| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 181 | Acoustic-Assisted Heat and Mass Transfer Device | US15486469 | 2017-04-13 | US20170219284A1 | 2017-08-03 | Zinovy Zalman Plavnik; Jason Lye |
| An acoustic energy-transfer system includes: an acoustic chest arranged circumferentially around a container configured to receive a material to be processed; and an ultrasonic transducer arranged circumferentially inside the acoustic chest, the ultrasonic transducer defining an acoustic slot extending through the ultrasonic transducer, the acoustic slot angled with respect to a central axis of the acoustic chest. | ||||||
| 182 | Acoustic-assisted heat and mass transfer device | US14808625 | 2015-07-24 | US09671166B2 | 2017-06-06 | Zinovy Zalman Plavnik; Jason Lye |
| An acoustic energy-transfer apparatus including: an acoustic chest, the acoustic chest defining an inner chamber sized to receive a material to be processed; and an acoustic device positioned within the acoustic chest and oriented to direct acoustic energy towards the material to be processed. A method for drying a material, the method including: positioning a material in an acoustic chest including an acoustic device; and directing acoustically energized air from the acoustic device at the material within the acoustic chest. | ||||||
| 183 | ACOUSTIC-ASSISTED HEAT AND MASS TRANSFER DEVICE | US14808625 | 2015-07-24 | US20160025411A1 | 2016-01-28 | Zinovy Zalman Plavnik; Jason Lye |
| An acoustic energy-transfer apparatus including: an acoustic chest, the acoustic chest defining an inner chamber sized to receive a material to be processed; and an acoustic device positioned within the acoustic chest and oriented to direct acoustic energy towards the material to be processed. A method for drying a material, the method including: positioning a material in an acoustic chest including an acoustic device; and directing acoustically energized air from the acoustic device at the material within the acoustic chest. | ||||||
| 184 | Process for applying one or more treatment agents to a textile web | US11965435 | 2007-12-27 | US08632613B2 | 2014-01-21 | Laura Braunecker; Thomas David Ehlert; Tony Fedel; Robert Allen Janssen; John Gavin MacDonald; Patrick Sean McNichols; Roland C. Smith, Jr. |
| A process for treating a textile web includes applying a first treatment agent to the web. The web is moved in an open configuration over a contact surface of an ultrasonic vibration system. The ultrasonic vibration system is operated to impart ultrasonic energy to the textile web to facilitate the distribution of the first treatment agent through a first extent of the thickness of the textile web. A second treatment agent is applied to the web. The web is moved in an open configuration thereof over a contact surface of an ultrasonic vibration system. The ultrasonic vibration system is operated to impart ultrasonic energy to the textile web to facilitate the distribution of the second treatment agent through a second extent of the thickness of the web. The second extent is different than the first extent. | ||||||
| 185 | ULTRASONIC WASHER | US13417175 | 2012-03-09 | US20130233030A1 | 2013-09-12 | Vadim Chindyasov |
| An ultrasonic washing machine is disclosed. The ultrasonic washing machine can have a machine body and a drum housed within the machine body, the drum having an opening for loading and unloading laundry. The ultrasonic washing machine can include a front door attached to the machine body and covering the opening. The ultrasonic transducers can be placed on an interior surface of the front door so as to be in direct contact with washing fluid when the washing machine is in operation. A control unit coupled to the one or more ultrasonic transducers. | ||||||
| 186 | Process for Preparing Sorptive Substrates, and Integrated Processing System for Substrates | US13195100 | 2011-08-01 | US20130031872A1 | 2013-02-07 | H. Dennis Blaiss; Laurent H. Sene; Gregory T. Hall; Randy H. Whittington |
| A process for treating a substrate comprised of sorptive material is provided herein. The sorptive material may be an absorbent synthetic material such as polyester. The material is designed to be used for cleaning surfaces in an ultraclean environment. The process first comprises unwinding a roll of sorptive material as a substrate into a cleaning system. The cleaning system utilizes several sections. These include a pre-washing section, an acoustic energy washing section, and a drying section. Preferably, the process of moving the substrate through the cleaning system is continuous. The acoustic energy washing section employs one or more acoustic energy generators. In one aspect, the process also includes cutting the substrate into sections to form wipers after moving the substrate through the drying section. Thereafter, the wipers are placed into bag, and the bag is sealed. An integrated processing or treating system for a sorptive material is also provided herein. | ||||||
| 187 | Process for dyeing a textile web | US11646816 | 2006-12-28 | US07740666B2 | 2010-06-22 | Robert Allen Janssen; Thomas David Ehlert; John Gavin MacDonald; Earl C. McCraw, Jr.; Patrick Sean McNichols; Michael Joseph Garvey |
| In a process for dyeing a textile web having a first face and a second face opposite the first face, a solvent-based dye having at least one component that has a thermal conductivity substantially greater than that of the solvent is applied to the textile web. The web is then moved, in an open configuration thereof, over a contact surface of an ultrasonic vibration system with the textile web in direct contact with the contact surface of the ultrasonic vibration system. The ultrasonic vibration system is operated to impart ultrasonic energy to the textile web at the contact surface of the ultrasonic vibration system. In one embodiment, the dye is applied to the first face of the web and the web is then moved over the contact surface of the ultrasonic vibration system with the second face of the web in direct contact with the contact surface. | ||||||
| 188 | Process for dyeing a textile web | US11646816 | 2006-12-28 | US20080155764A1 | 2008-07-03 | Robert Allen Janssen; Thomas David Ehlert; John Gavin MacDonald; Earl C. McCraw; Patrick Sean McNichols; Michael Joseph Garvey |
| In a process for dyeing a textile web having a first face and a second face opposite the first face, a solvent-based dye having at least one component that has a thermal conductivity substantially greater than that of the solvent is applied to the textile web. The web is then moved, in an open configuration thereof, over a contact surface of an ultrasonic vibration system with the textile web in direct contact with the contact surface of the ultrasonic vibration system. The ultrasonic vibration system is operated to impart ultrasonic energy to the textile web at the contact surface of the ultrasonic vibration system. In one embodiment, the dye is applied to the first face of the web and the web is then moved over the contact surface of the ultrasonic vibration system with the second face of the web in direct contact with the contact surface. | ||||||
| 189 | Continuously and combiningly operable breadth expansion and vibration enhanced spray dyeing machine | US09437292 | 1999-11-09 | US06393871B1 | 2002-05-28 | Chao-Cheng Chiang |
| A continuously and combiningly operable breadth expansion and vibration enhanced spray dyeing machine, which can provide dyeing and other processing operations on a fabric in a continuous way. The dye and treating agents are spraying onto the fabric. By a high speed air flow, the fabric can have a violent vibration to speed up the processing effect. Therefore, the fabric can be processed with small amount continuous dyeing and other processing operations in a short period of time. | ||||||
| 190 | Process and device for continuous ultrasonic washing of textile | US09284004 | 1999-12-27 | US06266836B1 | 2001-07-31 | Antonio Gallego Juarez; German Rodriguez Corral; Gonzalo Najera Vazquez de Parga; Fernando Vazquez Martinez; Piet van der Vlist |
| A process and apparatus for ultrasonic cleaning of materials in which vibrating plates are used in close contact with a material to be cleaned. The material is placed in a shallow liquid and the vibrator of the plates eliminate dirt or contaminating substances from the material by cavitation of the liquid. The vibrating plates are flexurally vibrated at a frequency which correspond to its resonant frequency and is one of a sonic or ultrasonic frequency. The acoustic field created by the oscillation of the plates and in cleaning the material. A pledging system may also include ultrasonic vibrating plates to assist in expelling water. | ||||||
| 191 | Carbon fiber fabric spreading apparatus having a freely rotatable endless belt | US340657 | 1994-11-16 | US5511395A | 1996-04-30 | Saburo Hamade; Masahiko Takahiro; Kazuo Morohashi |
| A freely rotatable endless belt has a bottom face that is opposed, in the water, to an ultrasonic oscillator. A carbon fiber fabric is transferred from a supply roller to a hot roller while being given tension by means of a torque motor and a constant speed motor connected to the supply roller and the hot roller, respectively. The carbon fiber fabric moves in contact with the bottom face of the endless belt, whereby endless belt rotates in synchronism with the carbon fiber fabric. Two oblique movement correcting belts are so disposed as to be pressed against both side portions of the endless belt while gripping respective selvages of the carbon fiber fabric. Each of the two oblique movement correcting belts is connected to a variable speed motor via a uni-directional clutch that transmits a driving force only in the direction of transferring the carbon fiber fabric. | ||||||
| 192 | Method coating fibers with particles by fluidization in a gas | US746062 | 1991-08-12 | US5102690A | 1992-04-07 | Shridhar Iyer; Lawrence T. Drzal; Krishnamurthy Jayaraman |
| A system and method for uniformly coating one or more fibers (10) with particles of a material is described. The method uses a vibrator preferably an acoustic speaker (17b) in a housing (17c) to fluidize the particles (P.sub.1) in a chamber (17 or 30) to deposit them on spread fibers (10b). The fibers can be in the form of a tow of fibers. After the articles are coated on the fibers, the particles can be bonded to the fiber such as by using a heater (19). The resulting product has a uniform deposit of the particles and in the case of the tow of fibers can serve as a prepreg for laminate structures to be produced from the coated tow of fibers. | ||||||
| 193 | Method to soften fabric by air impingement | US391690 | 1989-08-10 | US4918795A | 1990-04-24 | Louis Dischler |
| An apparatus and method of treating fabric by directing low pressure air at near-sonic velocity between the fabric and a rigid plate tangentially in the warp direction of the fabric to cause the fabric to vibrate at extremely high rate. This high speed vibration causes sawtooth waves in the fabric to break fiber-to-fiber resin or finish bonds thereby decreasing the bending and shear stiffness to enhance the flexibility, drape and softness of the fabric. | ||||||
| 194 | Cloth washing machine | US57963 | 1987-06-03 | US4818244A | 1989-04-04 | Hideo Iwami |
| A cloth washing machine has a group of water tanks arranged in a steaming chamber, and a group of guide rollers arranged either in and out of water tanks, in order to wash cloth supplied into the steaming chamber in swelling in steam and soaking in water repeatedly, and the machine further has a cloth stretching mechanism that keeps cloth stretched on rotationally driving guide rollers and conveys cloth in direction, and a vibrating mechanism that gives direct vibrating motion to cloth so stretched, in order to improve washing effect. | ||||||
| 195 | Ultrasonic washing machine | US780081 | 1985-09-25 | US4727734A | 1988-03-01 | Masao Kanazawa; Yukio Ooka |
| An ultrasonic washing machine as an air bubble supplying device and an ultrasonic generator. The ultrasonic generator works with textile products such as fabrics, yarns, ropes, etc. placed in a tub filled with water. Air bubbles produced by the cavitation effect of the ultrasound cling to the surface of the textile products and help remove stains, alien matter, etc. adhering to them. Part of the air, fed from the outside by an air bubble supplying device, constantly dissolves in the water, whereby the air consumed by the cavitation is supplemented; the rest of the air, not dissolved in the water, diffuses the ultrasound when ascending in the water as bubbles, which serves to greatly improve the washing effect. | ||||||
| 196 | Method for applying liquid to a yarn | US269529 | 1981-06-02 | US4526808A | 1985-07-02 | Alfred J. Strohmaier |
| An ultrasonic vibrator of the type used to atomize liquid is used for applying liquid finish to a moving threadline. The liquid is supplied to a through passage in the tip of the horn of the vibrator in which it is atomized and applied to the threadline which is moving through the passage in the tip of the horn. | ||||||
| 197 | Fabric treatment with ultrasound | US125699 | 1980-02-28 | US4302485A | 1981-11-24 | Anthony J. Last; John M. McAndless |
| A method and apparatus for the treatment of fabric materials with a liquid finishing agent such as a liquid repellant is disclosed. The method involves passing a strip of the fabric through a bath of the liquid finishing agent across a stationary fabric contacting surface. In the preferred embodiment, the fabric is subjected to ultra-sonic energy while immersed in the bath at a power level and frequency such that cavitation occurs in the bath adjacent the submerged material. | ||||||
| 198 | Method for cleaning resilient webs | US26240872 | 1972-06-13 | US3829328A | 1974-08-13 | BLUSTAIN S |
| A METHOD AND APPARATUS FOR CLEANING MECHANICALLY BONDED CONTAMINANTS FROM A RESILIENT WEB IN A FLUID MEDIUM WHEREIN LONGITUDINAL VIBRATIONS OF LARGE DISPLACEMENT AMPLITUDE ARE RADIATED FROM THE OUTPUT RADIATOR OF A GENERATOR MEANS TO PRODUCE PERIODIC PERTURBATIONS OF LARGE DISPLACEMENT AMPLITUDE IN THE FLUID MEDIUM. SAID OUTPUT RADIATOR IS POSITIONED ADJACENT SAID WEB AND REFLECTING MEANS IS DISPOSABLE IN FACING RELATION WITH SAID OUTPUT RADIATOR, WITH SAID WEB THEREBETWEEN, FOR REFLECTING SAID VIBRATIONS BACK INTO SAID FLUID MEDIUM, SAID RE: FLECTING MEANS AND OUTPUT RADIATOR BEING SPACED A DISTANCE APART SUCH THAT THE REFLECTED VIBRATIONS ARE SUBSTANTIALLY IN PHASE WITH THE VIBRATIONS RADIATED INTO SAID FLUID MEDIUM BY SAID GENERATING MEANS OUTPUT RADIATOR.
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| 199 | Ultrasonic apparatus for hair joining | US3727619D | 1971-09-14 | US3727619A | 1973-04-17 | KURIS A |
| The method and apparatus for joining hair together utilizing ultrasonic vibrational energy in which the overlapping portions of the commercial hair and the live hair are maintained in fixed position to each other when the energy is introduced therein. The hair may be coated internally or externally with a thermoplastic material which acts as the bonding agent.
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| 200 | Acoustic method for the posttreatment of fibers | US3695825D | 1970-03-30 | US3695825A | 1972-10-03 | GREGUSS PAL; NAGY SANDOR B; ERDEI JANOS; TOTH LAJOS |
| AN APPARATUS AND A METHOD FOR THE POSTTREATMENT OF FIBERS INCLUDING THE REMOVAL OF VALUABLE, REUSABLE IMPURITIES FROM THE FIBERS WHEREIN THE FIBERS ARE LED THROUGH A WASH-LIQUOR IN WHICH AN ACOUSTIC FIELD IS EXCITED.
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