| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 61 | 快速透气降温T恤面料浸染装置 | CN201410701210.3 | 2014-11-28 | CN104532500A | 2015-04-22 | 庞媛媛 |
| 本发明涉及一种快速透气降温T恤面料浸染装置,包括:沿坯布运行路径上依次设置的放布辊、超声波预染装置、至少一个浸染辊、至少一组压烫辊组、烘筒和收布辊,还包括染烫筒和罩盖,所述染烫筒底部盛装有染浆,所述浸染辊浸入在所述染浆中,所述浸染辊为圆柱形空心结构的,其筒壁上设有若干个贯穿的循环孔,每组所述压烫辊组包括两个相互挤压在一起的压烫辊。本发明通过超声波设备先行对坯布进行处理,能够在预染液浸润坯布的过程中驱赶残存在纱线之间甚至纤维之间的微小气泡,保证彻底浸入预染液,同时也能够去除坯布中的杂质等物质;浸染辊带有循环孔和泵体能够提高坯布跟染料的充分结合。 | ||||||
| 62 | 油剂扩散装置及纺丝卷绕机 | CN201110037272.5 | 2011-02-14 | CN102162147B | 2015-01-07 | 花山真一 |
| 油剂扩散装置及纺丝卷绕机。油剂扩散装置具有旋转体(10),该旋转体(10)卷挂有通过供油喷嘴(2)附着了油剂的纱线(Y)。旋转体(10)由对置配置并固定为一体的两个圆板(11)构成,在各圆板(11)上形成有从对置的一个面突出并在周向上隔开等间隔地配置的多个突出部(12)。一个圆板(11)上的多个突出部(12)和另一个圆板(11)上的多个突出部(12)在周向上交替地并列配置。当纱线行进时,旋转体(10)从动旋转,通过随着纱线的行进的旋转体(10)的旋转,纱线和突出部(12)的间歇地反复接触,纱线(Y)进行振动。 | ||||||
| 63 | 油剂扩散装置及纺丝卷绕机 | CN201110037272.5 | 2011-02-14 | CN102162147A | 2011-08-24 | 花山真一 |
| 油剂扩散装置及纺丝卷绕机。油剂扩散装置具有旋转体(10),该旋转体(10)卷挂有通过供油喷嘴(2)附着了油剂的纱线(Y)。旋转体(10)由对置配置并固定为一体的两个圆板(11)构成,在各圆板(11)上形成有从对置的一个面突出并在周向上隔开等间隔地配置的多个突出部(12)。一个圆板(11)上的多个突出部(12)和另一个圆板(11)上的多个突出部(12)在周向上交替地并列配置。当纱线行进时,旋转体(10)从动旋转,通过随着纱线的行进的旋转体(10)的旋转,纱线和突出部(12)的间歇地反复接触,纱线(Y)进行振动。 | ||||||
| 64 | 气力开幅振动的喷雾式快速连续染色联合机 | CN99816977.3 | 1999-11-02 | CN1147637C | 2004-04-28 | 江兆城 |
| 一种可供连续及联合的喷雾式气力振动加速染色机,可实现纺织品以连续一贯的方式完成染色或其他加工处理,其中染料和处理剂是利用喷雾方式与纺织品接触的,同时利用高速空气流的吹动作用,使纺织品全面产生激烈振动运动,获得加速处理效果,因此,纺织品可在极短时间内达到小液量的连续染色和其他加工处理。 | ||||||
| 65 | 处理易皱织物的方法 | CN97191930.5 | 1997-01-15 | CN1125898C | 2003-10-29 | L·迪施勒 |
| 用高速气流撞击以处理织物(14)的方法。此法包括将织物(14)送入处理区。在处理区,织物(14)受到高速气流按织物(14)的切绕和运行方向的撞击而通过处理区,从而形成一系列的锯齿形波浪,并沿着织物(14)的运行方向运动。也提供实行此方法的设备。 | ||||||
| 66 | Process for Preparing Sorptive Substrates, and Integrated Processing System | US14599740 | 2015-01-19 | US20150330007A1 | 2015-11-19 | 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 a bag and the bag is sealed. | ||||||
| 67 | Process for dyeing a textile web | US11777128 | 2007-07-12 | US08182552B2 | 2012-05-22 | Robert Allen Janssen; Dennis John DeGroot; Thomas David Ehlert; Michael Joseph Garvey; Earl C. McCraw, Jr.; Patrick Sean McNichols |
| In a process for dyeing a textile web having a first face and a second face opposite the first face, dye is applied to the textile web and 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 to facilitate the distribution of dye throughout the web. The web is then moved further in its open configuration through a microwave application chamber of a microwave system and the microwave system is operated to impart microwave energy to the web in the microwave application chamber to facilitate binding of the dye to the web. | ||||||
| 68 | Process for dyeing a textile web | US11617523 | 2006-12-28 | US07568251B2 | 2009-08-04 | Robert Allen Janssen; Thomas David Ehlert; John Gavin MacDonald; Michael Joseph Garvey; Patrick Sean McNichols; Earl C. McCraw, Jr. |
| In a process for dyeing a textile web having a first face and a second face opposite the first face, dye is applied to the textile web and the dyed web is then immersed in a flowing treatment liquid with the textile web in a generally open configuration. A contact surface of an ultrasonic vibration system is immersed in the flowing treatment liquid with the contact surface in direct contact with at least a portion of the textile web immersed in the treatment liquid. The ultrasonic vibration system is operated to impart ultrasonic energy to the portion of the textile web immersed in the treatment liquid at the contact surface of the ultrasonic vibration system to facilitate the removal of unbound dye from the textile web for entrainment in the flow of treatment liquid. | ||||||
| 69 | PROCESS FOR APPLYING ONE OR MORE TREATMENT AGENTS TO A TEXTILE WEB | US11965435 | 2007-12-27 | US20090165223A1 | 2009-07-02 | 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. | ||||||
| 70 | PROCESS FOR DYEING A TEXTILE WEB | US11617523 | 2006-12-28 | US20080155763A1 | 2008-07-03 | Robert Allen Janssen; Thomas David Ehlert; John Gavin MacDonald; Michael Joseph Garvey; Patrick Sean McNichols; Earl C. McCraw |
| In a process for dyeing a textile web having a first face and a second face opposite the first face, dye is applied to the textile web and the dyed web is then immersed in a flowing treatment liquid with the textile web in a generally open configuration. A contact surface of an ultrasonic vibration system is immersed in the flowing treatment liquid with the contact surface in direct contact with at least a portion of the textile web immersed in the treatment liquid. The ultrasonic vibration system is operated to impart ultrasonic energy to the portion of the textile web immersed in the treatment liquid at the contact surface of the ultrasonic vibration system to facilitate the removal of unbound dye from the textile web for entrainment in the flow of treatment liquid. | ||||||
| 71 | PROCESS FOR DYEING A TEXTILE WEB | US11617473 | 2006-12-28 | US20080155762A1 | 2008-07-03 | Robert Allen Janssen; Dennis John DeGroot; Thomas David Ehlert; Michael Joseph Garvey; Earl C. McCraw; Patrick Sean McNichols |
| In a process for dyeing a textile web having a first face and a second face opposite the first face, dye is applied to the textile web and 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 to facilitate the distribution of dye throughout the web. The web is then moved further in its open configuration through a microwave application chamber of a microwave system and the microwave system is operated to impart microwave energy to the web in the microwave application chamber to facilitate binding of the dye to the web. | ||||||
| 72 | Liquid carbon dioxide cleaning using agitation enhancements at low temperature | US09611454 | 2000-07-07 | US06264753B1 | 2001-07-24 | Sidney C. Chao; Edna M. Purer; Nelson W. Sorbo |
| A cleaning system and method utilizing sonic whistle and other agitation methods to enhance the soil removal and mass transport capacity of the liquid carbon dioxide at low process temperatures. Agitation devices disposed in or couple to a cleaning chamber, and cause the liquid carbon dioxide to ultrasonically emulsify and disperse non-miscible liquids or insoluble solids, such as remove low solubility oils and greases. Cleaning is accomplished at temperatures between −68° F. and 32° F., and the temperature of the liquid carbon dioxide is typically below 32° F. | ||||||
| 73 | Jig-type textile finishing method | US649601 | 1996-05-24 | US5758376A | 1998-06-02 | Bertrand Meyer; Michel Colrat; Patrick Gayrine; Joric Marduel; Isabelle DeVos; Fran.cedilla.oise Lana |
| In the jig type textile finishing method and apparatus of the invention, the textile material (19) passes through a heated treatment bath (20) and is rolled alternately in one direction and in the opposite direction with high frequency or microwave electromagnetic waves (24) being applied to said textile material (19) while it is being rolled in and/or out. The power of the waves is determined, as a function of the optimum temperature for the reaction that is to be implemented, in such a manner as to maintain the temperature of the assembly (5, 6) constituted by the rolled-in textile material and the bath in which it is impregnated substantially equal to or greater than said optimum temperature. | ||||||
| 74 | Process for treating textile materials with enzyme containing compositions and high frequency fields | US439804 | 1995-05-12 | US5512060A | 1996-04-30 | Saverio Fornelli; Illa Souren |
| A process for the treatment of a textile material comprisinga) applying evenly a liquor solution (hereinafter referred to as "the liquor") for performing the treatment to the material in such a manner that the dry weight uptake of the solution at the end of this step is no more than 200%;b) then passing the material into a high frequency field of 10-50 MHz for 1 to 120 seconds; andc) optionally maintaining the material at the temperature that the material reaches in the high frequency field for up to 15 minutes (preferably 1-5 minutes). | ||||||
| 75 | Method for fiber coating with particles | US618234 | 1990-11-05 | US5123373A | 1992-06-23 | 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 particles 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. | ||||||
| 76 | Ultrasonically speeded fiber impregnation | US860788 | 1986-05-08 | US4689244A | 1987-08-25 | Donald I. Lusk |
| A method of ultrasonically treating a fibrous strand for subsequent use in high speed filament winding operations. The strand, composed of a multiplicity of filaments such as glass or carbon, is initially coated with a silane-type binder which is dried onto the surface of the filaments. The strand is then passed at a high speed through a bath of thermosetting resin, and while submerged in the resin is subjected to ultrasonic energy. The ultrasonic energy increases the rate of interaction of the binder and resin, thereby increasing the wetting rate of the individual filaments. This permits saturation of an individual strand or a group of strands with the resin in a much shorter contact time and guarantees removal of all entrained air in the bundle. At the same time, it provides a more stable resin-fiber bond after curing. | ||||||
| 77 | Laser means and method | US573068 | 1984-01-23 | US4578558A | 1986-03-25 | John E. Clegg |
| A method of severing fibre from a fell comprises moving a fell in a longitudinal direction and traversing the fell with a laser beam focused onto the fibre adjacent the skin of the fell. | ||||||
| 78 | Ultrasonic processing device | US491803 | 1983-05-05 | US4483571A | 1984-11-20 | Shoji Mishiro |
| The present invention provides an ultrasonic processing device which comprises one or more sets each including a wide horn which resonantly vibrates in a 1/2 wave length in a longitudinal direction and in a 1/2.times.n wave length in a widthwise direction thereof, and an ultrasonic vibrator which is joined either to an intermediate point of the wide horn at which amplitude of vibrations is maximum in the distribution thereof along the widthwise direction or to a point at a widthwise end of the wide horn at which amplitude of vibrations is maximum in the distribution thereof along the widthwise direction. Thus, at an end of the wide horn, maximum and minimum values may alternately appear by every 1/4 wave length distance over the entire width thereof and hence vibrations of the wide horn can be considered generally uniform over the entire width thereof. Also, wide horns in a plurality of sets may be disposed in spaced relationship in a direction in which an article to be processed is fed in order to attain further uniformed application of vibrations to the article to be processed. | ||||||
| 79 | Apparatus for continuous full-width washing of a textile cloth layer | US13805 | 1979-02-21 | US4206618A | 1980-06-10 | Gunter Schiffer |
| An apparatus for continuous full-width washing of a textile cloth layer, which is guided horizontally or nearly horizontally between reversing rollers arranged in two vertical rows so as to form horizontal cloth layer sections between respective rollers of the two rows of rollers. The upper side of a given horizontal cloth layer section is supplied with a washing liquor film. Devices are arranged between the vertical rows of rollers for imparting vertical or nearly vertical vibrations to the respective horizontal cloth layer sections. | ||||||
| 80 | Method and apparatus for bulking yarn | US3646744D | 1969-12-22 | US3646744A | 1972-03-07 | RUSCA RALPH A |
| An apparatus utilizing ultrasonic components was designed and used in combination with select chemicals to produce permanent bulking in cotton and other yarns. The method constitutes immersing the yarns in cross-linking formulations and subjecting these while immersed to ultrasonic irradiation. An extension of the method comprises imparting resiliency to the bulked yarns. This is accomplished both by mechanical and by chemical means.
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