KR20230110476A - Protection device for sea water cable - Google Patents

Abstract

Provided is a submarine cable protection device including a submarine cable protection duct used in low water depth. The submarine cable protection device is installed on the sea floor and includes a submarine cable protection duct having a receiving portion in which a submarine cable can be accommodated. The submarine cable protection duct includes i) an upper wall provided on the upper part of the accommodating part, and ii) side walls respectively provided on both sides of the accommodating part. The side wall includes i) an inner portion adjacent to the accommodating portion, and ii) an inclined portion formed outside the inner portion and having an inclined side surface. A through hole is formed in the inclined portion to install a fixing member fixed to the sea floor. The through hole is formed in an oblique direction with respect to the sea floor. At an upper end of the through hole, a seating portion having an inclination angle different from the inclination angle of the through hole is provided. The inner portion includes i) a bottom surface that touches the bottom of the seabed, and ii) an upper surface that is adjacent to the top wall.

Description

Submarine cable protection device {PROTECTION DEVICE FOR SEA WATER CABLE}

The present invention relates to a submarine cable protection device, and more particularly, to a submarine cable protection device including a submarine cable protection duct used in low water depth.

In general, submarine cables are laid on the seabed for smooth power supply in island areas. These submarine cables are buried on the seabed for safe and semi-permanent life maintenance and stable supply of power, and then a method of protecting them with various reinforcement facilities such as cast iron pipes and ducts, stone bags, rock berms, and artificial reefs is applied.

However, even when this method is applied, submarine cable reinforcement facilities such as cast iron pipes or ducts are damaged or separated due to the influence of typhoons or waves in the shallow sea (shallow sea) section. If the reinforcement facility is damaged, the submarine cable is exposed to the sea surface, causing problems in stable power supply and safety, so reinforcement is required.

1 shows a submarine cable protection device according to the prior art.

At the bottom of the sea, the submarine cable 2 is placed inside the cast iron pipe 1 while being protected. A duct (3) is covered around the cast iron pipe (1). As the duct 3, a U-duct as shown is usually used.

However, in the case of installation on the shore of low water depth, such as the coast, the duct 3 is damaged or overturned because it is greatly affected by external force due to high flow velocity in the case of installation in the case of typhoons, waves, etc., or in the case of installation in submarine canyons. When the duct 3 is damaged or overturned, the cast iron pipe 1 is exposed and the submarine cable 2 is likely to be damaged. Therefore, a countermeasure for this is required.

The present invention has been made to solve the above problems, and its object is to provide a submarine cable protection device that is stably maintained by reducing the influence of external forces around it.

A submarine cable protection device according to an embodiment of the present invention is installed on the sea floor and includes a submarine cable protection duct having a receiving portion in which a submarine cable can be accommodated. The submarine cable protection duct includes i) an upper wall provided on the upper part of the accommodating part, and ii) side walls respectively provided on both sides of the accommodating part. The side wall includes i) an inner portion adjacent to the accommodating portion, and ii) an inclined portion formed outside the inner portion and having an inclined side surface. A through hole is formed in the inclined portion to install a fixing member fixed to the sea floor. The through hole is formed in an oblique direction with respect to the sea floor. At an upper end of the through hole, a seating portion having an inclination angle different from the inclination angle of the through hole is provided. The inner portion includes i) a lower surface in contact with the sea floor, and ii) an upper surface adjacent to the upper wall.

An upper surface of the inner portion may be formed flat to have the same height as an upper surface of the upper wall. An upper surface of the upper wall may be formed flat.

According to the submarine cable protection device according to an embodiment of the present invention, the inclined portion is formed on the side wall of the submarine cable protection duct to increase resistance to external force received from the side.

In addition, a support wire is provided to increase the resistance against external force in the vertical direction or the front-back direction.

In addition, a through-hole through which a fixing member can be installed is provided in the inclined portion to fix the submarine cable protection duct to the sea floor.

In addition, the inclined portion is composed of a first inclined portion and a second inclined portion having different inclination angles, so that the material can be reduced while increasing resistance.

1 is a front view of a submarine cable protection device according to the prior art.
2 is a front view of a submarine cable protection device according to an embodiment of the present invention.
Figure 3 is a perspective view of the submarine cable protection duct in Figure 2;
4 is a front view of a submarine cable protection device according to another embodiment of the present invention.
5 is a side view of a submarine cable protection duct applied to a submarine cable protection device according to another embodiment of the present invention.
6 is a front view of a submarine cable protection device according to another embodiment of the present invention.

Hereinafter, a preferred embodiment of the present invention will be described with reference to the accompanying drawings, which is intended to be described in detail to the extent that those skilled in the art can easily practice the invention, which does not mean that the technical spirit and scope of the present invention are limited.

A submarine cable protection duct according to each embodiment of the present invention will be described in detail with reference to the drawings.

2 is a front view of a submarine cable protection device according to an embodiment of the present invention, and FIG. 3 is a perspective view of the submarine cable protection duct in FIG. 2 is shown.

A submarine cable protection device according to an embodiment of the present invention includes a submarine cable protection duct 10 having an accommodation portion 14 in which a submarine cable 20 can be accommodated, and the submarine cable protection duct 10 includes an upper wall 11 provided on top of the accommodation portion 14; Sidewalls 12 and 13 provided on both sides of the accommodating portion 14, respectively, wherein the sidewalls 12 and 13 include an inner portion 12 adjacent to the accommodating portion 14, and an inclined portion 13 formed on the outer side of the inner portion 12 and inclined on the side thereof.

The submarine cable 25 is disposed in a form of being buried on the sea floor or stacked on the sea floor. A plurality of submarine cables 25 may be arranged. A plurality of submarine cables 25 may be arranged in a bundled state. The submarine cable 25 may be a coaxial cable or an optical cable. The submarine cable 25 may be made of insulating and waterproof materials such as aluminum or copper tubes, steel wires, and polyethylene to protect optical fibers.

A steel pipe (20) is provided. The iron pipe 20 is provided to protect the submarine cable 25. The iron pipe 20 may be made of a material such as a cast iron pipe having excellent corrosion resistance. The submarine cable 25 may be disposed inside the iron pipe 20.

The submarine cable protection duct 10 is provided to protect the submarine cable 25 and the iron pipe 20. The submarine cable protection duct 10 may be formed of stone. For example, the submarine cable protection duct 10 may be made of a heavy material such as concrete. The submarine cable protection duct 10 must be installed with high stability so that it is fixed in the place where it is placed and does not move or fall. In particular, even if the submarine cable protection duct 10 is installed on a beach with low water depth, such as the coast, it must be manufactured safely so as not to be swept away or overturned by the influence of waves or ocean currents or by ships or fishing nets.

The submarine cable protection duct 10 includes an accommodating portion 14, an upper wall 11 above the accommodating portion 14, and side walls 12 and 13 on both sides of the accommodating portion 14. Here, the upper wall 11 and the side walls 12 and 13 are formed to a sufficient thickness. For example, the minimum thickness of the upper wall 11 may be set in a range between 1/3 and 1/2 of the depth (height) of the receiving portion 14 . Accordingly, breakage does not occur in the upper wall 11 and is stably maintained.

An upper surface of the upper wall 11 may be formed flat. Accordingly, there is no resistance to forces generated from the left and right sides. In addition, the working process can be made simple.

The side walls 12 and 13 may be divided into an inner portion 12 and an inclined portion 13 . The inner portion 12 is adjacent to the accommodating portion 14, that is, a portion forming a side surface of the accommodating portion 14. The lower surface of the inner part 12 comes into contact with the sea floor. The upper surface of the inner portion 12 is a portion that is connected to the upper wall 11 . The upper surface of the inner portion 12 may be formed flat to have the same height as the upper surface of the upper wall 11 .

The inclined portion 13 is formed on the outside of the inner portion 12 . When viewed from the front, the inclined portion 13 may be formed in a right triangle shape. The lower surface of the inclined portion 13 comes into contact with the sea floor. The side surface of the inclined portion 13 is formed to achieve a predetermined inclination. Accordingly, since the force generated on the side of the side walls 12 and 13, that is, in the x direction, is bent or dispersed along the inclined surface, the magnitude acting on the side walls 12 and 13 is reduced. Therefore, the submarine cable protection duct 10 stably maintains the installed state. Here, the inclination angle (a) of the side surface of the inclined portion 13 is preferably set to 45 degrees or less. Accordingly, the force acting on the side walls 12 and 13 is significantly reduced.

A hook member 15 is provided on the side of the inclined portion 13 . For example, the hanging member 15 may be formed in a ring shape. The worker can move the submarine cable protection duct 10 by hanging the hanging member 15 using a hoist or crane and perform installation work. The hanging member 15 is provided in plurality.

A plurality of through holes 16 are formed in the inclined portion 13 . The fixing member 30 may be coupled through the through hole 16 . The fixing member 30 is coupled to the sea floor to fix the submarine cable protection duct 10. Accordingly, the stability of the submarine cable protection duct 10 is improved. Here, the through hole 16 is preferably formed to have a predetermined inclination from the lower surface of the inclined portion 13. That is, the through hole 16 may be formed to have an obtuse angle from the (inner) lower surface of the inclined portion 13 . For example, the through hole 16 may be formed perpendicularly to a side surface (inclined surface or inclined surface) of the inclined portion 13 . Accordingly, the submarine cable protection duct 10 is stably fixed to the sea floor, and the lower corner portion of the inclined portion 13 effectively resists a force capable of being overturned or rotated.

A seating portion 16a may be formed around an upper end of the through hole 16 . At this time, the seating portion 16a may have a slope different from that of the side surface of the inclined portion 13 . For example, the inclination angle (a) of the inclination portion 13 is formed at 30 degrees, and the inclination angle (inclination angle with respect to the ground) of the seating portion 16a is formed at 45 degrees. The angle of inclination of the seating portion 16a is different from the angle of inclination of the side of the inclined portion 13 so that the fixing member 30 coupled to the through hole 16 can be easily installed.

A support groove 17 is formed on the upper surface of the submarine cable protection duct 10, that is, on the upper surface of the upper wall 11 and the inner part 12. The support groove 17 may be formed along the width direction (x direction, horizontal direction). A support wire or the like is inserted into the support groove 17 to exert a force for fixing and supporting the submarine cable protection duct 10.

In Figure 4 another embodiment of the present invention is shown.

In this embodiment, a support wire 40 is provided. The support wire 40 is fixedly installed on the left and right sides of the submarine cable protection duct 10. Both ends of the support wire 40 are fastened to the installation member 45 . An anchor bolt or the like may be applied to the installation member 45 . The installation member 45 may be installed spaced apart from the submarine cable protection duct 10.

The support wire 40 supports the submarine cable protection duct 10. Meanwhile, the central portion of the support wire 40 may be inserted into the support groove 17 on the upper surface of the submarine cable protection duct 10. Accordingly, the submarine cable protection duct 10 can resist not only the force acting in the upward direction (y direction), but also the force acting in the forward direction (z direction).

The fixing member 30 and the installation member 45 described above may be applied in combination. Accordingly, the submarine cable protection duct 10 has resistance to forces in the x, y, and z directions, so that forces other than resistance due to its own weight are added.

5 is a side view of a submarine cable protection duct applied to a submarine cable protection device according to another embodiment of the present invention.

The submarine cable protection duct of this embodiment may be applied to the submarine cable protection duct 10 of the first embodiment or the previous embodiment. Features are added here.

In this embodiment, the front and rear surfaces 18 and 19 of the submarine cable protection duct 10 are formed as inclined surfaces. At this time, either one of the front surface 18 or the rear surface 19 is formed as a protruding inclined surface, and the other surface of the front surface 18 or rear surface 19 is formed as a cut inclined surface. Accordingly, when a plurality of submarine cable protection ducts 10 are arranged in a row in the front-back direction, they come into contact with adjacent submarine cable protection ducts in a way that the front and rear surfaces are placed on top of each other. Accordingly, resistance according to its own weight is added, and bonding force is generated between adjacent submarine cable protection ducts. This also affects the increase in resistance in the z direction.

6 is a front view of a submarine cable protection device according to another embodiment of the present invention.

In this embodiment, the inclined portion 13 may be composed of a first inclined portion 13a and a second inclined portion 13b having different inclination angles of the sides. Here, assuming that the first inclined portion 13a is positioned inside the second inclined portion 13b, the inclined angle of the first inclined portion 13a may be greater than that of the second inclined portion 13b. Accordingly, the resistance to the external force in the x direction is further increased and the required material can be relatively reduced.

The embodiments described above are embodiments implementing the present invention, and various modifications and variations may be made to those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention, but to explain, and the scope of the technical idea of the present invention is not limited by these embodiments. That is, the protection scope of the present invention should be construed according to the following claims, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

10 submarine cable protection duct 11 upper wall
12 inner part 13 inclined part
14 receiving part 15 hanging member
16 through hole 16a seating part
17 support groove 18 front
19 rear 20 iron pipe
25 submarine cable 30 fixing member
40 wire 45 installation member

Claims (3)

A submarine cable protection device installed on the sea floor and including a submarine cable protection duct having a receiving portion in which a submarine cable can be accommodated,
The submarine cable protection duct,
An upper wall provided on the upper part of the receiving part, and
Side walls provided on both sides of the receiving portion, respectively
including,
the side wall,
An inner portion adjacent to the receiving portion, and
An inclined portion formed on the outside of the inner portion and having an inclined side surface
Including,
the inner part,
The lower surface in contact with the sea floor, and
The upper surface adjacent to the upper wall
including,
A through hole is formed in the inclined portion to install a fixing member fixed to the sea floor,
The through hole is formed in an oblique direction with respect to the sea floor,
A submarine cable protection device having a seating portion formed at an inclination angle different from an inclination angle of the through hole at an upper end of the through hole. According to claim 1,
The submarine cable protection device wherein the upper surface of the inner part is formed flat at the same height as the upper surface of the upper wall. According to claim 2,
The submarine cable protection device wherein the upper surface of the upper wall is formed flat.