JPS599606A - Multicored optical fiber core - Google Patents

Abstract

PURPOSE:To obtain a multicored optical fiber core wherein respective optical fibers are easily movable and the adverse influence on elongation is relieved by contg. plural pieces of optical fiber strands formed by laminating primary coverings and cushion layers on optical fibers in a reinforcing covering of a polymer material. CONSTITUTION:A primary covering layer 2B of silicone rubber or the like is provided on the outside circumference of an optical fiber 2A, and further a cushion layer 2C of soft silicone rubber or the like is coated thereon to form an optical fiber strand 2. Plural pieces of said strands 2 are twisted together around a central wire (e.g.; a steel wire, a fiber-reinforced plastic wire) 1; further, nylon or the like is extrusion formed around the same to form a reinforcing covering 3 of a polymer material whereby the multicoared optical fiber core is produced.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a multi-core optical fiber core in which several optical fiber strands are housed within a sieve material reinforcing coating.

Conventional multi-core optical fibers simply consist of a plurality of optical fibers housed in a reinforcing coating of sieve molecular material such as nylon.
It was. However, in such multi-core optical fibers, the optical fibers cannot move even within the sieve molecular material reinforcing coating.

For this reason, in the main multi-core optical fiber core, in which each optical fiber strand is twisted around the center line, the elongation is slow.
Young fruit ('& When force is applied, the optical fiber strand forming a spiral around the center line moves in the direction of the center line, the twist diameter becomes smaller and the spiral shape expands, and the optical fiber strand itself The problem was that the elongation (relaxation phenomenon) was small, and it was weak against tension.

In addition, multi-core optical fibers of the type that are installed in parallel in the optical fiber cage have the drawback that they are difficult to bend, are weak against lateral pressure, and are transmitted by lateral pressure. (There was a large increase in work losses - there was a drawback.

It is an object of the present invention to provide a multi-hair fiber optic fiber system in which fibers of various types can be easily moved within a commercially available reinforced coating.

The present invention is characterized in that a plurality of optical fiber cables, each of which is provided with a loose layer partially or entirely swollen, are housed within a polymer phase reinforcing coating.

Embodiments of the present invention will be explained in detail below with reference to the drawings.

FIG. 1 shows an example in which the present invention is applied to a circular multi-core optical fiber. The multi-core optical fiber 6 of this embodiment has a structure in which a plurality of optical fiber cables 2 are twisted together around a center line 1, and a cylindrical material reinforcing cover υ3 is wrapped around the outer periphery. . Each party fiber wire 2 has a structure in which an optical fiber is provided. As center line 1,
For example, steel wire, fiber-reinforced plastic wire, etc. are used.

The primary coating layer 2B is made of silicone rubber, for example. The swollen buffer layer 2C is formed, for example, by coating the outer periphery of the primary coating 2B with soft silicone rubber and partially or completely swelling the silicone rubber layer in the radial direction with silicone oil.

The burlap reinforcement coating 3 is formed by extrusion coating of nylon, for example.

In such a multi-core optical fiber, when tension is applied, the buffer layer 2C is expanded and softened, so each fiber 2A easily moves toward the center @i and the twist radius ' 53: It is possible to contract and expand the spiral shape, so
The elongation acting on the optical fiber 2A itself is alleviated, and the optical fiber 2A can be protected from elongation. I cut it,
Even when lateral pressure is applied, the swollen buffer layer 2C absorbs the lateral pressure well and protects each optical fiber 2A from the lateral pressure, thereby making it possible to prevent transmission loss from increasing due to lateral pressure.

FIG. 2 shows an example in which the present invention is applied to a tape-shaped multi-core optical fiber. The multi-core optical fiber of this embodiment has a structure in which a plurality of JU 7 fiber cables 2 are lined up in a horizontal row, and the outer periphery j' (i) is collectively coated with a polymer reinforcing coating 3 in a tape shape The fiber of each party*
The wire 2 has a structure in which both layers 2C are provided, as described above.

In such a multi-core optical fiber core M, when a bend within the Tesso quotient is applied, a large tension is applied to the optical fiber 2A existing on the outside of the bend, but in this example, the buffer layer Since the optical fiber 2C is swollen, the optical fiber 2A is movable and moves in a direction that reduces the bending radius, thereby relaxing the tension and relaxing the elongation. Also, even when lateral pressure is applied, the swollen buffer layer 2C absorbs the lateral pressure well, making it possible to prevent an increase in transmission loss due to lateral pressure.

In addition, the polymer material reinforcement covering 3 may be formed of fiber-reinforced plastic.

-Also, the gap between adjacent optical fiber strands 2 can be filled with a swollen polymer resin.

As explained above, in the multi-core optical fiber according to the present invention, since the loose WI layer of each fiber element is swollen, each fiber can be easily moved.
It is possible to improve the elongation relaxation effect and provide a multi-core optical fiber that is resistant to elongation. Also,
When a swollen buffer 1- is present around each optical fiber, the lateral pressure is well absorbed by the buffer layer, and the optical fiber is reduced to $1! l
It can be insulated from pressure, and the transmission characteristics can be prevented from becoming sensitive to lateral pressure. Historically, when the buffer layer is softened by swelling, it is easier to form the buffer layer than when covering something that is already softened.

[Brief explanation of drawings]

FIGS. 1 and 2 show the first part of the multi-core optical fiber according to the present invention. FIG. 3 is a cross-sectional view of the second embodiment. 2... Optical fiber wire, 2A... Optical fiber, 2B
...Primary coating, 2C... Swollen #i rectifier J layer, 3
...Polymer reinforced coating. Wear... Agent: Hidetoshi Matsumoto, patent attorney. −

Claims (1)

[Claims] 1. A multi-core optical fiber, characterized in that a plurality of optical fibers are accommodated in a reinforced polymer material.