JPH09203831A - Production of branching part of coated optical fiber ribbon - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a process for producing the branching part of a coated optical fiber ribbon which is easily produced and is suppressed in the deterioration of characteristics. SOLUTION: Reinforcing pipes 3 are put on single coated fibers 2 separated by tearing the front ends of a coated fiber ribbon 1. A heat shrinkable tube 6 contg. reinforcing materials 7 and thermoplastic adhesives 8 is put across the roots of these reinforcing pipes 3 and the front end of the non-separated coating of the coated fiber ribbon 1. This heat shrinkable tube 6 is thermally shrunk and the thermoplastic adhesives 8 are melted to soften. The front end of the non-separated coating of the coated fiber ribbon 1, the expose parts of the single coated fibers 2 and the part between the reinforcing bodies 7 and the roots of the reinforcing pipes 3 are respectively adhered by the thermoplastic adhesives 8.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for manufacturing an optical fiber tape optical fiber branching portion for branching an integrated multi-fiber optical fiber optical fiber into a single optical fiber.

[0002]

2. Description of the Related Art As a multi-core optical fiber cable, a plurality of optical fiber core wires are aligned in a horizontal row, and a so-called tape core wire in which these are collectively covered in a tape is housed in a slot of a spacer. The structure is often used. When such an optical fiber is used, a multi-core / single-core branching portion is formed at the tip of each tape core wire. FIG. 4 shows an example of the configuration of this tape core wire branching portion. The tape core wire 1 pulled out from the slot of the spacer of the optical fiber cable is separated into the single core wires 2 by cutting the tape-shaped coating. . These single-core wires are housed in the reinforcing pipes 3 one by one, and a housing 4 is provided between the roots of these reinforcing pipes and the tip of the unseparated coating of the tape core wire 1.
Cover, pour thermosetting adhesive 5 into the housing,
The tape core wire branching portion was formed by heat curing.

[0003]

However, in the tape core branching portion as described above, when the adhesive 5 is poured into the housing 4 and is thermally cured, the single core 2 is distorted. Therefore, there is a possibility that the performance of the branch portion may be deteriorated, and that it takes time to cure the adhesive, resulting in poor workability. In addition, the work of setting the three parts of the tape core wire 1, the single core wire 2 and the reinforcing pipe 3 in the housing 4 requires fine manual work, which is difficult to perform. SUMMARY OF THE INVENTION It is an object of the present invention to provide a method for manufacturing an optical fiber tape optical fiber branching portion which solves the above-mentioned drawbacks of the prior art, is easy to manufacture, and suppresses characteristic deterioration.

[0004]

According to the method of manufacturing an optical fiber tape core wire branching portion of the present invention, a single core wire obtained by cutting and separating the end of the tape core wire is covered with a reinforcing pipe, and the roots of these reinforcing pipes are covered. A heat-shrinkable tube containing a reinforcing body and a thermoplastic adhesive is laid across the end of the coating and the unseparated coating of the tape core wire, and the heat-shrinkable tube is heat-shrinked and the thermoplastic adhesive Melt and soften
It is characterized in that the tip of the coating of the tape core wire, which is not separated, the exposed portion of the single core wire, the reinforcing member and the base of the reinforcing pipe are bonded with the thermoplastic adhesive.

[0005]

BEST MODE FOR CARRYING OUT THE INVENTION In the present invention, a heat-shrinkable tube, in which a thermoplastic adhesive tube and a reinforcing body having a semi-cylindrical cross section are inserted in advance, are used for the base of the reinforcing pipe and the tape core wire. It covers over the tip of the coating which is not separated, melts and softens the thermoplastic adhesive, the tip of the coating which is not separated of the tape core wire, the exposed portion of the single core wire, the reinforcing body and The bases of the reinforcing pipes may be bonded to each other with the thermoplastic adhesive. Also,
Reinforcing pipes are put on the single core wires that are cut and separated from the ends of the tape core wires, and the reinforcing body and heat are straddled between the roots of these reinforcing pipes and the ends of the coatings where the tape core wires are not separated. Cover with a heat-shrinkable tube containing a plastic adhesive,
While heat-shrinking the heat-shrinkable tube, the thermoplastic adhesive is melted and softened, and the tip of the coating in which the tape core wire is not separated, the exposed portion of the single core wire, the reinforcing body, and the base of the reinforcing pipe are respectively separated. Utilizing the optical fiber tape core wire branch portion manufactured by bonding with the thermoplastic adhesive, covering the reinforcing pipe and the outer circumference of the coating of the tape core wire not separated, respectively, the cord inner reinforcement and the outer cover, A casing may be covered on the outside of the heat-shrinkable tube so as to straddle these casings, and an adhesive may be filled in the casing and cured.

[0006]

Embodiments of the present invention will be described below with reference to the drawings. 1 and 2 show an optical fiber tape core wire branch portion manufactured by the method of the present invention. The tape core wire 1 is separated into a single core wire 2 by cutting a tip of a tape-shaped coating. These single-core wires are housed in the reinforcing pipes one by one, and the heat-shrinkable tube 6 is put over the roots of these reinforcing pipes and the tip of the unseparated coating of the tape core wire 1. A reinforcing body 7 and a thermoplastic adhesive 8 are placed in the heat shrinkable tube 6. As a reinforcement,
A glass fiber or a metal fiber bundled and molded into a semi-cylindrical shape is used, but its length is set to be substantially equal to the length of the heat-shrinkable tube 6. As the thermoplastic adhesive 7, a tube-shaped product may be used in advance, but in that case as well, its length is made substantially equal to the length of the heat-shrinkable tube 6.

In this way, after the heat-shrinkable tube 6 containing the reinforcing body 7 and the thermoplastic adhesive 8 is covered on the outer side of the single core wire 2, the heat-shrinkable tube is heated from the outside to heat-shrink, The thermoplastic adhesive 7 is melted and softened. As a result, the thermoplastic adhesive flows and enters between the unseparated coating tip of the tape core wire 1, the exposed portion 2 of the single core wire, the reinforcing body 7, and the root of the reinforcing pipe 3, Adhere between them. Then, if necessary, the single-core connector 9 is attached to the single-core wire exposed from the tip of each reinforcing pipe 3.

As described above, in the manufacturing method of the present invention, the reinforcing body 7 and the thermoplastic adhesive 8 are previously put between the tip of the coating of the tape core wire 1 which is not separated and the root of the reinforcing pipe 3. Since the heat-shrinkable tube 6 is covered to cause the heat-shrinkage, the thermoplastic adhesive 8 flows by the force at the time of the heat-shrink, and the tip of the coating in which the tape core wire 1 is not separated and the single core wire are separated. The exposed portion 2, the reinforcing body 7, and the base of the reinforcing pipe 3 are inserted into the exposed portion 2 to firmly bond them. The length of the reinforcing body 7 previously inserted into the heat-shrinkable tube 6 is substantially equal to that of the heat-shrinking tube 6, and both ends of the reinforcing body 7 have the ends of the coating of the tape core wire 1 not separated. Since it is adhered to the root of the reinforcing pipe 3 to reliably connect them, the mechanical strength is high. When the reinforcing body 7 is formed in a semi-cylindrical shape in advance, a plurality of single core wires 2 drawn out in parallel from the tape core wire 1 are arranged on the flat surface of the reinforcing body 7. Since the single-core wire 2 can be arranged, the reinforcing member 7 has an arcuate surface that fits well with the heat-shrinkable tube 6, and the heat-shrinkable tube 6 shrinks smoothly. It is rarely applied.

In the present invention, it is also possible to construct a reinforced type branch portion by utilizing the optical fiber tape core wire branch portion manufactured as described above. That is, FIG.
As shown in FIG. 1, the tip of the coating of the tape core wire 1 is cut and the single core wires 2 are separated, and these single core wires are housed in the reinforcing pipes 3 one by one. After covering the tip of the unseparated coating of No. 1 with the heat-shrinkable tube 6 containing the reinforcing body and the thermoplastic adhesive 8, the heat-shrinkable tube is heated from the outside to be heat-shrinked. At the same time, the thermoplastic adhesive 7 is melted and softened.
On the tape core wire 1 at the branch portion of the optical fiber tape core wire obtained in this way, the cord reinforcing material 1 such as Kepler fiber is used.
0s are wound or attached vertically, and they are inserted into the jacket 11 and coded. Similarly, on the side of each reinforcing pipe 3, a reinforcing member 12 in the cord such as Kepler fiber is wound or attached vertically,
They are inserted into the jacket 13 and coded respectively.

The thus-encoded tape core wire 1
The vicinity of the tip of the jacket 11 and the vicinity of the root of the jacket 13 of each of the reinforcing pipes 3 are housed in a housing 14 together with a branch portion including the heat-shrinkable tube 6, and the housing 15 is filled with an adhesive 15. Let it harden. In this way, coding and housing 1
4 and the optical fiber tape core branch reinforced by the adhesive 15 are obtained. Moreover, according to this method, the optical fiber single-core wire is integrated with the reinforcing body (7 in FIG. 2), the thermoplastic adhesive 8 and the heat-shrinkable tube 6 in advance and protected, so that it is bonded to the inside of the housing 14. Agent 15
There is no fear that distortion will occur when the resin is injected and cured to deteriorate the transmission characteristics.

[0011]

As described above, according to the present invention, it is possible to efficiently manufacture the optical fiber tape core wire branch portion having excellent characteristics with high workability.

[Brief description of drawings]

FIG. 1 is a vertical cross-sectional view illustrating an optical fiber tape core wire branch portion manufactured by a method of the present invention.

FIG. 2 is a cross-sectional view illustrating an optical fiber tape core wire branch portion manufactured by the method of the present invention.

FIG. 3 is a vertical cross-sectional view illustrating a reinforcing type optical fiber tape core wire branch portion manufactured by another method of the present invention.

FIG. 4 is a vertical cross-sectional view illustrating a conventional optical fiber tape core wire branching portion.

[Explanation of symbols]

 1 …… Tape core wire 2 …… Single core wire 3 …… Reinforcement pipe 4 …… Housing 5 …… Adhesive 6 …… Heat shrinkable tube 7 …… Reinforcement body 8 …… Thermoplastic adhesive 9 …… Single core Connector 10, 12 …… Cord inner reinforcement 11, 13 …… Outer cover 14 …… Housing 15 …… Adhesive

Claims (3)

[Claims] 1. A single core wire obtained by cutting and separating the tip end of the tape core wire is covered with a reinforcing pipe, and a straddle is provided between the roots of these reinforcing pipes and the tip of the non-separated coating of the tape core wire. By covering with a heat-shrinkable tube containing a reinforcing body and a thermoplastic adhesive, heat shrinking the heat-shrinkable tube and melting and softening the thermoplastic adhesive, the tip of the unseparated coating of the tape core wire, A method for manufacturing an optical fiber tape optical fiber branching portion, characterized in that the exposed portion of the single fiber, the reinforcing body and the root of the reinforcing pipe are adhered to each other with the thermoplastic adhesive. 2. A heat-shrinkable tube in which a thermoplastic adhesive tube and a reinforcing body having a semi-cylindrical cross section are inserted in advance are provided at the base of the reinforcing pipe and the tip of the coating in which the tape core wire is not separated. Over, to melt and soften the thermoplastic adhesive, the tip of the non-separated coating of the tape core wire, the exposed portion of the single core wire, between the base of the reinforcing body and the reinforcing pipe, respectively. The method for manufacturing an optical fiber tape core wire branch portion according to claim 1, wherein the thermoplastic adhesive is used for bonding. 3. A single-core wire obtained by cutting and separating the tip end of the tape core wire is covered with a reinforcing pipe, and the single core wire is straddled between the roots of these reinforcing pipes and the tip of the coating where the tape core wire is not separated. A heat-shrinkable tube containing a reinforcing material and a thermoplastic adhesive, and the heat-shrinkable tube is heat-shrinked and the thermoplastic adhesive is melted and softened, and the tip of the unseparated coating of the tape core wire, Using the optical fiber tape core wire branching portion manufactured by bonding the exposed portion of the core wire, the reinforcement and the base of the reinforcement pipe with the thermoplastic adhesive, respectively, the reinforcement pipe and the tape core wire are separated. The outer circumference of the coating is covered with the cord inner reinforcement and the outer cover, respectively, and the housing is covered on the outside of the heat-shrinkable tube so as to extend between these outer covers, and the housing is filled with the adhesive. And hard The method according to claim 1, wherein
Alternatively, the manufacturing method of the optical fiber tape core wire branching part according to the item 2.