SU1158674A1 - Support of self-raising platform - Google Patents

Abstract

1. SUPPORT SELF-BODY SH1ATFORSH, including a column with stops and a shoe with a hole for the column, movable along the column within the stops, which is different from the fact that, with the aim of simpling №ti,; :: - :: yil T fTT-f construction and reduction of operating costs, on the surface of the baomak opening are made poon kaiapas with vertical and inclined sections, and the surface of the column between the stops is provided with cages for these channels 2. Support according to Clause 1, about the purpose of reducing soil resistance when turning the baamak, the shoe is en disc-shaped. 3. Support in n.t, from the point that in order to reduce the force during movement of the stops along the guide channels, it is quick (L are filled in the form of hemispheres.

Description

This invention relates to hydraulic engineering, in particular, to supporting structures of offshore drilling platforms and. It can be used for various surface bases of repeated use, installed on soft soils, giving the effect of suction. A hydraulic structure support is known in which the support shoe is composed of poltk of separate annular sections concentrically surrounding the friend’s feet and freely attached to the lower end of the support ftJ. When the support is detached from the bottom, the force of the proca is alternately overcome first by the lower end of the support, then section is blown out (they can remain at the bottom). The disadvantage of such a support is that the backup bag is separated from the support and is kept there during the lifting of the support buoyancy force. In addition, an autonomous connection of the purging system to each section of the shoe using divers or the availability of autonomous systems for each section should be provided. Known support samopodi oh ppat. forms, including a column with stops and a shoe with a hole for the column, movable along the column within the stops i. The tank is fixed on the column with stoppers in the form of spring-loaded levers mounted in the shoe 2. A disadvantage of the known device is the excessive complexity of its design: the presence of springs hinges and protective devices, ensuring the operation of hinges in sea water when interacting with liquid soil. In addition, the known device does not have the potential to reduce much effort. The purpose of the invention is to simplify the design and reduce the operational; costs. To achieve this goal, in a support of a self-lifting platform including a column with stops and a shoe with a hole for the column, movable along the column within the stops, on the surface of the shoe aperture are made with vertical and inclined sections, and the surface of the column between the stops. protrusions under zti kanga. In order to reduce the soil resistance when the shoe is rotated, the shoe is disk-shaped. In addition, in order to reduce the force during movement of the stops along the guide channels, the protrusions are shaped as hemispheres. FIG. 1 shows a schematic representation of the proposed support in the position of resting on the ground; FIG. 2 shows a shoe with a diametrical section. The lower part of the support consists of Colon 1 and the disc-shaped shoe 2, find the Shoe 2 in contact with the upper stop 3, the Lower stop 4 holds the shoe when the support is lifted, the projections 5 in the form of hemispheres on the surface of the column are located along the perimeter at equal distance from the stops 3 and 4, the guide channels 6 have vertical sections 7 and inclined sections 8. The support is provided with a tip 9, 1 2B is taken, where / i is the distance between the stops; B is the height of the shoe. The device works as follows. When lowering the support to the ground and transferring the vertical load onto it, the tip 9 penetrates the ground, the shoe 2 reaches the ground surface, the protrusions 5 enter the inclined sections 8 in the direction of the channels b, starts a helical motion, pressed into the ground, and comes into contact with upper stop 3, With the onset of equilibrium load and carrying capacity of the soil base, the support is fixed in the soil. When the support is lifted, column 1 is at a standstill. The not-finder 9 goes up, and the shoe 2 remains in the ground until the stand on the column, t passes the vertical sections 7 of the guide channels 6. The entrance to the curvilinear sections, vystugi 5 tell the shoe the torque, the screw movement, the shoe is detached from the ground and rises along with the column held by the lower stop, the presence of directions (channels with vertical and inclined sections on the surface of the shoe aperture, and on the surface of the column between the stops — protrusions entering the guide channels; balshaka apart from the bottom at the time of recovery support, as

separation occurs with simultaneous rotation of the shoe, in which tangential stresses occur on the contact surface of the soil, which cause shear deformations of the soil, its loosening and increase in filtration capacity, and, as a result, a decrease in the suction force for the shoe.

Using the support of the proposed design on self-lifting platforms installed on soft ground, will allow, in comparison with the prototype, significantly improve the performance of the platform by reducing the time to transfer it from the operating position to transport because of the reduction in resistance of the soil to turn, leads to a reduction in effort, which must be expended on raising the support, which makes it possible to equip the platform with less night lifting equipment m, and consequently save money. The use of the proposed support, in contrast to the prototype, due to the simplicity of its construction, will also significantly reduce the cost of preventive measures required for the operation of any equipment.

F1 / g.2

Claims (3)

1. SUPPORT OF A SELF-LIFTING PLATFORM, including a column with stops and a shoe with a hole for the column, movable along the column within the stops, characterized in that, in order to simplify the design and reduce operating costs, guide channels with vertical and inclined sections, and the surface of the column between the stops is provided with protrusions for these channels. 2. The opera according to claim 1, with the statement that in order to sleep the wife of soil resistance when the shoe is turned, the shoe is made disk-shaped. 3, The support according to claim 1, from the beginning, it is clear that, in order to reduce the force when the stops move along the guide channels, the protrusions are made in the form of hemispheres.