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 |
|---|---|---|---|---|---|---|
| 261 | Stick applicator | US14241588 | 2012-08-30 | US09827585B2 | 2017-11-28 | Janine Bintig; Edmund Bonna |
| A stick applicator for applying a liquid stored in a hard ampoule, comprising a hollow plastic stick body, designed for receiving the ampoule and having a closed end and an open end, the wall of which is sufficiently flexible to allow the ampoule held in the plastic stick body to be broken without using an implement and thereby let the liquid out into the interior of the plastic stick body, and comprising an applicator head, which is fitted on the open end of the plastic stick body and comprises a foam, felt or fibre body, wherein the plastic stick body has at least in certain portions a separate sheathing layer to increase its perforation resistance to ampoule fragments and near its open end retaining means for securely holding the applicator head and/or retaining means for securely holding the ampoule inside it. | ||||||
| 262 | PAINT EDGER | US15379037 | 2016-12-14 | US20170165701A1 | 2017-06-15 | Paul Constantine |
| A paint edger 1 comprising: a body 5 having a feature arranged to contact a structure adjacent a surface to be painted to facilitate painting the surface close to the structure; and an applicator support 6 for supporting an applicator 7 for applying paint to the surface. The applicator support 6 and the feature are moveably mounted relative to one another. | ||||||
| 263 | DISPENSE NOZZLE WITH A DYNAMIC LIQUID PLUG | US15283899 | 2016-10-03 | US20170096326A1 | 2017-04-06 | Ronald Nasman; Bruce Altemus |
| Provided is a method of limiting exposure of a dispense chemical to air and meet dispense objectives in a dispense nozzle system, the method comprising: providing a sample requiring a dispense process of a dispense chemical using a dispense nozzle system; performing an opening cycle of dispense process steps to get the dispense nozzle system ready; dispensing a dispense chemical onto the sample; and performing a closing cycle of dispense process steps to prepare the nozzle system for non-use; repeating the operations of performing the opening cycle of dispense process steps, dispensing the chemical, and performing the closing cycle of dispense process steps a prescribed number of times depending on an application. | ||||||
| 264 | Fluid applicator | US12258411 | 2008-10-26 | US09549654B1 | 2017-01-24 | Craig A. Williams; Charles J. Barnhart; Kirk Toczynski |
| A notched fluid applicator comprising a base with a dispenser pad or a brush. The notch allows the application of a fluid to a surface containing one or more protrusions. The applicator may be used to apply fluid to the surface of an article such as a glass substrate, printed circuit board, or other surface containing one or more protrusions. | ||||||
| 265 | Precision liquid applicator | US13829887 | 2013-03-14 | US09346072B2 | 2016-05-24 | Stephan M Ballot |
| A precision liquid applicator is disclosed for dispensing an applicator liquid from a container onto a surface. The precision liquid applicator comprises a closure defining a terminal orifice and a valve seat. A valve comprises a precision applicator tip extending through the terminal orifice and comprises a valve seal for sealing with the valve seat. A depression of the precision applicator tip onto the surface displaces the valve seal from the sealing surface for providing an annular passageway between the precision applicator tip and the terminal orifice to enable the flow of the applicator liquid onto the surface. A valve stop cooperates with a stop wall for limiting movement of the valve to control a cross-sectional area of the passageway between the precision applicator tip and the terminal orifice and for ensuring the precision applicator tip extends beyond the second end of the closure. The precision liquid applicator is suitable for applying paint into a scratch within a painted surface without excessive application of paint outside of the scratch. | ||||||
| 266 | METHOD AND APPARATUS FOR PRODUCING A NON-UNIFORM COATING ON A SUBSTRATE | US14993216 | 2016-01-12 | US20160121362A1 | 2016-05-05 | Gary W. Maier |
| A roll coater can be modified by the addition of one or more needle tubes that supply coating fluid to the roll coater in discrete locations across the face of the coating roll. The needle tubes supply a localized band of coating material onto the coating roll superimposed over the uniform coating layer already present on the surface of the coating roll from an upstream coating pond creating a stripe pattern over the uniform coating layer. By varying the relative speeds of the coating rolls in the coater, the width of the stripe can also be adjusted. | ||||||
| 267 | Applicator | US14114261 | 2012-04-23 | US09314810B2 | 2016-04-19 | Junya Uehara |
| An applicator includes a squeezer for pushing out a content liquid to an applicator part, and the shape of a content liquid delivering port of the applicator part is formed to be oval or rectangular while the minor axis and major axis on the delivery port side are specified to be 0.5 to 2 mm and 2 to 8 mm, respectively. In this applicator, large-sized particles can be delivered by enlargement of the bore inside the applicator part. Further, formation of an oval delivering port allows for drawing fine lines in the minor axis direction and thick lines in the major axis direction. Moreover, provision of small-diametric projections at the front end of applicator, enables drawing of long lines and retaining of the liquid cosmetic stored between projections. | ||||||
| 268 | Location tracking and motion control of automated marking device | US13948195 | 2013-07-23 | US09221506B1 | 2015-12-29 | Gary E. Georgeson; John R. Linn; James J. Troy; Karl Edward Nelson; Daniel J. Wright; Scott W. Lea |
| A system in accordance with one embodiment comprises a marking device attached to a holonomic-motion crawler vehicle capable of movement on non-horizontal surfaces. Modular attachment and motion control interfaces on the platform allow attachment of various types of marking and non-destructive inspection (NDI) sensor modules. The crawling vehicle marks the location of sub-surface features on an aircraft skin or overlaid patch (doubler) using a pen or sticker or tape applicator that is guided based on either a 3-D CAD model or NDI data collected as the vehicle crawls. A second embodiment utilizes an automated NDI scanner to collect 2-D image data of the substructure to enable manual or automated feature/edge selection for marking. Location tracking of the marking device can be implemented using a local positioning system or a motion capture system. | ||||||
| 269 | Method to reduce surface resistivity of a release agent applicator in a printing apparatus | US14196880 | 2014-03-04 | US09221244B2 | 2015-12-29 | Michael C. Gordon; Gregory J. Lapinski; Gregory Hjelmeland; Michael P. O'Dierno; Edward F. Burress; Devin R. Bailly; Michael J. Engle; Steven B. Gazeley; Brian G. Russell; David J. Houston |
| A release agent applicator displaying decreased and consistent surface resistivity, and a method of making same. The release agent applicator includes an foam delivery surface having an ionic layer such that the surface resistivity of the delivery surface is reduced, thereby decreasing the chances of static charge accumulation on the roller that may interfere with high quality printing. | ||||||
| 270 | CARTRIDGE-BASED DISPENSING OF NANOSTRUCTURE FILMS | US14770987 | 2014-02-28 | US20150360424A1 | 2015-12-17 | Ryan D. Williams; David A. Degtiarov |
| The present disclosure provides systems and methods for storing and dispensing nanostructure material that can maintain the morphology of the nanostructures. The nanostructures are disposed on a flexible substrate that is spooled into a roll. The substrate can be provided with raised edges that space adjacent portions from each other in the roll to protect the nanostructures from damage or misalignment. The roll can be provided to a cassette that can be sealed to protect the nanostructure material from exposure to unwanted environments and to protect individuals from exposure to the nanostructure material. The substrate can be unrolled in the cassette to permit the nanostructure material to be applied to an item outside the cassette while maintaining the morphology of the nanostructures. Various controls can be provided to unroll the substrate and deposit the nanostructure material with high precision and repeatability. | ||||||
| 271 | Combined cap applicators | US13757465 | 2013-02-01 | US09192443B2 | 2015-11-24 | Patrick O. Tennican |
| A combined cap applicator may be used in combination with one or more cleansing, antimicrobial and/or antiseptic agents to reduce or eliminate contaminates on a surface. According to some embodiments, the combined cap applicators may comprise a first and second cap where each cap contains an applicator. According to some embodiments, the applicator may be coated or infused with a cleansing, antimicrobial or antiseptic agents for use on a surface. | ||||||
| 272 | Glue dispenser | US13873250 | 2013-04-30 | US09095868B2 | 2015-08-04 | Chien-Chun Wang |
| A glue dispenser comprises a container accommodating glue, a glue dispensing head and a glue dispensing ring. The glue dispensing head is connected with the container, the glue dispensing head is substantially cylindrical and includes a top surface and a bottom surface opposite to the top surface, the top surface is arranged inside the container, the bottom surface is exposed outside the container, the glue dispensing head has a plurality of through holes extending from the top surface towards the bottom surface to ensure the steady extrusion of glue in small quantities from multiple small outlets arranged in a circle. | ||||||
| 273 | Puncture resistant leakless material for tubeless tire and its manufacturing and spray coating methods | US13395036 | 2011-02-24 | US09085009B2 | 2015-07-21 | Jian Liu |
| A method of manufacturing a puncture resistant leakless material for tubeless tires, the puncture resistant leakless material manufactured thereof, and a method of spray coating the puncture resistant leakless material to tires are described. Thermoplastic elastomers are used as the framework material for the puncture resistant leakless material. The puncture resistant leakless material resists high temperature, low temperature, oil, and water, has high leakproof properties, and has low manufacturing costs. The puncture resistant leakless material also has a high tear resistance, a great resilience, and a long service life. The raw materials for manufacturing the puncture resistant leakless material fir tubeless tire do not need to undergo vulcanization, resulting in reduced energy consumption and lowered manufacturing costs. | ||||||
| 274 | APPARATUS AND METHOD FOR WET-CHEMICAL PROCESSING OF FLAT, THIN SUBSTRATES IN A CONTINUOUS METHOD | US14570030 | 2014-12-15 | US20150162225A1 | 2015-06-11 | Horst Kunze-Concewitz |
| The invention relates to a method and apparatus for wet-chemical processes (cleaning, etching, stripping, coating, dehydration) in a continuous method for flat, thin and fracture-sensitive substrates, the substrate transport and the wet process being effected by media-absorbing rollers. | ||||||
| 275 | INDUCTIVELY-HEATED APPLICATOR SYSTEM | US14548695 | 2014-11-20 | US20150078799A1 | 2015-03-19 | David W. Baarman; Richard Bylsma; Thomas Jay Leppien; Jesse C. Leverett; Steve O. Mork |
| An inductively-heated applicator system including a heating module and applicator or applicator pen. The heating module includes a dock for seating the applicator. The heating module includes circuitry to selectively generate an electromagnetic field to wirelessly provide energy to the applicator when it is positioned in the dock. The heating module may also include temperature control circuitry to at least one of monitor and control the temperature of the applicator. The applicator pen includes a heating element that may be heated through energy provided by the electromagnetic field. The heating element may be directly inductively heated by the electromagnetic field. The heating element may be a roller element that heats and applies the product. Alternatively, the applicator may include a secondary in which electrical power is induced when the electromagnetic field is present. In this alternative, the power may be applied to the heating element to produce resistive heat. | ||||||
| 276 | Method and Device for Producing a Structured Varnish Surface | US14395328 | 2013-03-06 | US20150064342A1 | 2015-03-05 | Royce Dodds; Andre Wiegelmann |
| The invention relates to a method for producing a structured, at least partly optically transparent varnish surface on a surface of a substrate board, preferably of a wood material board, having a decoration. The steps of the method include applying a transparent or at least partly transparent varnish to an applicator roll thereby producing a structured varnish surface and transferring the structured varnish surface to a substrate board having a decoration. The varnish is applied to the applicator roll by a plurality of digitally controlled nozzles in a distribution defining a structure and/or is transformed on the applicator roll into a distribution defining a structure. Furthermore, a device for carrying out the method is described. | ||||||
| 277 | System and method for applying adhesive, buffer, and/or liner to I-joists | US13080633 | 2011-04-05 | US08915280B1 | 2014-12-23 | Glenn Robell |
| A system and method for automated application of adhesive, buffer, and/or liner to I-joists, whereby a controlled amount of adhesive, glue, buffer material, and/or a protective liner, are successively applied to the exposed flange of an I-joist. An air-activated side pressure wheel first pushes one flange of an I-joist against an opposing friction-reduced straight edge, then at least one adhesive/glue head extrudes adhesive and/or buffer material onto the opposing exposed flange of the I-joist. An overhead liner applicator may then place a protective liner upon the applied adhesive and/or buffer material. An applicator roller bearing and a pressure roller bearing press the adhesive/buffer/liner to the desired mil thickness, after which the liner applicator cuts the protective liner according to the cut pattern instructions received from a controller. A cooler can be used to cool the adhesive/buffer before release liner application. The system may comprise coordinated mechanical, electrical, and pneumatic components. | ||||||
| 278 | FLUID APPLICATORS FOR USE WITH TOPICAL MEDICATIONS | US14212229 | 2014-03-14 | US20140270897A1 | 2014-09-18 | Linas P. Laurusonis; Edward Naguit Abante; Bryan Eliot Rolfs; Ramana Malladi; Bhimaprasad Medhal; James Blaine Wolford; Olivier Franck Currat; Martin Rathgeber; Kieron Hiuhon Tse |
| Fluid applicators for use with topical medications are disclosed herein. An example apparatus includes a housing and a fluid container disposed inside the housing. The example apparatus also includes a pump assembly disposed inside the housing and fluidly coupled to the fluid container. The example apparatus further includes an applicator coupled to the housing. The applicator defines an outlet and has a surface to be in contact with an application site on a person. The surface is in fluid communication with the pump assembly via the outlet. The example apparatus also includes an actuator operatively coupled to the pump assembly. Movement of the actuator from a first position to a second position is to operate the pump to dispense a dose of the fluid onto the surface. | ||||||
| 279 | Tool for the application of a repair coating to a metallic surface | US13738523 | 2013-01-10 | US08807067B2 | 2014-08-19 | Mats Eriksson; Manfred Walter |
| A tool and a process for producing a repair coating on at least one metallic surface that is coated with at least one corrosion protecting coating A applied with at least one composition selected from the group of pretreatment compositions, of organic compositions and of silicon compound(s) containing compositions. Corrosion protecting coating A has been at least partially removed in area Z. Corrosion protecting coating B contains a silicon compound and is applied as a solution or dispersion containing a silane, a silanol, a siloxane, a polysiloxane or mixture thereof on at least a part of the area Z. A further corrosion protecting coating C may be applied. The tool is provided for use in the process. | ||||||
| 280 | Flow-thru liquid coating applicator | US13051338 | 2011-03-18 | US08790035B2 | 2014-07-29 | John L. Scott, Sr. |
| A flow-thru liquid coating applicator comprises a handle and an applicator head including a blade having a filament bundle extending crosswise adjacent the distal end of the blade. A cover surrounds the distal end of the blade and a substantial portion of the length of the blade and has side openings through which opposite end portions of the filament bundle extend. | ||||||
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