KR870011487A - Fiber optic cable - Google Patents

Abstract

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Description

Fiber optic cable

Since this is an open matter, no full text was included.

1 is a cross-sectional view of a self-supporting optical fiber cable according to an embodiment of the present invention.

4 is a partial schematic view of the apparatus for manufacturing the cable shown in FIG.

5 is a cross-sectional view of a fiber optic cable according to a third embodiment of the present invention.

Claims (17)

An optical fiber cable comprising an elongated core member defining a longitudinally extending slot on the surface and forming a major tensile strength member of the cable, one or more optical fibers located within the aforementioned slots, and means for closing the slots, as described above. An optical fiber cable wherein the core member forms a major anti-fragment sheath around the optical fiber and the excess length of the fiber lies within the slot. The method of claim 1, characterized in that the core member is made of glass reinforced plastic material made of pultru. 2. A cable according to claim 1, comprising a tubular member in said slot and containing fibers, an excess fiber length in said tube and an excess length of tubular member in said cable. The cable according to claim 1, wherein the aforementioned slot contains a similar optical fiber. The optical fiber cable according to claim 1, wherein the optical fiber cable has a ribbon element that contains parallel optical fibers in the aforementioned slot. The cable according to claim 1, wherein the excess length of the elements in the cable ranges from 0.2 to 0.8%. The cable of claim 1 wherein the core member has a diameter of about 10 mm. The optical fiber cable according to claim 1, wherein the slot is actually rectangular shaped. The optical fiber cable according to claim 1, wherein the core member is made entirely of non-electrically conductive material. An optical fiber cable comprising a core member having a single slot for receiving an optical fiber, wherein the slot is located completely on one side of the central axis of the core member. A method of making a fiber optic cable comprising defining at least one longitudinally extending slot, feeding at least one optical fiber into the slot, and providing an elongated core member using means for closing the slot. A method characterized by being made of a nonmetallic material having a high modulus of elasticity. 12. The method of claim 11, wherein the core member is curved around the capstan and provides excess length in the straight cable. 12. The method of claim 11, wherein the fibers are received in the tube and there is excess length of fiber in the tube prior to introducing the encased fiber into the slot. Providing a rigid member core having a longitudinal slot on the surface, a ribbon element containing multiple optical fibers placed side by side in a ribbon-shaped element, and feeding the ribbon element into a slot in the core such that there is excess length of the element in the finished cable And retaining the element in the slot by wrapping the core in an enclosure. 15. The method of claim 14, wherein a binder is used in the core to retain the element in the slot after the element is introduced into the slot in the core, and to induce the supercharged element into the core to produce a folded excess length. Bending the core around the capstan. 15. The method of claim 14, wherein the cable core includes filling the slot with a viscous barrier material at a location that includes the excess length of the element. 16. The method of claim 15, comprising wrapping the core wound with tape and sealing the core wrapped with tape in a compressed plastic material. ※ Note: The disclosure is based on the initial application.