KR102016360B1 - Ship used for generating power in sea - Google Patents

Abstract

A marine vessel is disclosed. Marine ship according to an embodiment of the present invention is a power generation unit for producing electricity; A turret coupled to the ship and having a hollow portion formed therein so as to pass through a plurality of power transmission cables for transmitting electricity produced by the power generation unit; A tower disposed between the power generation unit and the turret and supporting the power transmission cable; And a cable twist prevention device including a plurality of insertion parts into which each power transmission cable is inserted one-to-one, and a fixing part having insertion parts disposed at predetermined intervals on a periphery thereof, when the ship rotates about a turret. The insertion part can be rotated according to the twisting degree of the cable.

Description

Offshore Ships {SHIP USED FOR GENERATING POWER IN SEA}

The present invention relates to a marine vessel.

Offshore vessels (hereinafter referred to as "ships") produce electricity at sea through thermal power plants and facilities that store, supply and regasify fuel. For example, Korean Laid-Open Patent Publication No. 10-2015-0012781 (2015.02.04.published) has proposed a technique for transmitting power to a power supply facility on land from a fixed or floating offshore structure.

As such, a ship that produces electricity may be installed and operated by the eyepiece near the land. It may also be operated in a mooring state by a turret mooring system in the sea.

Here, the turret mooring system anchors the vessel to a working position on the sea in such a manner as to fix a chain or the like from the ship to the sea bottom. In addition, the turret mooring system allows the vessel to rotate naturally around the turret when an external force is applied to the vessel in places with strong influences of waves, currents, winds, and waves and in poor sea conditions.

Conventionally, ships provide a high-voltage power transmission facility for transmitting power produced on land. The power transmission equipment includes devices for electrically connecting the power transmission cable between the turret and the ship rotating about the turret.

At this time, when the ship rotates about the turret can be twisted while the transmission cable is twisted. However, if the transmission cable is twisted incorrectly, there is a risk that the transmission cable will be broken or the related equipment will be interfered or damaged.

Korean Patent Publication No. 10-2015-0012781 (2015.02.04.published)

An embodiment of the present invention is to provide a marine vessel for the transmission cable is stably and evenly twisted when the vessel rotates about the turret.

According to an aspect of the invention, the power generation unit for producing electricity; A turret coupled to the vessel and having a hollow portion formed therein so that a plurality of power transmission cables passing electricity generated by the power generation unit pass; A tower disposed between the power generation unit and the turret and supporting the power transmission cable; And a cable twist preventing device including a plurality of inserts into which each of the power transmission cables are inserted one-to-one, and a fixing part having the inserts disposed at predetermined intervals on a periphery thereof, wherein the vessel rotates about the turret. In this case, a ship for marine development may be provided in which the insertion part rotates according to the degree of twisting of the power transmission cable.

The cable twist prevention device may further include a connection portion of which one side is rotatably coupled to the left and right sides of the peripheral portion and the other side thereof is coupled to the insertion portion.

One side of the connecting portion is inserted into the peripheral portion of the fixing portion of the form extending bent one or more times in the inner direction, it may be coupled by the fixing portion peripheral portion and the bearing means.

One side of the connecting portion is inserted into the peripheral portion of the fixing portion of the form extending bent one or more times in the inner direction, it may be coupled by a rotating shaft to the peripheral portion of the fixing portion.

The insertion portion may form a protrusion coupled to the other side of the connection portion, and the protrusion may be rotatably coupled to the other end of the connection portion such that the insertion portion is inclined to the front and rear sides around the fixing portion according to the inclination angle of the power transmission cable. have.

A plurality of fixing parts are provided to be spaced apart from each other, passing through the central hole of the fixing part, the center line coupled to the binding means provided in the support of the upper end of the tower, and the upper and lower ends of the fixing part so that the fixing part is fixed at a set position. It may be further provided with a fixed holder coupled to the center line.

Marine ship for marine according to an embodiment of the present invention can allow the transmission cable to be stably and evenly twisted when the vessel rotates around the turret.

The effects of the present invention are not limited to the above-mentioned effects, and other effects not mentioned will be clearly understood by those skilled in the art from the description of the claims.

1 illustrates a marine vessel for ship according to an embodiment of the present invention.
Figure 2 is a perspective view of the cable twist prevention device of the marine vessel for ship shown in FIG.
Figure 3 shows the appearance of the cable twist prevention device shown in Figure 2 when the transmission cable is twisted as the vessel rotates around the turret.
4 is a perspective view of the cable twist prevention device shown in FIG.
5 and 6 illustrate the coupling form between the insertion part, the connection part and the fixing part for rotating the left and right around the fixing part as shown in FIG. 2 as the vessel rotates about the turret.
FIG. 7 is a cross-sectional view illustrating a state in which the insertion part illustrated in FIG. 2 is tilted back and forth around the fixing part.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The following embodiments are presented to sufficiently convey the spirit of the present invention to those skilled in the art. The present invention is not limited to the embodiments presented herein but may be embodied in other forms. The drawings may omit illustrations of parts not related to the description in order to clarify the present invention, and may be exaggerated to some extent in order to facilitate understanding.

1 to 3, the marine vessel (100, hereinafter referred to as "ship") according to an embodiment of the present invention is coupled to the power generation unit 110 and the vessel 100 for producing electricity, Turret 120 having a hollow portion 121 formed therein so that a plurality of first power transmission cables (C1) for transmitting electricity produced by the power generation unit 110 passes, the power generation unit 110 and the turret 120 A plurality of insertion portions 210 and a peripheral portion disposed between the tower 130 for supporting the first power transmission cable C1 and the first power transmission cable C1 inserted one-to-one. ) Includes a cable twist prevention device 200 including a fixing part 220 disposed at regular intervals. Here, when the vessel 100 rotates around the turret 120, the insertion unit 210 may be rotated according to the degree of twist of the first power transmission cable (C1).

In FIG. 1, the cable twist preventing device 200 is briefly displayed for convenience, and only two first power transmission cables C1 are illustrated in FIGS. 2 and 3. Hereinafter, each component of the marine generation ship 100 is demonstrated.

As shown in FIG. 1, the vessel 100 may provide a turret coupling device 105 extending outward. The turret coupling device 105 is rotatably coupled to the turret 120, the coupling between the vessel 100 and the turret 120 can be made in various known forms. The tower 130 may be disposed above the turret coupling device 105. Here, the tower 130 is installed vertically higher than the highest point of the power generation unit 110 and the turret 120 for effective installation and operation of the first power transmission cable (C1), one side is bent toward the turret 120 It may have a shape.

Vessel 100 may be moored at the working position of the sea in a manner to secure the chain 170 to the sea bottom. In addition, the vessel 100 may rotate naturally around the turret 120 by the turret mooring system of various configurations disclosed when the external force is applied in a place where the influence of waves, currents, wind, and the wave is large and the sea conditions are poor. have.

The power generation unit 110 may generate electricity at sea by integrating a fuel storage, supply, and regasification facility such as, for example, 100 to 1000 MW thermal power plant and LNG. The electricity produced by the power generation unit 110 may be transmitted through a plurality of first power transmission cables (C1).

Here, the first transmission cable (C1) is the electricity produced by the power generation unit 110 toward the connection box 160 of the lower turret 120 through the tower 130 and the turret 120 from the power generation unit 110 To pass. The first transmission cable C1 may have the other side fixed to the connection box 160 while one side is fixed to the power generation unit 110. In addition, the first power transmission cable C1 may be provided to have a sufficient length L inside the hollow part 121 in consideration of the rotatable number of times of the ship 100 rotating around the turret 120.

The hollow part 121 of the turret 120 may provide a guide part 150 supporting the first power transmission cable C1 passing through the inside of the turret 120 on one side.

The guide unit 150 may form a guide hole 150a to allow the first power transmission cable C1 to pass through, and the first power transmission cable C1 may have a turret through the guide hole 150a of the guide unit 150. 120 is exited to the lower side is connected to the connection box 160 side of the turret 120.

The connection box 160 electrically connects the first power transmission cable C1 and the second power transmission cable C2 extending to the outside of the turret 120 to transmit power to an electric demand (not shown). The electrical demand may include, for example, a land power supply facility, and the second power transmission cable C2 may transmit electricity produced by the vessel 100 to a power supply facility of the corresponding land.

At this time, the second power transmission cable (C2) may be installed into the J-type cable pipe 180 mounted on the lower connection box 160, and toward the bottom of the sea surface along the arrangement path of the cable pipe 180 Can be installed.

2 and 3, a plurality of cable twist prevention devices 200 may be provided in the first power transmission cable C1 between the tower 130 and the turret 120. 2 and 3 show the state of the first transmission cable (C1) and the cable twist prevention device 200 before and after the vessel 100 rotates around the turret 120, respectively.

As shown in FIG. 3, when the vessel 100 rotates about the turret 120, the first transmission cable C1 may be twisted evenly by the cable twist prevention device 200.

To this end, the insertion portion 210 of the cable twist prevention device 200 may be rotated to the left and right sides according to the degree of twist of the first power transmission cable (C1). In addition, the insertion unit 210 may be tilted back and forth around the fixing unit 220 according to the inclination angle of the power transmission cable C1.

The cable twist prevention device 200 is not limited to the section between the tower 130 and the turret 120, for example, may be installed in the first power transmission cable (C1) between the power generation unit 110 and the tower 130. have.

3 and 4, a plurality of inserting portions 210 may be arranged at a predetermined interval around the fixing portion 220 of the cable twist prevention device 200, and each inserting portion 210 may be provided with its respective agent. The power transmission cable C1 is inserted one to one.

The inserting unit 210 may be provided in a cylindrical shape, and may be arranged in a number corresponding to the number of the first power transmission cables C1 according to the interval set at the periphery of the fixing unit 220.

The fixing part 220 may be provided in a circular plate shape, and the center line L passes through the hole 221a (see FIG. 5) of the central part 221.

The fixing unit 220 is provided in plurality in spaced apart from each other, the center line (L) passing through the central hole (221a) of the fixing unit 220 is the binding means 137 provided on the support 135 of the top of the tower 130 ) May be combined.

Upper and lower ends of each fixing part 220 may be provided with a fixing holder 240 coupled to the center line (L). The fixed holder 240 may be provided as a member that can be coupled and separated to be coupled at both sides of the center line (L). Through this, the plurality of fixing parts 220 may be stably fixed at the set position.

The insertion part 210 and the fixing part 220 may be coupled by the connection part 230. One side of the connection part 230 may be rotatably coupled to the left and right sides of the fixing part 220, and the other side thereof may be fixed to the inserting part 210 by welding or the like. As another example, the connection part 230 may be manufactured integrally with the insertion part 210.

Referring to FIG. 5, a plurality of insertion parts 210 are disposed at a periphery of the fixing part 220 so as to rotate left and right by the connection part 230, and one side of the connection part 230 is bent and extended at least once inwardly. It may be inserted into the peripheral portion of the fixing portion 220 of the form. Here, one side of the connecting portion 230 may be coupled to the periphery of the fixing portion 220 by a bearing means 215 using a ball or a roller so that one side of the connecting portion 230 is rotatable.

When the vessel 100 rotates about the turret 120 through this, the insertion portion 210 is rotated to the left and right sides according to the degree of twist of the first power transmission cable (C1).

Referring to FIG. 6, as another example, one side of the connection part 230 may be coupled to the periphery of the fixing part 220 extending in one or more times in an inward direction by the rotation shaft 216. Similarly, when the vessel 100 rotates about the turret 120 through this, the insertion unit 210 may rotate left and right about the rotation shaft 216 depending on the degree of twist of the first power transmission cable C1. have.

In addition, referring to FIGS. 7A and 7B, the insertion part 210 may be tilted back and forth around the fixing part 220. To this end, the insertion portion 210 may form a protrusion 202 coupled to the other side of the connection portion 230 on one side.

The protrusion 202 is connected to the inlet 210 to be tilted together when the transmission cable C1 is tilted back and forth around the fixing part 220 as the vessel 100 rotates about the turret 120. The other side of the 230 is rotatably coupled to the front and rear side.

To this end, the protrusion 202 may be coupled to the other side of the connecting portion 230 by the insertion bar 204, and the binding nut 206 may be coupled to both sides of the insertion bar 204.

As such, when the vessel rotates about the turret through the above-described configuration, the transmission cable is erroneously twisted, thereby preventing the transmission cable from being damaged or interfering with or damaging related facilities, and the transmission cable can be stably and evenly twisted.

In the above, specific embodiments have been illustrated and described. However, the present invention is not limited only to the above-described embodiments, and those skilled in the art to which the present invention pertains can variously change variously without departing from the gist of the technical idea of the invention described in the claims below. Could be.

100: power unit 120: turret
130: tower 160: connection box
170: chain 180: cable pipe
200: cable twist prevention device 210: insertion portion
220: fixed portion 230: connection portion
C1: first power transmission cable C2: second power transmission cable

Claims (6)

A power generation unit for producing electricity;
A turret coupled to the vessel and having a hollow portion formed therein so that a plurality of power transmission cables passing electricity generated by the power generation unit pass;
A tower disposed between the power generation unit and the turret and supporting the power transmission cable; And
And a cable twist preventing device including a plurality of inserts into which each of the power transmission cables are inserted one-to-one, and a fixed portion at the periphery of which the insert is disposed.
When the vessel rotates about the turret, the insertion portion is rotated according to the degree of twist of the power transmission cable,
The cable twist prevention device further comprises a connection portion one side is rotatably coupled to the left and right sides to the peripheral portion and the other side is coupled to the insertion portion,
The insertion portion forms a protrusion coupled to the other side of the connection portion,
The protruding portion is a marine marine vessel that is rotatably coupled to the other end of the connecting portion so that the insertion portion is inclined to the front and rear side around the fixing portion according to the inclination angle of the power transmission cable. delete The method of claim 1,
One side of the connecting portion is inserted into the periphery of the fixing portion of the form extending bent at least once in the inward direction, marine fixed vessels coupled to the fixing portion peripheral portion and the bearing means. The method of claim 1,
One side of the connection portion is inserted into the periphery of the fixing portion of the form extending bent at least once in the inward direction, the marine vessel for marine coupled to the fixed portion peripheral portion by the rotation axis. delete The method of claim 1,
The fixing portion is provided in plurality, spaced apart from each other,
A center line which passes through the central hole of the fixing part and is coupled with a binding means provided on a support of the upper end of the tower;
And a fixed holder provided at upper and lower ends of the fixed part so as to be fixed at a predetermined position.

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