KR20130003808A - Ocean structure support apparatus - Google Patents

Abstract

PURPOSE: An offshore structure supporting device is provided to reduce the size of a supporter by making shock-absorbing members support the dynamic loads generated between an upper structure and supports without supporting the entire load of the upper structure. CONSTITUTION: An offshore structure supporting device(1) comprises a supporting frame(100) and shock-absorbing members(200). The supporting frame comprises supports(110) for supporting the load of an upper structure. The support frame comprises supports(110) for supporting the load of the upper structure. The shock-absorbing members are separated from the supports and are arranged on the support frame. The shock-absorbing members support the load generated when the upper structure is partially placed on the supports.

Description

Ocean Structure Support Apparatus}

The present invention relates to a marine structure support device.

In general, offshore structures installed in the sea consists of a combination of the upper structure and the lower structure. The superstructure is loaded on a transport ship, moved to where the substructure is located, and the transport ship finally assembles by coupling to each other on top of the substructure by sinking the superstructure above the substructure.

The upper structure may be seated on the upper portion of the lower structure by a support frame provided separately.

A deck separation unit for seating a conventional superstructure is described with reference to FIG. 1.

The conventional deck separation unit 3 may be provided with a supporting frame 4 on which the upper structure 2 is seated.

More specifically, the support frame 4 may be provided with a support (4a) for supporting the upper structure. A deck separation unit 3 may be inserted into the support 4a.

In the process of seating the upper structure 2 to the lower structure, the transport ship 1 may occur in the up, down, left, right direction due to the impact of waves, in this case, the upper structure 2 and the lower structure Atypical collisions may occur between the two, and the upper structure 2 also collides with the support frame 4.

Deck Separation Unit (3) provided to prevent such a collision serves as a kind of cushioning material for stably supporting the load generated when the upper structure (2) is seated on the support frame (4) do.

The deck separation unit 3 is made of a hydraulic jack having a weight of 1,000 tons or more to support the total load of the upper structure 2, or may use sand and is very bulky.

The conventional deck separation unit (3) is difficult to design the upper structure (2) and the support (4a) due to the bulky relationship, it takes a long production period for manufacturing the deck separation unit (3) The problem was caused.

In addition, as the weight to be supported by the deck separation unit 3 is increased more than necessary, there is a problem that the manufacturing cost of the deck separation unit 3 is increased, so a countermeasure was required.

Embodiments of the present invention seek to enable design freedom and optimized design of a deck separation unit.

Embodiments of the present invention are intended to enable more stable support of offshore structures.

According to an aspect of the present invention, in the offshore structure supporting apparatus provided on a transport ship for transporting the upper structure to seat the upper structure on the lower structure already installed in the ocean, the support for supporting the load of the upper structure Support frame comprising; And a buffer member spaced apart from the support and disposed on the support frame, and configured to support a load generated when the upper structure is partially seated on the support.

The shock absorbing member is formed of a structure in which rubber having elastic force is laminated, and the lowermost part may be fixed by bonding to the support frame.

The height of the buffer member may be higher by a predetermined value than the height of the uppermost side of the support.

In addition, the shock absorbing member may support the dynamic load generated by the upper structure in the process of sinking the transport ship to a predetermined depth in order to seat the upper structure to the lower structure.

As described above, the marine structure support apparatus according to an embodiment of the present invention has the effect of minimizing the size of the buffer member.

Marine structure support device according to an embodiment of the present invention has the effect that can be optimized design of the cushioning member.

Marine structure support device according to an embodiment of the present invention has the effect that the load of the upper structure is stably dispersed.

1 is a simplified illustration of a conventional deck detachment unit.
Figure 2 is a simplified view showing a state in which the marine structure supporting apparatus according to an embodiment of the present invention is disposed on a support frame.
3 is a view showing a marine structure support apparatus according to another embodiment of the present invention.
4 to 5 is a state of use of the marine structure support apparatus according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the offshore structure support apparatus according to an embodiment of the present invention.

With reference to the accompanying Figure 2 will be described the main configuration of the marine structure support device.

Figure 2 is a simplified view showing a state in which the marine structure supporting apparatus according to an embodiment of the present invention is disposed on a support frame.

The offshore structure support device 1 may support the upper structure 10 having a predetermined size on the transport ship 1. More specifically, the transport ship is provided with a support frame 100, the support frame 100 is spaced apart from the support 110 and the support 110 on the support frame 100, the upper structure to support the upper structure from the bottom It may include a buffer member 200 for supporting the structure.

The upper structure 10 may have a support frame 100 disposed below.

The support frame 100 may be provided with a support 110 extending toward the upper structure (10).

The support 110 may be disposed on a side of the upper structure 10 and may have a predetermined width and length. In addition, the support 110 may be fixed to the upper structure 10 by welding or the like.

The buffer member 200 may be spaced apart from the support 110 and disposed on the support frame 100.

That is, the insert 110 may be spaced apart from the support 110 without being inserted into the support 110.

Here, the buffer member 200 according to the embodiment of the present invention may be provided on the support frame 100 spaced apart from the support 110.

Therefore, the support 110 can be provided independently without the buffer member 200, it is possible to improve the design freedom of the support frame 100 having a support (110).

The buffer member 200 may support a dynamic load that may be generated between the upper structure 10 and the support 110 without supporting the entire load of the upper structure 10.

Therefore, the support 110 of the present embodiment can be reduced in overall size compared to the existing support, it may have a feature that can be designed and manufactured separately from the design of the buffer member 200.

The buffer member 200 may be a material having an elastic force.

For example, rubber may be used, and a material similar to the rubber or a material capable of maintaining elastic force may be used.

An offshore structure support apparatus according to another embodiment of the present invention will be described with reference to FIG. 3.

The buffer member 200 may have a structure in which a plurality of rubbers have a predetermined thickness and are stacked. The shape of the buffer member 200 may vary. For example, the shock absorbing member 200 may have an elliptic shape, and a plurality of shock absorbing members 200 may be provided in a structure having the same shape.

4 to 5 is a state diagram used in the marine structure support apparatus according to an embodiment of the present invention.

Referring to FIG. 4, the shock absorbing member 200 may be positioned at a position relatively high by a height h on the top surface of the support 110.

This is because the upper structure 10 is in contact with the buffer member 200 before being seated on the support 110 to stably support the load generated until it is seated on the support 110.

In addition, after the upper structure 10 is seated on the support 110, the entire load of the upper structure 10 may be supported by the support 110.

The height h is not particularly limited and may be changed in consideration of the weight of the upper structure 10.

The use state of the marine structure support apparatus according to the embodiment of the present invention configured as described above will be described with reference to FIGS. 4 to 5.

The upper structure 10 is moved to a place where the lower structure (not shown) is installed by the carrier ship (1).

The upper structure 10 is positioned above the buffer member 200 to be seated on the support 110.

Referring to FIG. 5, the upper structure 10 is lowered along the direction of the arrow, and the bottom surface of the upper structure 10 is first contacted with the buffer member 200 before being seated on the support 110.

The shock absorbing member 200 supports the dynamic load generated while the upper structure 10 moves downward toward the support 110, while the upper structure 10 is intended to be seated on the upper surface of the support 110. do.

The shock absorbing member 200 is elastically compressed and deformed by the upper structure 10, and the upper structure 10 is seated on the upper surface of the support 110 while compressing the shock absorbing member 200 until it is seated on the support 110. .

Therefore, a collision with the upper structure 10 generated when the upper structure 10 is seated on the support 110 does not occur, and stable mounting is achieved.

In addition, after the transport ship 1 is positioned on the lower structure, the support 110 fixed to the upper structure 10 by welding or the like may be released. In other words, the fastening with the upper structure 110 may be released by cutting or cutting a portion of the support 110. In this case, the transport ship 1 can be moved up and down by waves, and according to the prior art, the upper structure 10 and the support 110 collide with each other, the upper structure 10 could be impacted. However, according to the exemplary embodiment of the present invention, the shock absorbing material 200 has an advantage of preventing the collision with the support 110 by relieving the movement caused by the vertical movement of the upper structure 10.

The use state of the shock absorbing member according to another embodiment of the present invention will be described with reference to FIG. 3.

The shock absorbing member 300 may be formed in the form of a plurality of rubber stacked, the upper structure 10 is downward toward the support frame 100, the first contact with the shock absorbing member 200.

The buffer member 200 is made of a plurality of rubber, such as bellows, while stably supporting the load applied by the upper structure 10, the upper structure 10 is moved to the upper surface of the support (110). Support the load applied until it is stable.

As the lower structure of the upper structure 10 contacts the upper surface of the support 110, the load of the upper structure 10 may be stably supported by the support 110.

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 of the invention as set forth in the appended claims. The present invention can be variously modified and changed by those skilled in the art, and it is also within the scope of the present invention.

10: superstructure
100: Support frame
110: Support
200: buffer member

Claims (4)

In the offshore structure support device provided on a transport ship for transporting the upper structure to seat the upper structure on the lower structure already installed in the ocean,
A support frame including a support for supporting a load of the upper structure; And
And a buffer member spaced apart from the support and disposed on the support frame, and configured to support a load generated when the upper structure is partially seated on the support. The method according to claim 1,
The buffer member is
The rubber structure having an elastic force is formed in a laminated structure, the lowermost side is a marine structure support device, characterized in that the bonding (bonding) to the support frame is fixed. The method of claim 2,
The height of the buffer member is a marine structure support device, characterized in that higher than the uppermost height of the support by a predetermined value. The method of claim 3,
And the buffer member supports the dynamic load generated by the upper structure while the transport ship sinks to a predetermined depth so that the upper structure rests on the lower structure.

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