DE102010019908A1 - Basic framework for a self-erecting marine platform - Google Patents

Abstract

The invention relates to a base frame (1) for a self-erecting sea platform (7) and a method for erecting the self-erecting sea platform (7). According to the invention, the base frame (1) is first anchored firmly to the seabed (2). Support columns (6) of the sea platform are then extended, for example hydraulically, until they come into contact with support areas (5) for supporting the sea platform (7) under water. The support columns (6) are then firmly connected to the base frame (1). In this way, self-erecting sea platforms (7) can be used at sea in greater water depths.

Description

The invention relates to a base frame for a self-erecting marine platform and a method for setting up a marine platform.

A self-erecting marine platform is for example from the EP 0 959 182 B1 known. There is described a self-erecting oil platform, which has a floating on the water housing or in other words a pontoon with a substantially rectangular plan, which has telescopically downwardly extendable support columns in its corners. The sea platform is made in dry dock and, after flooding the dry dock, is floated floating from ships to their place of work. Subsequently, the telescopic support columns are extended down to the seabed and anchored there. The support columns are extended so far that the sea platform lifts out of the water and is held with the required safety height above the water surface. To increase the stability of the sea platform, the downwardly extendable feet are equipped with reinforcements at their lower end. A disadvantage of self-erecting marine platforms is that the maximum depth of the ocean, up to which they can still be set up, is limited to currently 45 m.

The object of the invention is therefore to provide a possibility with which self-erecting marine platforms can be used even at greater depths of the sea.

The invention solves this object by a base frame for a self-erecting marine platform, wherein the base frame anchor means for anchoring the base frame on the seabed and a foundation scaffold, which is firmly connected to the anchoring means, wherein the foundation scaffold has support areas for supporting the marine platform.

The invention solves this problem further by a method for setting up a marine platform, in which a base frame firmly anchored below the sea surface on the seabed, a self-erecting marine platform supported on the base frame and then the base frame is firmly connected to the self-erecting marine platform.

According to the self-erecting marine platform is no longer anchored as in the prior art with their extendable support feet directly on the seabed. Rather, a base frame is used, which is firmly anchored with its anchoring means on the seabed. The self-erecting marine platform is then placed on the base frame. In this case, the base frame to a height which is sufficient to keep the sea platform at the respective depth of the sea after the extension of their support feet sufficiently high above the sea surface. The base frame is thus provided for setting up a self-erecting marine platform, as such the skilled person for example from the EP 0 959 182 B1 is known. The self-erecting marine platform has hydraulically or pneumatically extendable support columns with which the self-erecting marine platform is supported on the support areas of the foundation framework of the base frame. After contacting the support areas of the base frame is firmly connected to the support columns of the self-erecting marine platform.

According to a preferred embodiment, the base frame cable management means, which are adapted for guiding underwater cables from the seabed to the sea platform. According to this advantageous development of the invention, the marine platform, which has, for example, electrical components for recirculating an electrical AC or DC voltage, independent of the submarine cables and thus built on land and checked for their electrical properties and withstand voltages. The so completely finished and tested sea platform is then towed floating on the water to the base frame and placed on this. Subsequently, the electronic components can be connected to the submarine cables that are already out of the water. The submarine cables are already firmly mounted on the cable routing means. In this way, the installation of the marine platform is simplified. The electrical components of the self-erecting marine platform are, for example, transformers, inverters, switchgear, filter means and the like, the transformers being arranged for a voltage of a few tens of kilovolts up to a few hundred kV.

Advantageously, the cable guide means are firmly connected to the foundation scaffold. In a variant of the invention, the cable guide means are designed as an inner hollow cable guide tower.

The cable management tower expediently has a height such that its free end projecting from the water is arranged in the installed state at the height of a housing or pontoon of the fully installed marine platform. According to this advantageous development of the base frame is equipped on land with a cable guide tower. Subsequently, the base frame becomes his place of employment, for example with the help of of a ship, transported and anchored to the seabed. Then the underwater cables are routed through the cable management tower to its free end. Finally, the self-erecting marine platform is placed on the base frame and the electrical components of the marine platform are connected to the submarine cables.

According to a preferred embodiment, the cable guide means are equipped with an interface to which the free ends of the underwater cables are attached. The cables of the marine platform can then also be connected to the interface.

Conveniently, the base frame is equipped with locking means for anchoring the self-erecting marine platform. The locking means allow a solid solid connection between the sea platform and the base frame.

Further embodiments and advantages of the invention are the subject of embodiments of the invention with reference to the figures of the drawing, wherein like reference numerals refer to like-acting components and wherein

1 a first embodiment of the base frame according to the invention schematically and

2 schematically illustrate a further embodiment of the basic frame according to the invention.

1 shows an embodiment of the base frame according to the invention 1 that stuck to a seabed 2 is anchored. For this purpose, the base frame 1 Locking means in the form of anchor feet 3 on, stuck with a foundation scaffold 4 are connected. The foundation scaffolding 4 has parallel to the seabed aligned support areas 5 equipped, on which support columns 6 a self-erecting marine platform 7 are supported. The self-erecting marine platform 7 points next to the support columns 6 another case or pontoon 8th on, are housed in the figuratively not shown components of a transformer station for switching a medium voltage in a high voltage. About figuratively not shown connecting means are the support columns 6 the sea platform 7 stuck to the base frame 1 connected. Furthermore, in 1 schematically the sea surface 9 as well as the sea depth T and the height H illustrates schematically, with which the pontoon 8th the self-erecting marine platform 7 above the sea surface 9 is held. In the embodiment shown, the water depth T is about 80 meters.

With the help of the basic frame 1 is it possible to self-erecting marine platforms 7 also to use at sea depths T, which are greater than 45 m. For this purpose, first the basic frame 1 transported to the place where the sea platform 7 should be set up. First, the base frame 1 stuck to the seabed 2 through the anchor means 3 anchored. Subsequently, the self-erecting marine platform 7 with her floating pontoon 8th to the base frame 1 dragged and positioned exactly above this, so that the support columns 6 directly above the support areas 5 are arranged. Subsequently, the support columns 6 not shown hydraulic means to the base frame 1 extended until the floating pontoon 8th rises out of the water and with the height H of, for example, 13 m above the sea surface 9 is held. This is the sea platform 7 stuck to the base frame 1 connected via the connecting means, not shown.

2 shows a further embodiment of the base frame according to the invention 1 In this case, with a cable management tower 10 equipped, extending from the seabed 2 from the water to the pontoon 8th the self-erecting marine platform 7 extends. The cable management tower 10 is about connecting means 11 firmly on the foundation scaffolding 14 of the basic frame 1 welded.

Underwater cable 12 are in the cable management tower 10 inserted from below and extend to the upper free end of the cable guide tower 10 at the height of the pontoon 8th the sea platform 7 lies. From the cable management tower 10 can after putting up the sea platform 7 the underwater cables in a simple way with the components of the marine platform 7 get connected. Thus, the sea platform can 7 independent of the base frame 1 manufactured and tested for their electronic components, such as transformers, switches or the like.

In 2 It can also be seen that the anchor means 3 are designed as foundation columns whose free end is deep into the seabed 2 extends into it. Above the seabed 2 every foundation pillar is part of the foundation scaffolding 4 ,

The housing or floating pontoon 8th the sea platform 7 has several floors 13 on, in which the electronic components are housed. On the pontoon 8th there is a lifting crane 14 as well as a helipad 15 ,

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 0959182 B1 [0002, 0006]

Claims (11)

Basic frame ( 1 ) for a self-erecting marine platform ( 7 ) with anchoring means ( 3 ) for anchoring the base frame ( 1 ) on the seabed and a foundation scaffolding ( 4 ) fixed to the anchoring means ( 3 ), wherein the foundation framework ( 4 ) Support areas ( 5 ) for supporting the sea platform ( 7 ) having. Basic frame ( 1 ) according to claim 1, characterized by cable guiding means ( 10 ) used to carry submarine cables ( 12 ) of the sea arc ( 2 ) to a pontoon ( 8th ) of the sea platform ( 6 ) are set up. Basic frame ( 1 ) according to claim 2, characterized in that the cable guiding means ( 10 ) fixed to the foundation framework ( 4 ) are connected. Basic frame ( 1 ) according to claim 2 or 3, characterized in that cable guide means as an inner hollow cable guide tower ( 10 ) are configured. Basic frame ( 1 ) according to claim 4, characterized in that the cable management tower ( 10 ) has a height such that its free end protruding from the water at the height of a pontoon ( 8th ) of the installed sea platform ( 7 ) is arranged. Basic frame ( 1 ) according to one of claims 2 to 5, characterized in that the cable guide means ( 10 ) one with the underwater cables ( 12 ) have connectable interface for connecting cables of the sea platform ( 7 ) is set up. Basic frame ( 1 ) according to one of the preceding claims, characterized by connecting means for fixed connection to the self-erecting marine platform ( 7 ). Method for setting up a marine platform ( 7 ), where a base frame ( 1 ) below the sea surface ( 9 ) firmly on the seabed ( 2 ), a self-erecting marine platform ( 7 ) on the base frame ( 1 ) and then the base frame ( 1 ) fixed to the self-erecting marine platform ( 7 ) is connected. Method according to claim 8, characterized in that the marine platform ( 7 ) floating above the base frame ( 1 ) and then support columns ( 6 ) of the floating sea platform ( 7 ) down to the base frame ( 1 ) are extended. Method according to claim 8 or 9, characterized in that after the anchoring of the base frame ( 1 ) on the seabed ( 2 ) Submarine Cable ( 12 ) from the seabed ( 2 ) by at the base frame ( 1 ) attached cable management means ( 10 ) are guided and attached to this. Method according to claim 10, characterized in that components of the marine platform ( 7 ) with the underwater cables ( 12 ) get connected.

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