ,  B05B5/00 ,  B24C3/12 ,  B05B1/08 ,  B05B5/035 ,  B05B13/04 ,  B08B3/02 ,  B25J11/00 ,  B25J21/00 ,  C23C24/04 ,  B24C5/00 ,  B05B5/16 ,  B05B12/08 ,  B05D3/12 ,  B24C7/00 ,  C23C18/18

CPC classification number: B05D1/12 ,  B05B1/08 ,  B05B1/083 ,  B05B5/001 ,  B05B5/006 ,  B05B5/032 ,  B05B5/035 ,  B05B5/08 ,  B05B5/082 ,  B05B5/10 ,  B05B5/16 ,  B05B12/08 ,  B05B13/0431 ,  B05B14/40 ,  B05B16/00 ,  B05B16/20 ,  B05B16/40 ,  B05B17/06 ,  B05B17/0607 ,  B05B17/0653 ,  B05C15/00 ,  B05C19/00 ,  B05D3/12 ,  B08B3/024 ,  B08B2203/0288 ,  B24C3/12 ,  B24C5/005 ,  B24C7/00 ,  B25J11/0075 ,  B25J21/00 ,  C23C18/1806 ,  C23C24/04 ,  C25D5/006 ,  C25D5/08 ,  C25D5/34 ,  C25D5/50 ,  C25D15/00 ,  C25D21/12

Abstract: An integrated liquidjet system capable of stripping, prepping and coating a part includes a cell defining an enclosure, a jig for holding the part inside the cell, an ultrasonic nozzle having an ultrasonic transducer for generating a pulsed liquidjet, a coating particle source for supplying coating particles to the nozzle, a pressurized liquid source for supplying the nozzle with a pressurized liquid to enable the nozzle to generate the pulsed liquidjet to sequentially strip, prep and coat the part, a high-voltage electrode and a ground electrode inside the nozzle for charging the coating particles, and a human-machine interface external to the cell for receiving user commands and for controlling the pulsed liquidjet exiting from the nozzle in response to the user commands.

公开(公告)号：US09821324B2

公开(公告)日：2017-11-21

申请号：US13816661

申请日：2012-04-19

Applicant: Evan Hartranft ,  Shridhar Gopalan ,  Gregory Russell

Inventor： Evan Hartranft ,  Shridhar Gopalan ,  Gregory Russell

IPC: B05B1/08 ,  B65D83/14 ,  B65D83/28 ,  F15B21/12

CPC classification number: B05B1/08 ,  B65D83/28 ,  B65D83/753 ,  F15B21/12 ,  Y10T29/49826

Abstract: A conformal, cup-shaped fluidic nozzle engineered to generate an oscillating spray is configured as a (e.g., 100, 400, 600 or 700). Preferably, the fluidic circuit's oscillation inducing geometry 710 is molded directly into the cup's interior wall surfaces and the one-piece fluidic cup may then fitted into an actuator (e.g., 340). The fluidic cup (e.g., 100, 400, 600 or 700) conforms to the actuator stem used in typical aerosol sprayers and trigger sprayers and so replaces the prior art “swirl cup” 70 that goes over the actuator stem (e.g., 320), With the fluidic cup (e.g., 100, 400, 600 or 700) and method of the present invention, vendors of liquid products and fluids sold in commercial aerosol sprayers 20 and trigger sprayers 800 can now provide very specifically tailored or customized sprays.

公开(公告)号：US09802209B2

公开(公告)日：2017-10-31

申请号：US15146484

申请日：2016-05-04

Applicant: The United States as represented by the Administrator of the National Aeronautics and Space Administration

Inventor： Mehti Koklu

IPC: B05B1/08 ,  F15C1/22 ,  F15D1/00

CPC classification number: B05B1/08 ,  F15C1/22 ,  F15D1/003 ,  F15D1/009

Abstract: A fluidic oscillator having independent frequency and amplitude control includes a fluidic-oscillator main flow channel having a main flow inlet, a main flow outlet, and first and second control ports disposed at opposing sides thereof. A fluidic-oscillator controller has an inlet and outlet. A volume defined by the main flow channel is greater than the volume defined by the controller. A flow diverter coupled to the outlet of the controller defines a first fluid flow path from the controller's outlet to the first control port and defines a second fluid flow path from the controller's outlet to the second control port.

公开(公告)号：US09789496B2

公开(公告)日：2017-10-17

申请号：US15145655

申请日：2016-05-03

Applicant: The United States of America as represented by the Administrator of the National Aeronautics and Space Administration

Inventor： Mehti Koklu

IPC: B05B1/08 ,  F15C1/22 ,  F15D1/00

CPC classification number: B05B1/08 ,  F15C1/22 ,  F15D1/0055 ,  F15D1/009

Abstract: A fluidic oscillator array includes a plurality of fluidic-oscillator main flow channels. Each main flow channel has an inlet and an outlet. Each main flow channel has first and second control ports disposed at opposing sides thereof, and has a first and a second feedback ports disposed at opposing sides thereof. The feedback ports are located downstream of the control ports with respect to a direction of a fluid flow through the main flow channel. The system also includes a first fluid accumulator in fluid communication with each first control port and each first feedback port, and a second fluid accumulator in fluid communication with each second control port and each second feedback port.

公开(公告)号：US09776195B2

公开(公告)日：2017-10-03

申请号：US12314242

申请日：2008-12-05

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

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

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

CPC classification number: B05B1/02 ,  A01G25/00 ,  B05B1/08 ,  B05B1/14 ,  B05B1/304 ,  B05B15/65 ,  B05B15/70 ,  B05B15/74

Abstract: 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：US09769932B2

公开(公告)日：2017-09-19

申请号：US15148780

申请日：2016-05-06

Applicant: MUTRACX INTERNATIONAL B.V.

Inventor： Henk Jan Zwiers ,  Jacobus Hendricus Johannes Janssen ,  Joost Anne Veerman

IPC: H05K3/12 ,  B05B13/02 ,  B05B15/04 ,  H01L21/288 ,  H01L23/544 ,  G01N21/956 ,  H05K3/00 ,  H05K3/22 ,  B05B1/08 ,  H01L21/66 ,  H05K1/09 ,  H05K3/06

CPC classification number: H05K3/125 ,  B05B1/08 ,  B05B12/16 ,  B05B13/0221 ,  B41J2/16538 ,  B41J2/16544 ,  B41J2/2132 ,  B41J25/001 ,  G01N21/95607 ,  G01N2021/95615 ,  H01L21/288 ,  H01L22/12 ,  H01L23/544 ,  H01L2924/0002 ,  H05K1/092 ,  H05K3/0079 ,  H05K3/061 ,  H05K3/22 ,  H05K2203/013 ,  H05K2203/1461 ,  H05K2203/1563 ,  H05K2203/1572 ,  H05K2203/16 ,  H05K2203/162 ,  H05K2203/163 ,  H01L2924/00

Abstract: A printing process for printing an ink pattern on a substrate is provided. The ink pattern to be printed is based on an available pattern layout. The pattern layout defines a desired layout of the ink pattern to be printed. Based on the pattern layout an input image for allocating dot positions of the ink pattern is generated. The printing process includes a step of comparing a scan image with the input image to carry out a quality inspection to detect any print defects in the printed ink pattern. The printing process includes a step of providing a decision on an approval or a rejection of the printed ink pattern. In case of an approval, the substrate can be supplied to a subsequent processing station to finalize the substrate. In case of a rejection, the substrate including print defects can be recycled.

公开(公告)号：US20170087568A1

公开(公告)日：2017-03-30

申请号：US15271740

申请日：2016-09-21

Applicant: TOTO LTD.

Inventor： Katsuya NAGATA ,  Kiyotake UKIGAI

IPC: B05B1/34 ,  B05B15/06 ,  B05B1/18

CPC classification number: B05B1/185 ,  B05B1/08

Abstract: The present invention is a spout apparatus (1) for spouting water, including: a spout apparatus main body (2) and an oscillation inducing element wherein the oscillation inducing element (4) has: a water supply conduit (10a), a water collision portion (14) disposed on the downstream end portion of the water supply passageway, for alternately generating oppositely circulating vortexes on that downstream side; a vortex street passageway (10b) for guiding vortexes formed by the water collision portion while causing them to grow; and a flow aligning pathway (10c) for aligning water including vortexes guided by the vortex street passageway, and causing it to be discharged; wherein a pair of opposing wall surfaces of the vortex street passageway are fully tapered so that a cross sectional area of flow path is narrowed towered a downstream side.

公开(公告)号：US09512531B2

公开(公告)日：2016-12-06

申请号：US14537436

申请日：2014-11-10

Applicant: VLN Advanced Technologies Inc.

Inventor： Mohan M. Vijay ,  Meisheng M. Xu ,  Emilio Panarella ,  Wenzhuo Yan ,  Andrew Hung Tieu ,  Bruce R. Daniels

IPC: B05B5/08 ,  B05B5/10 ,  B05B5/03 ,  B05B5/053 ,  B08B3/02 ,  B24C5/00 ,  B24C7/00 ,  C25D5/00 ,  C25D21/12 ,  C25D5/34 ,  C25D5/50 ,  C25D15/00 ,  C25D5/08 ,  B05C15/00 ,  B05C19/00 ,  B05B15/12 ,  B05B5/00 ,  B24C3/12 ,  B05B1/08 ,  B05B5/035 ,  B05B13/04 ,  B05B17/06 ,  B25J11/00 ,  B25J21/00 ,  C23C24/04 ,  C23C18/18

CPC classification number: B05D1/12 ,  B05B1/08 ,  B05B1/083 ,  B05B5/001 ,  B05B5/006 ,  B05B5/032 ,  B05B5/035 ,  B05B5/08 ,  B05B5/082 ,  B05B5/10 ,  B05B5/16 ,  B05B12/08 ,  B05B13/0431 ,  B05B14/40 ,  B05B16/00 ,  B05B16/20 ,  B05B16/40 ,  B05B17/06 ,  B05B17/0607 ,  B05B17/0653 ,  B05C15/00 ,  B05C19/00 ,  B05D3/12 ,  B08B3/024 ,  B08B2203/0288 ,  B24C3/12 ,  B24C5/005 ,  B24C7/00 ,  B25J11/0075 ,  B25J21/00 ,  C23C18/1806 ,  C23C24/04 ,  C25D5/006 ,  C25D5/08 ,  C25D5/34 ,  C25D5/50 ,  C25D15/00 ,  C25D21/12

Abstract: A method of stripping, prepping and coating a surface includes first stripping the exiting coating from a surface, using continuous or pulsed fluid jet, followed by prepping the surface by the same fluid jet. The method also provides entraining particles into a fluid stream, if desired to generate a particle-entrained fluid stream that is directed at the surface to be stripped and prepped. The particles act as abrasive particles for prepping the surface to a prescribed surface roughness required for subsequent application of a coating to the surface. The method then entails coating the surface by electrically charging particles having the same chemical composition as the particles used to prep the surface. Finally, a charged-particle-entrained fluid stream is directed at high speed at the charged surface to coat the surface. The particles form both mechanical and electronic bonds with the surface.

Abstract translation: 剥离，制备和涂覆表面的方法包括首先使用连续或脉冲流体射流从表面剥离出射的涂层，然后通过相同的流体射流制备表面。 如果需要，该方法还将夹带颗粒提供到流体流中，以产生指向待剥离和制备的表面的颗粒夹带的流体流。 颗粒作为磨料颗粒，用于将表面制备成随后向表面施加涂层所需的规定表面粗糙度。 该方法然后需要通过带电具有与用于制备表面的颗粒相同的化学组成的颗粒来涂覆表面。 最后，带电粒子的流体流在带电表面处高速引导以涂覆表面。 颗粒与表面形成机械和电子结合。