Class / Patent application number | Description | Number of patent applications / Date published |
057003000 | Covering or wrapping | 20 |
20130227924 | Method for the Production of a Multi-Layer Metal Cord that is Rubberized in Situ using an Unsaturated Thermoplastic Elastomer - Method of manufacturing a multi-layer metal cord having a plurality of concentric layers of wires, comprising one or more inner layer(s) and an outer layer, of the type “rubberized in situ.” The method includes the following steps: at least one step of sheathing at least one inner layer with the rubber or the rubber composition by passing through at least one extrusion head; and an assembling step in which the wires of the outer layer are assembled around the inner layer adjacent to it, in order to form the multi-layer cord thus rubberized from the inside. The rubber is an unsaturated thermoplastic elastomer extruded in the molten state, preferably a thermoplastic elastomer of the thermoplastic stirene (TPS) elastomer type such as an SBS, SBBS, SIS or SBIS block copolymer for example. | 09-05-2013 |
20130239539 | HYBRID CORDS HAVING HIGH TENACITY AND HIGH ELONGATION AT BREAK - A hybrid cord having a core yarn of meta-aromatic polyamide fibers, and at least one wrapping yarn of para-aromatic polyamide fibers that wraps around the core yarn, wherein the hybrid cord has a high tenacity and high elongation at break. | 09-19-2013 |
20130298518 | CABLES WITH INTERTWINED STRAIN RELIEF AND BIFURCATION STRUCTURES - An electrical device such as a headset may have a cable. Wires in the cable may be used to connect speakers in the headset to a connector such as an audio jack. The cable may have a tubular intertwined cable cover that covers the wires. Computer-controlled servo motors in fiber intertwining equipment may be adjusted in real time so that intertwined attributes such as intertwining density and intertwining tension are varied as a function of length along the intertwined cable cover. The fiber intertwining equipment may make these variations to locally increase the strength of the intertwined cable cover and the cable in the vicinity of a bifurcation in the cable and in the vicinity of the portion of the cable that terminates at the audio jack. | 11-14-2013 |
057006000 | With other operations | 8 |
20090044510 | Core fiber detecting method and device in core yarn spinning - The presence/absence of a core fiber in a core yarn is reliably detected to prevent production of a core fiber-free core yarn. In a method for producing a core yarn C by wrapping a fiber bundle S around a core fiber F, the core yarn C is spun with a core fiber F content being changed from that of normal spinning for a predetermined time period after the start of spinning, in order to detect whether the core fiber F is present. The core yarn C may be spun with a core fiber made of a drawn elastic yarn to detect whether the core fiber is present based on a thickness fluctuation of the core yarn that is caused by slackening the core yarn. | 02-19-2009 |
20100281842 | ELASTIC COMPOSITE YARNS AND WOVEN FABRICS MADE THEREFROM, AND METHODS AND APPARATUS FOR MAKING THE SAME - Composite yarns have a filamentary core provided with at least one elastic performance filament and at least one inelastic control filament. A fibrous sheath, preferably formed from spun staple fibers, surrounds the filamentary core, preferably substantially along the entire length thereof. The at least one elastic performance filament most preferably includes a spandex and/or a lastol filament. The at least one inelastic control filament is most preferably formed of a textured polymer or copolymer of a polyamide, a polyester, a polyolefin and mixtures thereof. Preferably, the fibrous sheath is formed of synthetic and/or natural staple fibers, most preferably staple cotton fibers. The elastic composite fibers find particular utility as a component part of a woven textile fabric, especially as a stretch denim fabric, which exhibits advantageous elastic recovery of at least about 95.0% (ASTM D3107). | 11-11-2010 |
057007000 | With coating or impregnating | 6 |
20100000195 | Process for manufacturing yarn made from a blend of polyester fibers and silver fibers - A unique formulation for yarn from a novel combination of fibers of polyester and silver which is made by a special manufacturing process including proprietary individual steps. The formed yarn product is durable and useful and can be used to make various fabrics and/or materials and, most particularly, to make final products that possess highly advanced characteristics, particularly fire retardant properties and antimicrobial properties. | 01-07-2010 |
20120000174 | Method and Device for Manufacturing a Three-Layer Cord of the Type Rubberized in Situ - Method of manufacturing a metal cord with three concentric layers (C | 01-05-2012 |
20120110972 | Method and Device for Producing a Three-Layer Cord - Method of manufacturing a metal cord with three concentric layers (C | 05-10-2012 |
20130232936 | Method for the Production of a Three-Layer Metal Cord of the Type that is Rubberized in Situ - Method for manufacturing a metal cord with three concentric layers including a first layer of diameter d | 09-12-2013 |
20140290204 | METHOD OF MANUFACTURING A TWO-LAYER METAL CORD RUBBERIZED IN SITU USING AN UNSATURATED THERMOPLASTIC ELASTOMER - A method of manufacturing a metal cord with two concentric layers of wires is provided. The cord includes an internal layer of M wires, M having a value from 1 to 4, and an external layer of N wires. The cord is rubberized from within in situ. That is, during manufacture of the cord, the cord is rubberized from inside. According to the method, the internal layer is sheathed with rubber or a rubber compound by passing the internal layer through an extrusion head, and the N wires of the external layer are assembled around the sheathed internal layer to form a two-layer cord rubberized from the inside. The rubber is an unsaturated thermoplastic elastomer that is extruded in a molten state, and preferably is a thermoplastic styrene (TPS) type of thermoplastic elastomer, such as an SBS or an SIS block copolymer, for example. | 10-02-2014 |
20160194826 | METHOD FOR PRODUCING A WIRE CABLE | 07-07-2016 |
057010000 | Stationary core type | 1 |
20130199149 | TOOL AND METHOD FOR CREATING FASHION ACCESSORIES - A device comprising: (a) a body portion including; (i) a first end and ii. a second end; (b) a holder at the first end; (c) a holder at the second end; (d) a rotation device at the first end in communication with the holder at the first end; and wherein the holder is fixedly attached to a split gear having a channel therethrough so that one or more flexible mediums may be placed through the channel and removed from a work area located between the holder at the first end and the holder at the second end. | 08-08-2013 |
057011000 | Rotating core type | 3 |
20120324857 | METHOD AND SYSTEM FOR MANUFACTURING CABLE BEAD - A method and system for manufacturing high-quality cable beads with efficiency. The method includes the steps of arranging a plurality of carriages carrying a core and a reel wound with a wire around a reel revolving means having at least two arms, attaching the core to a core rotating means for rotating the core in a circumferential direction by holding it with one of the arms and positioning the reel on one side of the core by holding it with the other of the arms, manufacturing a cable bead by revolving the reel by holding it alternately with each of the two arms, and returning the cable bead and the reel to the carriage using the two arms. Thus, the setting of the reel and the core, the manufacturing of a cable bead, and the returning of the cable bead and the reel back to the carriage are performed automatically. | 12-27-2012 |
20150101305 | TOOL AND METHOD FOR CREATING FASHION ACCESSORIES - A device comprising: (a) a body portion including: (i) a first end and ii. a second end; (b) a holder at the first end; (c) a holder at the second end; (d) a rotation device at the first end in communication with the holder at the first end; and wherein the holder is fixedly attached to a split gear having a channel therethrough so that one or more flexible mediums may be placed through the channel and removed from a work area located between the holder at the first end and the holder at the second end. | 04-16-2015 |
20160000193 | TOOL AND METHOD FOR CREATING FASHION ACCESSORIES - A device comprising: (a) a body portion including; (i) a first end and ii. a second end; (b) a holder at the first end; (c) a holder at the second end; (d) a station device at the first and in communication with the holder at the first end; and wherein the holder is fixedly attached to a spilt gear having a channel therethrough so that one or more flexible mediums may be placed through the channel and removed from a work area located between the holder at the first end and the holder at the second end. | 01-07-2016 |
057012000 | With twisting of core or product | 2 |
20100000196 | Process for manufacturing yarn made from a blend of fibers of cotton, nylon and silver - The present invention provides a novel process for making yarn from a unique combination of fibers of cotton, nylon (preferably nylon 6) and silver and a process for forming this yarn utilizing a unique sequencing of individual steps. The final yarn product is extremely strong, stable and useful for being woven into various fabrics and/or materials and, most particularly, possesses enhanced antimicrobial properties. | 01-07-2010 |
20100162677 | Embedded type system positioning spinning method - On each draft element of a ring spinning frame, two pieces of short-staple roving from the roving bobbin enter into the draft mechanism to be drafted though a guide funnel in parallel, two pieces of filament are fed from the back of the front roller, and combine with two pieces of roving at front jaw respectively. The drafted two pieces of roving and filament are output from the front jaw and enter into the twisting triangle area to be twisted, and then are wound onto a yarn bobbin to produce yarn. Based on the relative position of the two pieces of roving and two pieces of filament, different yarns can be produced. Furthermore, multi-component yarn, such as core structure, wrapped structure, strand-like structure, can be produced on a ring spinning frame. The structure of yarn can be precisely determined. Special fiber yarn can be produced on traditional spinning frame. | 07-01-2010 |
057013000 | With plural strands | 3 |
057015000 | In successive layers | 1 |
057016000 | With coaxial covering material supply | 1 |
20090064651 | Apparatus and Method for Producing Composite Cable - A cable winding machine for winding together a multiple number of subconductors into a composite cable includes holding means for holding a first subconductor in the machine direction, and in a predetermined orientation of the first subconductor about its longitudinal axis as it moves through the machine; a first rotating member arranged and rotate the second subconductor around the first subconductor as the second subconductor moves through the machine and one or more further rotating members arranged to hold further subconductors aligned in the machine direction and in a predetermined orientation about their longitudinal axes and rotate the further subconductors around the subconductors wound with one another in the first winding stage of the machine. | 03-12-2009 |
057017000 | With coaxial covering material supply | 2 |
20120067020 | COMPOSITE CABLE - A composite cable is provided with a primary strength member comprising wire lay synthetic fibers coaxially wound around a cable core and an outer jacket of wire lay steel wires coaxially wound over the primary strength member. The composite cable provides improved bend-over-sheave performance, and is configured to be suitable for used as a purchase cable in an aircraft arrestment system. | 03-22-2012 |
20120102909 | Method and Device for Producing a Three-Layer Cord - Method of manufacturing a metal cord with three concentric layers (C | 05-03-2012 |