JPH087364Y2 - Tape-shaped optical fiber connection reinforcement device - Google Patents

Description

[Detailed description of the device] [Industrial applications]

The present invention relates to a splicer for reinforcing a splicing part of a tape-shaped optical fiber core.

2. Description of the Related Art A tape-shaped optical fiber core comprises a plurality of parallel optical fibers coated with a tape-shaped common coating. When these tape-shaped optical fibers are connected to each other, the coating of the end portions is stripped off, the fibers are set in a fusion splicer, and a plurality of optical fibers are fused and spliced together. FIG. 2 shows a conventional connecting portion reinforcing structure for the tape-shaped optical fiber core wires fusion-bonded as described above. In the figure, 1 and 1 are tape-shaped optical fiber core wires, 2 is a fusion spliced optical fiber, and 3 is a connecting portion reinforcing device. The connecting portion reinforcing device 3 is composed of a rigid reinforcing rod 4, a hot melt adhesive 5a, and a heat shrinkable tube 6. The hot-melt adhesive material 5a is in the form of a tube that accommodates the connection portion of the tape-shaped optical fiber cores 1 and 1 before hot-melting, but is melted and solidified by the heat when the heat-shrinkable tube 6 is shrunk. , The tape-shaped optical fiber core wires 1, 1, the optical fiber 2, the reinforcing rod 4, and the heat-shrinkable tube 6, and
These are integrated. However, in the reinforcing structure of the tape-shaped optical fiber connecting portion for the optical fiber as described above, when the heat-shrinkable tube is heated and shrunk, the optical fiber is swept away by the melted hot-melt adhesive to move and contact each other. , May cross. It is not preferable to use the material in such a state as it is because it causes an increase in loss and a decrease in life. Therefore, it is convenient if the connection part reinforcement device can observe the state of the optical fiber inside after reinforcement, but in the conventional connection part reinforcement device, although the hot melt tube and the heat shrinkable tube are transparent, Since it was made of stainless steel, only the reinforcing rod was visible, and the optical fiber was completely invisible. Further, the stainless steel reinforcing rod has a linear expansion coefficient that is one digit higher than that of the optical fiber, the expansion and contraction due to temperature change is large, and there is a problem in long-term reliability.

[Means for solving problems and their effects]

The present invention provides a tape-shaped optical fiber core wire connecting portion reinforcement device that solves the above-described problems of the prior art, and has a transparent structure for accommodating the tape-shaped optical fiber core wire connecting portion. A hot-melt tube and a stiffening reinforcing rod are housed in a transparent heat-shrinkable tube aligned in the same direction, and the reinforcing rod is a transparent glass whose bending strength is improved by tempering glass treatment. The ceramic rod is a transparent glass-ceramic rod which has a flat cross-section and is flat on the side facing the tape-shaped optical fiber core wire. By doing this, the material of the hot melt tube and the heat shrink tube is originally transparent, so if you also make the reinforcing rod transparent, the inside can be seen through after reinforcement, and you can observe the arrangement state of the optical fiber. Become.

【Example】

FIG. 1 is a transverse sectional view showing an embodiment of the present invention. This connecting portion reinforcing device comprises a flat hot melt tube 5 having a flat cavity 7 for housing a connecting portion of a tape-shaped optical fiber core wire, and at least the tape-shaped optical fiber core wire housed in the hot melt tube 5. The reinforcing rod 4 having a flat cross-sectional shape, the side facing to which is flat, is housed in the heat-shrinkable tube 6 aligned in the same direction.
The reinforcing rod 4 used here is a transparent glass-ceramic rod 8 whose bending strength has been improved by tempered glass treatment, and which is covered with a transparent resin 9 in order to greatly improve the bending strength, if necessary. Resin 9 used in this case
A material that adheres well to the glass ceramic rod 8 and also adheres well to the hot melt tube 5 is used. If the transparent glass-ceramic rod 8 has sufficient strength, it is not necessary to intentionally coat it with the transparent resin 9. The method of using the above-mentioned connecting part reinforcement device is the same as the conventional one,
Since all the constituent members are made of a transparent material, it is possible to observe what state each optical fiber is in by looking through the whole after reinforcement. In particular, since the reinforcing rod has a flat cross section in which at least the side facing the tape-shaped optical fiber core housed in the hot melt tube is flat, the state of each optical fiber after reinforcement is Is easier to observe. Therefore, if the mutual contact, overlap, etc. of the optical fibers are found by this observation, the reinforcing or connecting process is restarted from the beginning to obtain a highly reliable connecting reinforcing portion.

[Effect of device]

As explained above, according to the present invention, the reinforcing rod of the connecting portion reinforcing device is transparent, and the side facing the tape-shaped optical fiber core housed in the hot melt tube has a flat cross section. Since it has a unique shape, it is easy to determine the state of the optical fiber inside after reinforcement.
And it can be observed reliably. Therefore, if there is an abnormality, it is possible to re-reinforce or re-connect, which is extremely useful for improving the reliability of the tape-shaped optical fiber connecting portion. Further, since the glass-ceramic rod is used as the transparent reinforcing rod, its linear expansion coefficient becomes approximately the same as that of the optical fiber, and the characteristic change of the connection portion due to the temperature change can be eliminated. In addition, this glass-ceramic rod is subjected to tempered glass treatment to improve bending strength. If more strength is required, by coating the glass-ceramic rod with a transparent resin, the bending strength of the reinforcing rod can be further increased and the optical fiber can be damaged. There is an advantage that there is no fear.

[Brief description of drawings]

FIG. 1 is a cross-sectional view showing an embodiment of the present invention. FIG. 2 is a partially cutaway plan view showing a conventional tape-shaped optical fiber core wire connecting portion reinforcing structure. 4 ... Reinforcing rod 5 ... Hot melt tube 6 ... Heat shrink tube 8 ... Glass ceramic rod 9 ... Transparent resin

 ─────────────────────────────────────────────────── --Continued from the front page (56) References JP-A-59-200207 (JP, A)

Claims (1)

[Scope of utility model registration request] 1. A connecting portion reinforcing device in which a transparent hot melt tube for accommodating a connecting portion of a tape-shaped optical fiber core and a rigid reinforcing rod are accommodated in a transparent heat shrinkable tube in the same direction. In the above, the reinforcing rod is a transparent glass-ceramic rod whose bending strength is improved by tempered glass treatment, and the side facing the tape-shaped optical fiber core is a flat transparent glass having a flat cross section. A tape-shaped optical fiber core wire connecting portion reinforcing device comprising a ceramic rod.