KR101228133B1 - Ballcaster type carrier for pulling and laying cable through submarine conduit line - Google Patents

Abstract

PURPOSE: A ball caster type carrier for the pulling installation of offshore pipelines is provided to stably install a cable by preventing cable damage like an inter disconnection caused by an increase in tensile strength and sheath damage caused by friction. CONSTITUTION: A carrier body(2) is installed on an outer surface of a cable. The carrier body is divided into a pair of semicircular pipe type assembly members(2a,2b). A tie hole combination hole(3) is formed on front/rear ends of the carrier body. A band insertion groove unit(4) is formed on a border of the carrier body. Plural ball casters(5) are protruding from an outer surface of the carrier body to the outside while having regular intervals. A combination band is inserted into the band insertion groove unit. A carrier tie hole has a cone combination protrusion combined with the tie hole combination hole.

Description

Ballcaster type carrier for pulling and laying cable through submarine conduit line}

The present invention relates to a ball caster-type carrier used for towing and laying a cable inside a subsea pipeline connecting land and an island or an island and an island, and more specifically, divided into a pair of assembling members having a semi-circular tube shape. A plurality of ball casters are provided on the outer circumferential surface of the carrier body to be formed to provide a ball caster carrier for cable traction installation that is continuously installed on the outer circumferential surface of the cable that is introduced into the subsea pipeline, thereby guiding the cable to the inside of the submarine pipeline. If the cable is towed by the wire rope, the friction force generated between the cable and the casing installed inside the subsea pipeline is significantly reduced, thus facilitating the work of laying the cable. Shear damage and tension of cable due to friction with casing in subsea pipelines As it allows due to laying the cables to prevent damage to the cable, such as an internal break in a more stable relates to a cable gyeoninpo seolyong ball caster-type carrier of the subsea pipeline, which so as to more increase the installation distance of the submarine pipeline.

In general, when laying a seabed pipeline connecting land and an island or between an island and an island, an open-type method or a sheet pile method of laying a ground or subfloor extensively is mainly applied. Due to the nature of the work, the sheet pile method severely damages the upper and lower sea floors, causing serious environmental problems due to the destruction of the ecosystem, as well as causing various civil complaints such as compensation for fishing rights to the area and backlash from various environmental groups. There was a problem.

In order to solve such a problem, conventionally, as shown in Figure 1, after the excavation and forming the starting port 21 and the reaching port 22 on the land or island to be connected to the subsea pipelines, the starting port 21 and A non-adhesive type which forms an excavation hole 23 under the seabed so that the reaching port 22 communicates, and then embeds the casing 24 having a tubular shape into the excavation hole 23 to bury the subsea pipeline 20. The method had been devised.

On the other hand, if you want to install a cable 25, such as a power cable or a communication cable in the interior of the subsea pipeline 20 buried by the conventional non-adhesive method, as shown in Figure 1 When the cable is installed at the front end of the cable 25, the cable network 26 for clamping the cable front end with strong compressive force is mounted, and then the wire rope 27 drawn from the press-fitting equipment is connected to the cable network 26. The cable 25 is installed inside the subsea pipeline 20 by towing.

However, when the cable 25 is installed inside the subsea pipeline 20 by the conventional cable traction installation method as described above, the cable 25 during the towing operation of the cable 25 by the wire rope 27. Since friction force is greatly generated between the casing 24 installed inside the subsea pipeline 20, not only the laying work is not smoothly performed, but also the workability is significantly reduced due to the low laying speed.

In addition, in the case of laying the cable 25 inside the subsea pipeline 20 by the conventional cable laying method as described above, the subsea pipeline 20 during the pulling operation of the cable 25 by the wire rope 27 As the sheath is damaged due to the friction with the casing 24 installed inside the cable, the insulation of the cable is destroyed or the cable damage such as internal disconnection is frequently caused as the tensile stress in the cable 25 is increased. .

In particular, when the distance between the land and the island or the submarine pipeline 20 connecting the island and the island is 2 to 3km long span, the submarine pipeline 20 during the towing of the cable by the wire rope 27 Cable damages such as damage to the cover due to friction with the casing 24 installed inside the cable and internal disconnection due to an increase in the tensile stress of the cable 25 are further intensified. Since it is virtually impossible to install the cable 25 inside 20), it was urgent to prepare a solution to solve the problem.

The present invention is to solve the above problems, is provided with a plurality of ball casters on the outer circumferential surface of the carrier body is divided into a pair of assembling members in a semi-circular tube shape continuous to the outer circumferential surface of the cable introduced into the subsea pipeline By providing a ball caster carrier for cable traction installation, which is installed in This greatly reduces cable laying work, greatly improving workability, and at the same time avoids cable damage such as damage to the cover caused by friction with casings in subsea pipelines and internal disconnection due to increased tensile stress of the cable. To make the cable more stable Since it to so as to more increase the installation distance of the submarine pipeline to a technical problem.

The present invention for achieving the above technical problem in the ball caster carrier for cable traction installation to the subsea pipelines that is continuously installed on the outer peripheral surface of the cable that is drawn into the subsea pipelines for the traction installation of cables in the subsea pipelines Carrier body, which is installed on the outer circumferential surface of the cable, is divided into a pair of assembling members in the shape of semi-circular tubes. And a plurality of ball caster parts protruding outward from the outer circumferential surface of the carrier body and fixed to the outer circumferential surface of the cable by being fixed to the outer circumferential surface of the cable and inserted into the groove for inserting the band of the carrier body. Binding band fastened to surround the outer circumference of the body, and continuous to the outer circumference of the cable It is characterized in that it comprises a carrier connector for connecting each of the carrier body is installed to each other conical coupling projections are coupled to the connector coupling hole of the carrier body at both ends.

In addition, the present invention is a ball insertion groove which is formed in the ball caster portion is concave in the hemispherical shape on the outer surface of the carrier body, and the spherical ball is formed through the shaft insertion hole in the center to be rotatably inserted into the ball insertion groove. And a ball cover which is formed to be convex in a ring shape around the opening of the ball insertion groove, to prevent separation of the ball inserted into the ball insertion groove, and the shaft insertion of the ball inserted into the ball insertion groove. And a support shaft inserted into the ball cover to penetrate the ball.

In addition, the present invention is that the ball caster is formed to be concave in a hemispherical shape on the outer surface of the carrier body ball insertion grooves formed with a plurality of ball cloud projections on the inner circumference, rotatably inserted into the ball insertion groove It is characterized in that it comprises a spherical ball and a ball cover which is formed convexly in a ring shape around the opening of the ball insertion groove to prevent separation of the ball inserted into the ball insertion groove.

In addition, the present invention is a ball insertion groove which is formed in the ball caster recessed in the hemispherical shape on the outer surface of the carrier body, spherical ball is rotatably inserted in the state of the ball insertion groove via the bearing; To prevent separation of the ball inserted into the ball insertion groove is characterized in that it comprises a ball cover formed convexly in a ring shape around the opening of the ball insertion groove.

In addition, the present invention is characterized in that the ball caster includes a caster installation groove which is formed concave on the outer surface of the carrier body, and a known ball caster is inserted into the caster installation groove.

According to the ball caster carrier for cable traction installation according to the present invention configured as described above, when the cable is towed and installed inside the subsea pipeline, the cable between the cable and the casing installed inside the subsea pipeline during the towing operation of the cable by the wire rope. This greatly reduces the frictional force generated in the cable, making it easier to lay the cables, which greatly improves workability, and at the same time, internal breakage caused by damage to the cover due to friction with the casing of the subsea pipelines and increased tensile stress of the cable. Since the cable can be more stably laid by preventing cable damages, the construction distance of the subsea pipe can be further increased.

1 is an explanatory diagram showing a cable traction installation method of the subsea pipeline according to the prior art.
Figure 2 is an exploded perspective view showing a ball caster carrier for cable traction installation of the subsea pipeline according to the present invention.
Figure 3a is a cross-sectional view showing an embodiment of the ball caster portion used in the ball caster carrier for cable traction installation according to the present invention.
Figure 3b is a cross-sectional view showing this embodiment of the ball caster portion used in the ball caster carrier for cable traction installation according to the present invention.
Figure 3c is a cross-sectional view showing a third embodiment of the ball caster portion used in the ball caster carrier for cable traction installation according to the present invention.
Fig. 3D is a sectional view showing an actual example of a ball caster portion used in the ball caster carrier for cable traction laying according to the present invention.
Figure 4 is an explanatory view showing the installation process of the ball caster carrier for cable traction installation according to the present invention.
5 is a cross-sectional view showing the installation and connection of the ball caster carrier for cable traction installation according to the present invention.
Figure 6 is an explanatory diagram showing a cable laying process of the subsea pipeline using a ball caster carrier for cable traction laying according to the present invention.

Hereinafter, the present invention for achieving the above object will be described in detail with reference to FIGS. 2 to 6.

The ball caster carrier for cable traction installation according to the present invention is to be continuously installed on the outer circumferential surface of the cable introduced into the subsea pipeline to pull the cable to the inside of the subsea pipeline connecting the land and the island or the island and the island. 2 to 6, a carrier body 2, a ball caster part 5, a binding band 6, and a carrier connector 7 are included.

The carrier body 2 is made of a synthetic resin material such as FRP to be installed on the outer peripheral surface of the cable, as shown in Figure 2 divided into a pair of assembly members (2a) (2b) of a semi-circular tube shape The front and rear ends are respectively provided with a connector coupling hole (3) to which the carrier connector (7) is coupled, and the band insertion groove (4) into which the binding band (6) is inserted at the front and rear outer sides thereof. Are each formed.

At this time, the joint surface of the pair of assembling members (2a) (2b) constituting the carrier body (2) to form a coupling projection (8) and a coupling hole (9), which is a coupling male and female member for easy assembly work. It is desirable to.

In addition, as shown in FIG. 5, the inner circumferential surface of the connector coupling hole 3 forms a locking step 3a to which the conical coupling protrusion 7a of the carrier connector 7 is engaged when the carrier connector 7 is coupled. It is desirable to.

In addition, the band insertion recess 4 has a binding band 6 which is used to closely fix the pair of assembly members 2a and 2b constituting the carrier body 2 to the outer peripheral surface of the cable. It prevents slipping back and forth to facilitate the binding operation and at the same time serves to prevent the binding band 6 from protruding to the outer surface of the carrier body (2).

The ball caster part 5 is installed on the outer circumferential surface of the carrier body 2 so as to protrude to the outside at a predetermined interval, and occurs between the cable and the casing installed inside the subsea pipeline during the towing of the cable by the wire rope. It serves to reduce the frictional force.

The binding band 6 is for fixing the carrier body 2 to the outer circumferential surface of the cable, and is inserted into the band insertion recess 4 of the carrier body 2 to fix the outer circumferential surface of the carrier body 2. Tightly tightened to wrap.

At this time, it is preferable to use a PET band, a PP band, or an iron band which is widely used for packaging as the binding band 6.

The carrier connector 7 is for connecting the carrier bodies 2 which are continuously installed on the outer circumferential surface of the cable to each other, as shown in FIG. 5, the connector coupling hole 3 of the carrier body 2 at both ends thereof. Conical coupling protrusions (7a) are coupled to each other is formed.

On the other hand, the ball caster carrier for cable traction installation according to the present invention configured as described above is divided into four types according to the structure of the ball caster portion 5 is installed on the outer peripheral surface of the carrier body (2).

In the ball caster carrier for cable traction installation according to an embodiment of the present invention, as shown in FIG. 3a, the ball caster part 5 is inserted into a ball in a hemispherical shape on the outer surface of the carrier body 2. The ball 10 and the spherical ball 11 through which the shaft insertion hole 11a is formed to be rotatably inserted into the ball insertion groove 10 and the ball insertion groove 10 The ball cover 12 is formed to prevent the detachment of the ball 11 inserted therein and is formed convexly in a ring shape around the opening of the ball insertion groove 10, and is inserted into the ball insertion groove 10. It is configured to include a support shaft 13 is inserted into the ball cover 12 so as to pass through the shaft insertion hole (11a) of the ball (11).

The ball caster carrier for cable traction installation according to an embodiment of the present invention configured as described above has a spherical ball 11 having a support shaft 13 in the ball insertion groove 10 constituting the ball caster part 5. Since it can be rotated smoothly in a state that is firmly supported, it is possible to effectively prevent the cloudiness is lowered by the weight of the cable during the towing operation of the cable by the wire rope.

As shown in FIG. 3B, the ball caster carrier for cable traction installation according to this embodiment of the present invention has an inner circumferential surface in which the ball caster part 5 is formed in a hemispherical shape on the outer surface of the carrier body 2. A ball insertion groove 10 having a plurality of ball cloud protrusions 10a formed therein, a spherical ball 11 rotatably inserted into the ball insertion groove 10, and the ball insertion groove 10 In order to prevent separation of the ball 11 inserted into the inside of the) is configured to include a ball cover 12 is formed convexly convex in the circumference of the opening of the ball insertion groove (10).

The ball caster carrier for cable traction installation according to this embodiment of the present invention configured as described above has a spherical ball 11 having a ball insertion groove 10 in the ball insertion groove 10 constituting the ball caster part 5. Since it is supported to be smoothly rotated by a plurality of ball cloud projections (10a) formed on the inner circumferential surface of the), it is possible to effectively prevent the cloudiness deteriorated by the weight of the cable during the towing of the cable by the wire rope do.

In the ball caster carrier for cable traction installation according to the third embodiment of the present invention, as shown in FIG. 3C, the ball caster part 5 is inserted into a ball having a hemispherical shape on the outer surface of the carrier body 2. A groove 10 and a spherical ball 11 rotatably inserted into the ball insertion groove 10 with a bearing 14 interposed therebetween, and inserted into the ball insertion groove 10. It is configured to include a ball cover (12) formed convexly in a ring shape in the circumference of the opening of the ball insertion groove (10) to prevent the detachment of the old ball (11).

The ball caster carrier for cable traction installation according to the third embodiment of the present invention configured as described above has a spherical ball 11 having a ball insertion groove 10 in the ball insertion groove 10 constituting the ball caster part 5. Since it is supported to be rotated smoothly by the bearing 14 is inserted into the inside of the), it is possible to more effectively prevent the cloudiness deteriorated by the weight of the cable during the towing of the cable by the wire rope.

As shown in FIG. 3D, the caster mounting groove in which the ball caster part 5 is recessed on the outer surface of the carrier body 2 is shown in FIG. 3D. 15) and a known ball caster 16 inserted into the caster installation groove 15 is installed.

At this time, the ball caster 16 is a known ball caster widely used for industrial transport or logistics transport.

The ball caster carrier for cable traction installation according to the embodiment of the present invention configured as described above can be easily assembled by inserting a known ball caster 16 into the caster installation groove 15 constituting the ball caster 5. Since the assembly workability can be greatly improved, as well as the known ball caster 16 which does not degrade the cloudiness due to the weight of the cable, the durability can be greatly improved.

Referring to the installation and working relationship of the ball caster carrier for cable traction installation according to the present invention configured as described above are as follows.

As shown in FIG. 4, the ball caster carrier for cable traction installation according to the present invention is divided into a pair of assembling members 2a and 2b at the distal end of the cable 25 drawn into the subsea pipeline. After the body 2 is joined to surround the outer circumferential surface of the cable 25, the binding band 6 is inserted into the band insertion recess 4 of the carrier body 2 to surround the outer circumferential surface of the carrier body 2. It can be installed easily by fastening it.

By repeating this installation method, the ball caster carrier 1 for cable traction installation according to the present invention is continuously installed over the entire length of the outer circumferential surface of the cable 25 introduced into the subsea pipeline, wherein the cable ( As shown in FIG. 5, the ball caster carrier 1 for cable traction installation, which is continuously installed on the outer circumferential surface of the carrier 25, is coupled to the connector coupling hole 3 formed at the front and rear ends of the carrier body 2. It is connected to each other by the connector 7.

After continuously installing the ball caster carrier 1 for cable traction installation according to the present invention over the entire circumference of the cable 25 drawn into the subsea pipeline, as shown in FIG. The cable network 26 is mounted on the outer circumferential surface of the ball caster carrier 1 coupled to the outer circumferential surface of the front end of the cable 25, and then the wire rope 27 drawn from the press-fitting equipment is connected to the cable network 26. The cable 25 is installed inside the subsea pipeline 20 by towing.

As described above, when the cable 25 is towed to the inside of the subsea pipeline 20 by using the ball caster carrier 1 for cable towing installation according to the present invention, the cable 25 by the wire rope 27 The friction force generated between the cable 25 and the casing 24 provided inside the subsea pipeline 20 by the plurality of ball casters 5 provided on the outer circumferential surface of the carrier body 2 during the towing operation of the carrier body 2 is significantly reduced. Therefore, the installation work of the cable 25 can be made smoothly, which greatly improves workability, and at the same time, the sheath of the cable 25 is damaged due to friction with the casing 24 of the subsea pipeline 20 so that the insulation of the cable 25 is insulated. This destruction can be effectively prevented.

In addition, according to the ball caster carrier for cable traction installation of the present invention, the tensile force applied by the wire rope 27 is not transmitted intensively to the distal end of the cable 25, but continuously to the outer peripheral surface of the cable 25 Since it is transmitted in a dispersed state by a plurality of ball caster carriers 1 installed, cable damage such as internal disconnection due to an increase in tensile stress of the cable 25 is effectively prevented, and thus the cable 25 can be more stably installed. It becomes possible to further increase the construction distance of the seabed pipeline 20.

1: Ball Caster Type Carrier
2: carrier body
2a, 2b: assembly member
3: connector coupling hole
3a: hanging jaw
4: groove for inserting band
5: ball caster
6: binding band
7: carrier connector
7a: conical coupling protrusion

Claims (5)

In the ball caster carrier for cable traction laying of the subsea pipeline, which is continuously installed on the outer circumferential surface of the cable drawn into the subsea pipeline to pull the cable inside the subsea pipeline.
It is installed on the outer circumferential surface of the cable, and is divided into a pair of assembling members (2a) and (2b) in the shape of a semicircular tube, and the connector coupling holes (3) are formed at the front and rear ends, respectively. A carrier body 2 having band insertion recesses 4 formed therein,
A plurality of ball caster portions 5 installed to protrude outwards at a predetermined interval on an outer circumferential surface of the carrier body 2;
Bonding band for fastening the carrier body 2 to the outer peripheral surface of the cable, is inserted into the band insertion groove 4 of the carrier body 2 is wrapped to surround the outer peripheral surface of the carrier body (2) 6) with,
Carrier connector for connecting the carrier body (2) continuously installed on the outer circumferential surface of the cable with each other, the conical coupling projection (7a) is formed at both ends coupled to the connector coupling hole (3) of the carrier body (2) A ball caster carrier for cable traction installation in subsea pipelines, comprising (7). The method of claim 1, wherein the ball caster portion 5,
A ball insertion groove 10 formed concave in a hemispherical shape on the outer surface of the carrier body 2,
A spherical ball 11 through which the shaft insertion hole 11a is formed to be rotatably inserted into the ball insertion groove 10 and formed therein;
A ball cover 12 formed to protrude in a ring shape around the opening of the ball insertion groove 10 to prevent separation of the ball 11 inserted into the ball insertion groove 10;
The subsea pipeline includes a support shaft 13 inserted into the ball cover 12 so as to pass through the shaft insertion hole 11a of the ball 11 inserted into the ball insertion groove 10. Ball caster carrier for cable towing installation. The method of claim 1, wherein the ball caster portion 5,
A ball insertion groove 10 having a plurality of ball cloud protrusions 10a formed on the inner circumferential surface of the carrier body 2 to be concave in a hemispherical shape,
A spherical ball 11 rotatably inserted into the ball insertion groove 10;
In order to prevent the separation of the ball 11 inserted into the ball insertion groove 10 is characterized in that it comprises a ball cover 12 is formed convexly in a ring shape around the opening of the ball insertion groove (10). Ball caster type carrier for cable traction installation in subsea pipelines. The method of claim 1, wherein the ball caster portion 5,
A ball insertion groove 10 formed concave in a hemispherical shape on the outer surface of the carrier body 2,
A spherical ball 11 rotatably inserted into the ball insertion groove 10 with a bearing 14 interposed therebetween;
In order to prevent the separation of the ball 11 inserted into the ball insertion groove 10 is characterized in that it comprises a ball cover 12 is formed convexly in a ring shape around the opening of the ball insertion groove (10). Ball caster type carrier for cable traction installation in subsea pipelines. The method of claim 1, wherein the ball caster portion 5,
Caster mounting groove 15 is formed concave on the outer surface of the carrier body 2,
Ball caster carrier for cable traction installation in the subsea pipeline, characterized in that it comprises a known ball caster 16 is inserted into the caster installation groove (15).

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