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Bonding of flexible filamentary material while in indefinite length or running length

Subclass of:

156 - Adhesive bonding and miscellaneous chemical manufacture

156001000 - METHODS

156060000 - Surface bonding and/or assembly therefor

Patent class list (only not empty are listed)

Deeper subclasses:

Class / Patent application numberDescriptionNumber of patent applications / Date published
156169000 With winding of filamentary material 38
156180000 Of filamentary material only to form article 21
156176000 To web of indefinite length 15
156167000 With formation of filaments 14
156168000 With removal of filamentary material subsequent to lamination thereof 1
20080223509ADHESIVE FILM AND METHOD OF FABRICATING FLEXIBLE DISPLAY USING THE SAME - An adhesive film and a method of fabricating a flexible display using the same are provided. The adhesive film includes: a support including a first surface disposed opposite to a flexible substrate for forming an image display element and a second surface disposed opposite to a support substrate for supporting the flexible substrate; a first adhesive material applied on the first surface of the support; and a second adhesive material applied on the second surface of the support and having a greater adhesive strength than the first adhesive material. The flexible substrate can be easily detached from the support substrate, so that the flexible display can be realized in various sizes and thicknesses using existing equipment without modification of mass-production equipment for realizing the flexible display.09-18-2008
20110000608APPARATUS FOR PREPARING A PRE-FORM - The present invention provides an apparatus and a method for preparing a pre-form (01-06-2011
20080283178METHOD OF MAKING AN ALL-WEATHER GRIP - A slip-resistant shock absorbing golf club grip that includes a felt layer, a fabric mesh formed of fibers and a polyurethane coating covering the mesh and felt, the fibers of the mesh defining grooves in the surface of the slip-resistant polyurethane which are engaged by a users' hands, with the polyurethane coating being buffed to partially expose the fibers.11-20-2008
20100154978Toner Adder Brush Roller and Method for Controlled Installation of Brush Filament Population - A method for controlled installation of a brush filament population on a shaft for making a toner adder brush roller includes applying a layer of adhesive over a surface of a roller shaft, applying a template over at least a portion of the shaft surface, and flocking a multiplicity of filaments on the shaft surface to provide a brush on the roller shaft having a filament population controlled by the application of the template. The method also includes removing the template from the shaft surface after flocking the multiplicity of filaments such that a set of filaments less than the multiplicity of filaments is removed with the template. The method further includes flocking additional filaments on the portion of the shaft surface after removing the template from the portion of the shaft surface, the additional filaments differs from said previously flocked filaments in one of material, length, denier, or combinations of the foregoing.06-24-2010
20100186880Method of Forming a Consolidated Fibrous Structure - A method of consolidating thermoplastic fibrous layers. The method begins with providing a plurality of fibers, where the fibers have a core with an exterior surface portion comprising polypropylene and a first layer disposed on at least a portion of the core. The first layer contains a first polymer, where the first polymer contains at least 70% α-olefin units and is characterized by a melting temperature less than the melting temperature of the exterior surface of the core. These fibers are formed into a fibrous layer. Next, a second layer is applied to the fibrous layer such that the second layer covers at least a portion of the first layers of the fibers. The second layer contains a second polymer being a co-polymer having at least 50% α-olefin units which is characterized by a number-average molecular weight of about 7,000 g/mol to 50,000 g/mol, a viscosity of between about 2,500 and 150,000 cP measured at 170° C., and a melting temperature lower than the melting temperature of the exterior surface of the core. The viscosity of the second polymer is less than a tenth of the viscosity of the first polymer measured at 170° C. Next, heat and optionally pressure are applied to the fibrous layer causing at least a portion of the second layers of the fibers in each fibrous layer to fuse to other first or second layers of the fibers within the same fibrous layer, at least a portion of the second layers of the fibers of each fibrous layer fuse with at least a portion of the first or second layers of the fibers in an adjacent fibrous layer, and at least a portion of the interstices to be filled with a blend of the first and second polymers, where the blend filling the interstices comprises at least 80% wt the second polymer.07-29-2010
20100282399Filament based open celled carrier web system for pressure sensitive product assemblies - The present invention relates to the use of an open carrier web, a web having a series of regularly occurring openings or spaces that is used in connection with pressure sensitive products, namely labels. The carrier web uses a series of strings or filaments that are spaced from one another and travel in one or more directions depending on the particular configuration of the web that is being used. The open lattice work of the carrier web permits areas of the adhesive to be exposed while at the same time provides enough distance between successive layers of the pressure sensitive products that the adhesive will not cause the layers to become permanently adhered together. The carrier web assembly may be used in connection with continuous pressure sensitive products, that is where the web consists of a single continuous substrate, or alternatively, with a number of discrete individual labels that may be carried on the web.11-11-2010
20100181011METHOD OF MANUFACTURING SOLAR CELL MODULE - A manufacturing method of a solar module according the embodiment includes a step A of disposing one of the wiring members 07-22-2010
20120055613METHOD FOR PROVIDING AN ELASTICATED WEB - A method for manufacturing elasticated webs including discontinous elastic threads, and methods for manufacturing articles from such elasticated webs. Apparatus for carrying out the methods. Further, elasticated webs and articles which can be manufactured using the methods.03-08-2012
20120073730System and Method for the Automated Delivery and Layup of Resin Infused Fibers - An automated in-line feed-through system integrating the delivery, application and infusion of a resin to one or more fiber tows and layup of the one or more infused fiber tows to form a composite structure. The system includes an automated resin delivery, deposition and infusion system configured to deposit the resin on one or more fiber tows and form the infused fiber tows. The system integrates an automated layup system including a compaction roller, a guide roller coupled to an extending cylinder, and an auxiliary roller configured to adhere the one or more infused fiber tows to a substrate. The system further includes a controller configured to control system parameters, including the control of tension of the one or more infused fiber tows within the automated layup system. Other aspects of the automated in-line manufacturing system are also provided.03-29-2012
20120080140CLOSURE BEAD - A closure bead provides a self-closing feature for closing the ends of stringing material. When jewelry is prepared, the closure bead may be used to close the ends of the stringing material after attaching the clasp, extension, jump ring, pendant, or the like. The closure bead may provide self-sealing closures that are designed to seal the ends of stringing elements, such as jewelry strands, ski ropes, climbing ropes, tool hangers, picture hangers, organizers, working ropes and the like. The closure bead may be used in various ways in various fields. For example, the device may be used in the medical field as a closure device, or in computers, electronics or children's toys as a way to seal wiring.04-05-2012
20120090769METHOD AND MANUFACTURING LINE FOR MANUFACTURING WIND TURBINE BLADES - A method and a manufacturing line for manufacturing wind turbine blades having a composite shell structure comprising a matrix material and a fibre reinforcement material by use of a resin transfer moulding process. The method comprises a manufacturing line, where wind turbine blades are formed in a number of moulds. Each number of moulds comprising at least a first mould part comprising a first mould cavity. The manufacturing line further comprises a gantry means movable along the manufacturing line. The method comprises the following steps: a) arranging fibre reinforcement material in the first mould cavity of a first mould using the gantry means, b) moving the gantry means along the manufacturing line to a second mould, c) supplying curable matrix material into the first mould cavity of the first mould, while substantially simultaneously arranging fibre reinforcement material in the first mould cavity of a second mould using the gantry means. The manufacturing line comprises a plurality of moulds for forming wind turbine blades. Each of the number of moulds comprising at least a first mould part comprising a first mould cavity.04-19-2012
20120138214OPTICAL FIBER INSTALLATION AT CUSTOMER PREMISES - An optical fiber is permanently routed easily, quickly, and unobtrusively at a customer premises using an inventive hand tool, without staples or other fasteners. The fiber has an adhesive outer coating that is activated as the fiber is applied by the tool on an exposed surface such as a wall, ceiling, molding, groove, or corner at the premises. When the activated coating hardens, the fiber is bonded to the surface on which it was applied, and the hardened coating also provides physical protection for the fiber. In the disclosed embodiment, the coated fiber is supplied on a spool that mounts on the tool, and the coating is activated by guiding the fiber as it unwinds from the spool through a chamber containing an activating substance. The fiber with the activated coating is then guided to an applicator wheel on the tool which applies the fiber to the surface.06-07-2012
20130020016METHOD FOR FORMING CUSHIONS - A method for forming cushions including the following four steps: (1) a compression step in which the structure (01-24-2013
20130020015Apparatus and Methods for Routing an Optical Fiber or Cable Inside a Building or Living Unit - Apparatus and methods for routing an optical fiber over a desired span on a structural surface at a given premises are provided. When the optical fiber is unwound from a spool, the optical fiber attaches to the structural surface by an adhesive material. The adhesive material can be applied along the desired span, or portion thereof, before, during, or after the optical fiber is routed over the desired span.01-24-2013
20080196820Process For Production Of A Reinforcement For Composite Material With A Variable Resistance Profile, Reinforcement Obtaine - The object of the invention is a process for production of a reinforcement (08-21-2008
20120018082ILLUMINATION DEVICE AND METHOD OF IMPLEMENTING ILLUMINATION DEVICE - An illumination device includes an optical fiber holder configured to hold an optical fiber, a phosphor holder configured to hold a phosphor and faces the optical fiber holder, and a bonding material configured to intervene between the optical fiber holder and the phosphor holder to bond them. The illumination device includes adjustment guide members configured to intervene between the optical fiber holder and the phosphor holder, relatively positionally adjust the optical fiber holder and the phosphor holder so as to arrange an optical axis of the optical fiber and an optical axis of the phosphor on one line, and configured to prevent the optical fiber holder and the phosphor holder from tilting when the bonding material is cured.01-26-2012
20130199708Method For Molding Tensile Strand Elements - Articles of footwear and a variety of other products may incorporate tensile strand elements. In manufacturing an element, such as the tensile strand elements, a strand, a first layer, and a second layer may be located between a first surface and a second surface of a press. The first surface includes a first material and the second surface includes a second material, with the first material having greater hardness than the second material. The strand, the first layer, and the second layer are then compressed between the first surface and the second surface.08-08-2013

Patent applications in class Bonding of flexible filamentary material while in indefinite length or running length

Patent applications in all subclasses Bonding of flexible filamentary material while in indefinite length or running length