| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 161 | Laminating apparatus | US14462893 | 2014-08-19 | US10081170B2 | 2018-09-25 | Ryoichi Yasumoto; Kazutoshi Iwata; Kinya Kodama; Grigoriy Basin |
| A laminating apparatus for a provisionally laminated body is provided and is configured to form an end laminated body including one of a first resin film and a second resin film conforming to protruding and recessed portions of a substrate. The laminating apparatus may include first and second laminating mechanisms. The first laminating mechanism may include a first enclosed space forming receiver, a depressurizer, a heater, and a first pressure laminator to form an intermediate laminated body from the provisionally laminated body. The second laminating mechanism may include a second enclosed space forming receiver, and a second pressure laminator to form the end laminated body from the intermediate laminated body. | ||||||
| 162 | Interlocking object construction units | US14656597 | 2015-03-12 | US10052858B2 | 2018-08-21 | Edo Segal |
| The present apparatus relates to a standardized assembly unit for building objects by utilizing connection elements that mechanically attach together permanently. By utilizing particular surface features and characteristics, such as compressive tabs and interlocking structures, the interlocking units described herein are able to impart structural stability to various objects without the need to provide overlapping layers of material or fasteners. More specifically, utilizing only mechanical linkages and connectors, a collection of interlocking units are utilized to assemble complex objects having high strength, durability and permanence. | ||||||
| 163 | Recyclable surface covering and method and system for manufacturing a recyclable surface covering | US14817053 | 2015-08-03 | US10029447B2 | 2018-07-24 | Arthur B. Dodge; John McFalls |
| A process and system for making a laminated surface covering and the surface covering itself are described. The covering includes several layers bonded to each other. The system performs the process. One example of the process includes passing a first material across a first conveyor, passing a second material across a second conveyor, passing a bonding material across a third conveyor, contacting the first material and the second material to the bonding material, and heating at least one of the first material and the second material. The process also includes introducing the first material, the second material, and the bonding material into a pressure zone such that the bonding material is introduced between a bottom surface of the first material and a top surface of the second material. The process applies pressure to bond the first material and second material together via the bonding material to produce a laminated material. | ||||||
| 164 | Composite pipe and method of manufacture | US14568758 | 2014-12-12 | US10022948B2 | 2018-07-17 | Terry C. Shafer; Dustin McWilliams; George Coleman |
| A composite pipe is disclosed. The composite pipe includes a thermoplastic inner layer and a tape layer. The tape layer is exterior to and bonded with the thermoplastic inner layer. The composite pipe also includes a protective layer formed exterior to the tape layer. | ||||||
| 165 | System and method for constructing 3D objects | US14657726 | 2015-03-13 | US09937697B2 | 2018-04-10 | Edo Segal |
| The present invention is directed to an object construction device configured to enclose a specified assembly area and assemble objects, such as toys, using standardized interlocking assembly units. The construction device includes processor with a memory device configured to access an instruction set encoding the assembly instructions of the object. The processor executes the instruction set in order to control and direct an assembly unit manipulator to additively construct or assemble the object from the interlocking assembly units. The assembly units are configured with surface features that interconnect the assembly units such that once connected they are substantially permanently attached to one another. | ||||||
| 166 | DEVICE AND METHOD FOR MANUFACTURING MEMBRANE-ELECTRODE ASSEMBLY OF FUEL CELL | US15266312 | 2016-09-15 | US20170259552A1 | 2017-09-14 | Byoung Yook KANG |
| A device for manufacturing a membrane-electrode assembly of a fuel cell includes: an electrolyte membrane feeder unwinding an electrolyte membrane and supplying the unwound electrolyte membrane to a preset transfer path; a first catalyst coater installed in the side of the electrolyte membrane feeder and coating a first catalytic material on another surface of the electrolyte membrane every a preset pitch; a film processor installed in a rear side of the first catalyst coater, supplying a second protective film onto a first catalyst electrode layer on the other surface of the electrolyte membrane, and taking off the first protective film from the one surface of the electrolyte membrane; and a second catalyst coater installed in a rear side of the film processor and coating a second catalytic material on the one surface of the electrolyte membrane. | ||||||
| 167 | PROCESS FOR THE COATING OF ROLL PRODUCT | US15120043 | 2015-02-18 | US20170246848A1 | 2017-08-31 | Juergen HERRMANN |
| The invention relates to a process for the production of multilayer composites and to a production plant (12, 60) for this purpose. The multilayer composites comprise at least one substrate web (64, 66), at least one bonding layer, and at least one polyurethane layer which has capillaries which extend through the entire thickness of the at least one polyurethane layer. First, at least one polyurethane layer is produced in a matrix (15), with passage through at least one coating unit (26, 30) and through a plurality of heating units (24, 28, 32). The matrices (15) thus treated are then introduced (76) into an input point (74) of a transfer section (60) for substrate web (64, 66). A structured side (78) of the matrix (15) is applied onto the substrate web (64, 66) passing continuously through the transfer section (60). Treatment of a composite made of the matrix (15) and of the substrate web (64, 66) takes place in a heatable press device (82) with transfer of the at least one polyurethane layer from the matrix to the upper side of the substrate web (64, 66). Finally, the matrix (15) is removed from the substrate web (64, 66), and transferred to a treatment section (12), and the substrate web (64, 66) is wound up at a wind-up unit (100) after removal of the matrix. | ||||||
| 168 | Apparatus for separating wafer from carrier | US14465185 | 2014-08-21 | US09735039B2 | 2017-08-15 | Chien Ling Hwang; Lin-Wei Wang; Chung-Shi Liu |
| An apparatus for separating a wafer from a carrier includes a platform having an upper surface, a tape feeding unit, a first robot arm, and a controller coupled to the platform. The controller is configured to mount a wafer frame, by using the tape feeding unit, on a wafer of a wafer assembly on the upper surface of the platform. The wafer assembly includes the wafer, a carrier, and a layer of wax between the wafer and the carrier. The controller is also configured to heat the upper surface of the platform to a predetermined temperature and separate, by the first robot arm, the wafer and the wafer frame mounted thereon from the carrier. | ||||||
| 169 | Laminated fuel cell assembly | US13578677 | 2011-02-11 | US09728789B2 | 2017-08-08 | Peter David Hood |
| The disclosure, in some aspects, relates to a method and apparatus for assembling a laminated fuel cell, in which an assembly head comprising one or more punches is used for dividing portions from sheet material and for transferring the portions to an electrode plate for lamination. Embodiments disclosed include a method of assembling a laminated fuel cell, the method comprising the steps of: providing a first sheet material (202b) to a first die (205); translating an assembly head (204) to a first location adjacent the first die, the assembly head comprising a first punch (501) having a surface (507) configured to engage with the first die; engaging the first punch with the first die to divide a portion from the first sheet material; adhering the first sheet portion to the surface of the first punch; translating the assembly head with the first sheet material portion to an assembly station (203) comprising an electrode plate (701); and applying the first sheet material portion to a surface of the electrode plate. | ||||||
| 170 | Method of manufacturing display device and manufacturing apparatus for the same | US14738540 | 2015-06-12 | US09581839B2 | 2017-02-28 | Gilhwan Yeo |
| The described technology generally relates to a method of manufacturing a display device and a manufacturing apparatus for the same. In one aspect, the method includes placing a carrier, in which a display panel is formed, into a film attachment portion such that the carrier is pulled onto a carrier adsorption surface of a first stage. The method also includes attaching a first protection film onto a first surface of the display panel in the film attachment portion, wherein the first surface is located opposite to a second surface of the display panel that faces the carrier. The method also includes first transferring the first stage to a carrier separation portion, separating the display panel from the carrier, and second transferring the display panel to a second stage such that the attached protection film is pulled onto a second film adsorption surface of the second stage. | ||||||
| 171 | PROCESS FOR IN-LINE EXTRUSION OF COATINGS ONTO ROOFING SHINGLES DURING MANUFACTURING AND ROOFING SHINGLES MADE BY THE PROCESS | US15180940 | 2016-06-13 | US20160369509A1 | 2016-12-22 | Olan Thomas Leitch; Mark Logan Keaten; Matti Kiik |
| A process for in-line extrusion of polymeric coatings onto roofing shingles during manufacturing includes moving a web of shingle substrate material in a downstream direction and extruding a liquefied coating of polymeric material onto at least one surface of the moving web to form a thin film. The liquefied coating may be a molten polymeric material that forms a thin film on a back surface of the shingle material to prevent sticking and eliminate the need for a traditional back dusting with material such as powdered stone. The polymeric film further may be applied to the substrate material in lieu of a saturation coating of asphalt, thus reducing cost and weight while providing a comparable moisture barrier and a lighter more flexible shingle. | ||||||
| 172 | Production of extruded foam | US13501793 | 2010-10-13 | US09457500B2 | 2016-10-04 | Bernard Lavoie |
| A method of producing a laminated body of structural thermoplastic foam, the method comprising the step of successively extruding a plurality of foam layers from an extrusion die, each next layer being extruded onto a previously extruded layer, to form a stack of mutually bonded layers. | ||||||
| 173 | METHOD OF MANUFACTURING DISPLAY DEVICE AND MANUFACTURING APPARATUS FOR THE SAME | US14738540 | 2015-06-12 | US20160195753A1 | 2016-07-07 | Gilhwan Yeo |
| A method of manufacturing a display device and a manufacturing apparatus for the same are disclosed. In one aspect, the method includes placing a carrier, in which a display panel is formed, into a film attachment portion such that the carrier is pulled onto a carrier adsorption surface of a first stage. The method also includes attaching a first protection film onto a first surface of the display panel in the film attachment portion, wherein the first surface is located opposite to a second surface of the display panel that faces the carrier. The method also includes first transferring the first stage to a carrier separation portion, separating the display panel from the carrier, and second transferring the display panel to a second stage such that the attached protection film is pulled onto a second film adsorption surface of the second stage. | ||||||
| 174 | Recycled rubber backed cushioned vinyl | US13835895 | 2013-03-15 | US09340970B2 | 2016-05-17 | Arthur B. Dodge, III; John McFalls |
| A laminated surface covering including a facing material made of vinyl and a backing material comprising a rubber component. The rubber component comprising at least a matrix of bonded rubber granules. A bonding material disposed between the facing material and the backing material. The facing material configured to melt at a temperature between 165° F. and 210° F. infiltrating the backing material thereby essentially encasing the rubber granules of the matrix and providing fire retardation and smoke suppression qualities. | ||||||
| 175 | LAMINATED CELL PREPARATION DEVICE | US14852187 | 2015-09-11 | US20160087303A1 | 2016-03-24 | Jingbin LIN; Baoan JIA; Yanming LIANG; Xianrui CHEN; Huaiyong ZHANG; Qiuyan LIU |
| The present disclosure provides a laminated cell preparation device comprising: a lamination platform; an anode plate preparation mechanism for positioning and preparing an anode plate one piece by one piece; a cathode plate preparation mechanism for positioning and preparing a cathode plate one piece by one piece; a separator providing mechanism for positioning a separator and providing the separator directly to the lamination platform; an anode plate manipulator for picking the each prepared anode plate from the anode plate preparation mechanism one piece by one piece and providing the each anode plate directly to the lamination platform; a cathode plate manipulator for picking the each prepared cathode plate from the cathode plate preparation mechanism one piece by one piece and providing the each cathode plate directly to the lamination platform; the anode plate, the separator, and the cathode plate are laminated without positioning, so as to form a laminated cell. | ||||||
| 176 | Device and method for producing laminated safety glass | US13500680 | 2010-09-14 | US09242434B2 | 2016-01-26 | Michael Muschiol |
| A device and a method for producing laminated safety glass from at least two glass panes having an adhesive layer arranged in between. In order to provide a device and a method for producing laminated safety glass that allow for the cost-effective production of laminated safety glass, the device includes a base plate and a cover plate that can be adjusted relative to each other between an operating position and a removal position, a sealing frame disposed in a pressure tight manner in the operating position on the base plate and the cover plate, means for creating a vacuum in a hollow space formed between a cladding material covering the glass panes in the operating position and the base plate, means for creating an overpressure in the working space created between the cover plate and the flexible cladding material arranged on the glass panes in the operating position, and heating means for heating the glass panes to be joined. | ||||||
| 177 | Method of applying adhesive coated film | US14487154 | 2014-09-16 | US09221237B2 | 2015-12-29 | Ronald S. Steelman; John R. David |
| An adhesive-applying method is disclosed herein. The method comprises: providing a film comprising pressure sensitive adhesive coated on a major surface thereof; heating the film to a softening point of the film; and pressing the film against a substrate with an application device, the application device comprising a film-contacting portion, the film-contacting portion comprising a foam material and having a thermal conductivity of less than 1.8 BTU in /(hr ft2 °F.); wherein the pressure sensitive adhesive on the major surface of the film adheres to the substrate. Application devices and kits that may be used in conjunction with the method are also disclosed herein. | ||||||
| 178 | SYSTEM AND METHOD FOR CONSTRUCTING 3D OBJECTS | US14656576 | 2015-03-12 | US20150259099A1 | 2015-09-17 | Edo Segal |
| The present invention is directed to an object construction device configured to enclose a specified assembly area and assemble objects, such as toys, using standardized interlocking assembly units. The construction device includes processor with a memory device configured to access an instruction set encoding the assembly instructions of the object. The processor executes the instruction set in order to control and direct an assembly unit manipulator to additively construct or assemble the object from the interlocking assembly units. The assembly units are configured with surface features that interconnect the assembly units such that once connected they are substantially permanently attached to one another. | ||||||
| 179 | RELEASABLE SUBSTRATE ON A CARRIER | US14433454 | 2013-10-04 | US20150231858A1 | 2015-08-20 | Martin K.P. van Neer; Karin Tempelaars; Linda B. van Leuken |
| A method and system provide a releasable substrate on a carrier. The method includes providing the carrier with a bonding layer of radiation curable adhesive; selectively irradiating a first area subsection of the bonding layer with a first radiation for selectively at least partially curing the first area subsection; bringing a substrate in contact with the first area subsection and a second area subsection of the bonding layer; and curing the second area subsection in contact with the substrate for forming an adhesion area between the second area subsection and the substrate. The first area subsection forms a release area with an adhesion force between the bonding layer and the substrate lower in the release area than in the adhesion area as a result of the first area subsection being more cured than the second area subsection prior to being in contact with the substrate. | ||||||
| 180 | BONDING METHOD | US14566062 | 2014-12-10 | US20150165741A1 | 2015-06-18 | Hirofumi Imai; Atsushi Kubo; Takahiro Yoshioka; Kimihiro Nakada; Shigeru Kato; Yasumasa Iwata |
| A bonding method which includes a pressing step of bonding a substrate and a support plate for supporting the substrate to each other through an adhesive layer and pressing the bonded substrate and support plate using a plate member; and, after the pressing step, a pressure adjusting step of placing the substrate and the support plate bonded to each other through the adhesive layer in an environment having higher pressure than pressure of an environment in which the pressing step is performed. | ||||||
QQ群二维码
意见反馈
意见反馈