RU2061147C1 - Drilling platform - Google Patents

Abstract

FIELD: marine hydraulic structures, borehole drilling, minerals production, processing and storage in ice floes. SUBSTANCE: drilling platform includes such two blocks as floatable pontoon and foundation frame. Foundation block represents a frame with vertical pile-like guides installed inside, and interconnected to create a single structure using tubular members. Reply part of the floatable block with ring recess is installed onto support ring of the foundation block, and cavity formed between support ring and recess ring is filled with concrete. Floatable block is dismantled and removed if needed. EFFECT: decreased cost, university, decreased labour consumption. 2 cl, 3 dwg

Description

 The invention relates to offshore hydraulic structures on the continental shelf, in particular, to offshore stationary platforms for drilling, production, processing and storage of minerals extracted from the bottom of the oceans, which can be transported assembled, after ballasting at the place of use to the seabed, and when necessary, or if necessary, to return to a floating position, transferred to a new place and re-installed.

Known marine stationary platform containing a base with vertical pile guides. Stability of the platform against shear and tipping over is provided with the help of piles, crushed deep into the ground [1]
If it is necessary to move the platform to another place, the piles must be pulled out of the ground or trimmed, which makes it very difficult to carry out an operation to transfer the platform to a new point of operation or for disposal. In addition, the removal of the platform from the ground is also prevented by a suction cup, which is typical, especially for clay soils.

 The disadvantages of such a platform are also: uniqueness i.e. binding of each platform to a specific depth; construction duration; a large amount of work to prepare the installation site; the complexity of dismantling for transfer to a new location or for disposal after the end of operation; the inability to use the platform with a significant change in depth at a new installation location.

Also known is a marine stationary platform consisting of a floating foundation block and an upper block with a drilling rig and processing equipment. The stability of the platform against shear and tipping is ensured by the ballasting of the foundation block with water and solid ballast. The upper block is mounted on the foundation by ballasting [2]
If it is necessary to move the platform to another place, the upper block is de-ballasted and removed, and the foundation block remains at the bottom.

 The disadvantages of such a platform are also: uniqueness (single construction); construction duration; a large amount of work to prepare the installation site; significant cost of the foundation block.

 The purpose of the invention is cost reduction; providing the possibility of serial construction; universality in installation depth; reducing labor intensity when setting up a platform at the field; as well as when removing the platform from the ground.

 To achieve this goal, the platform is detachable from two separate parts, the lower (foundation) block and the upper block. At the same time, the lower block has a truss type design to ensure minimal metal consumption. Vertical pile guides are connected in a single design by tubular elements. In the upper part, the foundation block has a support ring for installing the upper block on it. This unit, when installing the platform in place with a different depth, is replaced by a similar block having a different height, which ensures the universal use of the entire platform in depth.

 The upper block has a pontoon type construction for placement of drilling equipment, ballast tanks, oil storage tanks, etc. The vertical structures that make up the contour of the pontoon are made of reinforced structures for perceiving the ice load. In the lower part of the block there is a reciprocal part with an annular recess, which ensures the landing of the block on the support ring of the lower block and the transmission of forces from external loads.

 This design allows for simple dismantling of the base at the end of operation and at the same time, reliable fixing of the base to the ground during operation.

 Below is described one of the embodiments of the invention shown in the drawings, where: FIG. 1 is a general view of the platform, FIG. 2 is a diagram of setting the platform to the place of operation, FIG. 3 docking unit of the upper and lower blocks.

 The stationary stationary platform consists of the upper block 1, on which the drilling rig 2 with technological equipment, the foundation block 3 with vertical pile guides 4 and the support ring 5, on which the counterpart with the annular recess 6 of the upper block rests, is located. A cavity 7 is formed on the lateral surfaces of the support ring, the annular recess and the upper surface of the visor, by concreting of which the upper block is fixed to the foundation block.

 Setting the platform to the place of operation is as follows.

 The base unit 3 is fixed on the seabed at a given point of operation (Fig. 2), after which the upper block with all the structural elements of the platform is towed to the place of work and is guided by towing vessels to the support block. After that, the reception of ballast in the upper block begins, it immerses and sits with its counterpart with an annular recess on the support ring of the foundation block, the conical shape of which ensures centering of the upper block.

 The support ring in the cross section has the shape of a trapezoid, the side of which has an inward inclination less than the angle of friction of the rest of the material used to make the support ring and the counterpart.

 The stability of the platform from shear and tipping relative to the foundation block is ensured by its own weight, the mass of ballast received in the upper block and by concreting the cavity between the support ring and the counterpart.

 The removal of the platform from the point of operation to transfer it to another place of work is carried out by de-ballasting the upper block.

 The foundation block remains on the ground.

 The proposed design, as can be seen from the drawings and descriptions ensures the achievement of goals, namely: cost reduction; providing the possibility of serial construction; universality in installation depth; reducing the complexity when setting up the platform at the field, as well as when removing the platform from the ground.

Claims (2)

 1. An offshore drilling platform containing a foundation block and an upper block resting on it for accommodating working equipment, characterized in that the foundation block consists of vertical tubular guides for piles connected by pipes to form a three-dimensional truss, and a support ring for the upper block, attached to the upper part of the truss along its perimeter, and the lower part of the upper block is made with an annular recess to accommodate the support ring.  2. The platform according to claim 1, characterized in that the annular recess of the upper block is made wider than the width of the cross section of the support ring, and the cavity formed by the walls of the annular recess of the upper block and the walls of the support ring is filled with concrete.

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