RU2139973C1 - Complex for mounting of stationary sea platform and method of its transportation - Google Patents

Abstract

FIELD: construction and hydraulic engineering. SUBSTANCE: invention can be used in development of continental shelf. Complex for mounting of stationary sea platform has pontoon with hoisting mechanisms. Pontoon is made in the form of floating dock with towers. Hoisting mechanism are installed inside towers and are provided with devices for attachment to platform body. Method for transportation and mounting of stationary sea platform implies use of pontoon with hoisting mechanisms. For transportation of platform, body of platform is placed on towers of floating dock in such way that supporting posts are found beyond overall dimensions of towers. Supporting parts of platform posts are located below main plane of floating dock. At coming to mounting place, platform by means of hoisting mechanisms is raised until alignment of supporting parts with level of main plane of floating dock. After that, hoisting mechanisms lower platform to ground. Floating dock by means of attachment devices is connected to body. Posts are sunk into ground. Then, floating dock is detached from platform body and is moved away from mounting site. Application of aforesaid method and mounting complex allows for widening operational potentialities. Thus, mounting of stationary sea platforms can be exercised in shallow water at sea depth from 4 to 1 m. In addition, design of complex is simplified. EFFECT: higher efficiency. 3 cl, 6 dwg

Description

 The invention relates to the field of hydraulic structures, and more particularly to means for the development of the continental shelf.

Known complexes for installation and methods of transportation and installation of stationary offshore platforms, including special watercraft for guidance and installation with their help of the upper structure of the platform on a base previously installed on the ground (see, for example, application of Great Britain N 2176827, M. Cl. ⁶ E 02 B 17/00, NCI E 1 H, 1987).

The disadvantage of these known complexes and methods is the need for preliminary installation of the base and the complexity of the structure due to the presence of a large number of hydropneumatic elements and the process of pointing the upper structure to the base, and most importantly, the inability to use the complex in shallow water at depths of less than 4 meters *
A well-known complex for mounting offshore stationary platforms and a method of transportation and installation by means of a complex for mounting an offshore stationary platform having a hull and support legs, using a pontoon with lifting mechanisms (see, Pat. Netherlands N 135005, MKL ⁶ E 02 B 17/00 from 1972, which after analysis was adopted as a prototype of the complex and method).

 The disadvantage of the prototype is the complexity of the structures due to the presence of a self-elevating pontoon with moving supports and the inability to use this method and device for mounting platforms at sea depths of less than 4 meters.

 The technical result of the proposed complex and method is the expansion of operational capabilities by providing the possibility of installing stationary offshore platforms in shallow water at sea depths from 4 to 1 meters, while simplifying the design of the complex.

 This is achieved in a complex for mounting offshore stationary platforms having a hull and support posts containing a pontoon with lifting mechanisms, in that the pontoon is made in the form of a floating dock with towers, and the lifting mechanisms are mounted inside the mentioned towers and equipped with devices for attaching to the platform body.

 In addition, in the complex for mounting offshore stationary platforms, devices for attaching to the platform body are made in the form of rods interacting with the reinforcements of the platform body.

 The specified technical result is also achieved in the method of transportation and installation by means of a complex for mounting an offshore stationary platform having a hull and support racks, using a pontoon with lifting mechanisms so that for transportation the hull of the offshore stationary platform is placed on towers of a floating dock so that the support racks are beyond the dimensions of towers having lifting mechanisms, equipped with devices for attaching to the platform body, while the supporting parts of the racks are located below the main plane the bones of the floating dock, and when approaching the installation site, the platform is raised by means of tower lifting mechanisms to align the supporting parts of its racks with the level of the main plane of the floating dock, then using the said lifting mechanisms lower the platform to the ground, attach the floating deck to the platform body using fixing devices and crush it supporting racks into the ground, after which the float is disconnected from the platform body and diverted from the installation site.

In FIG. 1 schematically shows a General view of the inventive complex for the installation of a stationary offshore platform (floating dock with a platform installed on it);
in FIG. 2 is a view from the side according to A of FIG. 1 in the transport position;
in FIG. 3 is a view from the side according to A of FIG. 1 at the time the floating dock is located above the platform installation site (the platform is raised above the floating dock towers);
figure 4 is a section aa of figure 2; figure 5 is a section bB of figure 4;
in FIG. 6 is a view from the side according to A of FIG. 1 at the time the floating dock emerges from under the platform installed on the ground.

 The inventive complex for mounting an offshore stationary platform contains a pontoon 1, made in the form of a floating dock with towers 2. The platform has a housing 3 and support racks 4 with supporting parts (shoes) 5.

 Inside the towers 2 of the floating dock 1, lifting mechanisms 6 are mounted, equipped with devices for attaching to the chassis 3 of the platform, namely, the reinforcements 7, made in the form of rods 8, connected to the hydraulic cylinders 9 and interacting with the reinforcements 7. The platform is mounted on the ground 10.

The inventive method of transportation and installation of a stationary offshore platform through a complex for installation is as follows:
For transportation, the hull 3 of the marine stationary platform is placed on the towers 2 of the floating dock 1 so that the supporting posts 4 are located beyond the dimensions of the towers 2. At the same time, the supporting parts 5 of the posts 4 are located below the main plane (OP) of the floating dock 1.

 When approaching the installation site, the platform through the lifting mechanisms of 6 towers 2 is raised to align the supporting parts 5 of its racks 4 with the level of the main plane (OP) to reach the minimum water depth of about 1 meter. Then, using the lifting mechanisms 6, lower the platform to the ground 10. By means of fastening devices, float 1 is connected to the body 3 of the platform, for which the rods 8 are brought into engagement with the reinforcements 7 of the body 3 using hydraulic cylinders 9, and the support posts 4 are pressed into the ground 10 lifting mechanisms 6, thereby transmitting the weight of the floating dock 1 to the platform body 3. Then, the flooding device 1 is disconnected from the platform body 3, for which the rods 8 are disengaged from the reinforcements 7 by means of hydraulic cylinders 9. The hydraulic cylinders 9 are operated from a hydraulic drive located on the floating dock 1 (hydraulic drive is not shown).

 After that, float 1 is diverted from the installation site (from the platform installed on the ground).

 The inventive installation complex and the method of transportation and installation by means of the installation for the installation of an offshore stationary platform provide the possibility of installing offshore stationary and self-elevating platforms in shallow water at minimum sea depths of less than 4 and up to 1 m while simplifying the design of the complex through the use of existing floating docks with a slight upgrade associated with the retrofitting of towers with lifts.

 The proposed complex and method of transportation and installation significantly expand operational capabilities by expanding the area of operation and maintenance of the shallow shelf from 20 to 1 m.

Claims (3)

 1. A complex for mounting an offshore stationary platform having a hull and support racks containing a pontoon with lifting mechanisms, characterized in that the pontoon is made in the form of a floating dock with towers, and the lifting mechanisms are mounted inside the mentioned towers and equipped with devices for fixing to the platform body.  2. The complex for mounting an offshore stationary platform according to claim 1, characterized in that the device for attaching to the platform body is made in the form of rods interacting with the reinforcements of the platform body.  3. A method of transportation and installation by means of a complex for mounting an offshore stationary platform having a hull and a support stand, using a pontoon with lifting mechanisms, characterized in that for transportation the hull of the offshore stationary platform is placed on the towers of the floating dock so that the support legs are beyond the dimensions towers having lifting mechanisms equipped with devices for attaching to the platform body, while the supporting parts of the racks are located below the main plane of the floating dock, and when approaching m In order to install the platform, by means of tower lifting mechanisms, the platform is raised to align the supporting parts of its columns with the level of the main plane of the floating dock, after which using the said lifting mechanisms the platform is lowered to the ground, the floating dock is attached to the platform body using fixing devices, and the supporting columns are crushed into soil, and then the floating dock is disconnected from the platform body and diverted from the installation site.

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