RU2672892C2 - Cluster driller - Google Patents

Abstract

FIELD: soil or rock drilling.SUBSTANCE: invention relates to cluster drillers for production and exploration drilling of oil and gas wells. Cluster driller includes a towing unit with a winch, a rotor, a drilling wrench, modules for rough cleaning, fine cleaning and storage tanks for drilling mud, a module for collecting sludge from a circulating system, modules for a pumping unit connected to each other and a derrick-winch block and located in a level on supports. Modules for mud pumps, coarse drilling mud and sludge collection are installed longitudinally on two trolleys, interconnected with derrick-winch block, and the energy modules are installed behind the derrick-winch block. Remaining modules of the circulation system are installed transversely on supports, while the fine cleaning unit and one drilling mud storage capacity, combined into a single module, are located respectively behind the modules of rough cleaning, collecting sludge and mud pumps. Modules for mud pumps, rough cleaning and sludge collection mounted on trolleys are provided with lower and upper cross beams, while the beams of adjacent modules are rigidly interconnected, and the lower cross beams are rigidly connected with trolleys.EFFECT: technical result is reduced complexity of manufacturing and installation.3 cl, 7 dwg

Description

The invention relates to the field of engineering, in particular to drilling rigs for production and exploratory drilling of cluster oil and gas wells.

Known cluster drilling rig, including a tower hoist block with a movement mechanism, modules of the circulation system, pump, compressor and power blocks, placed in the echelon, supports (see Prince V. Kolcherin and others. Block-modular drilling rigs of the Volgograd Plant . Reference manual. Elabuga, R., 2007, pp. 52-55, Fig. 7.4.1-7.4.3).

The echelon arrangement of echelon modules allows you to move the entire rig to drill a new well.

The disadvantages of the well-known drilling rig are the significant complexity of manufacturing and installation due to the considerable length of the power and control cables, the manifold line and all communications, insufficient reliability due to the laying of the manifold lines through loosely connected modules of the circulation system.

A well-known cluster drilling rig, including a derrick and winch block with a moving mechanism, modules of the circulation system, pump, compressor and power blocks, made in accordance with the permissible transport dimensions and placed in the train, supports (Utility model No. 24231, IPC ⁷ E21B 15/00 , 2001).

The implementation of the modules in accordance with the permissible transport dimensions allows the use of serial vehicles during transportation and travel on public roads.

The disadvantages of the well-known drilling rig are the considerable complexity of manufacturing and installation due to the large length of power cables, control cables, manifold lines and all communications, insufficient reliability due to the laying of manifold lines through loosely connected modules of the circulation system.

A well-known cluster drilling rig including a tower hoist block (VLB) with a moving mechanism and a heating block, modules of the circulation system, pump, compressor and power blocks, made in the train, supports (Utility model No. 83280, IPC ⁶ Е21В 7/02, 2008 ), which is taken as a prototype.

Placing a separate heating unit on VLB allows you to reduce the length of communications, reduce heat loss.

The disadvantages of the known drilling rig are the significant complexity of manufacturing and installation due to the large length of power cables, control cables, manifold lines and all communications, insufficient reliability due to the laying of the manifold lines.

The aim of the proposed technical solution is to reduce the complexity of manufacturing and installation, the duration of installation work and increase the reliability of the cluster drilling rig.

This goal is achieved by the fact that the cluster drilling rig, including a derrick winch block with a winch, rotor, drill key, coarse cleaning, fine cleaning modules, drilling fluid storage tanks, a sludge collection module for the circulating system, pumping unit modules connected to each other and according to the technical solution, the installation is additionally equipped with a trolley-winch block and located in the echelon on the supports, energy modules, communication lines, cables, manifold and pipelines of the circulation system connected to each other and the winch block, installed on them along the supports, starting from the location of the winch, mud pump modules, rough cleaning of the drilling fluid and mud collection, and power modules are installed behind the winch block, the remaining modules of the circulation system mounted laterally on the supports, while the fine-cleaning unit and one drilling fluid storage tank, combined into a single module, are located respectively behind the coarse cleaning, sludge collection and mud pump modules.

The mud pump, coarse and sludge collection modules installed on the trolleys are equipped with lower and upper transverse beams, while the transverse beams of adjacent modules are rigidly connected to each other, and the lower transverse beams are rigidly connected to the trolleys.

The lower transverse beams of the modules are connected to the trolleys by at least two bolts, while the adjacent lower and upper transverse beams are equipped with at least one rigid insert with the possibility of interaction with the lateral surfaces of the transverse beams, at least on the sides of adjacent modules and on both sides of the rigid inserts two through coaxial holes in which the mating axles are mounted.

The proposed technical solution is illustrated by the drawing.

In FIG. Figure 1 shows the layout of the rig equipment (top view).

In FIG. 2 - side view of the train (fragment).

In FIG. 3 is an end view of the circulation system.

In FIG. 4 is an end view of a circulation system with modules rigidly fixed to each other.

In FIG. 5 is a section A-A in FIG. four.

In FIG. 6 is a section BB in FIG. four.

In FIG. 7 is an embodiment of a drilling rig arrangement with three mud pump modules.

The cluster drilling rig includes a mast winch block 1 supported by supports 2, while the mud pump modules 3 and 4 (Fig.), Coarse cleaning modules 5 and sludge collection 6 of the circulation system are installed along the supports 2 on two, for example, interconnected transversely located carts 7 and 8. Block 9 of fine cleaning and one storage tank 10, comprising one module 11, and the remaining storage modules 12-13, preparation of 14-15 drilling mud are located across and directly on the supports 2 with the formation of a single train. The modules 3 and 4 of the mud pumps are installed side by side and are located in the train on the side of the location of the drilling winch 16 VLB 1. Module 5 rough cleaning is installed between one module 4 of the mud pump and module 6 for collecting sludge. Block 9 of fine cleaning adjoins the coarse cleaning modules 5 and sludge collection 6, and storage capacity 10 - to the mud pump modules 3 and 4.

Energy modules, for example, a transformer module 17, a frequency converter 18, compressor 19, are installed in the rear part of the VLB 1, from the side of the drawworks 16.

Modules 11-15, carts 7 and 8, as well as VLB 1 are equipped, for example, with wheels 20.

VLB 1 is also equipped with a rotor 21, an automatic key 22, a crane 23 and a control panel 24.

The modules of the transformer 17, the frequency converter 18 and the compressor 19, located at the rear of the VLB 1 behind the winch 16, form a single power unit 25. The drill winch 16, the rotor 21, the drill key 22 are the main consumers of electricity and compressed air and are the main unit 26 VLB energy consumers, and modules 3 and 4 of the mud pumps, which are the main consumers of electricity, form a block of 27 main echelon consumers of electricity. Blocks 26 and 27 consume more than 90% of the energy resources of block 25.

The modules 3 and 4 of the mud pumps through the suction piping 28 and the manifold 29 are connected to the storage tank 10 and to the riser (not shown in Fig.). The coarse cleaning module 5, including, for example, a vibrating screen 30 located above the drain tank 31, is connected via a drain pipe 32 to the well, and the pipe 33 and the chute 34 are connected to the fine cleaning unit 9 and the sludge collection module 6.

Modules 3, 4, 5 and 6 (Fig. 4-6) are equipped, for example, in the lower part with lower transverse beams 35 (Fig. 4), which are connected to the power transverse beams (not shown in Fig.) Of the bogies 7 and 8, for example, bolts 36 and 37. Modules 3-6 in the upper part are also provided with upper transverse beams 38.

The upper adjacent transverse beams 38 (Fig. 5) are equipped with at least one rigid insert 39 with the possibility of interaction with the side surfaces of the beams 38. In the beams 38 on the side of adjacent modules and on both sides of the rigid inserts 39 there are made at least two through coaxial holes (on Fig. not indicated) in which the axially configured axes 40 and 41 are mounted.

The lower adjacent transverse beams 35 (Fig. 6) are provided, for example, with two rigid inserts 42 and 43 with the possibility of interaction with the side surfaces of the beams 35. In the beams 35 from the side of adjacent modules and on both sides of the hard inserts 42 and 43 are made at least two through coaxial holes (not shown in FIG.) in which the axially formed axes 44 and 45 are mounted.

In order to ensure the possibility of transporting the mud pump modules by serial vehicles, the drilling rig can be equipped with three mud pump modules 3, 4 and 46 (Fig. 7) instead of two.

Installation, operation and dismantling of the cluster drilling rig is carried out as follows.

The drilling installation is carried out in three relatively independent areas: installation of VLB 1; installation of modules 3-6 installed longitudinally on carts 7 and 8; installation of transversely arranged modules 11-15 of the circulation system, which are tanks and technological equipment for the preparation, mixing and cleaning of the drilling fluid.

There are no high pressure pipelines laid through the modules, high voltage cables, communication lines and compressed air pipelines in the train. High-power electricity from the energy block 25 (transformer 17 modules, frequency converter 18, compressor 19) is supplied to winch 16 located in VLB 1, rotor 21, truck mounted crane 23, which form block 26 of the VLB main energy consumers, as well as to modules 3 and 4 mud pumps located in close proximity to block 25. This significantly reduces the length of communications and the number of detachable joints, eliminates the cabling through the modules of the circulation system. The location of the modules 3 and 4 of the mud pump near VLB 1 also allows you to exclude the laying of the pressure pipe under high pressure through adjacent modules.

Taking into account that the drilling fluid moves in the cycle: "storage modules 12-13 - storage capacity 11 - mud pump modules 3 and 4 - manifold 29 - well - drain line 32 - coarse cleaning module 5 - fine cleaning module 9 and sludge collection module 6 - storage modules 12-13 ", in the proposed technical solution, the equipment of the circulation system (CC) (modules 5, 6, 11-15) and modules 3, 4 of the mud pumps are located in exact accordance with the technological cycle of the drilling movement solution. Drilling fluid is pumped into adjacent CA modules under slight pressure.

When the lower 35 (Fig. 4-6) and the upper 38 transverse beams of modules 3-6 are rigidly connected to each other through rigid inserts 39, 42 and 53 and pairs of axles 40, 41 and 44, 45, and the lower transverse beams 35 with power beams trolleys 7, 8 with bolts 36 and 37, allows to take the load from the weight of modules 3-6 not only by the power beams of trolleys 7, 8, but also by metal construction, incl. transverse beams 35 and 38, modules 3-6. When the rig is equipped with three modules 3, 4 and 46 (Fig. 7) of the mud pumps, the modules can be transported by serial vehicles on general roads.

Claims (3)

1. A cluster drilling rig including a tower hoist with a winch, a rotor, a drill key, coarse cleaning, fine cleaning and drilling fluid storage modules, a sludge collection module for the circulation system, pump unit modules connected to each other and the mast winch block and located in the echelon on poles, energy modules, communication lines, cables, manifold and pipelines of the circulation system, characterized in that in order to reduce the complexity of manufacturing and installation, improve operational safety The unit is additionally equipped with trolleys connected between themselves and the winch block, with the mud modules installed on them along the supports, starting from the winch location side, mud pump and rough mud cleaning modules, and power modules are installed at the back of the mast winch block, the remaining modules of the circulation system are mounted transversely on the supports, while the fine-cleaning unit and one drilling fluid storage tank, combined into a single module, are located respectively behind the modules Slaughter purification, sludge collection and mud pumps. 2. Installation according to claim 1, characterized in that the mud pump, coarse and mud collection modules installed on the carts are provided with lower and upper transverse beams, while the transverse beams of adjacent modules are rigidly interconnected, and the lower transverse beams are rigidly connected with trolleys. 3. Installation according to claim 2, characterized in that the lower transverse beams of the modules are connected to the bogies with at least two bolts, while the adjacent lower and upper transverse beams are equipped with at least one rigid insert with the possibility of interaction with the side surfaces of the transverse beams, in beams with the sides of adjacent modules and on both sides of the rigid inserts are made of at least two through coaxial holes in which the mating axles are mounted.

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