KR20120064914A - Mooring apparatus for floating body - Google Patents

Abstract

PURPOSE: A mooring device for a floating body is provided to reduce load applied to a mooring line and by arranging an optimal mooring line according to the draft of floating bodies or environmental conditions life the wave, the wind, the tidal current. CONSTITUTION: A mooring device for a floating body comprises a choke part(100) and a guide part(200). The choke part fixes a mooring line. The guide part is fixed in a floating body and guides the choke part. A hook or a hanging sill for binding or hanging the mooring line is formed in the choke part.

Description

Floating apparatus for floating body

The present invention relates to a mooring device used for mooring a float such as a ship or a marine facility.

Marine structures, such as LNG-FPSO (Liquefied Natural Gas-Floating Production Storage Offloading) or LNG-FSRU (Liquefied Natural Gas-Floating Storage and Re-Gasification Unit), are connected to LNG carriers (LNGC) The LNG is unloaded in a parallel mooring state.

1 is a schematic diagram showing a state in which two floating bodies 20 are in parallel mooring as described above.

Referring to FIG. 1, in connecting two floating bodies 20 in a parallel mooring state, a mooring line 21 and an anti-glare which connect two floating bodies 20 are provided. Fender 22 is used.

Each of the floats 20 includes a winch 32 for adjusting the length by pulling or releasing the mooring line 21 and a choke 31 fixedly installed on the float 20. Is provided, the end of the mooring line 21 is length-adjusted by the winch 32 in a state of being restrained at a predetermined position on the floating body 20 by the choke (31).

The loads are applied to the floating body in the state of parallel mooring by waves, wind, tidal flow, etc., and the load can be kept below the design load of the mooring line and the fender to keep the position and spacing constant.

The load acting on the mooring line and the fender is an important factor that determines the working performance between the parallel mooring floats. As the load and stress applied to the mooring lines decrease, the mooring of the float can be more stable.

Embodiments of the present invention, to provide a floating mooring device that can further reduce the load on the mooring line even in the same environment, waves, wind, tidal current.

According to one aspect of the invention, the mooring device for fixing or restraining the end of the mooring line 21 on the floating body 10, the choke portion (100) for fixing the mooring line (21); And a guide part 200 fixedly installed at the float 10 and guiding the choke part 100. A floating mooring device may be provided.

In addition, the choke part 100 may be formed with a hook or a locking step for binding or hanging the mooring line 21.

In addition, the guide portion 200, a rail 210 having a slit 212 formed between the separation prevention jaw 211 and the separation prevention jaw 211 formed by bending the upper side portions; And a lower portion of the rail is inserted into the separation prevention jaw 211 of the rail, and an upper portion thereof is connected to the choke portion 100 through the slit 212 so that the choke portion 100 follows the rail 210. It may be configured to include; a slider 220 to be movable.

In addition, the position fixing part 400 is provided with a through-hole 410 formed through both side portions of the rail 210 and a fixing bar 420 penetrating through the through-hole 410 and the rail 210. It may be configured to include more.

In addition, the through holes 410 may be formed in one row or a plurality of rows along the longitudinal direction of the rail 210.

In addition, the choke unit 100 and the slider 220 is installed between, and the lifting unit 300 for moving the choke unit 100 up and down; may be further configured to include.

In addition, the lifting and moving unit 300 may include a cylinder for moving the choke unit 100 up and down by stretching and driving.

The controller may further include a controller configured to receive the information regarding the draft of the floating body 10 and to stretch the cylinder.

According to embodiments of the present invention, depending on the environmental conditions such as waves, wind, tidal current or the draft of the floating body, it is possible to reduce the load on the mooring line while configuring the optimum mooring line arrangement.

1-Schematic diagram showing two floating bodies in parallel
Figure 2-Schematic diagram showing a floating mooring device according to an embodiment of the present invention
3-AA, BB cross-sectional view of FIG.
Figure 4-Schematic diagram showing the state of use of the floating mooring device according to the direction of the wave, wind, tide
5-Schematic diagram showing the state of use of the floating mooring device according to the draft of the floating body
6-Schematic diagram showing the use state of the floating mooring device in the state in which the floating body is mooring to the quay wall

Figure 2 is a schematic diagram showing a floating mooring apparatus according to an embodiment of the present invention, Figure 3 (a), (b) is a cross-sectional view A-A, B-B of FIG.

The floating mooring device according to the present invention is a mooring device for fixing or restraining an end portion of the mooring line 21 on the floating body 10, and the choke which is conventionally fixedly installed to the floating body (reference numeral 31 in FIG. 1). Can be applied as an alternative.

Referring to Figure 2, the floating mooring apparatus according to an embodiment of the present invention, has a structure consisting of a choke portion 100, a guide portion 200.

The choke part 100 is a component that provides a hook or a hook to bind or hang the end of the mooring line 21, and a hook or a hook to bind or hook the end of the mooring line 21. It is not limited to a specific structure and shape if provided, it can be applied in various embodiments suitable for the purpose, use environment, etc. of the float.

The guide part 200 is provided with a rail 210 for guiding the choke part 100 in a horizontal direction and is fixed to the floating body 10. Referring to (a) and (b) of FIG. 3, the guide part 200 includes a slider 220 which is moved along a length direction of the rail 210 on the rail 210 and the rail 210. Has a structure consisting of

The rail 210 has a cross-sectional shape that can accommodate the lower portion of the slider 220, the upper portion of the rail 210, the lower portion of the slider 220 located inside the rail 210 to the upward pressing force A separation prevention jaw 211 is formed to prevent the rail 210 from being separated to the outside through the opening of the upper portion of the rail 210.

The lower portion of the slider 220 is guided by the side portion of the rail 210 in a state inserted into the separation prevention jaw 211 is moved along the longitudinal direction of the rail (210).

In order to smoothly move the slider 220, a cloud member such as a wheel is installed at the lower end of the slider 220, a lubricant is applied between the rail 210 and the slider 220, or a ball shape The bearing member of can be inserted.

On the upper portion of the rail 210 in which the separation prevention jaw 211 is formed, a slit 212 narrower than the inside of the rail 210 into which the lower portion of the slider 220 is inserted is formed, and the slider ( An upper portion of the 220 passes through the slit 212 and is connected to the choke part 100.

When the user pushes or pulls the choke part 100 located outside the rails 210 in the longitudinal direction of the rails 210, the slider 220 is moved inside the rails 210 to the rails 210. By moving along, it is possible to easily move the choke unit 100 to a desired position.

In addition, one embodiment of the present invention, the upper and lower portions are respectively connected to the choke portion 100 and the guide portion 200, the cylinder for moving the choke portion 100 up and down by the stretching drive (drawing reference) It may further include a lifting moving part 300 is provided with a not shown. Among the cylinders provided in the lifting moving part 300, the lower portion having a cylindrical shape is connected to the slider 220, having a piston shape up and down The upper part to be moved may be connected to the choke part 100 to adjust a vertical direction (up and down direction) position of the choke part 100 by operating and controlling the cylinder of the elevating moving part 300.

In controlling the cylinder of the elevating moving part 300, the user may directly manipulate and control the cylinder. However, when information about the draft of the floats 10 and 20 is inputted, it is automatically changed according to the relative draft difference between the floats 10. In addition, a control unit (not shown) for stretching and driving the cylinder may be provided for automatic control.

On the other hand, after moving the choke portion 100 to the desired position on the rail 210, the position is fixed to maintain the stopped state without being moved arbitrarily by the tension transmitted through the mooring line 21, etc. Position fixing part 400 may be further provided.

In one embodiment of the present invention, the position fixing portion 400, has a structure consisting of a through-hole 410 and the fixing bar 420.

The through hole 410 is formed through the side portion of the rail 210 in a direction perpendicular to the direction in which the rail 210 extends, and the fixing bar 420 passes through the through hole 410. It is fastened and fixed to the rail 210 while crossing the inside of the rail 210.

After the user pushes or pulls the choke unit 100 to a desired position on the rail 210, the user inserts the inside of the rail 210 as shown in FIGS. 2 and 3 (b). The choke part 100 and the slider 210 may be fixed and stopped by inserting the fixing bar 420 into the through holes 410 which are adjacent to both ends of the slider 220.

In the exemplary embodiment of the present invention shown in FIGS. 2 and 3, the through holes 410 are formed in a line along the length direction of the rail 210, but the plurality of fixing bars 420 are formed in a plurality of rows. By mounting in a plurality of rows) both ends of the slider 220 may be more stably fixed and supported, the fixing bar 420 also has a simple shape such as bolts, nails, rods, the handle is further formed It may have a variety of structures, including the embodiment.

Figure 4 (a), (b) is a schematic diagram illustrating a suitable method of using the floating mooring device according to the direction of the wave, wind, tide.

Floating body (10, 20) is to move in the direction of the action of the wave, wind, tide, etc., as shown in Figure 4 (a), the wave, the wind, such as bow side or stern side (left and right in Figure 4 Direction, the floating body 10, 20 is moved in the front and rear direction, as shown in Figure 4 (b), waves, wind, etc. When the floats 10 and 20 act in the vertical direction of 4, the floats 10 and 20 move in the left and right directions.

As shown in (a) of FIG. 4, when the floats 10 and 20 move in the front and rear directions, the mooring line 21 is a direction in which waves, wind, and tidal currents act, that is, the float 10. When connected to the floating body (10, 20) to have a more extended length in the front and rear direction of, 20, compared to the case of having a longer length in the left and right directions of the floating body (10, 20), 21) can reduce the load on.

On the contrary, as shown in (b) of FIG. 4, when the floats 10 and 20 move in the left and right directions, waves, wind, and tidal currents act, that is, the lateral directions of the floats 10 and 20. When the mooring line 21 is connected to the floats 10 and 20 so as to have a longer length, the mooring line 21 is compared with the case where the floats 10 and 20 extend in the front and rear directions of the floats 10 and 20. The load on the line 21 can be reduced.

As described above, when the wave, wind, tide, etc. act on the floating body (10, 20), the position of the choke portion 100 along the direction of the wave, wind, tide, etc. along the rail 210 While moving, the load acting on the mooring line 21 can be further reduced.

5 (a) and 5 (b) are schematic diagrams for explaining a suitable method of using the floating mooring device according to the draft of the floating body 10.

When unloading of LNG, oil, etc. is carried out on the floating body, the draft of the floating body 10 changes as the working time elapses. As the mooring line 21 is horizontal, the load on the mooring line 21 is increased. Less work.

As shown in (a) of FIG. 5, when the floating body 10 provided with the floating mooring apparatus according to the present invention is located at a lower side relative to the other floating body 20, the choke part 100 is provided. By operating the cylinder of the lifting and moving unit 300 to move upward, it is possible to reduce the load acting on the mooring line (21).

In addition, as shown in (b) of FIG. 5, when the floating body 10, in which the floating mooring apparatus according to the present invention is installed, is located at an upper side relative to the other floating body 20, the choke part ( By operating the cylinder of the lifting unit 300 to move the downward 100, it is possible to reduce the load acting on the mooring line (21).

6 is a schematic view showing a state in which the floating body 10 provided with the floating mooring apparatus according to the present invention is moored on the inner wall.

2 to 5 show an embodiment in which the floating mooring apparatus according to the present invention is installed in one of the two floating bodies, but may be provided in all of the two floating bodies, as shown in FIG. It can also be applied to moorings on berths, such as the quay wall, but not between the floating bodies.

In the case of mooring the float 10 on the inner wall, the choke (see 31 in FIGS. 1, 4, 5), the winch 32, and the bit of the inner wall of the float 10 are generally moored. 21), by installing the floating mooring device according to the present invention in place of the choke provided in the floating body 10, acting on the mooring line 21 in a manner as shown in Figs. The quay wall can be used efficiently while reducing the load.

10, 20: floating body 21: mooring line
31: choke 32: winch
100: choke 200: guide
210: rail 211: release prevention jaw
212: slit 220: slider
300: moving section 400: position fixing
410: through hole 420: fixed bar

Claims (8)

In a mooring device for fixing or restraining the end of the mooring line on the floating body,
A choke for fixing the mooring line; And
A guide part fixed to the floating body and guiding the choke part;
Floating mooring device, characterized in that comprising a.
The method of claim 1, wherein the choke portion,
Floating mooring device, characterized in that the hook or hooking to bind or mooring the mooring line is formed.
The apparatus according to claim 1,
A rail formed with a slit between the separation prevention jaw and the separation prevention jaw formed at both upper side portions; And
A lower portion of the slider is inserted into the separation prevention jaw of the rail and an upper portion thereof is connected to the choke portion through the slit to allow the choke portion to move along the rail;
Floating mooring device, characterized in that comprising a.
The method of claim 3,
A position fixing part provided with a through hole formed through both side portions of the rail and a fixing bar penetrating the through hole and the inside of the rail;
Floating mooring device, characterized in that further comprises.
The method of claim 4, wherein the through hole,
Floating mooring device, characterized in that formed in one row or a plurality of rows along the longitudinal direction of the rail.
The method of claim 3,
An elevating moving part installed between the choke part and the slider to move the choke part up and down;
Floating mooring device, characterized in that further comprises.
The method of claim 6, wherein the lifting moving unit,
A cylinder for moving the choke part up and down by a stretch drive;
Floating mooring device, characterized in that comprising a.
The method of claim 7, wherein
A controller configured to stretch-drive the cylinder by receiving information on the draft of the floating body;
Floating mooring device, characterized in that further comprises.

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