Class / Patent application number | Description | Number of patent applications / Date published |
156099000 | Optically transparent glass sandwich making (e.g., window or filter) | 78 |
20080196816 | METHOD FOR MANUFACTURING AN ARTICULATABLE VEHICULAR WINDOW ASSEMBLY - Bonded vehicular glass assemblies utilizing two-component urethane adhesives to attach dynamic load-bearing attachment members to glass substrates to form a joint suitable for use on a vehicle, and related methods of forming are described herein. In addition, methods of attaching components to glass by use of these adhesives are disclosed. The method of forming the assemblies may include priming the glass panel prior to applying the adhesive to the primed glass panel and/or attachment member. The method may include allowing the urethane adhesive to cure to form a layer of cured urethane adhesive bonding the attachment member to the first surface of the glass panel without exposure of the bonded attachment member on the second surface of the panel. The cured adhesive layer disposed between the attachment member and the glass panel may have a thickness in the range from about 0.25 mm to about 2.0 mm. | 08-21-2008 |
20080216940 | Plastic Laminates And Methods For Making The Same - In one embodiment, a laminate comprises: a plastic sheet, a second sheet, an adhesive disposed between and in physical contact with the plastic sheet and the second sheet, and an interlayer formed from a liquid filling having a viscosity that does not form bubbles visible to the unaided eye. The laminate has a storage modulus that varies by a factor less than or equal to about 200 at 1 Hz in the temperature range of −40° C. to 200° C. In another embodiment, a laminate comprises: a plastic sheet, a second sheet, an adhesive disposed between and in physical contact with the plastic sheet and the second sheet, and an elastomer interlayer formed from a liquid RTV filling. In one embodiment, a method for making a laminate comprises: adhering a glass sheet to a plastic sheet with an adhesive to form a gap therebetween, and introducing a liquid RTV filling to the gap. | 09-11-2008 |
20080264548 | Optical distortion removal - The present invention describes an article that is substantially free of optical distortion and a method for eliminating or substantially reducing the need for conventional polishing of transparent objects. The article comprises a laminate of an optically distorting transparent object bonded with an adhesive to at least one transparent object that has a distortion-free surface. The indices of refraction of the adhesive and the objects are preferably within 0.2. The method includes adhesively bonding an optically distorting transparent object to one or more transparent objects having distortion-free surfaces so that the distortion-free surface is exposed. | 10-30-2008 |
20080302461 | Transparent Colored High Modulus Interlayers and Laminates Therefrom - A process for preparing a transparent laminate comprising a colored interlayer and a rigid sheet, comprising: (a) forming a color concentrate comprising a thermoplastic ionomer copolymer and about 1 to about 10 wt % (based on the total weight of the color concentrate) of pigment by: (i) combining (a) one or more colored master batch, each comprising about 50 to about 80 wt % (based upon the weight of the master batch) a thermoplastic matrix polymer and about 20 to about 50 wt % (based on the weight of the master batch) of pigment, and (b) one or more thermoplastic ionomer copolymer; and (ii) melt mixing the one or more colored master batch and the one or more thermoplastic ionomer copolymer at a temperature above the melting points of the thermoplastic ionomer copolymer and the thermoplastic matrix polymer; (b) forming an interlayer composition comprising thermoplastic ionomer copolymer and about 0.01 to about 3 wt % (based upon the weight of the thermoplastic ionomer copolymer and pigment in the interlayer composition) pigment by: (i) combining the color concentrate and thermoplastic ionomer copolymer; and (ii) melt mixing the color concentrate and the thermoplastic ionomer copolymer at a temperature above the melting point of the thermoplastic ionomer copolymer; and (c) forming a colored thermoplastic interlayer sheet comprising thermoplastic ionomer copolymer and about 0.01 to about 3 wt % (based upon the weight of the ionomer and pigment in the interlayer) pigment by extruding the interlayer composition into the interlayer sheet; and (d) preparing a laminate comprising the colored thermoplastic interlayer and a rigid sheet; wherein by thermoplastic ionomer copolymer is meant a thermoplastic copolymer of an alpha-olefin having 2 to 10 carbon atoms and about 15 to about 30 wt % (based on the total weight of the ionomer copolymer) of an alpha, beta-ethylenically unsaturated carboxylic acid having 3 to 8 carbons, wherein about 5 to about 90% of the carboxylic acids are neutralized with a metal ion. In addition, ionomer/pigment master batch. | 12-11-2008 |
20090114336 | POLYURETHANE SEALANT COMPOSITIONS HAVING HIGH FILLER LEVELS - In one aspect, this invention is a composition comprising a urethane prepolymer having isocyanate moieties; a catalytic amount of a compound which catalyzes the reaction of isocyanate moieties with water or an active hydrogen containing compound; and untreated calcium carbonate as filler. The composition of the invention can be used to bond a window into a structure especially for the automobile windshield installation with good adhesion strength and durability. | 05-07-2009 |
20090178756 | Laminate Polarizing Plate, A Method Of Producing The Same And A Liquid Crystal Display - The object of the present invention is to provide a laminate polarizing plate of which application to liquid crystal displays is able to simplify constitutions and production procedures of the displays, and to reduce cost thereof; and to provide an industrially advantageous method of producing the compound polarizing plate, and a liquid crystal display using the same. The object is achieved by a laminate polarizing plate comprising a polarizing film, an adhesive layer and a phase retarder film which being laminated in this order, wherein said phase retarder film comprises at least one coating layer having refractive index anisotropy of which an in-plane retardation value (R | 07-16-2009 |
20090183819 | Manufacturing method for a display device - It is aimed to, in a manufacturing method for a display device including a translucent substrate bonded to a display panel using a translucent adhesive, realize a bright display screen free from an air layer formed between the display panel and the translucent substrate. For this purpose, a first adhesive layer made of a first adhesive is formed between a frame body and an exposed surface of an upper portion of the display panel, a second adhesive is next applied onto a surface of the translucent substrate, and the surface applied with the second adhesive is faced downward and is bonded to a top surface of the display panel including the first adhesive layer formed thereon, to thereby cure the second adhesive. Accordingly, the adhesive can be filled between the top surface of the display panel and a bottom surface of the translucent substrate without trapping bubbles or voids therebetween. | 07-23-2009 |
20090218034 | METHOD OF MANUFACTURING A DISPLAY - In a method of manufacturing a display having a display panel, a transparent protective plate, which is placed in front of the display panel, and a layer formed of a transparent organic medium, which is placed between the display panel and the protective plate, a liquid organic medium is applied to, or a sheet-like organic medium is formed on, a surface of one of the display panel and the protective plate, the display panel and the protective plate are bonded together in a reduced pressure atmosphere, and thereafter the liquid organic medium is cured. | 09-03-2009 |
20090260741 | WINDOW SASH PAINT REPLACEMENT TAPE APPLICATION TOOL AND METHOD - A tape application tool ( | 10-22-2009 |
20100012258 | METHOD AND ARRANGEMENT FOR THE PRODUCTION OF COMPOSITE WORK PIECES COMPRISING LAYERS LAMINATED TO EACH OTHER - A method and an arrangement for the production of composite work pieces of layers laminated to each other, with at least one layer representing a glass plate. First, at least one composite work piece is laminated in a lamination press under the effects of pressure and heat in order to at least activate the adhesive material used for lamination. Then the composite work piece is removed from the lamination press and transported into a curing station and/or cooling station for curing and/or cooling. A testing device for detecting broken glass in the composite work piece is arranged between the lamination press and the curing station or between the lamination press and the cooling station, which detects potentially present broken glass by testing the inherent stability of the composite work piece. | 01-21-2010 |
20100051176 | Method for making an optical device and system for privacy or contrast enhancement - The present invention relates to a method of making an optical device for contrast enhancement of a viewing display, such as a plasma display panel, a liquid crystal display panel, an inorganic light emitting diode display panel, or an organic light emitting diode display panel. | 03-04-2010 |
20100163157 | Glazing Unit with Transparent Filler - Disclosed is a method of making a glazing unit, comprising providing at least one self-supporting insert of light-transmissive insulation material in the form of honeycomb arrangement of cells, substantially filling the cells of said at least one self-supporting insert with a granular, thermally insulating, light transmissive filler material, and sandwiching said at least one insert between a pair of glass lites. | 07-01-2010 |
20100200150 | Method of Securing Visibility Through Glass-Paned Window - A glass window has a multiple glass structure in which a plurality of glass plates face each other, and a film is formed on the glass plate surface that is exposed to a cold environment when the glass window is closed. The film comprises a urethane resin prepared by a polymerization using at least a polyoxyalkylene-series polyol having an average molecular weight of 400-5000 and a hydrophobic polyol. There is used as the hydrophobic polyol an acrylic polyol having an average molecular weight of 500-5000 or a polyester polyol having an average molecular weight of 500-5000 and a hydroxy value of 10-200 mg KOH/g. Thereby, the film absorbs water that is in contact with the film when the glass window is open, and the film releases the water absorbed in the film when the opened door glass is closed, thereby having a condition that the film can absorb water. | 08-12-2010 |
20100326587 | UPON A CARTRIDGE FOR CONTAINING A SPECIMEN SAMPLE FOR OPTICAL ANALYSIS - An improved cartridge for holding a fluid sample with a small volume is disclosed herein. The cartridge has a test chamber and a vestibule through which the test fluids are inserted into the test chamber. Improved grips are flared-out to aid manipulation. The handle portion is reinforced to prevent flexing, and a prefabricated trough along the edge of the land surface prevents introduction of the adhesive into the region for analysis. The cartridge has a stopper having a dual sealing mechanism, which seals the test chamber inlet between the vestibule and the test chamber, and the mouth of the vestibule so that when the stopper is in place, the test chamber is closed to the admission of air or other contaminants. The vestibule is similarly closed against escape of the overflow from the test chamber. The stopper is composed of a single elastomer. An improved locking mechanism has two flexible walls on either side of the handhold that locks into their respective keepers on the cartridge to provide a secure lock. Additionally, an improved method for loading the cartridge allows for an even distribution of magnetically responsive particles contained within a fluid sample to be viewed in an array through the optically clear land surface portion of the cartridge. | 12-30-2010 |
20110000602 | Method of making window unit - A method of making a window unit is provided which may result in improved yields. In certain example embodiments, the method involves coating a substrate with both (i) a solar control/management coating, and (ii) a protective layer (e.g., of or including diamond-like carbon (DLC)) over the solar control/management coating. The protective layer protects the coated substrate from scratches and/or the like during processing prior to heat treatment. Then, during heat treatment, the protective layer(s) is burned off in part or in whole. Following heat treatment, the coated article (substrate with solar control/management coating thereon) is coupled to another substrate in order to form the window unit. | 01-06-2011 |
20110030879 | Debonding and transfer techniques for hetero-epitaxially grown graphene, and products including the same - Certain example embodiments of this invention relate to the use of graphene as a transparent conductive coating (TCC). In certain example embodiments, graphene thin films grown on large areas hetero-epitaxially, e.g., on a catalyst thin film, from a hydrocarbon gas (such as, for example, C | 02-10-2011 |
20110061789 | GLASS WELDING METHOD - A glass layer | 03-17-2011 |
20110192525 | GLASS SUBSTRATE LAMINATED DEVICE AND METHOD FOR PRODUCING LAMINATE GLASS SUBSTRATE - The present invention relates to a glass substrate lamination device for laminating two glass substrates, which includes: an upper substrate supporting unit configured to absorb and support an upper glass substrate; a lower substrate supporting unit configured to mount and support a lower glass substrate; a seal unit configured to make a space between the upper substrate supporting unit and the lower substrate supporting unit into an air tight state; and a decompression unit configured to decompress the space surrounded by the upper substrate supporting unit, the lower substrate supporting unit and the seal unit; in which the upper substrate supporting unit has, on a lower surface thereof, a substrate adsorption unit having any one of shapes of the following (A), (B) and (C): (A) a substrate adsorption unit having a rectangular frame shape, (B) a substrate adsorption unit having a shape including a rectangular frame and a straight line or curved line which connects each of facing one pair or two pairs of sides among four sides constituting the rectangle of the rectangular flame, and (C) a substrate adsorption unit having a shape including a plurality of mutually crossing straight lines or curved lines. | 08-11-2011 |
20110290402 | Handler Attachment for Integrated Circuit Fabrication - A method for attaching a handler to a wafer, the wafer comprising an integrated circuit (IC), includes forming a layer of an adhesive on the wafer, the adhesive comprising a polyimide-based polymer configured to withstand processing at a temperature of over about 280° C.; and adhering a handler to the wafer using the layer of adhesive. A system for attaching a handler to a wafer, the wafer comprising IC, includes a layer of an adhesive located on the wafer, the adhesive comprising a polyimide-based polymer configured to withstand processing at a temperature of over about 280° C.; and a handler adhered to the wafer using the layer of adhesive. | 12-01-2011 |
20120061008 | Method for the Production of Fire Resistant Glazing - Fire resistant glazings having improved properties comprising a silicate based interlayer which contains from 35% to 43% by weight of water may be produced using a cast in place process. The amount of water in the interlayer is reduced by concentrating the silicate solution or by introducing silica in the form of a silica sol. Preferably a mixture of an aqueous sol and an organosol is used. Polyhydroxy compounds and saccharides may be incorporated into the interlayer to improve the properties thereof and to reduce the water content. The silicate based formulations are pourable and can be used in a cast in place production process and subsequently cured to form an optically clear interlayer. | 03-15-2012 |
20120080136 | METHOD AND DEVICE FOR PREPARING A PASTE-LIKE COMPOUND FOR SEALING AN INSULATING GLASS PANE - A method and device for preparing a paste-like compound having at least two constituents which set after having been mixed. The mixed setting compound is injected into an intermediate space between two glass panels of an insulating glass pane by delivering the at least two constituents from storage containers into separate intermediate storage units from which they are delivered into a mixer in which the constituents are mixed while passing through the mixer. The compound leaving the mixer is injected into the intermediate space between the two glass panels by a nozzle which has at least one opening directed into the intermediate space between the glass panels. The nozzle is moved along the edge of at least one of the two glass panels. The constituents of the paste-like compound are pumped using gear pumps from the intermediate storage units into the mixer, where they are dynamically mixed by motor-driven mixing elements. | 04-05-2012 |
20120199272 | METHOD FOR PRODUCING INSULATING GLASS THAT IS FILLED WITH A GAS THAT IS DIFFERENT FROM AIR - To fill insulating glass with a gas other than air, between the spacer ( | 08-09-2012 |
20120234465 | COMPOSITIONS CONTAINING THERMALLY-INDUCED SELF-ASSEMBLY OF NONIONIC SURFACTANTS AND THEIR APPLICATION IN SMART GLASS TECHNOLOGIES - The present subject matter relates generally to the use of thermally induced self-assembly of surfactants, such as poly(ethylene oxide)-poly(propylene oxide)-poly(ethylene oxide) or 4-octylphenol polyethoxylate, to vary the transparency or opacity of a composition containing the same. The compositions of the present subject matter can be used in smart window technologies. | 09-20-2012 |
20130000822 | METHOD FOR FABRICATING A WINDOW MEMBER OF THE DISPLAY DEVICE OF A PORTABLE TERMINAL - A method for fabricating a window member for a display device of a portable terminal includes: fabricating a high-hardness sheet to be attached to a surface of the window member (‘sheet fabrication step’), fabricating a body of the window member with a high-polymer synthetic resin (‘body fabrication step’), and attaching the high-hardness sheet to an outer surface of the body (‘attaching step’), in which the outer surface of the body is formed to have a curved surface in the body fabrication step. | 01-03-2013 |
20130037202 | ELECTRONIC EYEGLASS AND LIQUID CRYSTAL LENS PRODUCTION METHODS - An object of the present invention is to provide electronic eyeglass and liquid crystal lens production methods that eliminate the need for forming a liquid crystal injection path in the liquid crystal lens, while making provisions so as to be able to sufficiently maintain a prescribed gap between substrates. The electronic eyeglass and liquid crystal lens production methods includes the steps of placing a sealing agent so as to form a closed planar region on at least one of first and second transparent substrates, dropping a liquid crystal material into an inside space enclosed by the sealing agent, bonding the other of the transparent substrates onto the one transparent substrate on which the liquid crystal material has been dripped, and filling a resin into a space created outside the sealing agent. | 02-14-2013 |
20130056135 | MANUFACTURING PROCESS FOR GLAZING WITH INTEGRAL WIRING - An improved process for fabrication of laminated glazings incorporating conductors such as heating elements is described. During assembly of the glazing, a solution comprising the same polymer material as the interlayer is applied to the conductors and allowed to dry prior to fitting a glazing sheet on top. This gives rise to a thin coating of polymer around the conductors and subsequent heat treatment causes the this coating and the main polymer interlayer to soften and fuse. The resulting structure shows improved encapsulation of the conductors (wires and busbars) with greater resistance to water ingress at the edge of the glazing. | 03-07-2013 |
20130312898 | MULTIPLE LAYER POLYMER INTERLAYERS HAVING A MELT FRACTURED SURFACE - The present invention provides multiple layer interlayers having a soft inner polymer layer and relatively stiff outer layers that can be laminated without unacceptable optical distortion and used in various multiple layer glass panel type applications. Multiple layer interlayers of the present invention have surface topography that is formed by controlling the melt fracture that occurs at the exposed surface of the interlayer, or individual layers of the multiple layer interlayer, during formation of the interlayer. By precisely controlling the surface topography of the interlayer, lamination of the interlayer with a rigid substrate does not lead to unacceptable optical distortion caused by the transfer of the surface topography through outer, stiffer layers into softer, internal layers of the interlayer. | 11-28-2013 |
20140000789 | LOW DISTORTION INTERLAYER | 01-02-2014 |
20140083597 | METHOD FOR JOINING SUBSTRATES - The invention relates to a method of joining substrates. It is the object of the invention in this respect to join substrates of substrate materials together without having to exert an increased effort for a coating with additional coating processes to be carried out and to be able to achieve a good quality of the join connection in so doing. In the method in accordance with the invention a pretreatment of at least one join surface of a substrate to be joined is carried out in low pressure oxygen plasma prior to the actual joining. On the joining, a contact force acts on the substrates to be joined in the range 2 kPa to 5 MPa and in this process a heat treatment is carried out at an elevated temperature of at least 100° C. and at under pressure conditions of a maximum of 10 mbar, preferably <10 | 03-27-2014 |
20140096892 | DEVICE FOR BONDING WINDOW AND METHOD FOR MANUFACTURING DISPLAY DEVICE USING THE SAME - A device for bonding a window includes a chamber having an internal space, a display panel fixing unit in the chamber and including a first curved surface, the first curved surface being configured to attach to a flexible display panel, a window fixing unit in the chamber and including a second curved surface, at least part of the window fixing unit including an ultraviolet transmitting material, the second curved surface facing the first curved surface and being complementary with the first curved surface, and the second curved surface being configured to attach to a window, and an ultraviolet irradiating unit on the window fixing unit, the ultraviolet irradiating unit being configured to irradiate ultraviolet light through the window fixing unit toward the first curved surface of the display panel fixing unit. | 04-10-2014 |
20140238580 | DUAL-CURABLE ADHESIVE COMPOSITION, USE THEREOF, AND PROCESS FOR BONDING SUBSTRATES - The present invention provides a dual-curable adhesive composition, comprising: component (a): an epoxy resin; at least one selected from component (b) and component (c), wherein component (b) is a (meth)acrylate monomer, and component (c) is an oligomer containing a (meth)acryloxy group; component (d): a thermal polymerization catalyst which catalyzes the thermal polymerization reaction of component (a); and component (e): a photo polymerization initiator which initiates the photo polymerization reaction of component (a) and at least one selected from component (b) and component (c), wherein component (e) is a mixture of a cationic photo polymerization initiator and a radical photo polymerization initiator. The dual-curable adhesive composition of the present invention is used for bonding or laminating a transparent substrate with another transparent substrate, or bonding or laminating a transparent substrate with a non-transparent substrate. The present invention also provides a process for bonding substrates. | 08-28-2014 |
20140305574 | MACHINE FOR OPTICAL BONDING, SYSTEM AND METHOD OF USE THEREOF - An adhesive application valve comprising an applicator, a Z-axis actuator operably connected to the applicator, wherein the Z-axis actuator and the rotation device are each capable of moving independently of each other to position the applicator in a position to apply an amount of adhesive to a top substrate prior to bonding with a bottom substrate is provided. Furthermore, a machine comprising an end effector, and an adhesive application valve configured to apply an amount of adhesive onto the top substrate, the end effector configured to place the top substrate into a position of engagement with the adhesive application valve, and place the top substrate onto the bottom substrate to facilitate initial contact between the adhesive applied to the top substrate and a fill material applied to the bottom substrate is also provided. A method of optical bonding is further provided. | 10-16-2014 |
20140367027 | APPARATUS AND METHOD FOR MANUFACTURING COVER WINDOW - A cover window manufacturing apparatus includes a plurality of fixed plates, a plurality of moving plates, a plurality of molds and a driver. The plurality of fixed plates is layered and spaced apart at a distance from each other. The plurality of moving plates is layered, spaced apart at a distance from each other and respectively disposed under the plurality of fixed plates. A plurality of connection members integrally connects the plurality of moving plates with each other. The plurality of molds is respectively provided on the plurality of moving plates, and inner spaces for molding the cover window are respectively defined in the plurality of molds. The driver is coupled to one of the plurality of moving plates, and is configured to move the plurality of moving plates towards the plurality of fixed plates such that the plurality of molds are pressed to the plurality of fixed plates. | 12-18-2014 |
20220137269 | METHOD OF MANUFACTURING A PLURALITY OF OPTICAL ELEMENTS AND PRODUCT THEREOF - A method of manufacturing a plurality of optical elements ( | 05-05-2022 |
156101000 | With cutting or breaking or partial removal of interlayer and/or lamina | 10 |
20080302462 | Method of making coated glass article, and intermediate product used in same - In certain example embodiments of this invention, there is provided a method of making a window, the method including: forming a multi-layered low-E and/or solar control coating on a glass substrate; providing at least two flexible protective sheets in non-liquid form to the glass substrate over at least part of the low-E and/or solar control coating; applying at least one protective coating in liquid form, before and/or after the flexible protective sheets are provided, so as to reduce one or more gaps formed between the low-E and/or solar control coating and the flexible protective sheet(s) and/or between the flexible protective sheets; and performing one or more of cutting, edge seaming, and/or washing the coated article with the protective coating and protective sheets thereon and peeling the protective sheets and at least part of the protective coating off of the top surface of the low-E and/or solar control coating. Heat treatment (e.g., thermal tempering) may then be performed, and the heat treated coated article may be used in a window unit or the like. | 12-11-2008 |
20100096069 | Automatic machine for applying a spacer profile on a glass sheet, and method therefor - An automatic machine and an automatic method for the application of a spacer profile, preferably made of expanded synthetic material, on a glass sheet in order to compose the insulating glazing unit, after extrusion of a thermoplastic sealant on a portion of each one of its faces designed for mating. The process for extrusion of the sealant on the profile is independent of the process for applying the profile on the glass sheet, so that therefore each one of the two processes can be performed by using its optimum parameters. | 04-22-2010 |
20100276066 | PROCESS FOR PRODUCING GLASS RESIN COMPOSITE - The present invention provides the following process for producing a glass resin composite which has sufficient transportability, handling efficiency and fabrication properties even when the glass is extremely thin, without impairing the chemical resistance, the abrasion resistance, the gas barrier properties, etc. of the glass, and the process being capable of continuous operation. | 11-04-2010 |
20120168058 | CURVED DISPLAY PANEL MANUFACTURING METHOD - The present invention relates to a method for manufacturing a curved display panel. The method for manufacturing a curved display panel using a lower substrate and an upper substrate made of glass and opposite each other, and a liquid crystal layer formed between the lower substrate and the upper substrate, comprises: a step of cutting out portions of outer surfaces of the lower substrate and the upper substrate such that the thicknesses of the substrates are reduced to a preset level; and a step of bending the cut lower substrate and the cut upper substrate into a desired curved shape, and forming transparent polymer layers, having shapes identical to the desired curved shape, onto outer surfaces of the substrates, respectively, or attaching transparent substrates, which are prefabricated into shapes identical to the desired curved shape, onto outer surfaces of the substrates, respectively. | 07-05-2012 |
20130133809 | PROCESS FOR PRODUCING A GLASS RESIN COMPOSITE - The present invention provides a process for producing a glass resin composite which has sufficient transportability, handling efficiency and fabrication properties even when the glass is extremely thin, without impairing the chemical resistance, the abrasion resistance, the gas barrier properties, etc. of the glass, and the process being capable of continuous operation. | 05-30-2013 |
20130284347 | Laser Processing of Display Components for Electronic Devices - Electronic devices may be provided with display structures such as glass and polymer layers in a liquid crystal display. The glass layers may serve as substrates for components such as a color filter layer and thin-film transistor layer. The polymer layers may include films such as a polarizer film and other optical films. During fabrication of a display, the polymer layers and glass layers may be laminated to one another. Portions of the polymer layers may extend past the edges of the glass layers. Laser cutting techniques may be used to trim away excess portions of the polymer layer that do not overlap underlying portions of the glass layers. Laser cutting may involve application of an adjustable infrared laser beam. | 10-31-2013 |
20140096893 | METHODS OF MAKING LAMINATED LED ARRAY AND/OR PRODUCTS INCLUDING THE SAME - In certain example embodiments, light emitting diodes (LEDs) may be disposed on a deformable and flexible backbone sheet and chained together in an array, e.g., via flexible wiggle wires. Such flexible wiggle wires may also provide an electrical connection to an external power source. An optical out-coupling layer stack (OCLS) system may help serve as an index matching layer, heat sink, étendue conserver, etc. The backbone may be formed to a shape tailored to its ultimate application. Applications may include, for example, automotive (such as Center High Mounted Stop Lamp (CHMSL) applications), lighting, signage, and/or other applications. In an example CHMSL application, the deformable sheet with the LED array thereon has a step, sinusoidal, or other shape matched to the angle and/or curvature of the glass such that the LEDs produce light primarily in a direction parallel to a surface on which a vehicle is located. | 04-10-2014 |
20140174636 | METHOD FOR FABRICATING DECORATIVE COLORED GLASS - Disclosed is a method for fabricating a piece of decorative colored glass, which comprises the following steps: covering a layer of protective film which has a pre-fabricated pattern that can be removed on a piece of glass; removing the pattern from the protective film; sand blasting the surface of the glass that the pattern is removed; cleaning the glass that is sand blasted; and coating oil on the surface of the glass where is sand blasted to obtain the decorative colored glass. The glass fabricated by the method of this invention can represent a stereoscopic impression through observation, which color may not be changed and discolored. | 06-26-2014 |
20140360651 | FLAT DISPLAY PANEL CUTTING METHOD - A flat display panel cutting method includes the following steps: coating a first packaging adhesive on a surface of a first substrate at which display units are formed, wherein the first substrate is formed of a first-substrate-material and the first packaging adhesive is made of a first-substrate-material-based material; bonding a second substrate to the surface of the first substrate to form the panel, having a first surface and a second surface opposite to the first surface; forming at least one crack on the first surface of the panel corresponding to the first packaging adhesive with a cutting tool to form at least one crack; applying a force on the second surface at a position corresponding to the at least one crack so as to break the panel. | 12-11-2014 |
20160185095 | DECORATIVE PANELS AND PROCESSES FOR THE MAKING THEREOF - The present invention relates to processes for making decorative or artistic panels on glass surfaces and polymeric surfaces in multiple layers and their application in commercial and artistic decoration, such as dividing walls, ceilings, pictorial pictures, sculptures, floor lamps, desk or ceiling lamps, spectacular domes, stained glass, shower wall, as well as to decorate residential and industrial spaces. | 06-30-2016 |
156102000 | With deformation or shaping of interlayer and/or lamina | 8 |
20080210361 | Method For Production Of A Curved Screen Arrangement For Vehicle - The invention relates to a method for production of a curved screen arrangement for a vehicle, whereby a plastic film ( | 09-04-2008 |
20080283173 | ANTENNA-EMBEDDED LAMINATED GLASS AND METHOD FOR PREPARING THE SAME - The present invention provides a method for preparing an antenna-embedded laminated glass with an antenna element sealed between glass sheets, which is characterized to comprise forming two or more glass sheets forming the laminated glass; bonding a transfer film on a surface of one of the glass sheets by a bonding strip, the transfer film including the bonding strip and a conductive strip forming the antenna element; and press-bonding glass sheet, through a intermediate film, to the surface of the one glass sheet with the transfer film bonded thereto. | 11-20-2008 |
20100043946 | APPARATUS AND METHOD FOR MANUFACTURING MULTIPLEX INTERLAYER FOR SAFETY GLASS - Provided are an apparatus and a method for manufacturing a multilayered interlayer for safety glass that allows reliable and easy formation of inserted layers having a larger coloring layer. The manufacturing apparatus | 02-25-2010 |
20100071837 | Method Of Decorating Laminated Glass - A method of decorating laminated glass is disclosed. A pigment package composition comprising a cross-linkable thermoset resin, a crosslinker capable of crosslinking the thermoset resin, and a pigment is applied to a glass substrate. The crosslinker and thermoset resin are cured at a relatively low temperature (ca. 400° F.). The use of an organic based pigment composition allows use of thinner glass sheets than with traditional ceramic enamel pigment compositions. | 03-25-2010 |
20100170623 | Low cost dynamic insulated glazing unit - An insulated glazing unit has controllable radiation transmittance. Peripheries of first and second glazing panes are attached and spaced apart facing each other and then attached to a supporting structure. A conductive layer is atop the first glazing pane inner surface as a fixed position electrode. A dielectric is atop the conductive layer. A coiled spiral roll, variable position electrode is between the first and second glazing panes, a width of its outer edge attached to the dielectric. A first electrical lead is connected to the variable position electrode's conductive layer. A second electrical lead is connected to the conductive layer atop the first glazing pane. Applied voltage between the first and second electrical leads creates a predetermined potential difference between the electrodes, and the variable position electrode unwinds and rolls out to at least partially cover the first glazing pane, at least reducing the intensity of passing radiation. | 07-08-2010 |
20120111479 | CURVED TOUCH PANEL - A method of forming a curved touch surface is disclosed. According to an embodiment, the method includes depositing a touch sensor pattern on a flexible substrate; and curving the flexible substrate, using a chuck surface supporting the flexible substrate, to conform to a shape of a curved cover surface. Then, the curved flexible substrate can be laminated or otherwise adhered to the cover surface. The flexible substrate can be a glass substrate greater than 200 μm in thickness, and can be reduced to a desired thickness below 200 μm after the touch sensor pattern is deposited thereon. The flexible substrate can be curved by supporting the flexible substrate on the chuck surface such that the flexible substrate conforms to a shape of the chuck surface, or forcing the flexible substrate against the cover surface, such that the flexible substrate conforms to the shape of the curved cover surface. | 05-10-2012 |
20120180935 | ROBOTIC PLACEMENT MACHINE FOR OPTICAL BONDING, SYSTEM AND METHOD OF USE THEREOF - A robotic placement machine including a base operably connected to the Y axis actuator and the X axis actuator, a first Z axis actuator coupled to the first end of the base, the first Z axis actuator capable of moving up and down a first Z axis, a second Z axis actuator coupled to the second end of the base, the second Z axis actuator capable of moving up and down a second Z axis, and a pick and place plate operably connected to the first Z axis actuator and the second Z axis actuator, wherein the first Z axis actuator and the second Z axis actuator are each capable of moving independently of each other to tilt the pick and place plate is provided. Furthermore, a system comprising a first machine, second machine, and third machine to eliminate air bubbles when bonding two substrates is also provided. A method of optical bonding is further provided. | 07-19-2012 |
20160083282 | METHODS OF FORMING LAMINATED GLASS STRUCTURES - A method of forming a laminated glass structure includes introducing a continuous ribbon of flexible glass substrate having a thickness of no greater than about 0.3 mm to a substrate material. The substrate material has a coefficient of thermal expansion (CTE) that is greater than that of the flexible glass substrate. The flexible glass substrate is laminated to the substrate material at an elevated temperature. The substrate material is cooled to introduce a compressive stress across a thickness of the flexible glass substrate. | 03-24-2016 |
156103000 | With application of plural sequential pressures | 1 |
20090084488 | Method of preparing colorless and transparent f-doped tin oxide conductive film using polymer post-treatment process - The present invention provides a method of preparing a colorless and transparent FTO conductive film using a polymer post-treatment process, in which a polymer is coated or bonded to an FTO film having a low transmittance due to optical coloring, thereby increasing the transmittance. | 04-02-2009 |
156104000 | With air evacuation between laminae | 11 |
20090071589 | Glass Laminate Containing Poly Vinyl Acetal - A process comprises constructing a sub-assembly including a rigid layer and a poly (vinyl acetal) interlayer in a vacuum bag or vacuum press; applying vacuum to the vacuum bag or vacuum press for a maximum of 30 to 60 minutes while maintaining the sub-assembly at a temperature between 10° C. and 22° C. to produce a cooled sub-assembly; increasing the temperature of the cooled sub-assembly to at least 100° C. or 125° C. over a minimum of 10 minutes or 20 minutes to produce a heated sub-assembly; maintaining the heated sub-assembly at minimum of 100° C. or 125° C. for a minimum of 10 minutes or 20 minutes to form a laminate; cooling the laminate at a rate of at least 0.5° C./minute until the laminate reaches a temperature below 40° C.; contemporaneously with the cooling, removing the vacuum from the vacuum bag, containing the laminate, and allowing the laminate to reach atmospheric pressure. | 03-19-2009 |
20090126859 | Process for producing glass laminates - A non-autoclave process of manufacturing a glass laminate comprising: (a) providing an assembly comprising (i) a first rigid sheet layer, and (ii) an interlayer sheet comprising a copolymer comprising units from an alpha olefin and about 17 weight % to about 25 weight % of units from an alpha, beta-ethylenically unsaturated carboxylic acid, groups wherein about 1 to about 100 mole % of the carboxylic acid groups are neutralized with metal ions; and (b) forming the glass laminate from the assembly without use of an autoclave comprising in sequence (i) applying vacuum to the assembly; and (ii) applying heat to the assembly while still under vacuum. | 05-21-2009 |
20090151853 | Evacuation and port sealing techniques for vacuum insulating glass units, and/or vacuum oven for accomplishing the same - Certain example embodiments of this invention relate to evacuation and sealing techniques for VIG units, and/or multi-chamber vacuum ovens for accomplishing the same. In certain example embodiments, a VIG assembly is inserted into a multi-chamber apparatus to successively reduce the chamber pressure and thus the pressure between substrates comprising the VIG assembly until a final evacuation pressure is reached. Once the final evacuation pressure is reached, a pump-out port or tube of the VIG assembly is sealed forming a VIG unit while the VIG assembly is still in the vacuum chamber. After sealing, chamber pressures are gradually increased to atmospheric while the gap between the substrates of the VIG unit remains at a pressure less than atmospheric which is close to the final evacuation pressure. | 06-18-2009 |
20120085482 | PROCESS FOR PRODUCING GLASS LAMINATES - A non-autoclave process of manufacturing a glass laminate comprising: (a) providing an assembly comprising (i) a first rigid sheet layer, and (ii) an interlayer sheet comprising a copolymer comprising units from an alpha olefin and about 17 weight to about 25 weight % of units from an alpha, beta-ethylenically unsaturated carboxylic acid, groups wherein about 1 to about 100 mole % of the carboxylic acid groups are neutralized with metal ions; and (b) forming the glass laminate from the assembly without use of an autoclave comprising in sequence (i) applying vacuum to the assembly; and (ii) applying heat to the assembly while still under vacuum. | 04-12-2012 |
20120186726 | Method Of Filling And Sealing A Fluorescent Layer In A Slot Space Defined By Two Optical Lenses And A Partition Ring - A method of filling and sealing a fluorescent layer in a slot space defined by two optical lenses and a partition ring is disclosed, in which a slot space is defined by two optical glasses and a partition frame having a partition ring on the inner wall surface. The partition frame is installed with two slots diametrically opposite to each other, and the slot space is evacuated to allow filling of a fluorescent material, and then the two slots are sealed so that the moisture is prevented from permeating into the fluorescent layer, and thus the optical performance can be maintained over a long period. | 07-26-2012 |
20120193013 | PROCESS FOR PRODUCTION OF LAMINATED GLASS - Disclosed is a process for producing a laminated glass, which can prevent the formation of air bubbles in a peripheral part of the laminated glass. In the process, a substance ( | 08-02-2012 |
20120318438 | DEVICE AND METHOD FOR PRODUCING LAMINATED SAFETY GLASS - 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. | 12-20-2012 |
20130174967 | Economical Glass Image Encapsulation Process - An economical glass image encapsulation process that encapsulates an image between a single plate of glass and a flexible, adhesive sheet of ethylene vinyl acetate. Application of varying thermodynamic parameters to the plate of glass in a vacuum oven increases the glass' absorbency to ink from the image, without relying on the traditional high temperature ovens or tempering machines. The economical glass image encapsulation process eliminates multiple steps, equipment, and components traditionally utilized for image encapsulation such as the need for: high temperature heaters, tempering machines, a second plate of glass, extra adhesive sheets of polymers, multiple superfluous steps for cutting the plate of glass, and shipping costs for whole plates of glass. | 07-11-2013 |
20150013882 | METHOD FOR LAMINATING GLASS PANELS AND VACUUM LAMINATION DEVICE USING SAME - The present invention provides a method for laminating glass panels and a vacuum lamination device using the method. The method includes (1) providing a TFT substrate ( | 01-15-2015 |
20150101736 | Method of Manufacturing Laminated Glass for Vehicle - A method of manufacturing a vehicle laminated glass according to the present invention includes: stacking a thermal insulating film between two resin intermediate films; stacking these films between two curved glass plates, thereby forming a stacked body; degassing the stacked body; and, after the degassing, thermocompression bonding the stacked body by pressing and heating up to a maximum temperature of 120 to 150° C., wherein: the thermal insulating film has a heat shrinkage of 0.9 to 5% in a temperature range of 120 to 150° C.; the resin intermediate film is larger in area than the glass plates; and the stacked body is formed such that an edge part of the resin intermediate film protrudes outwardly by 1 mm or more from edges of the glass plates. It is possible by this method to prevent an appearance defect in the thermal insulating film throughout the entire circumference of the laminated glass. | 04-16-2015 |
20160089869 | PRESSURE COMPENSATED INSULATED GLASS UNITS - Methods and apparatus for fabricating pressure compensated insulated glass units (IGUs). In one example, a method assembles an IGU from a first lite, a second lite and a spacer registered with and between the first and second lite, while at least the space between the first and second lites and within the perimeter of the spacer contains a heated or cooled inert gas. In another example, a method provides a vented IGU, heats or cools the vented IGU, introduces inert gas into the interior volume of the vented IGU, and seals vent ports before the IGU comes to ambient temperature. In another example, a method introduces or removes inert gas from an IGU by penetrating a seal of the IGU and then reseals the IGU. In another example, an apparatus for fabricating an IGU comprises a temperature control unit configured to heat or cool an inert gas and an IGU press wherein the apparatus is configured to introduce a heated inert gas or a cooled inert gas into the IGU as the hermetic seal of the IGU is formed. | 03-31-2016 |
156105000 | Directly applied fluid pressure | 3 |
20090133807 | Method And Apparatus For Sealing A Glass Package - An apparatus for sealing a substrate assembly by applying a force to the assembly while simultaneously exposing the substrate assembly, and in particular a sealing material disposed between two substrates of the substrate assembly, to an irradiating beam of electromagnetic energy. The beam heats, cures and/or melts the sealing material, depending upon the sealing material to form the seal. The force is applied by directing a flow of fluid against the substrate assembly, and beneficially improves contact between the substrates of the substrate assembly and the sealing material during the sealing process, therefore assisting in achieving a hermetic seal between the substrates. | 05-28-2009 |
20100288422 | LOW-TEMPERATURE METHOD FOR JOINING GLASS AND THE LIKE FOR OPTICS AND PRECISION MECHANICS - The present invention relates to a method for joining two or more components made of glass, ceramic, and/or glass ceramic, using a soluble glass joining solution having sodium, potassium, and/or lithium ions and/or a silica sol, the joining solution being applied to joint surfaces between the components to be joined and solidified at mild temperatures, the method being either characterized in that the joining solution comprises an additive selected among boric acid, boron compounds from which boric acid can result by hydrolysis, aluminum acetates, aluminum silicate/NH | 11-18-2010 |
20160375669 | LAYERED INFRARED TRANSMITTING OPTICAL ELEMENTS AND METHOD FOR MAKING SAME - A method for bonding infrared transmitting glasses into an optical element without interlayer voids by stacking at least two different infrared transmitting glasses inside a vessel where each glass has a different refractive index, a different dispersion, or both, and where the glasses all have similar viscosities, thermal expansion coefficients, and glass transition temperatures; placing a weight on top of the stack; applying a vacuum to the vessel; applying an isostatic pressure of at least 1500 psi; and after releasing the isostatic pressure, annealing at a temperature within 10° C. of the glass transition temperature at a pressure between 0 and 1000 psi. Applying the vacuum, applying the isostatic pressure, and annealing are done sequentially and with no intermediate transitions to ambient temperature or pressure. Also disclosed is the related optical element made by this method. | 12-29-2016 |
156106000 | With preformed intermediate adhesive layer | 7 |
20080277045 | POLYVINYLBUTYRAL INTERLAYER SHEET WITH IMPROVED ADHESION TO GLASS AND A PROCESS FOR PREPARING SAME - The present invention is an improved PVB composition comprising an adhesion control agent which is a mixture of potassium and magnesium salts in a ratio of from about 0.05:1 to about 5:1, by weight, potassium salts to magnesium salts. The present invention also describes a method for improved control of adhesion of PVB to glass. | 11-13-2008 |
20090139634 | Single Stage Glass Lamination Apparatus and Process - A glass sheet assembly including a first glass sheet arranged in an opposing parallel configuration with respect to a second glass sheet is provided, with a heat sensitive layer of adhesive laminating film disposed between the first glass sheet and the second glass sheet, the glass sheet assembly having a leading edge and a trailing edge and being of a fixed length and width, the laminating film having a bonding temperature at which melting of the laminating film is initiated. The glass sheet assembly is heated using an array of heating elements so as to cause differential heating along the length of the glass sheet assembly such that the temperature at the leading edge of the glass sheet assembly is higher than the temperature at the trailing edge of the glass sheet assembly with uniform heating across the width of the glass sheet assembly. The first and second glass sheets are pressed toward each other to purge air or moisture from the glass sheet assembly until the first and second glass sheets adhere together via the adhesive laminating film, the step of pressing being initiated at the leading edge of the glass sheet assembly when the temperature of the laminating film at the leading edge of the glass sheet assembly reaches the bonding temperature of the laminating film. | 06-04-2009 |
20090294023 | Pressure sensitive adhesives and methods for their preparation - A pressure sensitive adhesive composition includes (A) a bodied MQ resin containing (i) a resinous core and (ii) a nonresinous polyorganosiloxane group, where the nonresinous polyorganosiloxane group is terminated with a silicon-bonded hydroxyl group; (B) a treated MQ resin, where (B)/(A) ratio has a value of 0.3 to 5.0, and (C) a polydiorganosiloxane terminated with a condensation reactable group; where resin/polymer ratio has a value of 2.0 to 3.0; optionally (D) a crosslinker; optionally (E) a catalyst; and optionally (F) a solvent. A pressure sensitive adhesive product prepared by curing the pressure sensitive adhesive composition is useful in structural attachment applications such as structural glazing applications. | 12-03-2009 |
20100000657 | ADHESIVE SHEETS AND METHODS FOR THEIR USE - An adhesive sheet is prepared by coextruding a thermoplastic adhesive material such as a thermoplastic polyurethane and a polymeric material such as a polyolefin that forms a polymeric expendable layer. A process for making a multi-layer impact resistant glass composite made up of alternating glass and plastic layers involves interposing the adhesive sheet between the glass layer and the plastic layer, removing at least one polymeric expendable layer from the adhesive sheet, and pressing the layers together to adhere the glass layer to the plastic layer. In alternate embodiments, the adhesive sheet may be provided as a co-extruded A-B composite sheet or as an A-B-A 3-layer composite sheet. | 01-07-2010 |
20110100530 | Method and Device for Preliminarily Bonding Laminated Glass Using Curved Roll - [Object] When press-bonding superposed curved glass plates together by a plurality of curved rolls, even if curvature of the curved glass changes, a preliminary bonding method and device of a laminated glass can cope with a variety of curvatures of the curved glass plate by an easy adjustment. | 05-05-2011 |
20120325396 | INTERLAYER FILM FOR LAMINATED GLASS AND LAMINATED GLASS - The invention provides an interlayer film for a laminated glass and a laminated glass, which are protected against a slump in TL value through attenuation of said coincidence effect and adapted to display an outstanding sound insulation performance over a broad temperature range. An interlayer film for a laminated glass comprising a plasticizer and a polyacetal resin, which is a blend of a polyacetal resin having an average polymerization degree of 1,000 to 3,000 and a polyacetal resin having an average polymerization degree of 3,000 to 5,000, and which has an acetalization degree of 60 to 85 mol % and an acetyl group content of 8 to 30 mol %. An interlayer film for a laminated glass which shows a temperature dependence of loss tangent in which the lowest-temperature side maximum of loss tangent appears at 30° C. or lower when examined for dynamic viscoelasticity. | 12-27-2012 |
20150298447 | LOW DISTORTION INTERLAYER - The present invention is in the field of multiple layer glass panels comprising a polymer sheet having desirable surface properties, and more specifically, the present invention is in the field of multiple layer glass panels comprising poly(vinyl butyral) having a finished surface of relatively low waviness and high roughness disposed in contact with poly(ethylene terephthalate) and/or other poly(vinyl butyral) type layers. | 10-22-2015 |
156107000 | Sandwich edge sealing | 4 |
20090205768 | Automatic device and method for perimetric sealing of insulating glazing units - An automatic device for perimetric sealing of an insulating glazing unit composed of at least two glass panes and at least one spacer frame supported and movable in a slightly inclined position with respect to the vertical on a conveyor. A sealing head movable with relative motion with respect to the glazing unit has at least one sealing nozzle suitable to deliver a sealant flow. In order to maintain the correct mutual position of said at least one sealing nozzle with respect to the cavities of the glazing unit to be sealed and to allow the spacing of the nozzle therefrom, a sensor is provided transversely to the plane of the insulating glazing unit that detects the distance from the glass pane. An actuation mechanism is further provided for the relative motion between the sealing head and nozzle and the glazing unit. | 08-20-2009 |
20090288756 | FRAME SEAL METHODS FOR LCD - A method for providing a bonded glass component for use in an LCD display. A frame is sealed to a glass component. A barrier coat is then applied to the sealant. An adhesive is poured over the entirety of the glass component and the frame. Starting at one edge of the glass component a second glass component is lowered down until an adhesive wave progresses across the glass component, until the second glass component in position. | 11-26-2009 |
20140261974 | In-Line Tunnel Oven and Method for Treating Insulating Glass Units - A thermal treatment method for insulating glass units or IGUs having one or more suspended polymer films includes first curing a sealant at a first elevated temperature for a specified duration, then shrinking the suspended film at a second, higher, elevated temperature for a specified duration, and then cooling the IGUs back to ambient temperature. The various heating and cooling stages may be performed in a tunnel oven having different length sections at the desired temperatures, while the IGUs are conveyed from one section to the next. | 09-18-2014 |
20140367028 | ENCAPSULATED PLASTIC PANEL AND METHOD OF MAKING THE SAME - An economical method of manufacturing a plastic glazing panel having an encapsulation to enhance the sealing of the glazing panel to the vehicle is presented. This economical method includes the steps of forming a plastic panel having an A-side and B-side; printing an opaque border from an ink with the border being in contact with the B-side of the panel and substantially encircling the perimeter of the panel; curing the ink of the opaque border; applying a weatherable layer on the printed border and the plastic panel; curing the weatherable layer; depositing an abrasion resistant layer on the weatherable layer; placing the plastic panel into a mold having a soft gasket; injecting an elastomeric material to form an encapsulation that substantially encircles the perimeter of the plastic panel and encompasses the A-side; B-side and edge of the plastic panel; and removing the plastic panel from the mold. | 12-18-2014 |