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    • 12. 发明专利
    • OPTICAL FLAT CABLE
    • JPH09243884A
    • 1997-09-19
    • JP8335896
    • 1996-03-12
    • NIPPON TELEGRAPH & TELEPHONETOYOKUNI DENSEN KK
    • NAGANA RIYUUICHIROUNAGASE YOICHITAMURA HAJIME
    • G02B6/44
    • PROBLEM TO BE SOLVED: To facilitate the installation of work and terminal treatment and to prevent the damage or degradation of optical fibers by providing an optical flat cable with a tension member arranged to be parallel with both side parts of optical fiber ribbon cords. SOLUTION: The tension member 3 is so arranged as to exist in parallel with both side parts of the optical fiber ribbon cords 2. A sheath 4 covers the outer peripheral parts of the optical fiber ribbon cords 2 and the tension member 3 in such a manner that its outer peripheral part is formed to a nearly elliptic shape. Each optical fiber ribbon cord 2 has a coated optical fiber ribbon 8A formed by covering the outer peripheral parts of plural coated optical fibers 8 with a UV curing resin 8A in such a manner that the outer peripheral part is formed to an elliptic shape. The outer peripheral parts of the coated optical fibber ribbons 8A are coated with tensile fibers 9 in such a manner that the outer peripheral part is formed to a square shape of a rectangular shape. The outer peripheral parts of the tensile fibers 9 are covered with the sheath 10 for cords.
    • 13. 发明专利
    • OPTICAL FLAT CABLE
    • JPH09243883A
    • 1997-09-19
    • JP8335796
    • 1996-03-12
    • NIPPON TELEGRAPH & TELEPHONETOYOKUNI DENSEN KK
    • NAGANA RIYUUICHIROUNAGASE YOICHITAMURA HAJIME
    • G02B6/44
    • PROBLEM TO BE SOLVED: To make it possible to easily peel the sheath at the end of an optical flat cable without damaging optical fibers and without the applying of force thereon at the time of a terminal treatment by providing this optical flat cable with at least >=1 pieces of ripping grooves formed on the outer peripheral part of the sheath. SOLUTION: Optical fiber cords 3 are so arranged as to be parallel with both side parts of a tension member 2. The sheath 4 covers the outer peripheral parts of the optical fiber cords 3 and the tension member 2 in such a manner that its outer peripheral part is formed to an elliptic shape. The ripping grooves 5 are formed in the positions, which are the front and rear surface parts of nearly the central part of the sheath 4 and where the tension member 2 exists. The ripping grooves 5 are cut by pulling the sheath 4 at the end in a lateral direction in such a manner that the ripping grooves 5 can cut the sheath 4 at the end at the time of the terminal treatment. As a result, the easy taking out of the optical fiber cords 3 from the inside of the ripped sheath is made possible.
    • 14. 发明专利
    • COATED OPTICAL FIBER
    • JPH09243877A
    • 1997-09-19
    • JP8335996
    • 1996-03-12
    • NIPPON TELEGRAPH & TELEPHONETOYOKUNI DENSEN KK
    • NAGANA RIYUUICHIROUNAGASE YOICHITAMURA HAJIME
    • G02B6/44G02B6/02
    • PROBLEM TO BE SOLVED: To produce a coated optical fiber capable of sufficiently satisfying an ironing characteristic, tensile characteristic, bending characteristic, temp. characteristic, side pressure characteristic, cost effectiveness, etc., by forming coating layers of two layers. SOLUTION: The coated optical fiber 1 is composed of an optical fiber 2, a UV curing resin layer 3 covering the outer peripheral part of the optical fiber 2 and a resin layer 4 covering the outer peripheral part of this UV curing resin layer 3. The coating layer 4 is composed of a first coating layer 5 which covers the outer peripheral part of the UV curing resin layer 3 and a second coating layer 6 which covers the outer peripheral part of the first coating layer 5 and is formed by using a material different form the first coating layer 5. The first coating layer 5 is formed by using a flexible thermoplastic resin, for example, polyvinyl chloride, having a Young's modulus of 5 to 100N/mm . The second coating layer 6 is formed by using a semi-rigid or rigid thermoplastic resin, for example, polyvinyl chloride, having a Young's modulus of 200 to 500N/mm .
    • 16. 发明专利
    • OPTICAL COMMUNICATION TRUNK CABLE AND REINFORCEMENT TUBE CABLE
    • JP2001201641A
    • 2001-07-27
    • JP2000008655
    • 2000-01-18
    • TOYOKUNI DENSEN KK
    • TAMURA HAJIMEAKIZUKI FUMIHIROTAJIMA HIDEAKINONAKA KENJI
    • G02B6/44G02B6/00
    • PROBLEM TO BE SOLVED: To obtain an optical communication trunk cable and a reinforcement tube cable to, which connection work is performed easily in a site comfortably and which can cope with the change of demand at each floor in a short time easily by simple work. SOLUTION: The optical communication trunk cable is composed of a tape slot type optical communication trunk cable main housing many optical fiber tapes being capable of wiring in a hanging state in a building, a plurality of branch wiring cables formed by taking out many of other optical fiber tapes except at least one of the tape slot type optical communication trunk cable main body, so that the optical wiring box at the necessary floor can be wired and by inserting them in the reinforcement tube of the reinforcement tube cable respectively, and a spare cable for coping with the variation of demand, which is formed by inserting at least one of the remaining optical fiber tapes which are taken out from the lower region or the arbitrary region of the tape slot type optical communication trunk cable main body, into the reinforcement tube of the reinforcement tube cable and arranging them along the tape slot type optical communication trunk cable main body.
    • 17. 发明专利
    • METHOD FOR WIRING OPTICAL COMMUNICATION CABLE, AND OPTICAL COMMUNICATION TRUNK LINE CABLE
    • JP2001147359A
    • 2001-05-29
    • JP33085699
    • 1999-11-22
    • TOYOKUNI DENSEN KK
    • TAKAHASHI TAKEOITO KIMIOHODOHARA MAKOTOTAMURA HAJIMEAKIZUKI FUMIHIROTAJIMA HIDEAKINONAKA KENJI
    • G02B6/44G02B6/46
    • PROBLEM TO BE SOLVED: To obtain a method for efficiently and reliably wiring an optical communication cable and an optical communication trunk line cable by enabling the optical communication cable even to be wired, even if hard work such as fusion splicing is not executed in site. SOLUTION: This method for wiring the optical communication cable is composed of an optical communication trunk line cable manufacturing process, where an optical communication trunk line capable main body which collects plural optical cords cut into a preset length which is wired to respective floors from the lower end part of a tension supporting wire, capable of being hung down from the upper part to the lower part of a building installed in a factory is formed, an MU simple ferrule is connected to the upper end part of the optical cord of the optical communication trunk line cable main body, and a connector is attached to plural optical cords at the lower end part, an optical communication trunk line cable suspending process for attaching the upper end part of the tension supporting wire of the optical communication trunk line cable to the ceiling section in the upper part of the building or the like to install it in the state of being hung downward, and an optical cord connecting process for connecting the connecting at the lower end part to a private cabinet and connecting the MU simple ferrule at the tip end part of plural optical cords to an optical wiring box installed in the floor.