SU1015044A1 - Self-raising walking drilling platform - Google Patents

Abstract

1. SELF-SUPPORTING STEPPING DRILLING PLATFORM, containing a large pontoon, in the hole of which a small pontoon is installed in rotation, made in the form of a disk, carrying a rotating psadem-lowering support, so that, in order to increase productivity due to the increased maneuverability and speed of movement of the platform, the large pontoon is disc-shaped, and the small pontoon is installed eccentrically in it and provided with at least three pillars, the main pontoon equipped with a shell located on its periphery minutes, carrier hoisting downcomer support, both pontoon and the sleeve are mounted rotatably relative to each other. (L sh: l about 4

Description

2 Platform pop.1, excellent 1D with the fact that on the outer side of the shell a console counterweight device is mounted to accommodate the helicopter landing gear and fuel tanks.

3. The platform of claim 1, about tl and | tea with the fact that on a small

Pontoon mounted drilling rigs and a pile driver, located eccentrically relative to the axis of its rotation.

4. The platform of claim 3, wherein the platform is each configured as a cylindrical shell in which the racks are mounted.

The invention relates to the drilling of exploration and industrial wells for oil and gas, the construction of supports for the drilling of oil and gas wells in the Lribrezhnaya zone of the seabed and the coast, as well as in the construction of coastal hydrotechnical complexes. The drilling platform is known as a walking platform made in the form of a portal equipped with four lift columns. The movement of the plat-form is carried out by successively resting it on its own supports, then on the columns of the portal and on the mutual horizontal movement of the platform and the portal. In this case, the structure allows for some rotation of the platform relative to the portal within the gap between them, so that the platform can move curvilinearly in terms of flj. The drawbacks of such a platform are its low maneuverability and relatively low movement speed, which reduces the productivity of work associated with drilling and installation operations. Also known is a self-climbing walking drill platform containing a large pontoon, in the hole of which a small pontoon is installed in rotation, made in the form of a disk carrying a rotating lifting and lowering support 2. The disadvantages of this device are low maneuverability and movement speed due to the small size of the holes in relation to the size of the platform itself, as well as the difficulty of carrying out synchronous work on raising and lowering eight gears. The purpose of the invention is to increase the productivity by increasing Maneuverability and speed of movement of the platform. This goal is achieved by the fact that the large pontoon is disk-shaped, and the small pontoon is installed eccentrically in it and is equipped with at least three pillars, the main pontoon being equipped with a ring located on its periphery that carries the lifting and lowering supports, and both pontoons and sides are mounted with possibility of rotation relative to each other. In addition, a cantilever counterweight unit can be mounted on the outer side of the shell to accommodate the helicopter station and fuel tanks. On a small pontoon, drilling rigs and a pile driver can be mounted, which are located eccentrically relative to its axis of rotation. Each of the derricks can be made in the form of a cylindrical shell in which the racks are mounted. Figure 1 shows the platform, axonometrics; figure 2 is the same, a longitudinal section; on fig.Z - the same, top view. A self-climbing walking-platform consists of a small pontoon 1, made in the form of a disk with a diameter d, which is equipped with four lifting and lowering supports 2, installed at a distance R., from its axis of rotation. The small pontoon 1 is eccentric (with some eccentricity t) inserted into a large disc-shaped pontoon 3.Diameter D. The large pontoon 3 is in turn enclosed in a cylindrical support shell 4, equipped with three O1 | orah 5. The pontoons 1, 3 and the shell 4 can be rotated relative to each other in special bearings 6. On the deck of the small pontoon 1 there are two drill holes of 7 and 8 cylindrical shapes of closed type and a pile driver 9, located eccentrically relative to the axis of th rotation, -t. e. on some paci, the stages are x R and n, respectively, and the distances indicated do not coincide with the circles of rotation of the supports 2, whose centers are located at distances x from the axis of rotation. Inside the cylindrical shell of each drill hole there is a vertical cylindrical rotating rack 10 with drilling or casing pipes. On the deck of the large pontoon 3 a rotary cargo crane 11 is placed, a superstructure 12 and a platform for pipes and consumables. On the outer side of the shell 4, there are additional rooms in which spare tanks 13 for diesel fuel are located, supplementary tanks 14 for methanol and helicopter fuel, above which 1 are placed helipad 1 Each lifting and lowering column is equipped with a special hydraulic lift 16 and a removable hinge 17. Piling and drilling operations are done separately. When designing a well cluster, a contour pile driving is first carried out, then the wells are drilled inside the pile contour. When the drill is working, the platform on the lifting and supporting supports 5 shell 4, while the lifting and lowering supports 2 of the small pontoon 1 are in the raised position. Moving the headframe 9 when driving piles and drilling rigs 7 and 8 during the well bore drilling can be done by turning small pontoon 1 at a certain angle, in this case, piling and drilling occurs along the contour of small circles Hz and g, respectively. As well as turning a large pontoon 3 at a certain angle when a pontoon is locked relative to it. In this case, drilling of wells and driving of piles takes place along large circles with a radius equal to:,. ,, pO / tftaS 4,4;, V ), respectively, where Rg- and R are the radii of rotation of the centers of oil rigs 7 and and headframe 9, respectively, relative to the center of rotation O of the large pontoon 3; (; And., Angles of reversal of the centers of oil rigs 7 and 8 and heading 9 respectively. Around the center of rotation GI of the small pontoon 1 relative to the direct O-O connecting the centers of rotation of the large and small pontoon b. Besides can be made jointly by P; pontoon 1 and pontoon 3 at some angles relative to their centers O and O. In this case, pile driving and drilling can be carried out along any contour, including straight-line movement, rigs and headframes, in: circles with radii Rv5 N.1ChH / and RlJ. T "- G. G. sootvetst + r, 4t7. The drilling equipment and KOP1EOV are operated by limestone methods. transplants of the whole platform from dispute 5 to supports 2; turning a large pontoon 3 with a locked ring 4 around the small pontoon 1, as well as transplanting the entire platform from supports to supports 5, etc. In one cycle, the platform moves by a double eccentricity value of 2t. If necessary, in order to improve the stability of the platform when it is turned around the small pontoon 1, the platform is differentially differentiated by moving liquid cargo from the capacious one. . Tey pontoon 3 in spare capacity 13 and solid cargo on the deck platform. As a result, the center of gravity of the platform moves closer to the center of rotation O of the small pontoon and improves its stability when rotating around the small pontoon 1. The use of the invention will significantly improve the maneuverability and speed of the proposed movement; platforms; to provide more efficient use of drilling and scrapping equipment due to the eccentric location of drilling rigs and headframes on the small pontoon, which allow to perform work on a large area without moving the platform; to improve the working conditions of drillers and to increase labor productivity by installing closed-type cylindrical drilling rigs ensuring the creation of a microclimate and accommodating easy-to-use vertical locals of revolving type racks for drilling and casing pipes.

Claims (4)

1. A SELF-LIFTING STEPPING DRILLING PLATFORM, containing a large pontoon, in the opening of which is rotatably mounted [a small pontoon made in the form of a disk carrying a rotating lifting and lowering support, which requires that in order to increase productivity by increasing the maneuverability and speed of the platform, the large pontoon is disk-shaped, and the small pontoon is eccentric and equipped with at least three supports, • the main pontoon being equipped with a shell located on its periphery, not uschey hoisting downcomer support, both pontoon and mantle 'mounted rotatably relative to each other. β figure 1 2. Platform by π. 1, characterized in that a cantilever counterweight device is mounted on the outer side of the shell to accommodate the helipad and fuel tanks. 3. The platform according to claim 1, which is molded by the fact that on the small pontoon there are mounted derricks and a pile driver located eccentrically relative to the axis of its rotation. 4. The platform according to claim 3, characterized in that each of the derricks is made in the form of a cylindrical shell in which racks are mounted.