JPS63165609A - Setting of offshore platform - Google Patents

Abstract

PURPOSE:To shorten the period of construction work by a method in which a platform body and a case caisson are separately formed or only the platform is built up, carried to a setting site, and set. CONSTITUTION:A platform body 5 and a base caisson 3 are separately built up on land an towed to a setting position X1, where the base caisson 3 is needed. The base caisson 3 is settled to the seabed 2a and the platform 5 is set on the caisson 3. When the base caisson 3 is not needed, only the platform 5 is built up on land, towed to the position X1, and set on the seabed 2a. The construction period can thus be shortened and the platform 5 can be set economically regardless of the needs for the base caisson 3.

Description

DETAILED DESCRIPTION OF THE INVENTION (a) Field of Industrial Application The present invention relates to a method for installing a marine platform suitable for installing a marine platform at a predetermined installation location on the ocean.

(b), Prior Art Conventionally, when installing the marine platform 1 at the installation location x1 on the ocean 2 shown in Fig. 1, the base caisson 3 is first constructed on land, and then the base caisson 3 is constructed in the ocean where an appropriate water depth can be secured. The base caisson 3, which serves as an oil storage tank and a power tank during towing, is floated on top of the base caisson 2, and a platform body 5 is built on the base caisson 3 so as to be integrated with the base caisson 3. Then, by constructing the marine platform 1, and towing the constructed marine platform 1 to the installation location x1 by the towing vessel 12 shown in FIG. 2 and sinking it, the marine platform J is installed at the installation location X1. was.

(C)0 Problems to be Solved by the Invention However, with this, the base caisson 3 must be used even when the base caisson 3 is not required, for example, when the marine platform 1 itself is not required to have oil storage capacity. However, it also had the disadvantage of being uneconomical. Furthermore, since the platform body 5 must be built on the base caisson 3 on the ocean 2 where construction conditions are severe, the construction period is prolonged.

SUMMARY OF THE INVENTION In order to solve the above problems, it is an object of the present invention to provide a method for installing a marine platform that can be installed at a location on the ocean economically and in a short period of time.

(d) Means for solving the zero problem, that is, the present invention provides a marine plan 1-form (1) having at least a platform body (5) among a platform body (5) and a base caisson (3). When installed at the installation location (xl) on the ocean (2), if the marine platform (1) has a base caisson (3) in addition to the platform body (5),
These include the platform body (5) and the base caisson (
3) respectively, and transport the built platform body (5) and base caisson (3) to the installation location (Xl), and install the base caisson (3) at the installation location (Xl). After being sunk, the platform body (5) is installed on the sunk base caisson (3), and the marine platform (5) is installed on the base caisson (3).
1) has only the platform body (5), only the platform body (5) is constructed,
The constructed platform main body (5) is transported to the installation location (Xl), the platform main body (5) is brought to the bottom at the installation location (Xl), and the platform (1) is installed. be done.

Note that the numbers in parentheses are for convenience and indicate corresponding elements in the drawings.

This description is not limited to the description on the drawings.

The same applies to the column "r (e) 0 action" below.

(e) 0 effect With the above configuration, the present invention provides that when the offshore platform (1) has a base caisson (3), after separately constructing the platform body (5) and the base caisson (3), These are carried to the installation location (Xl), and the base caisson (3
), the sunken base caisson (3
), and if the offshore platform (1) does not have a base caisson (3), only the platform body (5) is constructed, and then the constructed platform body (5) is installed. , transport it to the installation location (Xl) and allow it to land on the bottom in that state.

(f), Examples Examples of the present invention will be described below based on the drawings.

FIG. 1 is a diagram showing an example of a marine platform to which an embodiment of the present invention is applied, and FIGS. 2 to 4 are diagrams depicting the process of installing a marine platform at an installation location on the ocean using the present invention. , FIG. 5 is a diagram showing a marine platform without a base caisson, and FIG. 6 is a perspective view showing a base caisson.

At the installation location x1 of the marine brush 1-form on the ocean 2, as shown in FIG.
The form 1 has a base caisson 3. A platform body 5 constituting the marine flat form 1 is assembled on the base caisson 3 in such a manner that it can be separated and connected via a connecting member 11. Superstructure 10
have.

That is, a plurality of columns 7 are erected on a base 6 installed on the base caisson 3 via a connecting member 11.
At the upper end of these columns 7 in the figure, a superstructure 10 having an excavator and the like is constructed.

Further, between the base 6 and the superstructure 10, a floater 9 containing production processing equipment is guided by the above-mentioned support 7, and is directed in the vertical direction of the arrow A in the figure with respect to the support 7. The floater 9 and the support column 7 are provided so as to be relatively movable in the B direction, and the floater 9 and the support column 7 are moved relative to each other in the A direction by a lifting device (not shown).

It can move in direction B.

Since the marine platform 1 has the above configuration, in order to install the marine platform 1 without the base caisson 3 at the installation location X1 on the ocean 2, first, the marine platform 1 is constructed. Once the platform body 5 is constructed, the platform body 5 is pulled out from the dock onto the Kaisho 2, as shown in FIG. Then, the platform body 5
floats on the sea surface 2b due to the buoyant force acting on the floater 9 constituting the main body 5. In that state,
It is towed by a towing boat 12 shown on the right side of the figure and transported to the installation location x1.

At this time, the floater 9 is moved in the direction B relative to the support column 7 by driving a lifting device (not shown), and is positioned at the lowest position in which it can move (i.e., the position where it contacts the base 6). ing.

Therefore, the platform main body 5 is towed with the distance L2 from its lower surface 5a to the sea surface 2b always shorter than the water depth L1, and the platform main body 5 will never come into contact with the seabed 2a during towing. do not have.

When the platform main body 5 is towed to the installation location X1 and positioned above the sea surface 2b at the installation location X1, a plurality of supports 7 constituting the platform main body 5 are As shown in Figure 3, together with the base 6 and the superstructure 10, the sea level 2
It is moved in the direction of arrow B relative to the floater 9 floating on top b. Then, the base 6 fixed to the lower end of each support 7 in the figure descends downward in the figure and lands on the seabed 2a. When the base 6 reaches the bottom of the seabed 2a, the floater 9 is moved in the inward direction with respect to each support 7. Then, as shown in FIG. 4, the floater 9 rises in the direction A, using the seabed 2a as a foothold via the base 6 and each support 7, moves away from the sea surface 2b, and moves upward from the sea surface 2b in the figure. It moves a predetermined distance and comes into contact with the lower end 10a of the superstructure 10.

Then, no buoyant force acts on the floater 9, and the platform main body 5 is supported by the seabed 2a via the base 6 and each support 7. thus,
As shown in FIG. 5, the marine platform 1 will be stably installed at the installation location X1 on the ocean 2.

In addition, in the embodiment mentioned above, the case was described in which the marine platform 1 without the base caisson 3 was installed at the installation location X1.

When the base caisson 3 is required, for example, when the offshore platform 1 itself requires oil storage capacity, or when the base caisson 3 is required,
If a is soft ground, or if the platform body 5 is to be reused in a place with deeper water, the marine platform 1 can be installed with the base caisson 3 attached to serve as an oil storage tank or artificial ground. , install it at the installation location x1.

To do this, first, the base caisson 3 (see FIG. 5) and the platform main body 5 are constructed separately in a land dock (not shown).

When the base caisson 3 and the platform body 5 are constructed separately in this way, the base caisson 3 and the platform body 5 are pulled out from the dock onto the ocean 2, and further towed by the towing vessel 12 to the installation location x1. Carry it nearby.

At this time, since a buoyant force greater than its own weight acts on the base caisson 3, it will not sink during towing.

In this way, when the base caisson 3 and the platform main body 5 are transported to the vicinity of the installation location X1, the base caisson 3 is first positioned at the installation location X1, and in that state, the ballast tank (not shown) inside the base caisson 3 is
By injecting seawater into the base caisson 3
is deposited on the seabed 2a at installation location x1. Once the base caisson 3 has been sunk into the seabed 2a, the platform body 5 is positioned at the installation location x1,
In that state, the plurality of supports 7 are connected to the base 6 and the superstructure 10.
At the same time, the floater 9 is moved in the direction of arrow B relative to the floater 9 floating on the sea surface 2b. Then base 6
is lowered by a predetermined distance downward in FIG. 1, and is connected to the base caisson 3 via the connecting member 11 in a manner that it can be separated and connected.

When the base 6 is connected to the base caisson 3, the floater 9 is moved in six directions relative to the column 7 and brought into contact with the lower end 10a of the superstructure 10.

Then, no buoyant force acts on the floater 9, and the platform body 5 is supported and installed on the base caisson 3. In this way, in addition to the platform body 5, the marine platform 1 having the base caisson 3 shown in FIG. 1 is installed at the installation location x1.

In addition, the platform body 5 or base caisson 3 of the marine platform 1 installed at the installation location X1,
To re-float the floater 9 shown in FIG.
It is moved in the direction B relative to each support 7 from the position where it has been in contact with the superstructure 1o. Then, the floater 9 descends and lands on the water at the installation location X1 on the ocean 2, and floats on the sea surface 2b due to the buoyant force acting on the floater 9. When the floater 9 floats above the sea surface 2b, the connection between the base 6 and the base caisson 3 is released. Next, in this state, the floater 9 is moved in the direction B relative to each support column 7. Then, the support columns 7 and the like are pulled upward in the figure by using the buoyant force acting on the floater 9 as a reaction force, and as a result, the platform body 5 as a whole floats. In addition, in order to re-float the base caisson 3, the platform body 5 is re-floated and further moved appropriately from the installation location x1, and then the ballast tank (not shown) in the base caisson 3 is injected. Drain seawater from the tank. Then, the base caisson 3 becomes lighter in weight by the discharged sea water, and the base caisson 3 floats above the sea surface 2b due to the buoyant force acting on the base caisson 3.

The resurfaced platform body 5 and base caisson 3 were each pulled into the onshore dock in their current state, inspected and repaired in a dry state, and then
Reuse.

(g) 1. Effects of the Invention As explained above, the present invention provides a marine platform 1 having at least the platform body 5 of the platform body 5 and the base caisson 3.
When installing at the upper installation location x1, if the marine platform 1 has a base caisson 3 in addition to the platform main body 5, the platform main body 5 and the base caisson 3 are separately installed. The built platform main body 5 and the base caisson 3 are transported to the installation location X1, and
1, after sinking the base caisson 3, the platform t and the main body 5 are installed on the sunken base caisson 3, and if the marine platform 1 has only the platform main body 5, the platform Only the main body 5 is constructed, the constructed platform main body 5 is transported to the installation location X1, the platform main body 5 is brought to the bottom at the installation location X1, and the platform 1 is installed. Therefore, if the base caisson 3 is not required, only the platform body 5 is built and sunk, and if the offshore platform 1 has a base caisson 3 in addition to the platform body 5, the base caisson 3 and the platform body 5 are combined. Since the base caisson 3 is constructed and sunk separately, the marine platform 1 can be installed depending on whether the base caisson 3 is necessary or not, which is extremely economical. Furthermore, since the main body 5 and the base caisson 3 are constructed separately on land, they can be easily pulled out onto the ocean 2 even when the water depth of the dock or channel is shallow. Moreover, there is no need to perform work to construct the platform body 5 on the base caisson 3, making it possible to shorten the construction period.

Furthermore, when reusing the base caisson 3 and the main body 5, they can be floated separately and pulled into a dock on land and inspected and repaired in dry conditions, eliminating the need for repairs at sea.
It can contribute to improving construction accuracy and work quality.

[Brief explanation of the drawing]

FIG. 1 is a diagram showing an example of a marine platform to which an embodiment of the present invention is applied, and FIGS. 2 to 4 are diagrams showing steps for installing a marine platform at a location on the ocean using the present invention. figure. FIG. 5 is a diagram showing a marine platform without a base caisson, and FIG. 6 is a perspective view showing the base caisson. 1...Marine platform 3...Base caisson 5...Platform body x1...Installation location

Claims (1)

[Claims] When installing an offshore platform having at least a platform main body out of a platform main body and a base caisson at an installation location on the ocean, if the offshore platform has a base caisson in addition to the platform main body, The platform body and the base caisson are constructed separately, the platform body and the base caisson thus constructed are transported to the installation location, the base caisson is sunk at the installation location, and then the sunken base caisson is constructed. installing a platform main body on the base caisson; or, if the offshore platform has only a platform main body, constructing only the platform main body; transporting the constructed platform main body to an installation location; . A method for installing an ocean platform, comprising: installing the platform by placing the platform body on the bottom.