JP2551621B2 - Split type optical fiber tape - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION "Industrial field of application" The present invention has a plurality of multi-core fiber cores integrated with each other, and divides the multi-core fiber cores as needed during use to perform terminal processing or branching. The present invention relates to a split type optical fiber tape used for processing.

“Prior Art” FIG. 7 shows a conventional subscriber tape fiber. In this structure, five fiber core wires 2 each composed of one optical fiber 1 are arranged in parallel, and these core wires 2 ...
Are collectively covered.

[Problems to be Solved by the Invention] Today, as a bidirectional transmission method in a subscriber system, an idea is proposed in which transmission and reception are performed using two separate fibers.

However, if an attempt is made to carry out this bidirectional transmission method using the tape fiber having the structure shown in FIG. 7, the fiber core wires 2 ... Are separated one by one at the time of branching,
It was impossible with this structure to branch one by one.

Furthermore, the diameter of one fiber core wire 2 is usually 0.25.
Since it is extremely thin (mm), there is also a problem in that inconvenience in handling is likely to occur when the pieces are separated one by one.

Therefore, if a plurality of, for example, two-core multi-core fiber core wires that are collectively covered are set as one unit and a plurality of them are arranged in parallel and the whole is collectively covered, it is easy to separate each unit. Since the unit-covered two-core fiber core wire is naturally thicker than the single-core fiber core wire, it is easy to handle and convenient.

"Means for Solving the Problem" The present invention is a structure of such a split type optical fiber tape which can be easily separated for each unit, and a plurality of optical fibers are arranged in parallel and are made of an ultraviolet curable resin. The multi-core fiber core wires collectively covered are further bonded in parallel by arranging a plurality of them in parallel through a spacing member having a predetermined lateral width and defining a gap between the multi-core fiber core wires.

[Operation] In the split type optical fiber tape of the present invention, a plurality of multi-core fiber core wires are arranged side by side in parallel through a separating member that regulates a gap between the multi-core fiber core wires, and are bonded and integrated. It is possible to divide the multi-core fiber cores into individual groups or a plurality of groups at the bonding portion between the multi-core fiber cores and use them for wiring to different paths. And, in each of the divided multi-core fiber cores of each or each group, the intervals of the gathered optical fibers are kept constant, so that multiple optical fibers should be provided for efficient terminal processing such as collective connection. You can

Further, in the split type optical fiber tape of the present invention, the spacing member is arranged between the multi-core fiber core wires, and since the spacing between the core wires is regulated by the spacing member, the adhesive applied at the time of manufacturing Even if the adhesive portion is deformed due to a change in viscosity due to curing of the adhesive, or if the amount of curing shrinkage of the adhesive changes due to the variation of the curing conditions, the variation of the interval between the multi-core fiber cores is prevented.

Therefore, in the split type optical fiber tape according to the present invention, the distance between the optical fibers gathered in the adjacent multi-core fiber cores can be maintained accurately with a high precision, so that a low loss connection can be achieved even if they are collectively connected. It will be possible.

[Examples] Hereinafter, the split-type optical fiber tape of the present invention will be described in detail with reference to the drawings.

(Embodiment 1) FIG. 1 shows a 4-fiber 2-split optical fiber tape which is an embodiment of the split optical fiber tape of the present invention.
In the figure, reference numerals 5 and 5 are optical fiber strands.

The optical fiber strands 5 are obtained by coating the optical fibers 1 for protection, and two optical fibers are arranged in parallel and are collectively coated with an ultraviolet curable resin 7 to form two optical fiber cores 6. There is.

Various kinds of urethane acrylate, epoxy acrylate, and the like can be used as the ultraviolet curable resin 7 that covers the core wire 6. The resin 7 having a Young's modulus of about 40 to 60 kg / mm ² is preferably used.

The multi-core fiber core wires 6, 6 are arranged in parallel,
The spacing member 8 is arranged between them. And
The multi-core fiber core wires 6 and 6 are integrated by adhering the side portions of the core wires 6 and 6 with an adhesive 9.

The spacing member 8 is a long member having a constant width A. In the optical fiber tape of this example, the spacing member 8 is formed in a relatively thick tape shape, but the shape of the spacing member 8 is not limited, and the cross-sectional substantially rhombic shape shown in FIG. It is also possible to use a circular cross section as shown, or a rectangular cross section as shown in FIG.

Further, as the material for forming the separating member 8, polymer materials such as polyester, ABS, polyvinyl chloride, polyamide, polyurethane, FRP, vulcanized rubber and butadiene, and metal materials such as aluminum, iron, copper and brass are used. , Various things are available.

The adhesive 9 for adhering the multi-core fiber core wires 6 and 6 may be made of a UV curable resin such as urethane acrylate or epoxy acrylate, or a thermosetting resin such as a thermosetting epoxy resin. It is preferably used. As the adhesive 9, a quick-curing type adhesive is used in consideration of manufacturing efficiency and the like.

The Young's modulus of the adhesive 9 in the cured state is 0.5 when the adhesive 9 is directly applied to the multi-core fiber core wire 6.
It is desirable to be ~ 50 kg / mm ² . Young's modulus is 0.5 kg / mm
^If it is less than ² , the strength of this bonded part becomes insufficient,
During the handling of the optical fiber tape, the problem that the multi-core fiber core wires 6, 6 are separated from each other easily occurs in some places. Also,
When the Young's modulus exceeds 50 kg / mm ² , when the integrated multi-core fiber core wires 6 and 6 are split, the coating of the core wire 6 is deformed or chipped, and the outer shape of the core wire 6 is damaged. There is a risk of causing an accident.

If a thin film layer made of silicone oil, fluororesin, or the like is provided between the multi-core fiber core wires 6 and 6 and the adhesive 9 to improve the ease of splitting the multi-core fiber core wires 6 and 6, An adhesive 9 having a breaking elongation of 20% or more in a cured state can be used. The elongation at break tends to decrease as the Young's modulus increases, and among the ultraviolet curable resins tested by the present inventors, those having an elongation at break of 20% have a Young's modulus of about 80%.
showed kg / mm ^2. If the breaking elongation is less than 20%, the portion bonded by the adhesive 9 becomes too brittle, and the bonded portion is broken during handling of the optical fiber tape, and the multi-core fiber cores 6 and 6 are separated. There is a risk of accidents.

This split type optical fiber tape is a multi-core fiber core 6,
Since a plurality of 6 are further arranged in parallel via the spacing member 8 and integrated with the adhesive 9, the multi-core fiber cores 6 and 6 which are guided in the same path by dividing the multi-core fiber core wires 6 and 6 at the bonded portion. The fiber cores 6 and 6 can be guided to different paths. In each of the divided multi-core fibers 6 and 6, the optical fibers 1 are provided at predetermined intervals, so that terminal processing such as collective connection can be easily performed.

Moreover, in this split type optical fiber tape, since the spacing member 8 is interposed between the multi-core fiber core wires 6 and 6, the adhesive 9 applied at the time of manufacture is deformed into an adhesive portion due to a change in viscosity during curing. Even when the adhesive shrinks and the amount of curing shrinkage of the adhesive 9 changes due to changes in the curing conditions, variation in the spacing between the multi-core fiber core wires 6 and 6 is prevented, and the spacing between the core wires 6 and 6 is reduced. It is kept accurate and constant.

Therefore, according to this split type optical fiber tape, not only the individually divided multi-core fiber core wires 6 but also the optical fibers 1 of the bonded multi-core fiber core wires 6, 6 are collectively connected. It can be used for efficient terminal processing. In addition, low loss connection is possible.

(Embodiment 2) FIG. 5 shows a second embodiment of the split type optical fiber tape according to the present invention. In the split type optical fiber tape of this example, the multi-core fiber cores 6 and 6 are integrated by being fixed to both sides of the spacing member 8 with an adhesive 9.

Also in the split type optical fiber tape of this example, the same effect as that of the first embodiment can be obtained.

(Embodiment 3) The split type optical fiber tape shown in FIG.
The notch 10,10 is formed substantially in the center of the separating member 8 along the length direction.

In this split type optical fiber tape, the spacing member 8
Since the notches 10 and 10 are formed in, there is an advantage that the splitting of the multi-core fiber core wires 6 and 6 is easier.

[Advantages of the Invention] As described above, the split-type optical fiber tape of the present invention is formed by integrating a plurality of multi-core fiber cores through a spacing member that regulates a gap, and thus is guided by the same route. Even if the plurality of multi-core fiber core wires are divided in the middle in order to be guided to different paths, terminal processing such as collective connection of optical fibers can be performed for each core wire.

Moreover, in the split type optical fiber tape of the present invention, the spacing member arranged between the multi-core fiber cores maintains the gap between the cores with high accuracy, so that the optical fibers collected in different multi-core fiber cores The fiber gap is also kept stable.

Therefore, according to the split type optical fiber tape of the present invention, low loss connection can be achieved not only by individually dividing the multi-core fiber cores but also by collectively connecting the optical fibers of the multi-core fiber cores. It is possible.

[Brief description of drawings]

1 to 6 are sectional views showing an embodiment of the split type optical fiber tape of the present invention, and FIG. 7 is a sectional view showing a conventional optical fiber tape. 1 ... Optical fiber, 6 ... Multi-core fiber core wire, 7 ... UV curable resin, 8 ... Separation member, A ... Width.

Front page continued (72) Inventor Shinji Araki 1440 Rokuzaki, Sakura-shi, Chiba Fujikura Electric Cable Co., Ltd.Sakura Factory (72) Inventor Yasuyuki Sugawara 1440, Rosaki, Sakura City, Chiba Fujikura Electric Co., Ltd.Sakura Factory (72) ) Inventor Kenya Fuchigami 1-1-6 Uchisaiwaicho, Chiyoda-ku, Tokyo Within Nippon Telegraph and Telephone Corporation (72) Inventor Masaaki Kawase 1-1-6 Uchisaiwaicho, Chiyoda-ku, Tokyo Within Nippon Telegraph and Telephone Corporation (56) References: Actual Development Sho 61-44609 (JP, U)

Claims (1)

(57) [Claims] 1. A multi-core fiber core wire comprising a plurality of optical fibers arranged in parallel and collectively covered with an ultraviolet-curing resin has a spacing member which has a predetermined lateral width and regulates a gap between the multi-core fiber core wires. A split type optical fiber tape characterized in that a plurality of sheets are arranged side by side via an adhesive and integrated by adhesion.