JPH0332011Y2 - - Google Patents

Description

[Detailed Description of the Invention] "Industrial Application Field" The present invention relates to an optical fiber-containing power cable, and particularly relates to a technology for combining optical fibers into a single-core submarine power cable.

``Prior Art'' Conventionally, as a means of integrating optical fibers into power cables, methods have been proposed such as attaching the optical fibers in a spiral shape to the sheath of the cable core, and attaching the optical fibers to the grooves of the sheath. has been done.

FIG. 3 shows an example of a technique for attaching an optical fiber to a groove of a sheath, which is disclosed in Japanese Utility Model Application Publication No. 56-037313.

In this technical example, a power cable includes a conductor 21, an insulating layer 22, an outer semiconducting layer 23 and a metal shielding layer 24.
and a sheath 25, a groove 26 is formed in the outer periphery of the outer semiconducting layer 23, and an optical fiber 27 is movably inserted into the groove 26. Therefore, the optical fiber 27
6, and the entire cable can be configured in a concentric circle. In this case, since the groove 26 is formed linearly in the length direction, the optical fiber 27 is also inserted linearly, so that when the power cable is expanded or contracted or is bent, , the amount of absorption of the deviation in the length direction becomes smaller, and the optical fiber 27
becomes more susceptible to damage.

Therefore, in Utility Application No. 59-097377 [Optical fiber-containing power cable], the applicant prevents the concentration of defective parts of the cable by storing the optical fiber cable in a meandering groove, and
We proposed a technology to reduce the impact on optical fibers.

On the other hand, in the case of a submarine power cable, in order to reduce the influence of seawater intrusion on the optical fiber, a water-shielding layer made by vertically welding copper tape or aluminum tape on top of the optical fiber unit is used.
The optical fiber cable is provided with an anti-corrosion layer of plastic such as polyethylene which integrally covers the optical fiber cable.

``Problem that the invention aims to solve'' However, assuming that short circuit current or ground fault current flows through submarine power cables during an accident, etc.
Since a voltage based on electromagnetic induction is applied to the water-shielding layer of the optical fiber cable that is longitudinally attached to the cable core, the anti-corrosion layer of the optical fiber cable will suffer dielectric breakdown, and furthermore, due to discharge heat, If the anti-corrosion layer is burned out and seawater enters from this area, the properties of the optical fiber may be impaired.

The present invention attempts to solve these problems, and aims to improve the reliability of optical fiber-containing power cables by preventing destruction of the anticorrosion layer.

"Means for solving the problem" The cable core is covered with a waterproof sheath and a metal armor layer, and an optical fiber is attached vertically between the metal armor layers or on the inner surface thereof, and the optical fiber is made of a metal material, etc. Electrical connection portions are provided at intervals in the length direction of the cable between the water-shielding layer and the metal armor layer.

"Operation" By setting the water-shielding layer and the metal armor layer to the same potential through the electrical connection, generation of induced voltage between them is prevented. Furthermore, since the magnitude of the induced voltage is proportional to the length of the power cable, the interval between the electrical connection points between the water shielding layer and the metal armor layer is set in consideration of short circuit current in the event of an accident.

"Embodiment" Hereinafter, an embodiment of the optical fiber-containing power cable according to the present invention will be described based on FIGS. 1 and 2.

In the figure, reference numeral 1 indicates a single cable core, and this cable core 1 consists of a conductor 2, an inner semiconducting layer 3, an insulating layer 4, an outer semiconducting layer 5, a lead coating layer 6, and a waterproof material such as polyethylene. It is composed of a sheath 7. A meandering groove 8 is provided on the surface of the waterproof sheath 7 of the cable core 1, as shown by the range θ in FIG. An optical fiber cable 9 is movably inserted into the meandering groove 8, and a seat 10 and a metal armor 1 such as armor wire are inserted over the cable core 1 and the optical fiber cable 9.
1. It has a structure that is integrally covered with a protective layer 12.

In addition, in the optical fiber cable 9, the outside of the optical fiber unit, which is composed of a tension member for bearing tension and the like and an optical fiber, is covered with a water-shielding layer 13 made of a metal material with a gap. The surface of the water-blocking layer 13 is integrally covered with an anti-corrosion layer 14 made of plastic.
An electrical connection portion 15 is disposed between the metal armor layer 11 and the anticorrosion layer 14 with an interval in the length direction of the cable.

As shown in FIG. 2, this electrical connection part 15 is made by peeling off a part of the anti-corrosion layer 14 of the optical fiber cable 9 to expose the water-shielding layer 13, and placing a metal wire on the water-shielding layer 13. While wrapping 16,
After connecting the metal wire 16 by winding it around one or more of the metal armor layers 11, a room-temperature curing plastic is applied on the water-shielding layer 13 and hardened to form a bond with the water-shielding layer 13. It has a structure in which the connecting portion is covered with a plastic mold layer 17.

Furthermore, to explain the spacing between the electrical connection parts 15, in the case of a power cable, an induced voltage is generated that is proportional to the current value such as a short circuit and the length of the water shielding layer 13 parallel to the cable core 1. Taking these into consideration, the distance is set to, for example, several hundred meters to several thousand meters.

In such an optical fiber-containing power cable, the water-shielding layer 13 is made of a metal material and is a good electrical conductor.
are connected to the metal armor layer 11 by the electrical connection part 15, so the connection parts are surely at the same potential, and in the vicinity of the electrical connection part 15, there is a potential difference in the anti-corrosion layer 14 of the optical fiber cable 9. never occurs.

Therefore, even if a large short-circuit current flows through the cable core during an accident, the generation of induced voltage in the optical fiber cable 9 due to electromagnetic induction is suppressed by keeping each part at approximately the same potential, and the corrosion protection layer No potential difference is applied to the water-blocking layer 14, and damage to the water-blocking layer 13 due to discharge phenomena can be prevented.

[Other Embodiments] In place of the above embodiments, the following may be used.

A fiber optic cable is installed vertically between metal armor layers.

Construct electrical connections using conductive materials other than metal wires.

The plastic mold layer is made of conductive plastic.

"Effects of the Invention" As explained above, according to the optical fiber-containing power cable of the present invention, the optical fiber cable is vertically attached between or on the inner surface of the metal armor layer, and the water-shielding layer made of a metal material and the metal Since an electrical connection is provided between the armor layer and the armor layer, the occurrence of a discharge phenomenon due to the induced voltage caused by the large current caused by a short circuit is suppressed, preventing damage to the water shielding layer of the optical fiber cable, and reducing power consumption. This has effects such as improving the reliability of the cable.

[Brief explanation of the drawing]

Fig. 1 is a cross-sectional view showing an embodiment of the optical fiber-containing power cable according to the present invention, Fig. 2 is an enlarged view taken in the direction of - arrow in Fig. 1, and Fig. 3 is a cross-sectional view of a conventional example. be. DESCRIPTION OF SYMBOLS 1...Cable core, 2...Conductor, 3...Inner semiconducting layer, 4...Insulating layer, 5...Outer semiconducting layer,
6... Lead coating, 7... Waterproof sheath, 8... Meandering groove, 9... Optical fiber cable, 10... Seat floor,
11...Metal armor, 12...Protective layer, 13...Waterproof layer, 14...Corrosion protection layer, 15...Electrical connection part,
16...Metal wire, 17...Plastic mold layer.

Claims (1)

[Scope of utility model registration request] A cable core 1 is connected to a waterproof sheath 7 and a metal armor layer 1
1, and an optical fiber cable 9 is attached vertically between the metal armor layers or on the inner surface thereof, and between the water-shielding layer 14 made of a metal material in the optical fiber cable and the metal armor layer, An optical fiber-containing power cable characterized in that electrical connection portions 16 are provided at intervals in the direction.