KR101300707B1 - Topside load support structure of floating ocean construct - Google Patents

Abstract

The present invention relates to a support structure of a superstructure of a floating marine structure, and more particularly, to a support structure for maximizing the space utilization of the superstructure of a floating marine structure.
According to the present invention, a support structure for supporting a module constituting the upper structure of the floating offshore structure, which is formed on the hull 500 constituting the substructure of the floating offshore structure to support the load of the module 100 A plurality of module support member 510; A plurality of second longitudinal support members 320 formed at a lower edge of the module 100 and positioned on a longitudinal center line of each of the module support members 510; A plurality of third longitudinal support members 330 formed at a lower edge of the module 100 and supporting an area portion of the module 100 that exceeds an area formed by the plurality of module support members 510. ); And a side brace 420 formed at a lower portion of the module 100 and positioned between the plurality of third longitudinal support members 330. Provide structure.

Description

SUPPORT STRUCTURE OF FLOATING OCEAN CONSTRUCT

The present invention relates to a support structure of a superstructure of a floating marine structure, and more particularly, to a support structure for maximizing the space utilization of the superstructure of a floating marine structure.

As the importance of developing marine resources increases, many types of offshore structures besides ships are being installed at sea. Most offshore structures are floating by the sea.

As used herein, a marine structure is generally a concept that includes a vessel that operates the ocean as well as a structure that is used to float in the ocean where the flow occurs.

In other words, it has a storage tank that stores liquid cargo loaded at cryogenic conditions, such as LNG, and includes both a structure and a vessel used floating in the sea where the flow occurs, for example LNG FPSO (Floating, Production This includes all ships such as LNG carriers or LNG Regasification Vessels (RVs), as well as offshore structures such as storage and offloading and LNG floating storage and regasification units (FSRUs).

LNG FPSO is a floating type that is used for drilling natural seas to produce natural gas, liquefy the produced natural gas directly from the sea and store it in LNG storage tank, and transfer LNG stored in LNG storage tank to LNG transport ship if necessary. Nautical structures. In addition, the LNG FSRU is a floating offshore structure that stores LNG unloaded from an LNG carrier in an LNG storage tank in a sea far from the land, and then vaporizes LNG as needed to supply it to land demand.

This offshore structure has a structure in which a hull supports a topside, and a topside module installed on the top structure is composed of several unit modules depending on its role. It is installed apart with a gap of about 600mm ~ 1200mm.

In particular, LNG FPSO, LNG storage tank for storing liquefied LNG in the hull (hull) forming a lower structure, a deck is installed on the top of the hull, the deck liquefied natural gas produced by drilling the seabed Various equipments are installed in the form of modules.

Since these modules can weigh thousands of tonnes, research on the support structure of the superstructure of floating offshore structures is needed to reliably support these modules and make efficient use of the space on the deck.

The present invention has been invented to improve the above problems, a new type of support structure to increase the space utilization of the upper deck while stably supporting the upper structure for the support structure for supporting the upper structure of the floating marine structure It aims to provide.

According to an aspect of the present invention for achieving the above object, a support structure for supporting a module constituting the upper structure of the floating offshore structure, the module platform for supporting the module 100; A plurality of module support members 510 formed under the module platform 500 and connected to the hull constituting the substructure of the floating marine structure; A plurality of second longitudinal support members 320 formed near the upper edge of the module platform 500 and having longitudinal center lines coincident with some or all of the module support members 510; A plurality of third longitudinal support members formed near an upper edge of the module platform 500 and supporting an area portion of the module 100 that exceeds an area formed by the plurality of module support members 510. 330; And a side brace 420 formed on the module platform 500 and positioned between the plurality of third longitudinal support members 330. Provide a support structure.

The second longitudinal support member 320 is formed at an upper edge of the module 100 and is formed at a position opposite to the third longitudinal support member 330 and the third longitudinal support member 330. It characterized in that it further comprises; a plurality of padeye (padeye, 220) respectively located on the longitudinal center line of the.

And a module support reinforcement member 520 positioned near the module support member 510 to reinforce the load support of the module support member 510.

Is formed near the upper edge of the module platform 500, is formed between the plurality of second longitudinal support member 320, a plurality of first line that does not coincide with the center line of the module support member 510 The longitudinal support member 310; characterized in that it further comprises.

According to another aspect of the invention, in the support structure for supporting the module constituting the superstructure of the floating offshore structure, the module 100 has a rectangular shape, respectively formed on the upper edge of the module 100 Padeye 220; A plurality of first to third longitudinal support members 310, 320, 330 formed near an upper edge of the module platform 500 supporting the module 100; And brace members 410 and 420 formed between the first and third longitudinal support members 310 and 330 positioned below the pad eye 220.

According to another aspect of the invention, in the support structure for supporting the module constituting the superstructure of the floating offshore structure, a plurality of first to the upper edge of the module platform 500 for supporting the module 100 To support the load of the module 100 by forming a third longitudinal support member (310, 320, 330), to place the pad eye (padeye, 220) in each corner formed on the upper portion of the module 100 And forming a brace member between the first and third longitudinal support members 310 and 330 formed under the pad eye 220. To provide.

According to the present invention having the above configuration, it is possible to stably support the upper structure of the floating marine structure while increasing the space utilization of the upper deck.

In addition, it is possible to minimize the inconvenience for workers to pass through the lower part of the module, and to improve work efficiency.

1 and 2 is a reference view for the support structure of the superstructure of the floating marine structure according to the present invention, (a) is a perspective view, (b) is a front view.
Figure 3 is a perspective view schematically showing a support structure of the superstructure of the floating offshore structure according to the present invention.
Figure 4 is a front view schematically showing the support structure of the superstructure of the floating offshore structure according to the present invention.
Figure 5 is a perspective view schematically showing the inner space of the support structure of the superstructure of the floating marine structure according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and operation of the preferred embodiment of the present invention. In the drawings, like reference numerals refer to like elements throughout. The same reference numerals in the drawings denote like elements throughout the drawings.

1 and 2 is a reference view of the support structure of the upper structure of the floating marine structure according to an embodiment of the present invention, (a) is a perspective view, (b) is a front view.

Reference drawings of the present invention shown in Figures 1 and 2, the deck (deck) to cover the upper hull (hull), the various equipment (not shown) for liquefying the natural gas produced by drilling the seabed on the deck To install, these various facilities are made in the form of a module 10 weighing thousands of tons.

Therefore, the module supporting member 51, the module support reinforcing member 52, the bracket 55, etc. are installed on the hull so that the hull can support the weight of the module 10 installed on the hull (not shown). Install the platform 50.

The module 10 includes a horizontal support member 21 and first to third longitudinal support members 31, 32, and 33 supporting a load of equipment installed on the module 10, and a crane 10. It may be composed of a pad eye (padeye, 22) installed on the upper portion of the module 10, the brace members (41, 42) for supporting the side load applied to the module 10 so as to easily transport the.

Such a module 10 is designed to match the longitudinal direction of the load concentrated parts so that the module 10 and the hull can stably support the enormous loads of the equipment constituting the upper part of the module 10.

That is, the second longitudinal support member 32 and the module support member 51 positioned below the pad eye 22 and the pad eye 22 are positioned in the same longitudinal direction.

However, this arrangement is such that the side brakes 42 connecting the second longitudinal support members 32 installed in the front and rear portions of the module 10 are supported by the second longitudinal support members 32 and the third longitudinal support. The inner space of the lower portion of the module 10 formed by the member 33 is divided into the first and second inner spaces 45 and 46, which makes it inconvenient for the operator to travel to and from the inner space of the lower portion of the module 10. The present invention can be devised as it may cause a problem in utilizing the space.

3 and 4 is a view schematically showing the support structure of the upper structure of the floating marine structure according to another embodiment of the present invention, Figure 3 is a perspective view, Figure 4 is a front view, Figure 5 is a view of the present invention 4 is a perspective view schematically showing an internal space of a support structure of a superstructure of a floating marine structure according to another embodiment.

The support structure of the superstructure of the floating offshore structure according to another embodiment of the present invention, the support structure for supporting the module constituting the superstructure of the floating offshore structure, the module platform 500 supports the module 100 The area of the module platform 500 is greater than the area formed by the plurality of module support members 510 for forming the module 100 under the module platform 500 and connecting the module 100 to the hull. A plurality of first to third longitudinal support members 310, 320 and 330 is formed near the upper edge of the module platform 500, and a plurality of first to third longitudinal support members 310, 320 and 330 is provided. Some are positioned on the longitudinal center line of each of the plurality of module support members 510, the rest is configured not to be located on the longitudinal center line, a plurality of first to third longitudinal support members (310, 320, Brace members 410 and 4 between at least two of 330. 20 is located, but the brace members 410, 420 are positioned so as not to separate the upper space of the module platform 500, characterized in that to form one space on the top of the module platform 500.

The brace members 410 and 420 may be located at the upper edge of the module platform 500 so as not to separate the upper space of the module platform 500, and padeye to facilitate the movement of the module 100. , 220 is installed on the upper edge of the module 100 (the edge of the horizontal support member 210), but the weight of the module 100 is balanced when the wire is fixed to the pad eye 220 by a moving means such as a crane. Can be installed at the location At this time, it is located on the centerline of the longitudinal support member to be able to stably support the weight of the high load module 100.

3 to 5, the support structure of the superstructure of the floating offshore structure according to another embodiment of the present invention, as a support structure for supporting the modules constituting the superstructure of the floating offshore structure, the module platform 500 ), A plurality of module support members 510, a plurality of second longitudinal support members 320, a plurality of third longitudinal support members 330, and side braces 420.

The module platform 500 supports the module 100, and the plurality of module support members 510 are formed at the bottom of the module platform 500 to be connected to the hull constituting the substructure of the floating offshore structure. Support the load.

The module support member 510 is connected to the hull structure so that the module 100 can not only bear the load of the module 100 to the hull but also serves to minimize the deflection of the module platform 500 so as to have sufficient strength To make.

In the vicinity of the module support member 510, as shown in FIG. 4, a module support reinforcing member 520 may be installed to reinforce the strength of the module support member, and additionally, the bracket 550 may be provided with the module support member 510. Alternatively, it may be installed between the module support reinforcing member 520 and the module platform 500 to replenish the supporting force of the module 100.

The plurality of second longitudinal support members 320 are formed at the upper edge of the module platform 500, and are positioned on the longitudinal center line of each of the module support members 510.

Since the module 100 may reach thousands of tons, the module 100 may stably support the module 100 while minimizing the first to third longitudinal support members 310, 320, and 330 supporting the module 100. The first to third longitudinal support members 310, 320, and 330 are installed on the upper edge of the module platform 500, but are preferably positioned to coincide with the longitudinal center line of the module support member 510.

However, in general, since the area of the first to third longitudinal support members 310, 320, 330 supporting the module 100 does not match the area formed by the module support member 510, the module platform 500 The center line of the first to third longitudinal support members (310, 320, 330) formed on the upper edge of the) does not necessarily match the center line of the module support member 510, some longitudinal support member, That is, the second longitudinal support member 320 is disposed to coincide with the center line of the module support member 510.

On the other hand, at the edge of the area portion of the module 100 that exceeds the area formed by the module support member 510 is provided with a plurality of separate third longitudinal support member 330 to support the module 100. .

In addition, a side brace 420 formed of a brace member may be installed below the module 100 so as to support the side load of the module 100 between the third longitudinal support members 330.

3 to 5, the shape of the module 100, the shape of the plane may be configured as a rectangle, but is not limited thereto, and may have a variety of shapes, such as oval.

At this time, if the elliptical module 100 is installed, the side brace 420 coincides with the center line of the module support member 510 to form a space 450 so that the lower space of the module 100 is not divided. It is installed between the longitudinal support members that are installed on the lower edge of the area portion of the module 100 that exceeds the area formed by the module support member 510, not between the longitudinal support members.

In this case, the lower space of the module 100 can form the maximum space as much as possible, thereby increasing space utilization.

In the upper edge of the module 100, that is, the horizontal support member 210, a pad eye 220 may be installed to facilitate the movement of the module 100. The pad eye 220 has a third longitudinal direction in which load is concentrated. It may be formed on the support member 330 and the second longitudinal support member 320 formed in a position opposite to the third longitudinal support member 330, to be located on each longitudinal center line desirable.

On the other hand, formed near the upper edge of the module platform 500, between the plurality of adjacent second longitudinal support member 320 and the second longitudinal support member 320 and the second longitudinal support member 320 The front brace 410, which is composed of a brace member, may be installed between the third longitudinal support members 330 positioned to support the side load of the module 100. FIG.

In addition, a plurality of first longitudinal support members 310 formed near the upper edge of the module platform 500 and not coincident with the centerline of the module support member 510 between the plurality of second longitudinal support members 320. ) To reinforce the supporting structure.

By this technology configuration, while stably supporting the high load of the module 100, without separating the lower space of the module into two or more, one space or the largest possible space can be formed to increase the space utilization do.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention will be.

100: module 210: horizontal support member
220: pad eye 310: first longitudinal support member
320: second longitudinal support member 330: third longitudinal support member
410: front brace 420: side brace
450: internal space 500: hull
510: module support member 520: module support reinforcing member
550: bracket

Claims (6)

In the support structure for supporting the module constituting the superstructure of the floating offshore structure,
A module platform 500 supporting the module 100;
A plurality of module support members 510 formed under the module platform 500 and connected to the hull constituting the substructure of the floating marine structure;
A plurality of second longitudinal support members 320 formed near the upper edge of the module platform 500 and having longitudinal center lines coincident with some or all of the module support members 510;
A plurality of third longitudinal support members formed near an upper edge of the module platform 500 and supporting an area portion of the module 100 that exceeds an area formed by the plurality of module support members 510. 330; And
A side brace 420 formed on the module platform 500 and positioned between the plurality of third longitudinal support members 330;
Support structure of the superstructure of the floating offshore structure comprising a. The method according to claim 1,
A plurality of padeyes 220 formed at an upper edge of the module 100 and positioned on longitudinal center lines of the third longitudinal support member 330 and the second longitudinal support member 320, respectively. );
Support structure of the superstructure of the floating offshore structure further comprises. The method according to claim 1 or 2,
A module support reinforcement member 520 positioned near the module support member 510 to reinforce the load support of the module support member 510;
Support structure of the superstructure of the floating offshore structure further comprises. The method according to claim 3,
Is formed near the upper edge of the module platform 500, is formed between the plurality of second longitudinal support member 320, a plurality of first line that does not coincide with the center line of the module support member 510 Longitudinal support member 310;
Support structure of the superstructure of the floating offshore structure further comprises. In the support structure for supporting the module constituting the superstructure of the floating offshore structure,
The module 100 has a rectangular shape, each of the pad eye (padeye, 220) formed in the upper corner of the module 100;
A plurality of first to third longitudinal support members 310, 320, 330 formed near an upper edge of the module platform 500 supporting the module 100; And
Brace members (410, 420) formed between the first and third longitudinal support members (310, 330) positioned below the pad eye (220);
Support structure of the superstructure of the floating offshore structure comprising a. In the support structure for supporting the module constituting the superstructure of the floating offshore structure,
A plurality of first to third longitudinal support members 310, 320, and 330 are formed on the upper edge of the module platform 500 supporting the module 100 to support the load of the module 100, A pad eye 220 is positioned at each corner formed at an upper portion of the module 100, and between the first and third longitudinal support members 310 and 330 formed at a lower portion of the pad eye 220. A support structure for the superstructure of a floating marine structure, characterized in that the configuration to form a brace member.

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