KR101480757B1 - Safety structure of submarine cable distribution line - Google Patents

Abstract

The present invention relates to a safety structure of a submarine cable distribution line, and more specifically, to a safety structure of a submarine cable distribution line for protecting a high-tension cable installed on the ocean floor, fixing the high-tension cable in the installed place without moving, and removing and replacing the high-tension cable easily in case of accident. The present invention protects transmission and distribution submarine cable buried and installed on the ocean floor, fixes the cable in an original place to be installed, replaces and repairs the cable in the case of a problem on the submarine cable or a protective facility apparatus.

Description

SAFETY STRUCTURE OF SUBMARINE CABLE DISTRIBUTION LINE BACKGROUND OF THE INVENTION [0001]

The present invention relates to a safety structure for a submarine cable distribution line, and more particularly, it relates to a safety structure for a submarine cable distribution line, and more particularly to a submarine cable distribution line that can safely and securely fix a high- The present invention relates to a safety structure of a submarine cable distribution line for facilitating demolition or replacement in the event of a problem.

Generally, there are various members installed on the seabed so that electric lines, communication lines and various kinds of cables are installed, so that the breakage of such cables can be prevented and protected.

However, in the case where the cable is installed on the upper surface of the seabed, the mat is installed on the upper portion where the cable is installed, and most of the cases are finished by pressing and fixing the mat with a pressing stone.

As described above, when the above-mentioned sea bottom cable is installed, the cable often breaks the mat and the push-up stone according to the flow rate of the algae, thereby causing breakage frequently to the sea floor cable.

In order to solve some of these problems, Korean Patent Registration No. 10-0913814 (Aug. 18, 2009) entitled " Transmission and distribution undersea high voltage cable protection facility apparatus "

However, in the case of the above-mentioned patent, there is no function to accommodate the change in the tensile force generated in the longitudinal direction of the cable at the seabed, and there is a concern about loss of the supporting structure due to seawater flow.

Korea Patent Registration No. 10-0913814 (Aug. 18, 2009) "Transmission and distribution submarine high-voltage cable protection facility device"

SUMMARY OF THE INVENTION The present invention has been conceived to solve the problems as described above, and it is an object of the present invention to provide a submarine cable which is formed by forming a bar doctor on the bottom of a seabed, 1 and 2 cable fixing devices, a cover structure and a supporting structure which are coupled to the first and second cable fixing devices, a cover mat covering the upper and lower surfaces of the submarine cable projecting to the sea floor, Thereby providing a safety structure for a submarine cable distribution line that facilitates protection, position fixing, replacement, and repair of submarine cables.

Particularly, the present invention has an additional object to provide a safety structure of a submarine cable distribution line which can minimize the loss of a supporting structure due to seawater flow while accommodating a longitudinal tension change of the submarine cable.

The present invention provides a safety structure for protecting a submarine cable (50) installed on a bar (B) formed on a marine floor (A) as a means for accomplishing the above object. A first cable fixing device (10) coupled to an upper end of the submarine cable (50) forming a plurality of rows; A second cable securing device 10 corresponding to the first cable securing device 10 and coupled to the lower end of the submarine cable 50 for protecting the covering of the submarine cable 50 together with the first cable securing device 10 20); A supporting structure 30 attached to the lower surface of the second cable fixing device 20 and installed on the bar doctor B; And a cover structure (40) coupled to an upper surface of the first cable securing device (10) so as to be associated with the backing structure (30); The first and second cable fixing devices 10 and 20 are formed by forming a plurality of first and second cable grooves 11 and 21 in the longitudinal direction respectively corresponding to the surfaces contacting the submarine cable 50, The underside cable 50 can be seated and fixed to the first and second cable grooves 11 and 21 and a plurality of fixing protrusions 12 are formed on the opposite side of the submarine cable 50, And is made of a synthetic rubber material so as to protect the coating of the submarine cable 50 but not to injure it when engaged; Each of the cover structure 40 and the backing structure 30 has a plurality of protrusion holes 43 formed on the surface thereof to be coupled to the first cable fixing device 10 or the second cable fixing device 20, The fixing protrusions 12 protruding from the first and second cable fixing devices 10 and 20 correspond to the protruding holes 43 and are inserted into the first and second cable fixing devices 10 and 20, The second cable fixing device 20 and the support structure 30 can be coupled and fixed to each other and the submarine cable 50 is made of concrete so that the submarine cable 50 does not float in the seabed water. Each of the cover structure 40 and the support structure 30 has a seating portion 60 on one side thereof to which the first cable securing device 10 or the second cable securing device 20 is fitly engaged, The anchor holes 41 are formed in the plurality of first engaging portions 42 of the cover structure 40 and the anchor holes 41 are formed in the plurality of first engaging portions 42 of the supporting structure 30, A plurality of anchor rings 31 corresponding to the plurality of anchor holes 41 are formed in the plurality of second anchor holes 32 of the anchor holes 31, A predetermined portion 33 of the anchor ring 31 protruding from the cover structure 40 is inserted through the bolts 70 and the nuts 71 so that the cover structure 40 and the backing structure 30 are fixed to each other; (C ') sandwiched between the submarine cable (50) and the undersurface (50) between the submarine cable (50) and the submarine cable (50) so as to be spaced apart from each other by a predetermined distance in the longitudinal direction, A cover mat 80 and a base protection mat 81 are provided to protect the submarine cable 50; A plurality of hooks 100 protrude from a bottom surface of the support structure 30 and a mesh 110 is inserted into the hook 100. The mesh 110 connects the support structure 30, And the air tube 120 is further installed on the lower side of the concave central portion so as to push up the mesh net 110 and to closely contact the lower surface of the backing structure 30 ; The tension relieving unit 200 is further provided on the second cable groove 21 of the second cable securing device 20 and the tension relieving unit 200 is disposed at the lower vertex of the second cable groove 21 And the unit housing 220 is inserted into the unit installation groove 210. The unit housing 220 is hollow and has an open upper portion, A spring 230 is inserted into the inner hollow of the unit housing 220 and a buffer block 240 is inserted into the upper portion of the spring 230, A shoulder 242 is formed around the lower end of the buffer block 240 to prevent it from being caught by the retaining protrusion 222. A ball groove 244 is formed in the upper surface of the protrusion 244, 250) is seated on the underside cable distribution line.

The present invention has the effect of protecting a transmission / distribution submarine cable buried and installed in a seabed and fixing it at a home position to be installed, and easily replacing and repairing a submarine cable or a protection device when a problem occurs in the device.

1 is an exploded perspective view showing a safety structure of a submarine cable distribution line according to an embodiment of the present invention.
2 is a sectional view of a temporary example showing a safety structure of a submarine cable distribution line according to the present invention.
FIG. 3 is a perspective view illustrating a safety structure of a submarine cable distribution line according to an embodiment of the present invention. FIG.
Figure 4 is an exemplary diagram illustrating a further embodiment according to the present invention;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Before describing the present invention, the following specific structural or functional descriptions are merely illustrative for the purpose of describing an embodiment according to the concept of the present invention, and embodiments according to the concept of the present invention may be embodied in various forms, And should not be construed as limited to the embodiments described herein.

In addition, since the embodiments according to the concept of the present invention can make various changes and have various forms, specific embodiments are illustrated in the drawings and described in detail herein. However, it should be understood that the embodiments according to the concept of the present invention are not intended to limit the present invention to specific modes of operation, but include all modifications, equivalents and alternatives falling within the spirit and scope of the present invention.

The present invention uses the above-mentioned prior-art patent No. 0913814 as it is. Therefore, all of the features of the device configuration described below are those described in Patent Registration No. 0913814. [

However, the present invention is characterized in that the additional embodiment part which improves a specific configuration part in order to attain the object among the configurations disclosed in the above-mentioned Korean Patent No. 0913814 is the most essential constitutional feature.

Therefore, the device structure, characteristics and operation relationship described below will be incorporated by reference in the above-mentioned Japanese Patent Application No. 0913814, and the structure related to the main features of the present invention will be described in detail at the rear end.

As shown in FIGS. 1 to 3, the safety structure of the submarine cable distribution line according to the present invention is applicable to a submarine cable 50 installed on the sea floor, And includes a first cable securing device 10, a second cable securing device 20, a cover structure 40, a backing structure 30, a cover mat 80, and a backing protection mat 81.

The first cable fixing device 10 surrounds the upper outer circumferential surface of the submarine cable 50. The first cable fixing device 10 is installed in the longitudinal direction of the submarine cable 50, The fixing device 10 forms a plurality of rows of first cable grooves 11 extending in the longitudinal direction on the bottom surface so as to surround the upper outer peripheral surface of the submarine cable 50.

That is, the upper outer circumferential surface of the subsea cable 50 of a plurality of rows is inserted into the first cable grooves 11 of the plurality of columns to be protected.

The first cable securing device 10 may be made of a synthetic rubber material in the same manner as the second cable securing device 20 to be described later so that the submarine cable 50, So as not to cause problems such as scratching the cloth of the clothes.

In addition, the first cable securing apparatus 10 is formed with a plurality of securing protrusions 12 protruding outward at a predetermined interval on the upper surface.

The second cable fixing device 20 is a pair with the first cable fixing device 10 described above and has the same configuration and configuration. More specifically, the second cable fixing device 20 surrounds and protects the lower outer circumferential surface of the submarine cable 50. When the submarine cable 50 is installed in the submarine cable 50, the first cable fixing device 10, That is, in correspondence with the upper and lower outer circumferences of the submarine cable 50 with the plurality of submarine cables 50 interposed therebetween.

Since the second cable fixing device 20 is also the same as the first cable fixing device 10, it is possible to form a plurality of rows of second cable grooves 21 extending in the longitudinal direction on one surface, ) Of the underside cable (50).

As with the first cable securing device 10, a plurality of securing protrusions 12 protruding outwardly are formed on the side of the opposite side of the surface contacting with the submarine cable 50.

The cover structure 40 is coupled to a surface of the first cable fixing device 10 on which the fixing protrusions 12 protrude, that is, the upper surface of the first cable fixing device 10, And the first engaging portions 42 are formed at both ends of the seating portion 60. The first engaging portions 42 are horizontally aligned with the ground.

A plurality of protrusion holes 43 are formed in the seating part 60. The protrusion holes 43 are formed in the protrusion hole 43 so that when the first cable fixing device 10 is engaged with the covering structure 40, So that the first cable fixing device 10 and the cover structure 40 are not separated from each other.

The anchor holes 41 are formed in the plurality of first engaging portions 42, respectively.

The support structure 30 is coupled to a surface of the second cable fixing device 20 on which the fixing protrusions 12 protrude, that is, the lower surface of the second cable fixing device 20. The supporting structure 30, Is installed on the bar B which has been pierced at a predetermined depth in the sea floor (A) in order to install a plurality of submarine cables (50).

The support structure 30 forms a seating portion 60 to which the second cable fixing device 20 is fitted and is formed at an upper surface stop and extends to form a second coupling portion 32 at both ends.

And an anchor ring 31 is formed to protrude from the upper surface of the second engaging portion 32.

The support structure 30 is paired with the cover structure 40 described above so that a plurality of first couplings 32 of the cover structure 40 are formed on the upper surface of the plurality of second couplings 32 of the base structure 30, And the anchoring portions 42 are correspondingly coupled to each other so that the plurality of anchoring rings 31 may correspond to and pass through the plurality of anchoring holes 41 when engaged.

That is, the plurality of anchor rings 31 protrude from the upper side of the lid structure 40 after passing through the anchor holes 41. The bolts 70 and the nuts 71 to fix the cover structure 40 and the backing structure 30 to each other.

The first cable fixing device 10 and the second cable fixing device 20 also serve to surround and fix the plurality of submarine cables 50.

The cover mat 80 and the backing protection mat 81 are constructed such that the protection facility apparatus composed of the first and second cable securing devices 10 and 20, the cover structure 40, The plurality of submarine cables 50 are spaced apart from each other by a predetermined distance toward the longitudinal direction of the submarine cable 50 and then protected by the submarine cables 50 exposed to the seabed. Respectively.

In addition, the inside of the cover mat 80 and the backing protection mat 81 are filled with sand C '.

In addition, the protective facility apparatus of the present invention having the above-described structure is installed in a deep water place by being transported to a barge ship and then dropped into water.

In addition, it is a matter of course that, after all of the protection facility devices according to the present invention are installed, the protection device itself must be fixed by filling the bar (B) with sand (C).

4 (a), a plurality of hooks 100 protrude from the lower surface of the backing structure 30. As shown in FIG.

A plurality of the hooks 100 protrude from the bottom surface of the backing structure 30 at predetermined intervals and are integrally molded together when the backing structure 30 is formed.

That is, since the support structure 30 is formed by pouring concrete into the mold after curing, it can be easily constructed by providing the shape of the hook 100 in the mold itself.

The hook 110 is inserted into the hook 100.

The net 110 is formed of a wire and is formed in a plate shape that is three times larger than the size of the base structure 30 and is disposed in a wide spread shape while being inserted into the hook 100 as shown in the figure.

Therefore, when the supporting structure 30 is installed, the bottom of the sea floor A is pitched to a certain depth and then installed. The ground floor 110 is spread on the underside so that the upper part is filled with gravel, sand, etc. The supporting structure 30 is held in a state in which the net 110 is flatly attached to the floor surface, so that even if the flow of the seawater is heavy, the supporting structure 30 can not easily move, do.

Particularly, since the support structure 30 is recessed upwardly at the central portion thereof, the mesh 110 may not be easily caught by the hook 100 in a concave bottom surface when the mesh 110 is installed.

In this case, since the installation effect of the net 110 is lowered, an air tube 120 is installed below the concave portion to prevent this effect.

The air tube 120 is disposed at a lower portion of the mesh 110 and has a force to float due to buoyancy. Accordingly, when the air tube 120 is installed below the mesh network 110, the mesh network 110 is lifted and brought into close contact with the bottom surface of the support structure 30 so that the mesh network 110 is separated from the mesh network 100 It prevents you.

At this time, it is preferable that the air tube 120 has a shape corresponding to the lower concave shape of the backing structure 30 when the air is filled.

4 (b), in order to prevent breakage of the submarine cable 50 due to tension fluctuation in the longitudinal direction of the submarine cable 50, the second cable of the second cable fixing device 20 The tension relief unit 200 can be further provided on the groove 21. [

The tension relieving unit 200 includes a unit mounting groove 210 formed at a lower vertex of the second cable groove 21. [

The unit housing 220 is inserted into the unit mounting groove 210.

Here, since the unit housing 220 receives the force only downward, it is not necessary to securely fix the unit housing 220, and only the unit housing 220 is fit into the unit mounting groove 210.

In addition, the unit housing 220 has a hollow interior, an upper portion is opened, and a locking protrusion 222 is formed around the opened upper portion.

In addition, a spring 230 is inserted into the hollow of the unit housing 220, and a buffer block 240 is inserted into the upper portion of the spring 230.

At this time, a chuck 242 is formed around the lower end of the buffer block 240 so as not to be caught by the latching jaw 222. A ball groove 244 is formed in the upper surface of the jaw block 244, The ball 250 is seated.

In this case, the ball 250 does not need to be fixed, since the member that is contacted to exert a pressing force at the top of the ball 250 is the submarine cable 50.

That is, even if the ball 250 is installed on the ball 250, since the ball 250 receives the force in the gravity direction, the ball 250 is not easily separated from the ball groove 244.

Moreover, it is more so since the undersea cable 50 is seated and brought into contact therewith.

Since the submarine cable 50 is kept in a rolling contact state by the ball 250 and the spring 230 absorbs elasticity when the tension is generated, the flow of the submarine cable 50 in the tension direction is maintained smoothly, The submarine cable 50 is not broken by the tension.

As such, a further embodiment according to the present invention provides the ability to more securely support and secure the submarine cable 50.

10: first cable fixing device 20: second cable fixing device
30: Support structure 40: Cover structure
50: submarine cable 60:
70: Bolt

Claims (1)

A safety structure for a submarine cable distribution line protecting a submarine cable (50) installed on a bar (B) formed on a marine floor (A);
A first cable fixing device (10) coupled to an upper end of the submarine cable (50) forming a plurality of rows; A second cable securing device 10 corresponding to the first cable securing device 10 and coupled to the lower end of the submarine cable 50 for protecting the covering of the submarine cable 50 together with the first cable securing device 10 20); A supporting structure 30 attached to the lower surface of the second cable fixing device 20 and installed on the bar doctor B; And a cover structure (40) coupled to an upper surface of the first cable securing device (10) so as to be associated with the backing structure (30);
The first and second cable fixing devices 10 and 20 are formed by forming a plurality of first and second cable grooves 11 and 21 in the longitudinal direction respectively corresponding to the surfaces contacting the submarine cable 50, The underside cable 50 can be seated and fixed to the first and second cable grooves 11 and 21 and a plurality of fixing protrusions 12 are formed on the opposite side of the submarine cable 50, And is made of a synthetic rubber material so as to protect the coating of the submarine cable 50 but not to injure it when engaged;
Each of the cover structure 40 and the backing structure 30 has a plurality of protrusion holes 43 formed on the surface thereof to be coupled to the first cable fixing device 10 or the second cable fixing device 20, The fixing protrusions 12 protruding from the first and second cable fixing devices 10 and 20 correspond to the protruding holes 43 and are inserted into the first and second cable fixing devices 10 and 20, The second cable fixing device 20 and the support structure 30 can be coupled and fixed to each other and the submarine cable 50 is made of concrete so that the submarine cable 50 does not float in the seabed water.
Each of the cover structure 40 and the support structure 30 has a seating portion 60 on one side thereof to which the first cable securing device 10 or the second cable securing device 20 is fitly engaged, The anchor holes 41 are formed in the plurality of first engaging portions 42 of the cover structure 40 and the anchor holes 41 are formed in the plurality of first engaging portions 42 of the supporting structure 30, A plurality of anchor rings 31 corresponding to the plurality of anchor holes 41 are formed in the plurality of second anchor holes 32 of the anchor holes 31,
A predetermined portion 33 of the anchor ring 31 protruding from the cover structure 40 is inserted through the bolts 70 and the nuts 71 so that the cover structure 40 and the backing structure 30 are fixed to each other;
(C ') sandwiched between the submarine cable (50) and the undersurface (50) between the submarine cable (50) and the submarine cable (50) so as to be spaced apart from each other by a predetermined distance in the longitudinal direction, A cover mat 80 and a base protection mat 81 are provided to protect the submarine cable 50;
A plurality of hooks 100 protrude from a bottom surface of the support structure 30 and a mesh 110 is inserted into the hook 100. The mesh 110 connects the support structure 30, And the air tube 120 is further installed on the lower side of the concave central portion so as to push up the mesh net 110 and to closely contact the lower surface of the backing structure 30 ;
The tension relieving unit 200 is further provided on the second cable groove 21 of the second cable securing device 20 and the tension relieving unit 200 is disposed at the lower vertex of the second cable groove 21 And the unit housing 220 is inserted into the unit installation groove 210. The unit housing 220 is hollow and has an open upper portion, A spring 230 is inserted into the inner hollow of the unit housing 220 and a buffer block 240 is inserted into the upper portion of the spring 230, A shoulder 242 is formed around the lower end of the buffer block 240 to prevent it from being caught by the retaining protrusion 222. A ball groove 244 is formed in the upper surface of the protrusion 244, 250) is seated on the underside cable distribution line.

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