JPS6217764Y2 - - Google Patents

Description

[Detailed description of the invention] The present invention provides an optical fiber composite power wire (hereinafter referred to as a composite electric wire) in which an optical fiber cable (hereinafter referred to as an optical cable) is enclosed in a hole inside the conductor of an insulated power wire. This invention relates to the structure of a terminal processing section or a straight connection section for jointing to other equipment or electric wires.

Recently, it has been proposed to encapsulate optical cables that are free from radio wave interference and capable of multiple circuits into insulated power wires, and some of them have been put into practical use.

An example of such an electric wire is a composite electric wire, an example of which is shown in FIG. 1A. In the figure, a hollow part 2 is provided, for example, in the center of a stranded conductor 1, into which an optical cable 3 is inserted. Insulating layer 4 made of rubber etc.
is covered.

The optical cable inserted into the hollow portion 2 has a structure as shown in FIG. 1B, for example.

In the figure, reference numeral 5 denotes an optical fiber wire, which has an optical fiber (glass fiber) as its core and is coated with a coating layer of synthetic resin or the like. The optical cable 3 has two tension members 6 (for example, FRP rods) twisted around two of the optical fiber wires 5, and an inclusion 8 (for example, a reinforcing material such as aromatic polyamide (Kerber)). It is inserted into a sheath 7 (for example, HDPE (high-density polyethylene)). tension member 6
has the effect of withstanding the weak tension applied to the optical fiber and alleviating lateral pressure.

To perform terminal processing on such composite wires,
For example, a terminal processing unit as shown in FIG. 2 can be considered. In the figure, at the end of the composite wire 9, the conductor 1 is cut leaving the optical cable 3, and an appropriate length of the insulating layer 4 thereon is removed.

10 is a compression terminal, connecting plate 11 and wire compression part 1
It consists of 2. The connection plate 11 is provided with bolt holes 18 for connection to a mating terminal.

The wire compression section 12 is a cap-shaped cylinder, into which the end portion of the composite wire 9 that has been stripped in steps is inserted. In this case, in order to protect the optical cable 3, a spacer 13 made of stainless steel, for example, is inserted into the hollow part 2 of the conductor 1.

In order to take out the remaining optical cable 3, a hole 14 is provided in the head of the cap on the opposite side of the wire compression section 12 from which the wire is inserted.

After the electric wire 9 is inserted into the electric wire compression section 12 as shown in the figure, its outer periphery is compressed with a compression die 15 to form a terminal processing section.

However, in such a terminal processing section, rainwater or the like may enter through the hole 14 from which the optical cable 3 is taken out.
If the conductor 1 is corroded and, for example, a hard copper wire is used as the conductor, there is a risk that so-called abnormal disconnection may occur.

The present invention was developed as a result of various studies in view of the above-mentioned problems. By applying a special waterproofing structure to the hole for taking out the optical cable, rainwater etc. will not enter and corrosion will not occur. It is an object of the present invention to provide a structure of a joint portion of an optical fiber composite power cable that does not cause damage to the optical cable.

As shown in an embodiment in FIG. 4 or FIG. 6, the present invention provides an end processing section ( 4) or a straight connection part (Fig. 6), a hole 24 for taking out the optical fiber cable 3 is provided in the cap head on the opposite side of the wire compression part 22 to which the wire is inserted, and a hole 24 is provided in the hole 24 to take out the optical fiber cable 3. , a metal tube 1 near the exit of the optical fiber cable 3 that fixes the metal tube 16 extending outward and is taken out through the metal tube 16.
6 and the outer surface of the optical fiber cable 3 are covered with a heat-shrinkable tube 17 and heat-sealed.

In the present invention, the optical fiber composite power wire (composite wire) refers to an insulated wire in which an optical fiber cable (optical cable) is enclosed in a hollow part or hole in a stranded conductor. Note that the hollow portion or hole does not necessarily need to be provided in the center of the stranded wire conductor, and may be provided in the inner layer of the stranded wire. Also, an optical fiber cable (optical cable) is a wire with one or more optical fibers as a wire core coated with synthetic resin, or if necessary, a metal pipe or cushioning material on the outside of this wire. (for example, Figure 1 B).

Further, the metal tube is made of a metal or alloy such as copper, aluminum, an alloy thereof, or stainless steel.

Hereinafter, the present invention will be explained in more detail with reference to the drawings and examples.

FIGS. 4 and 5 are longitudinal sectional views showing an embodiment of the terminal processing section of the present invention. In the figure, the same reference numerals as in FIG. 2 indicate the same parts. Fourth
In the figure, the terminal part of the composite wire 9 is cut in steps in the same way as explained in FIG.
For example, a spacer 13 made of stainless steel is inserted into the cap-shaped wire compression section 22 .

The compression terminal 20 consists of a connection plate 11 and a wire compression part 22 similar to that shown in FIG. 2, but the difference that characterizes the present invention is the structure near the exit of the hole 24 from which the optical cable 3 is taken out. . That is, hole 24
A metal tube 16 of a predetermined length, for example, a copper tube, which is inscribed therein and extends outward, is fitted into the metal tube 16 and fixed by welding or the like, and the optical cable 3 is passed through the metal tube 16. After covering the metal tube 16 near the exit of the optical cable 3 and the outer surface of the optical cable 3 with a heat-shrinkable tube 17 of a predetermined length, when heated, for example, with a dryer or lighter, the heat-shrinkable tube 17 contracts, and the optical cable 3 and the outer surface of the metal tube 16, and complete waterproofing is achieved. Here, the heat-shrinkable tube 17 is mainly composed of cross-linked polyethylene, PE, ethylene ethyl acrylate (EEA), PVC, or EP rubber, and preferably has a waterproof interior material 23 (for example, If you use a tube coated with a room-temperature curing silicone compound, or a heat-shrinkable tube with a two-layer structure together with this, it is effective to make the waterproofing process more complete.

Also, as shown in the figure, a waterproof tape 21 is applied to the exposed part of the conductor 1 between the wire compression part 22 and the insulating layer 4.
Wrap them in layers to make them waterproof.

In the terminal processing section according to the present invention configured in this way, the waterproofing inside the wire compression section is completely completed, and rainwater etc. do not enter.

In addition, as shown in another embodiment in FIG. It is also possible to fix it by etc.

Next, a case where composite electric wires are connected in a straight line will be explained. In this case, a possible structure of the linear connection section is as shown in FIG.

In the figure, the same reference numerals as in FIG. 2 indicate the same parts. The terminal parts of the composite electric wires 9, 9 are stripped in steps as in the case of FIG. After the connection is made, a common sleeve 27 is placed over the conductors 1, 1, and the outer surfaces of the common sleeve 27 are compressed to make the connection.
However, with this structure, it is difficult to accommodate the connecting portion of the optical cable within the sleeve 27 due to dimensions.

Therefore, the present invention is constructed as shown in an embodiment shown in FIG. In the figure, the same reference numerals as in FIG. 4 indicate the same parts. In the figure, reference numeral 30 denotes a compression connector consisting of cap-shaped electric wire compression sections 22, 22 at both ends and a connecting section 19 of a predetermined length that connects them. The structure of each wire compression section 22, 22 is exactly the same as the structure of the wire compression section 22 shown in FIG. is covered and heat sealed.

In this case, it is also preferable to apply a waterproofing interior material to the inner surface of the heat-shrinkable tube.

After the optical cables 3, 3 taken out in this way are connected by the optical fiber connection part 25, as shown in the figure, an insulating cover 26 is placed to prevent the live parts from being exposed, and tapes 28, 28 are overlapped on both ends of the insulating cover 26, as shown in the figure. It's wrapped around it.

In the linear connection section according to the present invention configured as described above, the inside of the wire compression section is completely waterproofed, and rainwater etc. do not infiltrate. Further, the charging section is protected by the insulating cover 26, and a sufficient space for accommodating the optical fiber connection section 25 can be secured.

Note that such a straight connection part can also be applied to the case where an optical cable is branched and taken out midway.

As mentioned above, the joint part of the present invention is
It has a cap-shaped wire compression part, a hole for taking out the optical fiber cable is provided in the head of the cap, a metal tube inscribed in the hole and extending outward is fixed to the hole, and a metal tube near the exit of the optical fiber cable to be taken out is fixed. Since the outer surface of the optical fiber cable is covered with a heat-shrinkable tube and heat-sealed, the exit of the optical fiber cable is completely waterproof, rainwater etc. do not enter into the compressed part of the wire, and corrosion does not occur. Since the outside of the optical fiber cable in the vicinity of the exit is protected by the metal tube and the heat-shrinkable tube, there is an effect of providing a joint portion of the optical fiber composite electric power cable in which the optical fiber cable is not damaged.

[Brief explanation of the drawing]

FIG. 1A is a cross-sectional view showing an example of the structure of an optical fiber composite power wire, and FIG. 1B is an example of the structure of an optical fiber cable. FIG. 2 and FIG. 3 are longitudinal cross-sectional views showing examples of structures considered as an end treatment part and a straight connection part, respectively, of an optical fiber composite power wire. 4 to 6 are longitudinal sectional views showing an embodiment of the present invention, in which FIGS. 4 and 5 show the case of a terminal processing section, and FIG. 6 shows the case of a straight connection section, respectively. DESCRIPTION OF SYMBOLS 1... Conductor, 2... Hollow part, 3... Optical fiber cable, 4... Insulating layer, 5... Optical fiber wire, 6... Tension member, 7... Sheath,
8... Inclusion, 9... Optical fiber composite power wire, 10, 20, 30... Compression terminal, 11... Connection plate, 12, 22... Wire compression part, 13... Spacer, 14, 24... ...hole, 15...compression die,
16, 16'...Metal tube, 17...Heat shrinkable tube, 18...Bolt hole, 19...Connection part, 21
... Waterproof tape, 23 ... Interior material for waterproofing, 2
5... Optical fiber connection part, 26... Insulating cover, 27... Sleeve, 28... Tape, 30...
...compression connector.

Claims (1)

[Scope of Claim for Utility Model Registration] (1) An end processing part or straight connection part of an optical fiber composite power wire having a cap-shaped wire compression part into which a power wire is inserted and compressed,
A hole for taking out the optical fiber cable is provided in the head of the cap on the side opposite to the wire insertion part of the wire compression part, and a metal tube inscribed in the hole and extending outward is fixed to the hole, and the optical fiber cable is taken out through the metal tube. A joint portion of an optical fiber composite electric power cable, characterized in that the metal tube and the outer surface of the optical fiber cable near the exit are covered with a heat-shrinkable tube and heat-sealed. (2) The joint portion of an optical fiber composite electric power cable according to claim (1), wherein a waterproof interior material is interposed between the outer surface of the metal tube and the optical fiber cable and the heat-shrinkable tube.