SU1090799A1 - Method of securing the support block of stationary offshore platform - Google Patents

Abstract

METHOD FOR FIXING THE REFERENCE BLOCK MORSKOP STA11POPL M-i) th PLATFORMB1, zaklyuchayunikk in noi-servation of the ground base interleaved to a depth divided by grunp piles, initially under the action sobstvepiogo weight, and then through the mechanism of transmitting some of the weight orioj) noro b / Yuki on a pile, characterized in that, in order to reduce the labor intensity and simplicity, A) the mounting process, the first group of pile pile is immersed by a mechanism with a support block and the fur is immersed}. coupling with the ground of the first group of light., and liepe.i is immersed by means of the mechanism of the first group of fiiaii, they are disconnected from the reference is block. | W 1C: with about CD CD

Description

This invention relates to marine hydraulic engineering construction, in particular for the construction of fixed offshore platforms.

There is a known method of fastening the support blocks of offshore fixed platforms, in which the support block is fixed to the seabed soil by means of buoys. For this, soil is drilled through the support block rack, anchor piles are lowered into the resulting cavity, which are poured with cement mortar 1.

The disadvantage of this method is the need to perform a large amount of labor-intensive drilling and cementing operations.

There is also known a method of fastening the supporting blocks of fixed offshore platforms, which consists in immersing piles in the ground under the action of its own weight and further immersing to a predetermined depth with a hammer (usually steam-air hammers) 2.

The disadvantage of this method is a large amount of labor-intensive work performed from a crane-erection vessel of a large capacity, since industrial steam-air hammers with an impact energy of up to 200 tons are required.

The closest in technical essence and the achieved result to the invention is the method of fastening the support block of the offshore stationary platform, which consists in immersion in the ground of the base by alternating to the design depth of piles divided into groups, first under the action of its own weight, and 3ateM by means of a mechanism transferring some of the weight support block on the pile 3.

However, according to a known method, the pile crushing (support column) is carried out by a mechanism, and the reaction of the soil is perceived by a certain mass of the platform. In case of insufficient mass, platforms take the required amount of outboard water ballast, which, under the conditions of the supporting blocks of stationary platforms, necessitates the creation of removable tanks, pumping stations or temporary loading of a large mass of solid ballast.

The aim of the invention is to reduce the labor intensity and simplify the fastening process.

This goal is achieved by the fact that the first group of piles after immersion by the mechanism is coupled with the support block and immersed by the mechanism of the second group of piles due to the adhesion forces with the ground of the first group of piles, and before immersion by means of the mechanism of the first group of piles they are disconnected from the support block.

FIG. 1 shows a basic block with its first and second groups, a general view; in fig. 2 - installation of the mechanism for immersing the pile; in fig. 3 - joint of the pile with the support block.

The method is carried out in the following sequence.

The first group of piles after immersion by the mechanism under the action of some part of the weight of the support block is joined to the support block. The mechanism of the second group of piles is immersed under the action of a certain part of the weight of the support block and the forces of adhesion to the ground of the first group of piles, then the second group of piles is joined to the support block. The first group of piles is disconnected from the support block and immersed by the mechanism. Operations alternate before sinking piles to the design depth.

Piles 1-10 are mounted in vertical uprights 11 of support block 12, which, under the action of their own weight, are immersed in the base soil (Fig. I). On the first group of piles 1, 3, 5, 7 and 9 install mechanisms 13 (Fig. 2), which immerse piles under the action of a certain mass of the support block. After completion of the piling operation, their first group is joined to the support block, for example, by welding elements 14 (Fig. 3). Mechanism 13 is rearranged to the second group of piles 2, 4, b, 8 and 10 and immersed under the action of a certain part of the mass of the support block and the cohesion forces of the piles of the first group with the ground. After this operation is completed, the second group of piles is joined to the support block, for example, by welding elements 14. The mechanisms are shifted to the first pile group 1, 3, 5, 7 and 9, the welding elements 14 are removed and the piles of this group are immersed under the action of a certain weight block and adhesion forces with the soil of the second group of piles. Operations alternate before sinking piles to a predetermined depth.

The technical and economic efficiency of the proposed method consists in a significant reduction in labor intensity, since the main work can be performed from the support block, the participation of the crane and other auxiliary equipment is sharply reduced.

The use of the invention in the installation of support blocks with their own will give an economic effect of approximately 500 thousand rubles.

Claims (1)

METHOD FOR FASTENING THE SUPPORT UNIT OF THE MARINE STATIONARY PLATFORM, which consists in immersing the foundation in the soil by alternating to the design depth piles divided into groups, first the iodine by the action of its own weight, and then by means of a mechanism that transfers some part of the weight of the support block to the pile, characterized in that, for the purpose to reduce labor intensity and simplification, the attachment process, after immersion by the mechanism, the first group of piles is articulated with the support block and the second group of piles is immersed by means of a magnet by means of si. ” adhesion to the ground of the first group of piles., and before diving through the mechanism of the first group of piles, they are disconnected from the support block.