KR20160083331A - Floating-type offshore structures - Google Patents

Abstract

The present invention relates to a floating-type offshore structure comprising: a main floating body disposed to float on the sea; a position control unit connected to the main floating body to control a position of the main floating body; and a movement restraining unit connected to the main floating body and absorbing waves of the sea transmitted in the direction toward the main floating body to allow the main floating body to be maintained in a balanced state. In this manner, in the floating-type offshore structure, in a state in which the main floating body is installed to float on the sea, wave kinetic energy generated in a direction toward the main floating body on the sea is absorbed by reciprocal kinetic energy in a vertical direction generated by the position control unit and the movement restraining unit, and thus, the main floating body is prevented from being moved by waves and maintained in a stable balanced state on the sea.

Description

{Floating-type offshore structures}

The present invention relates to a floating marine structure which is arranged to float on the sea.

In general, marine structures can be moored floating on the sea surface and classified into various types according to their functions, structures, and mooring methods. For example, offshore structures can be classified into many types, such as Semi-Submersible (SEMI), Tensioned Leg Platform (TLP), SPAR, Floating, Production, Storage and Off-loding, FSRU, Of the sea structure.

However, in the conventional floating structure, there is a problem in stability due to the roll motion in which the hull of the offshore structure is shaken to the left and right by the wave.

Such a conventional floating structure is disclosed in Korean Patent Registration No. 10-0823140 (2008.04.11).

SUMMARY OF THE INVENTION It is an object of the present invention to provide a floating structure capable of absorbing waves generated in the sea while maintaining a stable floating state.

The present invention relates to a main body fluid which is arranged in a floating state on the sea, a position control means which is connected to the main body fluid and controls the position of the main body fluid, And a buoyancy restraining means for absorbing the sea wave transmitted in a direction of the main floater to maintain the main floater in an equilibrium state.

In addition, the main part fluid may have a ring shape that penetrates the central part in the vertical direction.

In addition, a plurality of through holes may be formed around the main part fluid.

The position control means may include a pair of base bar members arranged to face one side and the other side and support bars connecting the base bar members to each other, A moving bar having an airfoil cross-sectional structure in which both sides of the moving bar are rotatably connected to the base bar in a state where they are disposed between the base bar members; A plate-shaped interlocking plate connected to one end of the moving plate and having a connecting bar formed on both sides thereof, and a connecting bar connected to one side of the interlinking plate in a state where the connecting bar is installed on one side of the base bar member, A rotary generator for generating electric power by rotation of the interlocking plate which is vertically moved by the vertical movement of the interlocking plate, A rotation driving unit electrically connected to the rotary power generation unit and generating power to be supplied with power from the rotary power generation unit and rotating the interlocking plate; and a control unit electrically connected to the rotary power generation unit and the rotation driving unit, And a drive control unit for controlling whether or not the electric power produced in the rotary power generator is supplied to the rotary drive unit.

The rotation generator includes a first crankshaft having a first flywheel at one end and a first flywheel at the other end in a state where the first flywheel is coupled to the first rotation shaft, and a second crankshaft having one end connected to the first flywheel, And a generator connected to the first rotation shaft of the power generation gear box and generating power by receiving the rotational force of the first rotation shaft.

The rotation driving unit may include a second crankshaft having one end coupled to the second rotation shaft and a second flywheel provided at the other end, and a second crankshaft having one end coupled to the second flywheel and the other end connected to the other end of the interlinking plate A drive gear box having a second link member connected to the bar, a reduction gear box connected to the second rotation shaft of the drive gear box, and a drive motor connected to the reduction gear box.

The vibration suppressing means includes a plurality of first absorption plates, one end of which is hingedly coupled to the main part fluid in a vertically rotatable manner in a state of being spaced apart from each other along the circumferential direction of the main part fluid, And a second absorption plate hinged to the other end of the first absorption plate so as to be rotatable in the up-and-down direction.

The vibration suppression means may further include a connection wire for interconnecting the second absorption plates disposed adjacent to each other.

In the floating structure according to the present invention, the wave kinetic energy generated in the direction from the sea to the main fluid in a state in which the main fluid is floated on the sea is generated by the position control means and the vibration suppressing means As a result of being absorbed by the reciprocating kinetic energy, it is possible to maintain a stable equilibrium state on the sea while preventing the main float body from fluctuating under the influence of waves.

1 is a perspective view of a floating marine structure according to an embodiment of the present invention.
2 is a perspective view of the position control means shown in Fig.
3 is an enlarged perspective view of the moving plate shown in Fig.
4 is a schematic perspective view of the rotary power generation unit shown in Fig.
5 is a schematic perspective view of the rotation drive unit shown in Fig.
Fig. 6 is a schematic configuration diagram of the gear box shown in Figs. 4 and 5. Fig.
7 is a partially enlarged perspective view of Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

FIG. 1 is a perspective view of a floating structure according to an embodiment of the present invention, and FIG. 2 is a perspective view of the position control means shown in FIG. 1. FIG. Referring to FIGS. 1 and 2, the floating structure includes a main body fluid 100, a position control unit 200, and a vibration suppressing unit 300.

The main inflow fluid 100 is a structure disposed in the marine state with the position control means 200 and the fluctuation restraining means 300 provided thereafter. The main body fluid 100 is a structure having buoyancy to float in the sea. In the embodiment, the main body fluid 100 is shown as a circular ring structure having a central portion vertically penetrated. However, the present invention is not limited thereto. Or a plate-shaped block structure having various shapes other than a plate-shaped circular block structure that does not penetrate the center portion.

A plurality of through holes 110 may be formed around the main inflow fluid 100 so as to pass through the inside and the outside of the main inflow fluid 100. The through hole 110 reduces the contact area with the water surface in a state where the main body fluid 100 is arranged to float on the sea surface so that the wave resistance applied to the main body fluid 100 is minimized The movement performance of the main inflow fluid 100 is improved and the wave energy of the waves is reduced when the main inflow fluid 100 is transmitted to the main inflow fluid 100.

In addition, the main inflow fluid 100 according to an embodiment may be equipped with a power generation facility (not shown) using wind power or solar light, or an airport facility (not shown) capable of taking off and landing an airplane, But it is needless to say that various structures such as a research facility, a factory, and various plant facilities, which are generally installed on land, may be provided in a floating state.

The position control means 200 is connected to the main body fluid 100 to control the position of the main body fluid 100 in the sea. That is, the position control unit 200 generates thrust force while rotating in the up and down direction in the sea, thereby adjusting the position of the main fluid 100. The plurality of position control means 200 are spaced apart from each other along the outer circumferential direction of the lower end of the main body fluid 100. The position control means 200 includes a support frame 210, a moving plate 220, an interlocking plate 230, a rotation generating unit 240, a rotation driving unit 250, and a driving control unit 260.

The support frame 210 is a frame member for supporting the motion plate 220, the rotation generating unit 240, and the rotation driving unit 250 to be described later. Here, the support frame 210 includes a pair of base bars 211 which are mutually connected to each other in the longitudinal direction of the base bar 211 in a state where a pair of base bar members 211 are disposed so as to face each other on one side and the other side, And a bar 212 having a rectangular frame structure. The support frame 210 is coupled to the outer surface of the main body fluid 100 in a state where a plurality of the support frames 210 are spaced from each other along the circumferential direction of the lower end of the main body fluid 100.

In this case, the moving plate 220 is disposed between the base bar members 211 and the inside of the support frame 210, more specifically, both sides of the base bar member 211 are rotatably connected to the base bar member 211 do. The rotation generating unit 240 is coupled to the base bar member 211 disposed on one side of the support frame 210 and more specifically to the base bar member 211 disposed on the other side. And a driving unit 250 are coupled.

The moving plate 220 is rotatably and hingably connected to the base bar member 211 on the inner side of the supporting frame 210, that is, between the base bar members 211. The moving plate 220 has an airfoil sectional structure to facilitate the flow of the fluid in the sea. Here, the moving plate 220 generates kinetic energy in a direction opposite to the direction in which the wave kinetic energy acts. In other words, since the moving plate 220 rotates under the influence of waves and generates kinetic energy, the position of the main fluid 100 is influenced by the wave, so that the position is not changed.

Referring to FIG. 3, a plurality of protrusions 221 may be formed in the longitudinal direction of the upper surface of the moving plate 220 and the longitudinal direction of the lower surface of the moving plate 220. Here, the protrusions 221 generate turbulence on the upper surface and the lower surface of the moving plate 220, thereby increasing thrust and lift. That is, the protrusion 221 increases the kinetic energy generated when the moving plate 220 rotates due to the influence of waves.

A plurality of dimples 222 or protrusions (not shown) may be formed along the longitudinal direction of the moving plate 220 at the lower surface of the moving plate 220, that is, at a position adjacent to the protrusion 221, May be formed. It should be noted that the dimples 222 or protrusions may be formed on the upper surface and the entire lower surface of the moving plate 220 instead of the plurality of protrusions 221 formed on the upper surface and the lower surface of the moving plate 220 .

The interlocking plate 230 is connected to one end of the moving plate 220, that is, an opposite end of the end portion of the main body fluid 100 that faces the outside, and the moving plate 220 is connected to the supporting frame 210 Like member which is to be linked with rotation motion of the plate-like member. At this time, the interlocking plate 230 is formed as a plate having an elastic force so as to receive kinetic energy generated from the moving plate 220 and to increase kinetic energy in the vertical direction when corresponding to the kinetic energy.

One end of the interlocking plate 230 is connected to one end of the moving plate 220 in a state in which the interlocking plate 230 is disposed inside the support frame, . The connection bar 231 is connected to the rotation generator 240 and the rotation driving unit 250, which will be described later, on both sides of the interlocking plate 230, that is, Respectively. That is, the rotary power generator 240 is connected to the connection bar 231 formed on one side of the interlocking plate 230, and the rotation driving part 250 is connected to the connection bar 231 formed on the other side of the interlocking plate 230 .

The rotation generating unit 240 generates a rotation force from the interlocking plate 230 when the interlocking plate 230 is vertically reciprocally moved in accordance with the rotation of the moving plate 220 due to a wave in the sea, It receives energy and converts it into electric energy to produce electric power. The rotation generator 240 is connected to the connecting bar 231 on one side of the interlocking plate 230 in a state where it is coupled to the base bar member 211 on one side. Referring to FIG. 4, the rotary power generator 240 includes a power generator gear box 241 and a generator 246.

The power generator gear box 241 converts the up and down reciprocating motion of the moving plate 220 and the interlocking plate 230 into rotational motion. Referring to FIG. 6, a first crankshaft 243 having a first flywheel 244 at one end thereof and a first flywheel 244 coupled to the first rotation shaft 242 is installed in the power generation gear box 241, And a first link member 245 coupled to the first flywheel 244 and having the other end connected to the connecting bar 231 on one side of the interlocking plate 230. At this time, a guide groove 241a for guiding the connection bar 231 on one side of the interlocking plate 230 to move up and down is formed on one side of the power generation gear box 241.

The generator 246 is connected to the first rotary shaft 242 of the power generator gear box 241. The generator 246 receives the rotational force of the first rotation shaft 242 to produce electric power.

When the interlocking plate 230 moves upward and downward in conjunction with the motion of the moving plate 220 moving upward and downward by waves, the connecting bar 231 on one side of the interlocking plate 230 contacts the power generating gear box 241 The first link member 245 connected to the connecting bar 231 moves up and down the first flywheel 244 when the connecting bar 231 moves upward and downward along the guide groove 241a of the connecting bar 231, The first rotary shaft 242 is rotated and the generator 246 is driven by the rotational force of the first rotary shaft 242 to produce electric power.

Here, the rotary power generator 240 may include a battery facility (not shown) capable of storing the electric power generated by the generator 246.

The rotation driving unit 250 receives the electric power generated by the rotation power generator 240 and drives the interlocking plate 230 to reciprocate upward and downward. The rotation driving part 250 is coupled to the connecting bar 231 on the other side of the interlocking plate 230 in a state where the rotation driving part 250 is coupled to the other base bar 211. In addition, the rotation driving unit 250 is electrically connected to the rotation generating unit 240. Referring to FIG. 5, the rotation driving unit 250 includes a driving gear box 251, a reduction gear box 256, and a driving motor 257.

The driving gear box 251 converts a rotational motion of a driving motor, which will be described later, in a vertical reciprocating motion so that the moving plate 220 and the interlocking plate 230 can reciprocate in a vertical direction. 6, the driving gear box 251 includes a second crankshaft 253 having a second flywheel 254 at one end thereof coupled to the second rotation shaft 252, And a second link member 255 coupled to the second flywheel 254 and having the other end connected to the connecting bar 231 on the other side of the interlocking plate 230. At this time, a guide groove 251a for guiding the connecting bar 231 on the other side of the interlocking plate 230 to move up and down is formed on the other side of the driving gear box 251. Here, the second rotation shaft 252 may be provided with a clutch means for selectively blocking the transmission of power.

The reduction gear box 256 allows the rotation speed generated by the drive motor 257 to be transmitted to the drive gear box 251 in a decelerated state. That is, the reduction gear box 256 is connected to the drive shaft of the drive motor 257 and the second rotation shaft 252 of the drive gear box 256 with a reduction gear (not shown) Respectively.

The driving motor 257 generates a driving force to vertically move the connecting bar 231 on the other side of the interlocking plate 230. The drive motor 257 is installed to be connected to the shaft portion of the reduction gear box 256 while the drive shaft is coupled to the base bar member 211 disposed on the other side of the support frame 210.

The driving control unit 260 controls the operation of the rotation driving unit 250. That is, the drive control unit 260 is electrically connected to the generator 246 of the rotation generator 240 and the drive motor 257 of the rotation drive unit 250, And controls whether or not power is supplied to the rotation driving unit 250. [ If the position of the main fluid 100 is not controlled only by the kinetic energy generated from the motion plate 220 when the environment or condition of the marine environment deteriorates and the wind or wave is severe, So that the moving plate 220 is forcibly driven arbitrarily. Here, the drive controller 260 may be provided with a sensing unit (not shown) capable of measuring wind or wave intensity at the sea.

In addition, the position control means 200 may further include a GPS (not shown) to receive the current position of the main fluid 100 by the satellite, and then, based on the received position data, It is also possible to adjust the position of the main fluid 100 by driving the driving motor 257 of the main fluid unit 250.

The vibration suppression means 300 absorbs the wave motion energy transferred to the main body fluid 100, so that the main body fluid 100 can stably maintain the equilibrium state in the sea. That is, the vibration suppressing means 300 is arranged to float on the sea in a state of being connected to the main body fluid 100, so that the wave motion energy generated in the sea is transmitted to the outer wall direction of the main body fluid 100 The wave motion energy is generated by the reciprocating motion in the up and down direction by the wave kinetic energy, and the wave kinetic energy generated in the wave is absorbed. A plurality of the vibration restraining means 300 are spaced apart from each other around the lower end outer surface of the main inflow fluid 100. Referring to FIG. 2, the vibration suppressing means 300 includes a first absorption plate 310 and a second absorption plate 320. Here, the first absorption plate 310 and the second absorption plate 320 are formed to have buoyancy to float on the sea while being connected to the lower end of the main body fluid 100.

A plurality of first absorbing plates 310 are spaced apart from each other at regular intervals along a lower outer circumferential direction of the main absorbing plate 100. One end of the first absorbing plate 310 is connected to the main absorbing plate 310, 100) connected to the lower outer side. One end of the first absorption plate 310 is connected to the main body fluid 100 as a hinge 340 so as to be rotatable up and down.

The second absorption plate 320 is a plate-shaped member connected to the first absorption plate 310. Here, the second absorbing plate 320 may be spaced apart from the first absorbing plate 310 along the outer circumferential direction of the lower end of the main absorbing plate 310, similarly to the first absorbing plate 310 described above. That is, one end of the second absorption plate 320 is coupled to the other end of the first absorption plate 310 as a hinge 340 so as to be rotatable in the up-and-down direction.

The first absorption plate 310 and the second absorption plate 320 are connected to each other so as to be rotatable in the vertical direction and the first absorption plate 310 is connected to the main body fluid 100 again The first absorbing plate 310 and the second absorbing plate 320 are rotationally moved in the up and down direction under the influence of the wave kinetic energy generated in the sea and generate kinetic energy And absorbs the wave kinetic energy transmitted in the direction of the main body fluid 100, so that the main body fluid 100 can be kept in an equilibrium state while preventing the main body fluid 100 from being fluctuated under the influence of waves.

The area of the first absorption plate 310 floating on the sea surface is larger than the area floating on the sea surface of the second absorption plate 320, When the first absorption plate 310 itself absorbs the kinetic energy and then reciprocates in the vertical direction when the reciprocating motion of the first absorption plate 310 in the vertical direction is transmitted to the first absorption plate 310, As the contact area with the surface increases, the kinetic energy transfer efficiency to the sea increases, and the wave motion energy transfer in the direction of the main fluid 100 is suppressed.

The vibration suppression means 300 may be provided with a connection wire 330 having a ring structure for interconnecting the second absorption plates 320 spaced apart from each other in the circumferential direction of the main inflow fluid 100 . That is, the connection wires 330 connect the second absorption plates 320 adjacent to each other. The connection wire 330 is connected to the first absorption plate 310 and the second absorption plate 320 at a corresponding position where kinetic energy is generated in the vertical direction under the influence of waves, The first absorbing plate 310 and the second absorbing plate 320 are dispersedly transmitted to the main absorbing plate 310 and the main absorbing plate 320 so that the influence of the wave on the main absorbing layer 100 can be minimized. Here, the connection wire 330 may be formed of rubber or synthetic resin having softness, but it is not limited thereto and may be formed of a metal resistant to corrosion or may be coated with rubber or synthetic resin. In addition, the connection wires 330 may be additionally provided to connect the first absorption plates 310 adjacent to each other.

The operation of the floating structure according to an embodiment of the present invention will now be described. First, in the state where the main body fluid 100 is floated on the sea surface, The wave is maintained in a stable equilibrium state by the kinetic energy being absorbed by the position control means 200 and the vibration suppressing means 300. That is, the wave kinetic energy transmitted from the sea to the main body 100 in the direction of the main body fluid 100 is transmitted to the kinetic energy of the motion plate 220 and the interlocking plate 230 of the position control means 200, And the first absorbing plate 310 and the second absorbing plate 320 of the vibration suppressing means 300 are absorbed through the kinetic energy through the rotational movement in the up and down direction to be transmitted to the main fluid 100 So that the main fluid 100 can maintain a stable equilibrium state in the sea.

If the waves generated from the sea are severely over a certain range, that is, when the wave motion energy transmitted from the sea to the main body 100 in the direction of the main body fluid 100 is greater than a certain range, The rotation drive unit 250 forcibly drives the motion plate 220 to control the position. That is, when the drive motor 257 of the rotation drive unit 250 is driven to receive the electric power generated from the generator 246 of the rotation generator 240, the second rotation axis of the drive gear box 251 When the second rotation shaft 252 rotates, the second crankshaft 253 rotates corresponding to the rotation of the second rotation shaft 252, so that the second link member 255 is operated.

When the second link member 255 is operated as described above, the connecting bar 231 on the other side of the interlocking plate 230 interlocks with the second link member 255 to guide the driving gear box 251 251a in the vertical direction. When the connecting bar 231 on the other side of the interlocking plate 230 reciprocates in the vertical direction, the moving plate 231 reciprocally moves upward and downward to adjust the floating position of the main fluid 100 .

As described above, in the floating structure of the embodiment, the wave motion energy generated in the direction from the sea to the main body fluid 100 in the state where the main body fluid 100 is installed to float on the sea is the position Is absorbed by the upward and downward reciprocating kinetic energy generated by the control means (200) and the vibration suppressing means (300), and the main body fluid (100) is prevented from fluctuating under the influence of waves, So that a stable equilibrium state can be maintained.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: main fluid 200: position control means
210: support frame 220:
230: interlocking plate 240: rotation generator section
250: rotation driving unit 260:
300: shake suppression means 310: first absorption plate
320: second absorbing plate 330: connecting wire

Claims (8)

A main float disposed in a floating state on the sea;
Position control means connected to the main fluid to control the position of the main fluid; And
And a buoyancy restraining member connected to the main buoyant and absorbing the sea wave transmitted in the direction of the main buoyant to maintain the main buoyant in an equilibrium state. The method according to claim 1,
Wherein the main subfluid has a ring shape having a central portion vertically penetrating the floating structure. The method according to claim 1 or 2,
And a plurality of through holes penetrating around the main part fluid. The method according to claim 1,
The position control means,
A plurality of support frames spaced apart from each other along a circumferential direction of the lower end of the main part of the main body, a pair of base bar members arranged to face one side and the other side,
A moving plate having an airfoil cross-sectional structure in which both sides thereof are rotatably connected to the base bar member while being disposed between the base bar members,
A plate-like interlocking plate connected to one end of the moving plate in a state of being disposed between the base bar members and having an elastic force having connection bars formed on both sides thereof,
A rotary power generator connected to a connection bar on one side of the interlocking plate in a state where it is installed on one side of the basic bar member and generating electric power by rotation of the interlocking plate moving up and down by a wave in the sea;
A rotation driving part connected to the connection bar on the other side of the interlocking plate provided on the other side of the basic bar member and electrically connected to the rotation power generating part to generate a driving force for receiving the electric power from the rotation power generation part,
And a drive control unit electrically connected to the rotation power generation unit and the rotation drive unit and controlling whether the power generated by the rotation power generation unit is supplied to the rotation drive unit. The method of claim 4,
The rotation generator includes:
A first crankshaft having a first flywheel at one end thereof and a first flywheel at one end thereof coupled to the first rotation shaft, a first link shaft having one end connected to the connection bar at one side of the interlinking plate, A power generation gear box having a member,
And a generator connected to the first rotary shaft of the power generating gear box and generating power by receiving the rotary power of the first rotary shaft. The method of claim 4,
The rotation drive unit includes:
A second crankshaft having one end connected to the second rotation shaft and the other end having a second flywheel, a second link having one end connected to the connection bar on the other side of the interlinking plate in a state where the one end is coupled to the second flywheel, A drive gear box having a member,
A reduction gear box connected to the second rotation shaft of the drive gear box,
And a drive motor connected to the reduction gear box. The method according to claim 1,
Wherein the shaking-
A plurality of first absorbing plates hingedly coupled to the main body fluid in a vertically rotatable manner with one end thereof being spaced apart from each other along a circumferential direction of the main body fluid,
And a second absorption plate rotatably hinged to the other end of each of the first absorption plates in a vertical direction. The method of claim 7,
Wherein the vibration suppressing means further comprises a connecting wire interconnecting the second absorption plates disposed adjacent to each other.

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