SU990582A1 - Semisubmerged offshore drilling rig - Google Patents

Description

The invention relates to shipbuilding, in particular to semi-submersible drilling rigs.

A semi-submersible drilling rig is known, comprising a surface plate rigidly mounted on columns, through which it is connected to pontoons, a stabilizer connected to the platform by means of hydraulic cylinders with the ability to move in a vertical plane, and a hydraulic drive with a differential mechanism including hydraulic cylinders, the stabilizer being made In the form of a system of horizontally located nets with round holes 11.

However, the known installation has a low stability on the waves.

The purpose of the invention is to increase the stability of a semi-submersible drilling rig on rough seas.

The goal is achieved by the fact that the drilling semi-flexible installation is equipped with a wave Dimensional sensor electrically connected to the hydraulic actuator, the stabilizer grids are arranged in a vertical plane and rigidly connected to each other with a spacing between the grids of not less than 5 diameters of the mesh opening, This permeability of the stabilizer mesh is 0.3-0.6.

The drawing schematically shows a semi-submersible drilling unit in the working position ..

The installation contains a surface platform 1, on which the tower 2 and hydraulic actuator 3 with differential mechanism 4 are installed. Among the columns 5 platform 1 is rigidly fixed on the pontoons 6. when using a system of telescopic, synchronously connected hydraulic cylinders 7 with pontonaksh 6 overhangs

15 a stabilizer 8. The stabilizer 8 is made in the form of a frame structure, on which the grids 9 are rigidly fixed. To adjust the depth of the stabilizer 8, depending on

20 from the parameters of the waves, a wave sensor 10 is provided.

The installation works as follows.

When rolling semi-submersible drilling

25 installation on waves, the signal from the wave sensor 10 is supplied to the hydraulic actuator 3, which by means of a differential mechanism that provides for the synchronous movement of the hydro30 cylinders 7, automatically sets the stabilizer 8 at the required depth (at least 1/3 of the wavelength).

The effective quenching of the energy of the oscillation of the installation occurs on the grids 9 with a permeability of 0.3-0.6 by dissipating the energy of uniformly distributed small-scale vortices. When the permeability of the grids is less than 0.3 vortex: the formation behind them is determined mainly by the separation of the flow from the edges of the grids 9, which does not eliminate the uneven load in time and area. The use of grids with a permeability greater than 0.6 is ineffective due to their low hydrodiamic resistance.

In order to ensure maximum inertia, the lattice systems should be rigidly fixed to the lower sections of the hydraulic cylinders 7 at a distance of at least 5 diameters of the mesh opening. With a smaller distance, there is a mutual effect that reduces the inertia characteristics of the stabilizer.

The proposed technical solution, in comparison with limestone, is more stable in volatilization.

Claims (1)

1. Patent of Great Britain 1337440, cl. E 1 H, 1970 (prototype).