| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 156047000 | Making electrical conductors of indefinite length | 59 |
| 20080257472 | METHOD FOR MANUFACTURING CERAMIC PLATES - In a method for manufacturing ceramic plates, a Pd paste which does not diffuse into ceramic is formed in a metal paste forming step; metal films each having a thickness such that ceramic layers to be formed after firing are not connected to each other in the lamination direction are formed on surfaces of ceramic green sheets using the Pd paste in a metal film forming step; following a laminate forming step, a firing treatment at a firing temperature, which is a high temperature at which no glass component remains on surfaces of the ceramic layers after the firing and which is equal to or lower than a decomposition temperature of a ceramic material forming the ceramic layers, is performed for a laminate in a firing step; oxygen present at the interfaces between the ceramic layers and the metal layers is removed by immersing a sintered body in n-butyl alcohol in a separation step so as to separate the ceramic layers and the metal layers. Accordingly, ceramic plates having a very small thickness can be manufactured without causing any damage thereto and with high efficiency and can be easily applied to laminate type electronic components. | 10-23-2008 |
| 20090133799 | METHOD FOR RESTORING POWER CABLES - A method for extending the useful life of an in-service electrical cable section having a stranded conductor surrounded by a conductor shield encased in a polymeric insulation jacket and having an interstitial void volume in the region of the conductor, the cable section having an average conductor temperature T. The method comprising (i) continuously introducing a non-condensing exclusion fluid into the interstitial volume, the exclusion fluid comprising at least one non-condensing exclusion component having a solubility in the insulation polymer at least 100 times the corresponding solubility of water, each solubility being determined at temperature T; and (ii) injecting a condensing dielectric enhancement fluid into the interstitial void volume, wherein the dielectric enhancement fluid has a virtual flow rate within the interstitial void volume of less than about 0.1 liter per hour. | 05-28-2009 |
| 20090145533 | ELECTRICALLY CONDUCTIVE ELASTIC COMPOSITE YARN, METHODS FOR MAKING THE SAME, AND ARTICLES INCORPORATING THE SAME - An electrically conductive elastic composite yarn comprises an elastic member that is surrounded by at least one conductive covering filament(s). The elastic member has a predetermined relaxed unit length L and a predetermined drafted length of (N×L), where N is a number preferably in the range from about 1.0 to about 8.0. The conductive covering filament has a length that is greater than the drafted length of the elastic member such that substantially all of an elongating stress imposed on the composite yarn is carried by the elastic member. The elastic composite yarn may further include an optional stress-bearing member surrounding the elastic member and the conductive covering filament. The length of the stress-bearing member is less than the length of the conductive covering filament and greater than, or equal to, the drafted length (N×L) of the elastic member, such that a portion of the elongating stress imposed on the composite yarn is carried by the stress-bearing member. | 06-11-2009 |
| 20090151847 | Process for producing laminated exfoliated graphite composite-metal compositions for fuel cell bipolar plate applications - A process for producing an electrically conductive laminate composition for fuel cell flow field plate or bipolar plate applications. The process comprises: (a) feeding a thin metal sheet, having a first surface and a second surface, into a consolidating zone; and (b) feeding a first exfoliated graphite composite sheet onto the first surface of the metal sheet to form a two-layer precursor laminate in this consolidating zone; wherein the exfoliated graphite composite sheet comprises (i) expanded or exfoliated graphite and (ii) a binder or matrix material to bond the expanded graphite to form a cohered. The process preferably further comprises (c) feeding a second exfoliated graphite composite sheet onto the second surface of the metal sheet to form a three-layer precursor laminate. Both the first and second exfoliated graphite composite sheet may further comprise particles of non-expandable graphite or carbon in the amount of between 3% and 60% by weight based on the total weight of the non-expandable particles and the expanded graphite. Surface flow channels and other desired geometric features can be built onto the exterior surfaces of the laminate to form a flow field plate or bipolar plate by a procedure such as in-line embossing or molding. The resulting laminate has an exceptionally high thickness-direction conductivity and excellent resistance to gas permeation. | 06-18-2009 |
| 20120097313 | TAPE APPLYING APPARATUS - A base is removably mounted to a holder mounted on a frame. A feed reel for feeding a tape member formed by lamination of a separator and anisotropic conductive tape, and a wind-up reel which is placed coaxial with the feed reel and which serves for winding up the tape member of which the anisotropic conductive tape has been press-applied to the board by a press-applying head mounted on the holder are mounted on the base. | 04-26-2012 |
| 20120125513 | Cylindrical Surface Spin Weld Apparatus and Method of Use - A spin weld apparatus for spin welding a prepared end of a coaxial cable with a coaxial connector includes a cable clamp dimensioned to grip the coaxial cable and a drive collet dimensioned to enclose and rotationally interlock with a lateral surface of the coaxial connector. The drive collet is dimensioned to rotationally interlock with an interlocking portion of a spin welder. The spin welder is dimensioned to axially align the coaxial connector with the coaxial cable for spin welding when the drive collet is rotationally interlocked with the spin welder. | 05-24-2012 |
| 20130032269 | METHOD FOR MAKING FUEL CELL MEMBRANE ELECTRODE ASSEMBLY - A method for making fuel cell membrane electrode assembly is provided. In the method, a porous template having a number of holes and a proton exchange membrane is provided. A number of tube carriers having electron conductibility are formed. Each tube carrier is formed in one hole of the porous template. A number of catalyst particles are uniformly adsorbed on inner walls of the tube carriers. Proton conductor is filled in the tube carriers having catalyst particles adsorbing thereon. The proton exchange membrane is sandwiched between the two porous templates to form a laminated structure. The laminated structure is hot pressed. The porous templates are removed from the hot pressed laminated structure. | 02-07-2013 |
| 20130153112 | METHOD FOR FUSING INSULATED WIRES, AND FUSED WIRES PRODUCED BY SUCH METHOD - A method for fusing a pair of insulated wires to one another, and a fused wire made by such method, in which the combined or major diameter of the fused wire equals, or very closely matches, the sum of the diameters of the individual wires prior to fusion. In the present method, a pair of wires, each having a coating of insulation that is substantially fully cured, are brought into close abutting contact with one another along a line contact, and thereafter pass through a heating device which heats the coatings above their a thermal transition point of at least one of the pair of wires to fuse the coatings of the wires together along the line contact. | 06-20-2013 |
| 20130186545 | Compound Paper Sticking Process for Lithium Ion Battery Fuses - The invention discloses a compound paper sticking process for lithium ion battery fuses, which comprises the following steps: a compound paper tape formed by the composite of square compound paper and L-shaped compound paper is prepared; a compound paper tape is installed on a semi-automatic compound paper sticking machine; the semi-automatic compound paper sticking machine is started and the compound paper tape moves forward; the semi-automatic compound paper sticking machine stops moving when the compound paper tape moves to working position; operators stick battery fuses on the compound paper of the compound paper tape; the semi-automatic compound paper sticking machine is started and the compound paper of the tape with battery fuse moves forward; the operators take down the battery fuse moved to a rewinding shaft at the other end of the semi-automatic compound paper sticking machine; the compound paper of battery fuse is shaped manually. | 07-25-2013 |
| 156048000 | With filling of void or cavity with fluent material | 3 |
| 20080223498 | Method for extending long-term electrical power cable performance - An improved method for imparting excellent long-term dielectric performance to an in-service electrical cable section having a stranded conductor surrounded by a conductor shield encased in a polymeric insulation and having an interstitial void volume in the region of the conductor, the cable section having an average operating temperature T. The method comprising injecting a dielectric enhancement fluid composition into the interstitial void volume, the composition comprising at least one component selected from:
| 09-18-2008 |
| 20120205023 | FILLER ASSEMBLY FOR CABLE GLAND - A dispenser apparatus ( | 08-16-2012 |
| 20120279630 | MANUFACTURING METHOD OF CIRCUIT SUBSTRATE - A manufacturing method of a circuit substrate includes the following steps. The peripheries of two metal layers are bonded to form a sealed area. At least a through hole passing through the sealed area is formed. Two insulating layers are formed on the two metal layers. Two conductive layers are formed on the two insulating layers. The two insulating layers and the two conductive layers are laminated to the two metal layers bonded to each other, wherein the metal layers are embedded between the two insulating layers, and the two insulating layers fill into the through hole. The sealed area of the two metal layers is separated to form two separated circuit substrates. Therefore, the thinner substrate can be operated in the following steps, such as patterning process or plating process. In addition, the method may be extended to manufacture the circuit substrate with odd-numbered layer or even-numbered layer. | 11-08-2012 |
| 156049000 | Splicing | 3 |
| 20090260736 | Method and apparatus for encapsulating wire, hose, and tube splices, connections, and repairs - An improved method and apparatus for encapsulation of splices, connections, and repairs of wires, tubes, hoses, and similar conductors. Encapsulation is accomplished by securing the area to be encapsulated in a mold set and injecting a hot-melt sealant. Further embodiments allow for the addition of mounting lugs or tabs to the encapsulation for the purpose of mounting or identification. Method can also be used to mold mounting lugs or identification tabs over uninterrupted portions of the aforementioned conductors. The method provides superior resistance to ingress of contaminants and provides strain relief of encapsulated areas by supporting the conductors to reduce movement. The adhesive nature of the sealant reduces the likelihood of conductors being pulled apart. | 10-22-2009 |
| 20100170611 | Article And Method For Forming A Wire Seal - A heat-shrinkable tubular article for forming a wire splice is both resistant to high temperatures and capable of rapid installation. The heat-shrinkable tubular article includes a heat-shrinkable jacket material and an inner adhesive layer having a thixotropic heat-flowable additive. The tubular article having at least one of a maximum internal diameter of no more than 15 mm or a maximum length of no more than 100 mm. | 07-08-2010 |
| 20110114242 | SYSTEMS AND METHODS FOR ASSEMBLING LIGHTWEIGHT RF ANTENNA STRUCTURES - Systems and methods for assembling lightweight RF antenna structures are provided. In one embodiment, the invention relates to a process for forming a lightweight antenna including a process for forming a first feed assembly for the antenna, the process for forming the first feed assembly including providing a flat flexible circuit substrate, providing a formed flexible circuit substrate, applying an adhesive to a plurality of locations on a surface of the flat substrate or the formed substrate, joining the flat substrate and the formed substrate using the adhesive, and heating the joined flat substrate and the formed substrate to bond the substrates. | 05-19-2011 |
| 156050000 | With mechanical working of conductor | 5 |
| 20080202661 | Method of manufacturing wiring substrate and method of manufacturing electronic component device - In a method of manufacturing a wiring substrate of the present invention, first, a structure in which an underlying layer is arranged in a wiring forming area of a temporary substrate and a peelable multi-layer metal foil that is larger in size than the underlying layer is arranged on the underlying layer and is adhered partially to an outer peripheral portion of the wiring forming area of the temporary substrate, and the peelable multi-layer metal foil is constructed by temporary adhering a first metal foil and a second metal foil with peelable. Then, a built-up wiring layer is formed on the peelable multi-layer metal foil, and the peelable multi-layer metal foil is separated from the temporary substrate by cutting a portion of such a structure that the underlying layer, the peelable multi-layer metal foil, and the built-up wiring layer are formed on the temporary substrate, the portion corresponding to a peripheral portion the underlying layer, whereby a wiring member in which the built-up wiring layer is formed on the peelable multi-layer metal foil is obtained. | 08-28-2008 |
| 20110108180 | METHOD FOR PRODUCING A CURVED CIRCUIT - The invention relates to a method for producing a curved circuit. According to the invention, this method involves forming, in one face of said circuit and in at least one predetermined direction, cuts having a triangular cross-section which are parallel to each other and extend to either side of said circuit; depositing adhesive on the flanks of the cuts thus made; and moving the flanks of the cuts together so as to close them. | 05-12-2011 |
| 20140352867 | INTEGRATED WIRE CABLE TWISTING, WRAPPING, AND TESTING APPARATUS AND METHOD OF OPERATING SAME - A single machine configured to manufacture a wire cable assembly including an twisted wire pair and a drain wire having a conductive tape and an insulative tape spirally wrapped about said wire pair. The machine includes a first clamp that secures an end of the wire pair and a second clamp that secures the other end of the wire pair. The second clamp rotates while the first clamp is fixed thereby twisting the wires of the wire pair one about the other. The second clamp can also rotate synchronously with the first clamp thereby rotating the wire pair without twisting. The machine also has a tape reel configured to move parallel to the clamps as they rotate, wrapping tape around the wire pair. The apparatus can be configured to apply the tapes simultaneously to electromagnetically shield and insulate the cable assembly. A method of operating the apparatus is also provided. | 12-04-2014 |
| 20150075695 | CABLE FOR ELECTRICAL AND OPTICAL TRANSMISSION - Circuits, methods, and apparatus that provide cables capable of high-speed transmission while remaining compatible with legacy signals. Other examples may have shielding that may be easily manipulated during manufacturing, they may have good tensile strength, and they may be less likely to be damaged by twisting and bending that may occur during use. | 03-19-2015 |
| 20150107748 | SHEATHING MEMBER MOUNTING APPARATUS AND SHEATHING MEMBER MOUNTING METHOD - A sheathing member mounting apparatus is provided with a support mechanism that supports a sheet member from the side of a protective layer, electric wire holding mechanisms that hold an electric wire portion in a state of being disposed along a bonding layer of the sheet member, and a folding mechanism that folds the sheet member in two. A second region supported by a second support portion is pivoted toward a first support portion, whereby the electric wire portion of a wire harness is sandwiched in the folded sheet member to be covered. | 04-23-2015 |
| 156051000 | Covering of conductor | 39 |
| 20090056852 | Method for manufacturing a colored electric wire - An electric wire whose outer surface has a portion to be colored as required is manufactured by forming a plurality of recesses on the portion of the outer surface of the electric wire, which has a core wire and an insulating jacket that covers an entire periphery of the core wire, and then applying a coloring material to the portion of the outer surface of the electric wire. The recesses may be provided by blowing abrasive grains against the portion or by pricking the portion with one or more needles. | 03-05-2009 |
| 20090101268 | Waterproof Method and Construction for a Wire End Joint Portion - A waterproof method for a wire end joint includes expanding a heat shrinkable tube radially outwardly. The method then includes inserting the wire end joint and a melted thermosetting waterproofing agent through an opening at an end of the waterproof protection tube. A solidification starting temperature of the waterproofing agent is set higher than a shrinkage starting temperature of the heat shrinkable tube. The method then applies heating so that the heat shrinkable tube shrinks to the original diameter and so that the waterproofing agent is not solidified. The heating is continued to the solidification starting temperature after the heat shrinkable tube is shrunk to a set inner diameter, thereby causing the thermosetting waterproofing agent to be solidified. | 04-23-2009 |
| 20090218027 | METHOD OF MAKING A COAXIAL CABLE INCLUDING TUBULAR BIMETALLIC INNER LAYER WITH FOLDED OVER EDGE PORTIONS - A method for making a coaxial cable including an inner conductor, an outer conductor, and a dielectric material layer therebetween may include forming the inner conductor by at least forming a bimetallic strip into a tubular bimetallic layer having a pair of longitudinal edge portions at a longitudinal seam. The bimetallic strip may include an inner metal layer and an outer metal layer bonded thereto and coextensive therewith. Each of the longitudinal edge portions may be folded over. The method may also include forming a welded joint between adjacent portions of the folded over longitudinal edge portions and defining surplus material at the welded joint. The method may further include removing the surplus material at the welded joint and forming the dielectric material layer surrounding the inner conductor. The method may also include forming the outer conductor surrounding the dielectric material layer. | 09-03-2009 |
| 20100314021 | METHOD FOR THE IMPROVED MANUFACTURE OF THE INSULATION OF A CONDUCTOR ELEMENT FOR AN ELECTRICAL MACHINE - A method is provided for the manufacture of an insulation of a conductor element of an electrical machine. The insulation includes an insulating strip with a filler contained in it, which is wound around the conductor element. At least one electrode plate is arranged adjacent to the outside of the insulation, and an amount of heat being introduced into the insulation by applying a voltage between the conductor element and the electrode plate in order to cause an effect on the filler. | 12-16-2010 |
| 20110030872 | POLYMER LEAD COVERING WITH VARIED MATERIAL PROPERTIES - This document discusses, among other things, a lead assembly including a lead body, at least one conductor extending through the lead body, and a covering having varied material properties. In an example, the covering is made by forming pieces of material having varied material properties. In another example, the covering is made by varying parameters such as heat or tension during wrapping of a piece of material onto a lead assembly. | 02-10-2011 |
| 20110094651 | METHOD FOR PRODUCING TRANSPARENT CONDUCTOR - A method for producing a transparent conductor having a substrate and thereon a conductive layer containing a plurality of metal nanowires comprises the steps of applying a metal nanowire dispersion containing the metal nanowires in a liquid to the substrate, removing the liquid from the applied metal nanowire dispersion to form a metal nanowire network layer on the substrate, and subjecting the metal nanowire network layer to a pressure treatment using a lower roller and an upper roller, the lower roller having a rubber hardness of 40° to 70°. | 04-28-2011 |
| 20110303341 | METHOD FOR THE MINIATURIZABLE CONTACTING OF INSULATED WIRES - The invention allows for the contacting of preferably microcomponents using electrical wires. By growing metallic microdepositions on cut surfaces of microcables, a contact region is generated which simplifies the dosing and application of a contact auxiliary and allows ultrasonic bonding, comprising a defined size of the electrically conductive area and allowing the contacting of very stably insulated wires. The application of this method in a panelized manner and in series is inexpensive. | 12-15-2011 |
| 20120055605 | METHOD OF MANUFACTURING WIRE HARNESS - A method of manufacturing a wire harness is provided. A portion of a wire is mounted on a first holder such that the portion of the wire is disposed between a thermoplastic material and another thermoplastic material, the thermoplastic material and the other thermoplastic material, that are mounted on the first holder, are pressed by heater-equipped the lower mold and the upper mold, thereby press-forming and heating the thermoplastic material and the other thermoplastic material, so that the portion of the wire is covered around with the thermoplastic material and the other thermoplastic material and that mutually contacting surfaces of the thermoplastic material and the other thermoplastic material are welded, and thereafter, the portion of the wire that is covered the thermoplastic material and the other thermoplastic material is removed from the lower mold and the upper mold while being mounted on an upper side of the first holder. | 03-08-2012 |
| 20120199262 | METHOD OF MANUFACTURING A DRY TYPE ELECTRICAL INSULATION - A method of making a dry type insulation is provided. The method includes combining a base fiber having a first outer surface with a binder material wherein the base fiber has a first melting point and the binder material has a second melting point which is different from the first melting point, heating the base fiber and binder material to a temperature above the second melting point, but below the first melting point using a double-belt press to form a resultant dry type insulation, compressing the base fiber and binder material using the double-belt press to form the resultant dry type insulation and cooling the resultant dry type insulation using the double-belt press. | 08-09-2012 |
| 20130105058 | METHOD FOR MAKING A POWER CABLE WITH MICRODUCT | 05-02-2013 |
| 20130292029 | CABLES WITH INTERTWINED JACKETS - Fibers may be intertwined to form cables for headsets and other structures. The cables may include wires, The wires may be surrounded by a jacket formed. from intertwined fibers, The intertwined fibers may include fibers with different melting temperatures. The jacket may be heated to a temperature that is sufficient to melt some of the fibers in the jacket without melting other fibers in the jacket. The melted fibers may flow into spaces between the unmelted fibers and may serve as a binder that holds together the unmelted fibers. The intertwining process may be used to form a bifurcation for a headset. A dipping process may be used to cover the jacket with a coating. The coating may be formed over the entire length of the cable or may be formed in a particular portion of the cable such as the portion of the cable that includes the bifurcation. | 11-07-2013 |
| 20130306214 | METHOD FOR MAKING CABLE JACKET WITH EMBEDDED SHIELD - A method for making a cable jacket that includes the steps of providing at least one shielding tape having a substrate formed of a substrate material, said substrate including at least one conductive segment; inserting the at least one shielding tape between first and second jacket layers of the cable jacket, each of said first and second jacket layers being formed of a jacket material; and co-extruding the at least one shielding tape with the first and second jacket layers, wherein the substrate material of the at least one shielding tape and the jacket material of the first and second jacket layers are the same such that during the co-extrusion step, the substrate and first and second jacket layers bond together into a single layer wherein the at least one conductive segment is embedded in the single layer. | 11-21-2013 |
| 20140034208 | METHOD FOR FORMING RUSTPROOF FILM ON PC STRAND AND PC STRAND - In a method for forming a rustproof film on a PC strand, the thickness of the resin film is set to 200±80 μm, the pre-heating is performed within a temperature range from 60 to 150° C. to prevent an occurrence of a cob-webbing phenomenon as a result of melting of the synthetic resin powder coating material and the post-heating is performed within a range from 150 to 250° C. in order to uniformize the thickness of the coats adhered to the outer peripheral surfaces of the core wire and the surrounding wires, and the temperature of the pre-heating is set to be lower than the temperature of the post-heating, and the synthetic resin powder coating material including particles having diameters in a range from 0.1 to 250 μm is used, and the line speed in the series of steps is set to 5 to 10 m/min. | 02-06-2014 |
| 20140238574 | DESIGN OF A MOLD FOR FORMING COMPLEX 3D MEMS COMPONENTS - A mold structure having high-precision multi-dimensional components includes: depositing an oxide layer on a top surface of a plurality of semiconductor substrates, patterning a design integrated in one or more of the oxide layers; repositioning the substrates to enable the oxide layers make contact with one another; bonding in sequential order the repositioned substrates using a dielectric bonding, forming a three dimension (3D) mold; filling the 3D mold with filling material and removing the overburden filling material present on a top surface of the component. | 08-28-2014 |
| 20150075696 | Wireline Cables Not Requiring Seasoning - A cable includes an electrically conductive cable core for transmitting electrical power and data, an insulative/protective layer circumferentially disposed around the core, an inner armor wire layer including a plurality of armor wires disposed around the cable core and the insulative layer, wherein at least one of the armor wires of the inner armor wire layer is bonded to the insulative layer, and an outer armor wire layer including a plurality of armor wires disposed around the inner armor wire layer. At least one of the armor wires of the outer armor wire layer can be bonded to the at least one of the armor wires of the inner armor wire layer. | 03-19-2015 |
| 156052000 | With preformed material | 24 |
| 20090095398 | METHOD AND SYSTEM FOR APPLYING LABELS TO ARMORED CABLE AND THE LIKE - Flexible indicia bearing labels are placed on armored electrical cable at spaced apart intervals while the cable is being moving continuously from an armoring station to a takeup reel or accumulator. A label dispenser places labels in a U shaped recess of a body which is moveable toward engagement with the cable. Opposed rollers fold one edge of the label over into engagement with the surface of the cable and the other edge of the label over onto itself in overlapping relationship. The cable is passed through a heat tunnel to shrink the labels into tight engagement with the cable. A controller monitors movement of the cable and controls actuators for applying and folding labels onto the cable at spaced apart intervals. | 04-16-2009 |
| 20100276055 | Resin Compositions With High Thermoplastic Loading - Uncured thermosetting resins are loaded with relatively high amounts of solid thermoplastic resin particles to form a resin precursor. The resin precursor is heat treated so as to produce an uncured resin composition wherein the thermoplastic resin particles become substantially dissolved in the thermosetting resin without causing cure of the resin mixture. Heat treatment of highly loaded thermosetting resins in accordance with the present invention provides uncured resin compositions that are well suited for use in fabricating composite structures and particularly prepreg for use in lightning protection surface coatings. | 11-04-2010 |
| 20120152429 | Self-Sealing Electrical Cable Using Rubber Resins - An electrical cable and a method for manufacturing the electrical cable are provided in which a plurality of insulated conductors have an inner protective layer extruded thereabout. A plurality of longitudinally extending ribs or fins or exterior ribbed or finned surfaces are formed outward of the inner protective layer between which exist a plurality of voids. An outer insulation layer can be formed in the same operation as the fins or ribbed surface and the inner layer or in a subsequent operation. A self-sealing elastomeric material is applied to the conductor surface or is present between the fins and between the inner protective layer and the outer insulation layer. | 06-21-2012 |
| 20120234453 | STACKED INTEGRATED COMPONENT MEDIA INSERT FOR AN OPHTHALMIC DEVICE - This invention discloses methods and apparatus for providing a media insert with an energy source to an ophthalmic lens. The energy source is capable of powering a component included within the ophthalmic lens. In some embodiments, an ophthalmic lens is cast molded from a silicone hydrogel and the component includes an electro-optical lens portion. | 09-20-2012 |
| 20130206314 | CABLE OR CABLE PORTION WITH A STOP LAYER - An embodiment of a method for manufacturing a cable, comprises providing a cable core comprising at least one conductor therein, extruding a stopping layer about at least the cable core, extruding a jacketing layer about the stopping layer, and cabling at least one armor wire layer about the jacketing layer to form the cable, wherein the stopping layer comprises a polymer layer configured to mechanically and thermally protect the cable core. | 08-15-2013 |
| 20140202610 | CONDUCTOR COVER APPLICATOR WITH SPOOL - Applicators and methods for applying a conductor cover to a cable, the conductor cover being tubular and split longitudinally to define a first longitudinal edge and a second longitudinal edge. The applicator comprises: a structural element; a spool connected to rotate relative to the structural element, the spool being sized to store the conductor cover in a pre-application state where the conductor cover is wrapped one or more times around the spool with the first longitudinal edge and the second longitudinal edge of the conductor cover spread open and perpendicular to a spool axis; and a lock for holding the conductor cover in the pre-application state. | 07-24-2014 |
| 20150013874 | Method for jacketing elongate material, especially leads or cable looms - Method for jacketing elongate material such as more particularly leads or cable looms, where
| 01-15-2015 |
| 20150144247 | METHOD FOR MANUFACTURING WINDING PARTS FOR AN ELECTRIC MACHINE - The disclosure refers to a method for manufacturing winding parts for an electric machine. The winding parts include a conductor and insulation around it. The method includes providing the conductor with an insulating tape around it, providing dies above the insulating tape, providing a thermosetting layer around the dies, impregnating the insulating tape with a resin, curing the resin to realise the insulation, removing the thermosetting layer and the dies. | 05-28-2015 |
| 20150295224 | METHOD FOR PRODUCING ELECTRODES FOR ALL-SOLID BATTERY AND METHOD FOR PRODUCING ALL-SOLID BATTERY - Disclosed herein is a method for producing an electrode includes a step of reducing lithium-vanadium oxide by heating in reducing gas, a step of causing the reduced lithium-vanadium oxide to deliquesce, a step of mixing the deliquesced lithium oxide with an active material so as to prepare an electrode mixture, and a step of making the electrode mixture into an electrode by virtue of molding after heat treatment to the electrode mixture. The method for producing an all-solid battery further includes a step of bonding the thus-made electrode to a solid electrode layer in such a way that the solid electrode layer is interposed between the electrode and either of cathode and anode to be paired with the electrode. | 10-15-2015 |
| 20160078979 | INSULATING TAPE FOR COVERING, AND METHOD FOR PRODUCING STRUCTURE - To provide an insulating tape for covering, in which a polyimide film and a fluorinated resin film are laminated with excellent adhesion, and a method for producing a structure, which comprises covering a conductor with such an insulating tape for covering, followed by thermal treatment. The insulating tape for covering, comprises a polyimide film and a fluorinated resin film directly laminated on one or both surfaces of the polyimide film, wherein the fluorinated resin film contains a fluorinated copolymer (A) which has a melting point of from 220 to 320° C. and can be melt-molded and which has at least one type of functional groups selected from the group consisting of carbonyl group-containing groups, hydroxy groups, epoxy groups and isocyanate groups. | 03-17-2016 |
| 156053000 | Wrapping of sheet material (e.g., tape) about conductor and/or conductor assembly | 14 |
| 20080210358 | Method for Producing a Lead - Method for producing a lead ( | 09-04-2008 |
| 20110083783 | CONDUCTOR COVER APPLICATOR - An applicator is disclosed for applying a tubular conductor cover to a cable, the conductor cover being split longitudinally to define a first longitudinal edge and a second longitudinal edge, the applicator comprising: a head having a separator shaped to contact, in operation of the applicator, an interior surface of the conductor cover to spread open the first longitudinal edge and the second longitudinal edge along a portion of the conductor cover to allow the portion of the conductor cover to be applied to a cable. A method is also disclosed of applying tubular conductor cover to a cable, the conductor cover being split longitudinally to define a first longitudinal edge and a second longitudinal edge, the method comprising: spreading open the first longitudinal edge and the second longitudinal edge of a portion of the conductor cover with a separator on a head, the separator contacting an interior surface of the conductor cover; and applying a length of conductor cover to the cable through the head. | 04-14-2011 |
| 20110114243 | PROCESS AND ARRANGEMENT FOR ELECTRICALLY INSULATIANG A COIL OF AN ELECTRIC DEVICE - The invention is applied to an electric device comprising a reel ( | 05-19-2011 |
| 20110139329 | Thin multi-chip flex module - A flexible circuit comprises a folded dielectric sheet having conductive patterns on its surface(s) to which microelectronic device(s) are attached. The dielectric sheet is folded 180° about a selected axis and a bond layer joins the two halves over a portion of their respective surface areas so that a remaining portion of their areas remain unbonded and a bifurcated structure is thereby formed. Electrical contacts are provided on the unbonded or bifurcated portions of the flexible sheets. The flex may be attached to a rigid frame and provided with protective heat spreading covers. The folded flex design is particularly suitable for reel-to-reel manufacturing. | 06-16-2011 |
| 20120043004 | APPARATUS FOR MAKING CARBON NANOTUBE COMPOSITE WIRE STRUCTURE - An apparatus for making a carbon nanotube composite structure includes a supply unit, a wrapping unit, and a collecting unit. The supply unit is configured to supply a linear structure. The wrapping unit includes a drive mechanism, a hollow rotating shaft, and a face plate. The drive mechanism is mounted on a first end of the hollow rotating shaft to drive the hollow rotating shaft. The face plate is fixed on a second end of the hollow rotating shaft and loads a carbon nanotube array with a growing substrate. The carbon nanotube array forms a carbon nanotube structure. The wrapping unit winds the carbon nanotube structure around the linear structure. The collecting unit pulls the linear structure and collects the carbon nanotube composite wire structure. | 02-23-2012 |
| 20140027036 | Methods of Manufacturing a Communication Cable - Cable foil tape having random or pseudo-random patterns or long pattern lengths of discontinuous metallic shapes and a method for manufacturing such patterned foil tape are provided. In some embodiments, a laser ablation system is used to selectively remove regions or paths in a metallic layer of a foil tape to produce random distributions of randomized shapes, or pseudo-random patterns or long pattern lengths of discontinuous shapes in the metal layer. In some embodiments, the foil tape is double-sided, having a metallic layer on each side of the foil tape, and the laser ablation system is capable of ablating nonconductive pathways into the metallic layer on both sides of the foil tape. | 01-30-2014 |
| 20140083592 | METHOD OF PRODUCING AN ELECTRICAL INSULATION SYSTEM FOR AN ELECTRIC MACHINE - A method for producing an electrical insulation system of a conductor of a winding head of an electric machine is provided. The method includes applying a porous main insulation paper to the conductor of the electrical machine; applying a porous overhang corona shielding paper to the main insulation paper, as a result of which an insulation blank of the insulation system is formed; impregnating the insulation blank with a base resin, wherein the overhang corona shielding paper and the main insulation paper have a porosity such that the insulation blank is impregnated by the base resin to form a homogeneous base resin matrix; and completing the insulation system by curing the base resin. | 03-27-2014 |
| 20140138008 | METHOD FOR PRODUCING A TAPE FOR AN ELECTRICAL INSULATION SYSTEM - A method for producing tape for an electrical insulation system, including the following steps: providing a porous insulation paper; providing a resin that has nano-scale particles suspended therein; saturating the insulation paper with the resin such that the resin and particles become dispersed in the insulation paper; and finishing the tape. | 05-22-2014 |
| 20150013875 | Method for jacketing elongate material, especially leads or cable looms - Method for jacketing elongate material such as more particularly leads or cable looms, where
| 01-15-2015 |
| 156054000 | By longitudinally bending sheet | 2 |
| 20090260737 | METHOD OF FORMING A CONDUIT - A method of continuously forming heated conduit includes performing a tape for winding onto a spiral pipeline former. At least one conductor is positioned adjacent to the centreline of and parallel with a thin polymer ribbon. The ribbon is folded in half to encapsulate the conductors. The folded ribbon is thermally welded to itself. The folded, welded, ribbon is passed through a creaser, which forms a crease midway across the folded ribbon. The creased pre-formed ribbon is formed into a conduit in a continuous process on a spiral pipeline former. | 10-22-2009 |
| 20150090388 | Exterior Member Attaching Device and Exterior Member Attaching Method - An exterior member attaching device for attaching a sheet member to an electric wire of a wire harness, the sheet member being formed into a long sheet shape having an adhesive surface at one side and an exterior surface at the other side, includes a sheet member feeding portion that feeds the sheet member along a longitudinal direction of the sheet member while bending the sheet member so that the adhesive surface becomes inner side, a guiding portion that guides the sheet member fed from the sheet member feeding portion, an electric wire holding portion that holds the electric wire along the adhesive surface of the sheet member fed to the guiding portion, and a pressure applying portion that bends the sheet member into a folio and passes and pressurizes the sheet member which sandwiches the electric wire disposed along the adhesive surface. | 04-02-2015 |
| 156055000 | Plural spaced conductors | 1 |
| 20090065119 | METHOD OF FORMING A CONDUIT - A method of continuously forming heated conduit includes performing a tape for winding onto a spiral pipeline former. At least one conductor is positioned adjacent to the centreline of and parallel with a thin polymer ribbon. The ribbon is folded in half to encapsulate the conductors. The folded ribbon is thermally welded to itself, The folded, welded, ribbon is passed through a creaser, which forms a crease midway across the folded ribbon. The creased pre-formed ribbon is formed into a conduit in a continuous process on a spiral pipeline former. | 03-12-2009 |
| 156056000 | Plural covering operations | 2 |
| 20100089515 | SELF-WRAPPING TEXTILE SLEEVE WITH PROTECTIVE COATING AND METHOD OF CONSTRUCTION THEREOF - A self-wrapping, textile sleeve for routing and protecting elongate members from exposure to abrasion, thermal and other environmental conditions and method on construction thereof. The sleeve has an elongate wall constructed from interlaced yarns having interstices between adjacent yarns. At least one of the yarns is heat formed at one temperature to form the wall as a self-wrapping wall curling about a longitudinal axis of the sleeve. The wall has an inner surface providing a generally tubular cavity in which the elongate members are received. The wall also has an outer surface with a cured layer thereon. The cured layer is cured at the one temperature at which the yarns are heat formed into their self-wrapping configuration, wherein the cured layer fills the interstices between adjunct yarns to form an impervious layer on the wall. | 04-15-2010 |
| 20100314022 | METHOD FOR PROVIDING AN INSULATED ELECTRIC HIGH VOLTAGE DC CABLE OR A HIGH VOLTAGE DC TERMINATION OR JOINT - A method for providing an insulated electric high voltage DC cable or a high voltage DC termination or joint. A polymer based insulation system including a compounded polymer composition is provided. The polymer based insulation system is subsequently exposed to a heat treatment procedure while the outer surface of the polymer based insulation system is covered by a cover impermeable to a substance present in the polymer based insulation system in a non-homogenous distribution, thereby equalizing the concentration of the substance in the polymer based insulation system. | 12-16-2010 |
