子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 81 | ROTARY AEROSOL PRODUCT | EP01978820.7 | 2001-10-17 | EP1240948B1 | 2012-07-18 | ZANMA, Shigekazu; TANAKA, Masazumi |
| A rotary aerosol product (10), comprising an aerosol product (11) and a rotary table (12) installed at the bottom part thereof, wherein spraying is sustained during the rotation of the product (11) and the number of rotations is 35 rpm or less, the injection hole (13a) of a nozzle (13) is eccentric from the center of rotation of the product (11) and the product (11) is rotated with the reaction by the injection from the nozzle (13), and the number of rotations is adjusted by the frictional force caused between a rotating member (31) and a fixed member (32) or balls (33). | ||||||
| 82 | FLUID SQUIRT GUN AND CLEANING APPARATUS UTILIZING THE SAME | EP05785911.8 | 2005-09-21 | EP1857190A1 | 2007-11-21 | HASEGAWA, Kaga |
A fluid ejection gun includes: a flexible ejection tube for ejecting a fluid, the fluid being supplied to the inside of the ejection tube, the fluid being ejected from the tip of the ejection tube; a guide disposed to surround the ejection tube and introduce the ejection tube along the inner surface of the guide, the ejection tube being moved by the fluid ejected from the tip ; a casing disposed to surround the guide, the casing having an opening section forward in the ejection direction of the fluid ejected from the tip of the ejection tube; and a suction unit provided to the casing for sucking the fluid ejected from the ejection tube. |
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| 83 | Sprinkling device | EP88306991.6 | 1988-07-29 | EP0302668B1 | 1994-01-19 | Hiemstra Lourens Abram Viljeon |
| A sprinkling device for liquids comprises an emitter tube 18 of resiliently flexible material having a mounted inlet end 24.1 and an unmounted outlet end 24.2, the arrangement being such that, with liquid flowing at a sufficient rate through the emitter tube, hydraulic forces exerted by the flowing liquid on the tube cause the outlet end continuously to move about. The emitter tube is mounted on a fitting 16 which having a flow passage 34 therethrough which leads into the emitter tube, the flow passge having, at its inlet end, a pair of grooves 36 which lead tangentially into the flow passage. These tangentially arranged grooves impart a swirling motion to water entering the emitter tube. A pop-up sprinkler is also disclosed in which the emitter tube is mounted on a plunger which is displaceable in a barrel, the emitter tube protruding through an opening at the end of the barrel. | ||||||
| 84 | HYDROTHERAPY MASSAGE APPARATUS | EP87902924.7 | 1987-03-20 | EP0265484B1 | 1991-04-24 | HENKIN, Melvyn Lane; LABY, Jordan Myron |
| A hydrotherapy method and apparatus (100) for discharging a fluid stream through an opening (134) in the wall (130) of a water tub (120), while concurrently translating the stream along a random path, to impact against and massage the body of a user (123) via a nozzle (108) through orifice (142). | ||||||
| 85 | VORRICHTUNG ZUM SCHNEIDEN, BOHREN O. DERGL. BEARBEITEN VON GESTEIN, ERZEN, BETON ODER DERGLEICHEN | EP88905802.0 | 1988-07-05 | EP0362292A1 | 1990-04-11 | LOEGEL, Charles; DURR, Isabelle; REICHERT, Sylvie; LOEGEL, Patrick; SCHNEIDER, Francine |
| Zum Schneiden, Bohren o. dergl. Bearbeiten von Gestein, Erzen, Kohleflözen oder anderen Gegenständen wird durch eine Zuleitung (12) zu einem Düsenkopf (3) Medium unter hohem Druck zugeführt. Die als Pendelrohr (30) insb. in Form eines biegbaren Hochdruckschlauches ausgebildete Zuleitung führt mit dem Düsenkopf (3) schnelle z.B. oszillierende und/oder kreisende Bewegungen längs einer Führung (6) aus. Hierdurch können sehr schnell und einfach gerade Schnitte und/oder Löcher in Gestein eingebracht werden. Die Schnittbreite (C) ist durch die Anordnung und Ausrichtung insb. mehrere Düsen (5) je nach Gestein und Druckmedium steuerbar. Eine kreisende Düsenkopfbewegung wird insb. durch ein als Antriebsorgan dienendes Exzenterelement (32, 103) veranlasst. Abstract To cut, bore or similarly machine rock, ore, stratified coal or other objects, a medium is delivered under high pressure through a supply pipe (12) to a nozzle (3). The supply pipe is designed as a pendulum-type pipe (30), in particular in the form of a flexible high-pressure hose, and executes, together with the nozzle (3), rapid, for example oscillating and/or circular, movements along a guide (6). In this way, straight cuts and/or holes can be made very rapidly and simply in rock. The cut width (C) can be controlled by the arrangement and fitting in particular of a plurality of nozzles (5), depending on the rock and pressure medium. In particular, an eccentric element (32, 103) which functions as a drive mechanism permits a circular movement of the nozzle. | ||||||
| 86 | HYDROTHERAPY MASSAGE METHOD AND APPARATUS | EP88906618.0 | 1988-07-12 | EP0329734A1 | 1989-08-30 | HENKIN, Melvyn Lane; LABY, Jordan Myron |
| Hydrotherapy apparatus including a rigid elongated conduit (116) having a supply orifice (188) and a discharge ori fice (118). The conduit (116) is mounted for swivel movement to enable the discharge orifice (118) to traverse a path char acterized by a series of small circular or semicircular path segments linked by translational path segments. The conduit (116) is moved along said path by reaction forces produced by the discharged stream. The stream is produced by a suppli ed water jet which entrains air and/or tub water, as selected by the user. Valve means (503) are provided for selectively var ying amount of air entrainment and/or water entrainment and/or supplied water jet. | ||||||
| 87 | Vorrichtung zum Schneiden, Bohren oder dergleichen Bearbeiten von Gestein, Beton oder dergleichen | EP88201560.5 | 1988-07-05 | EP0303313A1 | 1989-02-15 | Loegel, Charles; Durr, Isabelle, geb. Loegel; Reichert,Sylvie, geb. Loegel; Loegel, Patrick; Schneider, Francine, geb. Loegel |
Zum Schneiden, Bohren o. dergl. Bearbeiten von Gestein, Erzen, Kohleflözen oder anderen Gegenständen wird durch eine Zuleitung (12) zu einem Düsenkopf (3) Medium unter hohem Druck zugeführt. Die als Pendelrohr (30) insb. in Form eines biegbaren Hochdruckschlauches ausgebildete Zuleitung führt mit dem Düsenkopf (3) schnelle z.B. oszillierende und/oder kreisende Bewegungen längs einer Führung (6) aus. Hierdurch können sehr schnell und einfach gerade Schnitte und/oder Löcher in Gestein eingebracht werden. Die Schnittbreite (C) ist durch die Anordnung und Ausrichtung insb. mehrerer Düsen (S) je nach Gestein und Druckmedium steuerbar. Eine kreisende Düsenkopfbewegung wird insb. durch ein als Antriebsorgan dienendes Exzenterelement (32, 103) veranlaßt. |
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| 88 | Sprinkling device | EP88306991.6 | 1988-07-29 | EP0302668A2 | 1989-02-08 | Hiemstra Lourens Abram Viljeon |
A sprinkling device for liquids comprises an emitter tube 18 of resiliently flexible material having a mounted inlet end 24.1 and an unmounted outlet end 24.2, the arrangement being such that, with liquid flowing at a sufficient rate through the emitter tube, hydraulic forces exerted by the flowing liquid on the tube cause the outlet end continuously to move about. The emitter tube is mounted on a fitting 16 which having a flow passage 34 therethrough which leads into the emitter tube, the flow passge having, at its inlet end, a pair of grooves 36 which lead tangentially into the flow passage. These tangentially arranged grooves impart a swirling motion to water entering the emitter tube. A pop-up sprinkler is also disclosed in which the emitter tube is mounted on a plunger which is displaceable in a barrel, the emitter tube protruding through an opening at the end of the barrel. |
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| 89 | HYDROTHERAPY MASSAGE APPARATUS. | EP87902924 | 1987-03-20 | EP0265484A4 | 1988-12-12 | HENKIN MELVYN LANE |
| A hydrotherapy method and apparatus (100) for discharging a fluid stream through an opening (134) in the wall (130) of a water tub (120), while concurrently translating the stream along a random path, to impact against and massage the body of a user (123) via a nozzle (108) through orifice (142). | ||||||
| 90 | Thin-film coating apparatus for applying enhanced performance coatings on outdoor substrates | US15276726 | 2016-09-26 | US10010902B2 | 2018-07-03 | John Arthur deVos; Adam J. Gage |
| A thin-film coating applicator assembly is disclosed for coating substrates in outdoor applications. The innovative thin-film coating applicator assembly is adapted to apply performance enhancement coatings on installed photovoltaic panels and glass windows in outdoor environments. The coating applicator is adapted to move along a solar panel or glass pane while applicator mechanisms deposit a uniform layer of liquid coating solution to the substrate's surface. The applicator assembly comprises a conveyance means disposed on a frame. Further disclosed are innovative applicator heads that comprise a deformable sponge-like core surrounded by a microporous layer. The structure, when in contact with a substrate surface, deposits a uniform layer of coating solution over a large surface. | ||||||
| 91 | Method and system for the production of semi-finished copper products as well as method and apparatus for application of a wash | US14492253 | 2014-09-22 | US09994965B2 | 2018-06-12 | Thomas Winterfeldt; Michael Schwarze; Hardy Jungen |
| In a method for the production of semi-finished copper products, first copper is melted and cast to produce copper anodes, in one casting procedure, within multiple ingot molds, subsequently copper cathodes are formed by electrolysis, using at least one of the copper anodes, and then these copper cathodes are processed further to produce semi-finished copper products. A long-term coating is applied to at least one of the ingot molds as a wash, a sulfur-free wash is applied to the ingot mold and/or part of the work pieces cast in the ingot molds is directly processed further to produce semi-finished copper products. A method and an apparatus applies a wash to an ingot mold and a system produces semi-finished copper products. | ||||||
| 92 | Systems and methods for automating the application of friction-modifying coatings | US15432794 | 2017-02-14 | US09932715B2 | 2018-04-03 | Keith Rainwater; Rick Howorko; Matthew Howorko; Jeff Rainwater; Jack D. Stone, Jr. |
| A system and method for the application of friction-modifying coatings to roadways, walkways, pathways and other areas subject to vehicular, human or animal traffic, the system and method comprising the controlled, simultaneous application of binder and filler to a surface of a substrate, using a mobile device which passes over the substrate as the binder and filler are being applied. The system includes a frame coupled to a vehicle. A spray bar is mounted on the frame and includes an array of spray nozzles coupled to a resin container. An air knife is mounted on the frame and coupled to an air compressor for generating an air curtain. An aggregate dispenser bar including at least one aggregate dispenser is coupled to an aggregate bin and mounted on the frame for dispensing aggregate. | ||||||
| 93 | SPRAY COATING APPLICATION SYSTEM | US15176698 | 2016-06-08 | US20170354985A1 | 2017-12-14 | Cesar Jimenez Ramos |
| A spray coating application system for dispensing a liquid coating includes an elongated guide rail and a longitudinal slide plate slideably attached to the guide rail. The longitudinal slide plate is movable along a longitudinal axis of the guide rail between a first and second longitudinal positions. A transverse slide plate is attached to the longitudinal slide plate for concurrent movement therewith along the longitudinal axis of the guide rail. The transverse slide plate is moveable relative to the longitudinal slide plate in a transverse direction substantially perpendicular to the longitudinal axis of the guide rail. A spray nozzle is attached to the transverse slide plate for dispersing the liquid coating as a spray. A cam follower is attached to the transverse slide plate and engagable with a cam for moving the spray nozzle relative to the longitudinal slide plate between a first transverse position and a second transverse position. | ||||||
| 94 | Nozzle Adjustment Member for Sprinkler | US15491946 | 2017-04-19 | US20170216853A1 | 2017-08-03 | King-Yuan Wang |
| A nozzle adjustment member for a sprinkler is revealed. A plurality of nozzle tubes aligned in at least one row is positioned on a wall of a hollow pipe. A top end of the nozzle tube is projecting to an outside of the hollow pipe. At least one pivot support is disposed on the outside of the hollow pipe. Each pivot support is pivoted with an adjustment piece having a plurality of guiding openings. The guiding openings are positioned over the plurality of nozzle tubes correspondingly. A nozzle cover is connected with the outside of the hollow pipe for covering the adjustment piece. A plurality of long through holes for mounting the corresponding nozzle tubes is arranged at the nozzle cover. Around a pivot hole, the adjustment piece swings so as to drive the plurality of nozzle tubes moving at an angle and different water distribution patterns are provided. | ||||||
| 95 | DIGITAL PRINTING PROCESS OF A VEHICLE BODY | US15326596 | 2016-06-27 | US20170203580A1 | 2017-07-20 | Antonio Jose MARTINS PINTO |
| The present invention relates to a painting process whose purpose is to carry out the printing of a digital image provided by a user to a vehicle body through a production line. Printing is achieved through a print head, which injects automotive ink (solvent base/water base) as well as eco-solvent printer ink and UV ink. The print head is instructed to perform a variety of automated operations to develop body painting, through continuous path control. The print head is characterized by having an arm-like structure through which different tools or embossers can be used to make the impression, the head being able to make decisions based on the information coming from the image provided by the user. | ||||||
| 96 | Dual applicator fluid dispensing methods and systems | US14326722 | 2014-07-09 | US09707584B2 | 2017-07-18 | Christopher L. Giusti; Philip P. Maiorca; Mark S. Meier; David N. Padgett |
| Methods for simultaneously dispensing a first fluid pattern at a first dispense region with a first applicator and a second fluid pattern at a second dispense region with a second applicator. The first and second applicators are moved toward their respective dispense regions with a positioner. While dispensing, the second applicator is moved relative to the first applicator in a direction or directions parallel to a first axis, a second axis, and/or a third axis, the axes being mutually orthogonal. The first dispense region may be provided with a unique first tilt and/or a unique first contour relative to the reference plane and along the third axis. Systems for dispensing fluid include a primary positioner supporting a first applicator, and a secondary positioner coupled to the primary positioner and supporting a second applicator and configured to move the second applicator relative to the first applicator. | ||||||
| 97 | Sprinkler protector | US13530658 | 2012-06-22 | US09656283B2 | 2017-05-23 | Damien Croser |
| A sprinkler protector including a housing which engages with a sprinkler or sprinkler pipe and a plurality of circumferentially disposed fingers forming a cage-like shroud over the sprinkler head. The protector shields the sprinkler from impact with foreign material but does not prevent the efficient spraying of water from the sprinkler for the purposes of irrigation. | ||||||
| 98 | Fluid ejection device system and medical apparatus | US13765589 | 2013-02-12 | US09592517B2 | 2017-03-14 | Daisuke Kawakami; Hirokazu Sekino; Atsuya Hirabayashi |
| A fluid ejection device system includes: a fluid ejecting unit configured to change a volume of a fluid chamber to thereby eject fluid from a nozzle provided at a distal end of a fluid ejection pipe connected to the fluid chamber; a fluid supplying unit connected to the fluid ejecting unit by a connection tube and configured to supply the fluid to the fluid chamber; a control unit configured to control operation of the fluid ejecting unit and the fluid supplying unit; and a stand configured to hold at least a part of the fluid ejecting unit, and when it is detected that the fluid ejecting unit is held in the stand, the control unit controls at least one of the fluid ejecting unit and the fluid supplying unit to thereby execute a predetermined discharge operation for discharging the fluid in the fluid chamber. | ||||||
| 99 | METHODS FOR APPLYING A COATING OVER LASER MARKING | US14846269 | 2015-09-04 | US20170066011A1 | 2017-03-09 | Jared M. Kole; Ashutosh Y. Shukla; Yi Zhang; Vincent Yan; Wai Man Raymund Kwok |
| Coatings for filling cracks within anodic films formed from, for example, a laser marking process are described. The cracks generally have widths of nanometers in scale and can extend from an external surface of an anodic film to an underlying metal substrate. The coatings fill the cracks to prevent liquid and contaminants from entering the cracks and reaching the metal substrate, thereby preventing corrosion of the underlying metal substrate. The coatings can be hydrophobic such that water is wicked away from the cracks. In some cases, the coatings are fluoropolymer coatings. Methods include spray-on techniques that provide a thin and uniform layer of the coating. The spray-on technique can be configured to spray on a fluoropolymer precursor onto the anodic film such that the fluoropolymer precursor diffuses into and polymerizes into the fluoropolymer coating within the cracks. | ||||||
| 100 | Substrate treating apparatus and substrate treatment method for discharging treatment solution from nozzle to substrate | US14854235 | 2015-09-15 | US09555436B2 | 2017-01-31 | Shoji Uemae; Tatsuhiko Kawaguchi |
| An upper treatment solution nozzle discharges a treatment solution at a treatment position above a substrate. A reference image and a test image are cut out from an image captured after the upper treatment solution nozzle receives an instruction to start discharging the treatment solution. The test image is an image including an area of a surface of a substrate, in which a liquid flow of the treatment solution from the upper treatment solution nozzle is to be formed. The reference image is an image of an area of the surface of the substrate except for the area in which the liquid flow of the treatment solution from the upper treatment solution nozzle is to be formed. Through the comparison between the reference image and the test image, a discharge of the treatment solution from the upper treatment solution nozzle is determined. | ||||||
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