Patents Assigned to The Fujikura Cable Works
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Patent number: 5094703Abstract: In a method for manufacturing a stranded conductor for an electrical power cable comprising a process for forming cupric oxide films of from 0.3 .mu.m to 3 .mu.m in thickness by passing an uninsulated stranded conductor constituted by a plurality of stranded copper strands through oxidizing liquid, the stranded conductor passing through the liquid is curved in a wave to form gaps between the strands, and the oxidizing liquid is caused to penetrate between the strands through the gaps to form cupric oxide films of from 0.3 .mu.m to 3 .mu.m in thickness on the surfaces of the strands. Also disclosed is a stranded conductor for an electrical power cable constituted by a plurality of stranded copper strands, at least one of the copper strands being covered with a cupric oxide film free from exfoliation.Type: GrantFiled: September 27, 1988Date of Patent: March 10, 1992Assignee: The Fujikura Cable Works LimitedInventors: Michio Takaoka, Tsuneaki Mohtai, Syotaroh Yoshida, Kazuo Watanabe
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Patent number: 4759805Abstract: The surface of an aluminum conductor is roughened, for example, by blasting. A hydrophilic film such as a boehmite film, an anodic oxide film and a chemical conversion film is formed on the roughened surface. A protective film made of a wetting agent or a hydrophilic resin is formed on the hydrophilic film. The conductor may comprise a compressed aluminum conductor.Type: GrantFiled: December 16, 1986Date of Patent: July 26, 1988Assignee: Fujikura Cable Works Ltd.Inventors: Kohichi Saruwatari, Takeshi Saito, Akira Okazato, Kozo Kounosu, Tadashi Inoue, Takanori Hita, Masatsugu Maejima
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Patent number: 4579022Abstract: The invention provides a novel method for manufacturing a knife-edge die for stamping out a metal foil on an insulating base plate such as in the preparation of an electronic circuit board by a technique of photoetching. The method comprises a line pattern of a photoresist film on the die face corresponding to the contour of the desired pattern, subjecting the die face to a first etching to effect substantial side etching behind the photoresist film to leave an edge, removing the photoresist film and subjecting the die face to a second etching to sharpen the edge into a knife edge.Type: GrantFiled: October 7, 1983Date of Patent: April 1, 1986Assignee: Fujikura Cable Works, Ltd.Inventors: Yasuo Kasai, Koichi Yamada, Teruo Sakuma, Masahiro Koguchi
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Patent number: 4571453Abstract: In a method for manufacturing a stranded conductor for an electrical power cable comprising a process for forming cupric oxide films of from 0.3 .mu.m to 3 .mu.m in thickness by passing an uninsulated stranded conductor constituted by a plurality of stranded copper strands through oxidizing liquid, the stranded conductor passing through the liquid is curved in a wave to form gaps between the strands, and the oxidizing liquid is caused to penetrate between the strands through the gaps to form cupric oxide films of from 0.3 .mu.m to 3 .mu.m in thickness on the surfaces of the strands. Also disclosed is a stranded conductor for an electrical power cable constituted by a plurality of stranded copper strands, at least one of the copper strands being covered with a cupric oxide film free from exfoliation.Type: GrantFiled: May 15, 1984Date of Patent: February 18, 1986Assignee: The Fujikura Cable Works, LimitedInventors: Michio Takaoka, Tsuneaki Mohtai, Syotaroh Yoshida, Kazuo Watanabe
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Patent number: 4507358Abstract: This invention provides an insulating paper sheet produced by mixing synthetic resin flakes with natural fibers to provide a composite paper mass. This insulating paper sheet is favorably accepted as an insulating member for covering the conductor of a power cable.Type: GrantFiled: November 30, 1981Date of Patent: March 26, 1985Assignee: The Fujikura Cable Works, LimitedInventors: Michio Takaoka, Tsuneaki Moutai, Isao Miura
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Patent number: 4483751Abstract: A process of treating an anodic oxide film wherein a base material of a valve metal is anodized to form the anodic oxide film thereon, which is then impregnated with a polymerizable organic metal compound and thereafter subjected to polymerization of the compound, whereby the micropores of the anodic oxide film are filled and sealed with the polymerized organometallic compound. According to this process, there is provided a base material having an anodic oxide film impregnated with polymerized organometallic compound which is excellent in heat resistance, heat radiance, and electrical insulation, and hence the base material is useful for the printed wiring board, electrically-insulative heat sink, heat-resistant insulated wire and the like.Type: GrantFiled: February 1, 1982Date of Patent: November 20, 1984Assignee: Fujikura Cable Works, Ltd.Inventors: Seizo Murayama, Kazuo Isawa, Masatsugu Maejima, Takayoshi Usuki, Kohichi Saruwatari
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Patent number: 4454375Abstract: A power cable joint structure in which a sheath isolation is provided in a cable shielding layer in, for instance, each phase of a three-phase circuit. A reinforcing insulation is covered on the connected cable conductors and a shielding layer is covered on the outer periphery of the above-mentioned joint itself. The shielding layer has a pair of mutually opposite layers with a gap therebetween which provides a sheath isolation. A thick sheet-like insulator 12 with a plurality of spherical electrodes distributed therein is contained in the sheath isolation.Type: GrantFiled: September 9, 1982Date of Patent: June 12, 1984Assignee: The Fujikura Cable Works, LimitedInventors: Michio Takaoka, Motoyuki Ono, Isao Kaji
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Patent number: 4446331Abstract: In the joint structure for a power cable, a cable insulator covers a cable conductor. A reinforcement insulator is mounted on the said cable insulator. In the said reinforcement insulator there are disposed by dispersion a plurality of electrode spheres. The voltage applied in between the said cable conductor and a cable shielding layer covering the said cable insulator is borne by the electrostatic capacities occurring among the said electrode spheres.Type: GrantFiled: July 7, 1982Date of Patent: May 1, 1984Assignee: The Fujikura Cable Works, LimitedInventors: Michio Takaoka, Motoyuki Ono, Isao Kaji, Shigeki Yagi
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Patent number: 4434319Abstract: A POF cable line which comprises a steel pipe and three cable cores drawn in the steel pipe. At least one curved offset section is arranged on the steel pipe at a part spaced from a cable joint at a predetermined distance, with a straight portion of the steel pipe interposed therebetween. The curved offset section prevents the cable cores in the part of the steel pipe from snaking hard and consequently prevents the insulation paper in the part from making soft spots or creases. The snaking occurs easily in the offset section when the cable core thermally expands.Type: GrantFiled: August 31, 1981Date of Patent: February 28, 1984Assignees: The Chuba Electric Power Company Inc., The Fujikura Cable Works, Ltd.Inventors: Yoshiaki Gomi, Takahiro Hirata, Michio Takaoka, Tsuneaki Mohtai, Kazuya Akashi
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Patent number: 4434377Abstract: In an electric power-feeding structure for feeding an electric power from an electric power-supply terminal to electric power-receiving portions located at different positions, which comprises a main feeder assembly connected to the electric power-supply terminal and comprising a plurality of main line sections and a plurality of junction means respectively interposed between respective mutually adjacent main line sections and a plurality of branch feeder lines respectively connected, at their respective one ends, to a plurality of the electric power-receiving portions and, at their respective other ends, to the respective main line sections, the improvement in which said plurality of junction means each comprising at least one printed circuit board provided with first and second connecting portions and at least one third connecting portion and said main line sections comprise at least one flat type cable with flat connector means and are successively connected by cooperation of said first and second connectiType: GrantFiled: June 16, 1982Date of Patent: February 28, 1984Assignees: FEPS International, Ltd., The Fujikura Cable Works, Ltd.Inventors: Eiji Shima, Hiroshi Den, Takeo Kuroki
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Patent number: 4416601Abstract: Apparatus for continuously vulcanizing a covered material on a conductor comprises a feed device for feeding the conductor in one direction at a constant speed and an extruder for applying the covered material to the conductor fed from the feed means. A vulcanizing tube extends from the extruder, the cable passing through the vulcanizing tube. The vulcanizing tube has a curing section extending from its inlet to a location intermediate its inlet and outlet. A take-off device is disposed forwardly of the vulcanizing tube for hauling the cable. A load applying device is disposed between the extruder and the take-off device for applying a load to the traveling cable at a location forwardly of the curing section of the vulcanizing tube, so that a tension exerted on the cable in a direction opposite to the direction of travel of the cable is applied to the traveling cable.Type: GrantFiled: November 19, 1981Date of Patent: November 22, 1983Assignee: Fujikura Cable Works, Ltd.Inventors: Masakazu Hasegawa, Michio Takaoka, Hiroto Oshima, Keiichiro Kataoka
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Patent number: 4388098Abstract: An apparatus for producing a multi-component glass fiber preform includes a multi-conduit burner 31 having five concentric conduits 31a-31e, the center three conduits (a), (b) and (c) being flush with each other at their ends, the fourth conduit d, interposed between the third (c) and outermost conduit (e) extends axially beyond the first three. The burner has a flange 33 to direct the flame onto a substrate.In operation glass raw material is fed through the inner-most conduit (a) by a carrier gas. The material emitted from conduits (a -d) is mixed in a mixing area 32. Glass raw material and a nebulized dopant salt solution are emitted and burned with hydrogen gas depositing particulate glass material or soot on an adjacent substrate to produce a multi-component glass fiber preform.Type: GrantFiled: February 26, 1982Date of Patent: June 14, 1983Assignees: Nippon Telegraph & Telephone Public Corporation, Fujikura Cable Works, Ltd.Inventors: Shiro Takahashi, Kazuo Sanada, Koichi Inada, Osamu Fukuda
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Patent number: 4377905Abstract: A method for manufacturing a Nb.sub.3 Sn superconductor comprising the steps of preparing a composite conductor element which is composed of Cu-Sn alloy matrix and one or more Nb cores inserted and disposed in said matrix, if necessary sheathing the outer surface of the Cu-Sn alloy matrix with copper, subjecting the composite conductor element to a diameter reducing working until the predetermined diameter is reached, then forming an Sn-plating layer on the outer surface of the reduced diameter composite conductor element and thereafter subjecting the Sn-plated composite conductor element to diffusion heat treatment so that an intermetallic compound of Nb.sub.Type: GrantFiled: February 20, 1981Date of Patent: March 29, 1983Assignees: Agency of Industrial Science and Technology, Fujikura Cable Works, Ltd.Inventors: Koh Agatsuma, Kenichi Koyama, Itaru Todoriki, Osamu Kohno, Takashi Saito
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Patent number: 4368107Abstract: A method of the surface treatment of a porous material which comprises the step of electrolyzing the porous material in an electrolytic bath composed of an aqueous solution of at least one salt selected from the group consisting of alkali metal thiotungstate, alkali metal thioantimonate, alkali metal thiostannate, alkali metal thiocuprate, alkali metal thioarsenate, alkali metal thioaurate, alkali metal thioplatinate, alkali metal thioniobate, alkali metal thiovanadate, alkaline earth metal thiotungstate, alkaline earth metal thioantimonate, alkaline earth metal thiostannate, alkaline earth metal thiocuprate, alkaline earth metal thioarsenate, alkaline earth metal thioaurate, alkaline earth metal thioplatinate, alkaline earth metal thioniobate, alkaline earth metal thiovanadate, ammonium thiotungstate, ammonium thioantimonate, ammonium thiostannate, ammonium thiocuprate, ammonium thioarsenate, ammonium thioaurate, ammonium thioplatinate, ammonium thioniobate and ammonium thiovanadate, to thereby impregnate thType: GrantFiled: June 11, 1981Date of Patent: January 11, 1983Assignee: Fujikura Cable Works, Ltd.Inventors: Masatsugu Maejima, Koichi Saruwatari, Kazuo Isawa
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Patent number: 4342814Abstract: A heat-resistant electrically insulated wire has a composite coating layer of a mixture of an inorganic fine powder and an inorganic polymer on a conductor and the composite coating layer has a resinous overcoat layer thereon. The composite coating layer has not artificially been fired, but is adapted to be converted into a ceramic layer when exposed to elevated temperatures during use.Type: GrantFiled: December 5, 1979Date of Patent: August 3, 1982Assignee: The Fujikura Cable Works, Ltd.Inventors: Takayoshi Usuki, Yukio Endo, Kichizo Ito, Takao Tuboi, Shin Kubota
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Patent number: 4336049Abstract: A method for producing a multi-component glass fiber preform which comprises the steps of nebulizing an aqueous solution of at least one metal salt, and reacting the nebulized solution and a gaseous glass raw material with oxygen gas at a high temperature to produce particulate glass material deposited on a substrate. Apparatus for producing such a preform is also disclosed.Type: GrantFiled: September 22, 1980Date of Patent: June 22, 1982Assignees: Nippon Telegraph & Telephone Public Corporation, Fujikura Cable Works, Ltd.Inventors: Shiro Takahashi, Kazuo Sanada, Koichi Inada, Osamu Fukuda
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Patent number: 4325750Abstract: In a method for manufacturing a stranded conductor for an electric power cable comprising a process for forming insulating films by passing an uninsulated stranded conductor constituted by a plurality of stranded conductive strands through oxidizing liquid, the stranded conductor passing through the liquid is curved at an angle of 3.degree. to 10.degree. in a predetermined path to form gaps between the strands, and the oxidizing liquid is caused to penetrate between the strands through the gaps to form oxide films on the surfaces of the strands.Type: GrantFiled: May 7, 1981Date of Patent: April 20, 1982Assignee: The Fujikura Cable Works, LimitedInventors: Michio Takaoka, Tsuneaki Mohtai, Syotaroh Yoshida, Kazuo Watanabe
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Patent number: 4234146Abstract: An improvement in a flat type cable suspension structure which comprises a support structure comprising an upper support member and a lower support member vertically spaced from the upper support member and fixedly secured with respect to the ground, and a flat type jacketed cable extending crosswise with the support structure. The flat type cable extends downwardly through the spacing between the upper and lower support members toward said lower support member in such a manner that one face of the cable has a portion abutting against the rear side of the upper support member and the other face of the cable has a portion abutting against the front side of said lower support member. An exposed extension stemming outwardly from a tension member buried in the jacket of the cable is securely hooked over and held in a tightly suspended state on a hanger member provided on the front side of the upper support member.Type: GrantFiled: September 12, 1978Date of Patent: November 18, 1980Assignees: FEBS International, Ltd., The Fujikura Cable WorksInventors: Eiji Shima, Masao Shimizu, Hiroshi Den
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Patent number: 4230539Abstract: A method for the surface treatment of anodic oxide film is disclosed which comprises the steps of electrolyzing the porous surface of anodic oxide film of aluminium or aluminium alloy in an aqueous solution of ammonium thiomolybdate, optionally immersing it in an aqueous solution of ammonium thiomolybdate or alkali metal thiomolybdate and in dilute mineral acid or organic acid alternately, and subjecting it to a heat treatment so as to impregnate the micropores of the anodic oxide film with molybdenum sulfide and to fix the molybdenum sulfide therein.Type: GrantFiled: July 9, 1979Date of Patent: October 28, 1980Assignee: Fujikura Cable Works, Ltd.Inventors: Kohichi Saruwatari, Kazuo Isawa, Masatsugu Maejima, Takao Suzuki
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Patent number: 4228255Abstract: A novel method for crosslinking a polyolefin comprising reacting a polyolefin, which is a low density polyethylene having a density less than 0.93 and melt index of 0.1-0.5 g/10 min. or a polyolefin mixture containing a low density polyethylene having a density less than 0.93 as major component, with an organic silane and a free radical generating compound to form a silane-grafted polyolefin, then mixing silane-grafted polyolefin with a silanol condensation catalyst, and heating them. According to this method, the crosslinking takes place concurrently with forming by extrusion, and a shaped article having a high degree of crosslinking with smooth surface is obtained. The method according to this invention is especially suited for covering electrical wires with polyolefin.Type: GrantFiled: June 28, 1979Date of Patent: October 14, 1980Assignee: The Fujikura Cable Works Ltd.Inventors: Ikuo Fujimoto, Setsuya Isshiki, Yoshikazu Kurita, Yoji Sato