KR20140003996U - Topside module support apparatus and stool install structure of the topside module in offshore structure - Google Patents

Abstract

Disclosed is a top side module supporting apparatus for an offshore structure.
An apparatus for supporting a topside module in an offshore structure, comprising: a cone-shaped stool mounted on the hull of the offshore structure; A bearing pad installed at the top plate center of the stool and receiving a load of the topside module; A hydraulic jack installed on both sides of the bearing pad and used when mounting the topside module; And a stopper for preventing the stool from moving back and forth and left and right.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a top-side module supporting apparatus for a marine structure, and a stool installation structure for a top-

The present invention relates to a stool (Support Stool) which distributes the load of the topside module of an offshore structure to a ship and maintains the structural stability of the topside module, and more particularly, Since the top plate and the bottom reinforcement material need only be designed and verified according to the change of the position of the pad and the hydraulic jack, it is possible to reduce the designing and changing time of the stool, and the stool of the top- And an installation structure.

In general, floating offshore structures with various uses are being operated in the ocean. These floating offshore structures include oil-floating production storage off-loading (FPSO), LNG FPSO (Liquefied Natural Gas-Floating Production Storage Offloading), LNG FSRU (Liquefied Natural Gas-

Floating Storage and Regasification Unit (FPU), and Floating Production Unit (FPU).

Floating marine structures have been actively developed because of the rising interest in oil prices, the depletion of oil fields, and the increasing demand for clean fuel.

Floating offshore structures are installed on the hull with a topside module, which is responsible for the production and finishing of gas and oil, and the load of the topside module is distributed to the ship and the structural stability of the topside module is maintained Various types of top side module supporting structures such as a stool (Support Stool) and the like are used.

However, such a conventional top side module supporting structure is difficult to manufacture due to its structural complexity, and has difficulty in adjusting the tolerance when mounting the top side module.

In addition, the conventional top-side module supporting structure of a floating offshore structure suffers from considerable difficulties such as maintenance and repair during operation of the marine vessel, thereby requiring much time and cost.

No. 20-2011-0010306

FIG. 1 is a side view showing a conventional top side module supporting apparatus, FIG. 2 is a plan view showing a conventional top side module supporting apparatus, and FIG. 3 is a view showing a load distribution for a conventional quadrangular pyramid stool.

1 to 3, the conventional top side module supporting apparatus 10 includes a bearing pad 20 for receiving a load of a topside module 20 at the center of a top plate 12 of a stub 11 having a quadrangular pyramid shape, And a hydraulic jack 14 is mounted on both sides of the bearing pad 13 for use in loading or maintenance of the topside module. The stool 11 is provided with a stopper 15 for preventing the stool 11 from moving in the forward, backward, left and right directions.

In addition, a stern plate (16) for preventing vertical movement of the stool (11) is installed below the stopper (15).

The quadrangular pyramid-shaped stool 11 configured as described above receives a load of the topside module 20 through the bearing pad 13. The top surface of the topside module 20 is divided into a square The load is concentrated at the corner of the stool 11 as shown in FIG. 3, so that it is structurally very fragile, and the pad section is difficult to work, the yield is poor, and the bearing pad 13 And the hydraulic jack 14 are changed, the entire shape of the stool 11 is changed, and accordingly, the number of additional times for design and analysis is increased.

The present invention solves these problems by designing and verifying the top plate and the bottom reinforcement material according to the change of the position of the bearing pad and the hydraulic jack. Therefore, the design of the stool and the modification of the marine structure And it is an object of the present invention to provide a top side module supporting apparatus.

In order to achieve the above object, the present invention provides an apparatus for supporting a topside module in an offshore structure, comprising: a cone-shaped stool installed on a hull of the offshore structure; A bearing pad installed on the plate center to receive the top side module load, a hydraulic jack installed on both sides of the bearing pad to be used for mounting the top side module, and a stopper preventing the stool from moving back and forth.

And the design and verification of the top plate and the bottom reinforcement member are performed without changing the stool according to the change of the position of the bearing pad and the hydraulic jack.

Meanwhile, the stool installation structure for supporting the topside module in the offshore structure according to the present invention includes a cone-shaped stool installed on the hull of the offshore structure, so that the relationship between the arrangement of the bearing pads and the hydraulic jack installed on the top plate of the stool So that the shape of the stool is not changed.

As described above, according to the present invention, since the shape of the stool is formed into a cone type so that only the design and verification of the top plate and the bottom reinforcement material are required according to the change of the position of the bearing pad and the hydraulic jack, Can be greatly reduced.

Figure 1 shows a side view of a conventional top side module support device
Figure 2 is a top plan view of an existing topside module support apparatus
3 is a view showing a load distribution for a conventional quadrangular pyramidal stool.
Fig. 4 is a perspective view showing the top side module supporting apparatus of an offshore structure according to the present invention. Fig.
5 is a front view showing a top side module supporting apparatus of an offshore structure according to the present invention
6 is a longitudinal sectional view showing a top side module supporting apparatus of an offshore structure according to the present invention
7 is a plan view showing a top side module supporting apparatus of an offshore structure according to the present invention.
8 is a view showing a load distribution for a cone type stool.

Hereinafter, a stool installation structure of a top side support apparatus and a top side module of an offshore structure according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 4 is a perspective view showing a top side module supporting apparatus of an offshore structure according to the present invention, FIG. 5 is a front view showing a top side module supporting apparatus of an offshore structure according to the present invention, and FIG. FIG. 7 is a plan view showing a top side module supporting apparatus of an offshore structure according to the present invention. FIG.

4 to 7, an apparatus 100 for supporting a top side module of an offshore structure according to the present invention is an apparatus for supporting a topside module 20 in a hull 1 of an offshore structure, A cone stool 110 installed on the hull 1 of the offshore structure; A bearing pad 130 installed at the center of the top plate 120 of the stool 110 to receive a load of the top side module 20; A hydraulic jack 140 installed on both sides of the bearing pad 130 and used to mount the topside module 20; And a stopper (150) for preventing the stool (110) from moving in the longitudinal direction.

A stent plate 160 and a lower plate 170 are installed below the stopper 150 to prevent the stool 110 from moving up and down.

The structure of the top plate 120 and the bottom reinforcement member is designed and verified without changing the stool 110 according to the change of the position of the bearing pad 130 and the hydraulic jack 140.

The stool installation structure for supporting the topside module 20 in the offshore structure according to the present invention includes a cone stool 110 installed on the hull 1 of the offshore structure, The shape of the stool 110 is not changed irrespective of the arrangement of the bearing pads 130 and the hydraulic jacks 140 installed in the stator 120.

8 shows the load distribution of the cone type stool. The entire stool is shown in blue, which means that the load is uniformly formed throughout the stool 110 without concentrating on a specific part The overall shape of the stool 110 does not need to be changed in accordance with the arrangement of the bearing pads 130 and the hydraulic jack 140, Does not occur.

In the apparatus 100 for supporting a top side module of a marine structure according to the present invention having the above structure, the stool 110 is fixed in a corn type and the bearing pad 130 and the hydraulic jack 140 are disposed Accordingly, only the top plate can be independently designed and reinforced, thereby greatly reducing the number of times of designing and changing the stool.

1: Hull of marine structure
110: Cone shaped stool
120: Top plate
130: Bearing Pad
140: Hydraulic Jack
150: Stopper
160: Sister plate

Claims (3)

An apparatus for supporting a topside module in an offshore structure,
A cone-shaped stool installed on the hull of the offshore structure;
A bearing pad installed at the top plate center of the stool and receiving the top side module load;
A hydraulic jack installed on both sides of the bearing pad and used when mounting the topside module; And
And a stopper for preventing the stool from moving in the forward, backward, left, and right directions of the stool. The method according to claim 1,
Wherein the structure is configured to only design and verify the top plate and the bottom reinforcement material without changing the stool according to the change of the position of the bearing pad and the hydraulic jack. A stool installation structure for supporting a topside module in an offshore structure,
And a cone-shaped stool installed on the hull of the offshore structure, so that the shape of the stool is not changed regardless of the arrangement of the bearing pads and the hydraulic jacks installed on the top plate of the stool. Stool installation structure of topside module of offshore structure.

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