RU2762274C1 - Device for forming a protective pipe simultaneously with drilling a well - Google Patents

Abstract

FIELD: mining industry.SUBSTANCE: invention relates to the field of ground drilling and well completion, in particular to a device for simultaneous drilling and completion of wells during their construction. A device for forming a protective pipe simultaneously with drilling a well contains a drilling tool including a drill bit and an expander, a reducer for transmitting torque to the drill bit and ensuring rotation of the bit and expander in opposite directions, an engine for rotating the drilling tool, a movement mechanism consisting of two mobile movement devices, a screen with a reception area of contaminated drilling mud, a flexible sleeve with contours for feeding components of molding material, drill mud, a power supply line. The circuit for feeding the components of the molding material contains channels for feeding the components of the molding material, valves that control the supply of components. A single block for forming a protective pipe, which is an assembly of rotatable steps with movable nozzles for feeding one of the components of the molding material, with an injection zone of another component of the molding material equipped with an engine for its rotation, and a screen with a zone for removing contaminated drilling mud are installed between the screen with the reception area of contaminated drill mud and the flexible sleeve.EFFECT: simplification of layout solutions for the placement of equipment in the well that ensures the formation of a protective pipe with specified characteristics, reducing the dependence of the speed of well construction on the time of fixation of molding materials, increasing the level of safety to prevent the hardening of molding material inside the equipment in emergency situations is provided.1 cl, 3 dwg

Description

The invention relates to the field of soil drilling and well completion, in particular to a device for simultaneous drilling and completion of wells during their construction.

A known technical solution (see patent US 3935910, IPC E21B 7/00 "Method and device for forming a protective pipe simultaneously with drilling a well"), taken as an analogue, containing a drilling tool, a motor for rotating it, a screen, a primary pipe former for forming of the primary pipe, equipped with a fixation acceleration device, for example, heating elements and an injection zone at the lower end, a former of the inner surface of a well of a given diameter, located above the former of the primary pipe, to form the inner surface of a well of a given diameter, equipped with a fixation acceleration device, for example, heating elements and an injection zone at the lower end, feeding circuits for supplying a molding material for a primary pipe to an injection zone of a former of a primary pipe and for supplying a molding material for an inner surface of a well of a given diameter to an injection zone of a former of an inner surface of a well of a given diameter, for circulation of drilling mud, a power supply line for the engine, a flexible sleeve inside which all circuits are installed, stirrers of molding materials components, while the supply circuits for supplying molding materials contain two channels for supplying molding materials components to agitators, valves that control the supply of one of the components to agitators and valves that control the supply of mixed molding materials to the injection zone, a mechanism for moving the drilling tool and a device for forming a protective pipe, consisting of one movable and one stationary movement device.

The disadvantages of the known technical solution are:

- the presence of technological equipment located in the well, ensuring the preparation of molding materials, which complicates the layout solutions;

- the presence of technological equipment placed in the well, which accelerates the fixation of molding materials, which complicates the layout solutions and increases the dependence of the rate of well construction on the time of fixation of molding materials;

- the presence of technological operations to prevent solidification of the molding material inside the equipment, which increases the likelihood of solidification of the molding material inside the equipment in emergency situations.

Known technical solution "Method for forming a protective pipe simultaneously with drilling a well and a device for its implementation" (see patent RU 2693371, IPC E21B 7/00, E21B 33/10), taken as a prototype, containing a drilling tool, including a bit and a reamer rotating in opposite directions, a motor for rotating it, a reducer for transmitting torque to a bit, a screen with an area for receiving contaminated drilling mud, a primary tube former with a device for accelerating the fixation of a molding material, a molding material agitator and a molding material injection area, a reinforcement device and an additional a seal installed between the primary pipe former and the former of the inner surface of a well of a given diameter, a former of the inner surface of a well of a given diameter, located above the former of the primary pipe, with a device for accelerating fixing of the molding material, a stirrer of the molding material, a zone for injection of a molding material and with a zone for withdrawing drilling mud, a flexible hose with circuits for supplying molding material for a primary pipe to an injection zone of a former of a primary pipe and for supplying a molding material for an inner surface of a well of a given diameter into an injection zone of a former of an inner surface of a well of a given diameter, for a drilling fluid supply line, an engine power supply line, while the supply circuits for supplying molding materials each contain two channels for supplying molding materials components to the stirrers, valves that control the supply of one of the components to the stirrers and valves that control the supply of mixed molding materials to the injection zones, a mechanism moving the device for forming a protective pipe simultaneously with drilling a well, including two movable moving devices.

The disadvantages of the known technical solution are:

- the presence of technological equipment located in the well, ensuring the preparation of molding materials, which complicates the layout solutions;

- the presence of technological equipment placed in the well, which accelerates the fixation of molding materials, which complicates the layout solutions and increases the dependence of the rate of well construction on the time of fixation of molding materials;

- the presence of technological operations to prevent solidification of the molding material inside the equipment, which increases the likelihood of solidification of the molding material inside the equipment in emergency situations.

The objective of the present invention is:

- simplification of layout solutions for the placement of equipment in the well, which ensures the formation of a protective pipe with specified characteristics;

- reducing the dependence of the rate of well construction on the time of fixing the molding materials;

- increasing the level of safety to prevent solidification of the molding material inside the equipment in emergency situations.

The task is achieved by the fact that a device for forming a protective pipe simultaneously with drilling a well contains a drilling tool, including a bit and a reamer, a gearbox for transmitting torque to the bit and ensuring rotation of the bit and reamer in opposite directions, a motor for rotating the drilling tool, a movement mechanism , consisting of two movable displacement devices, a screen with an area for receiving contaminated drilling fluid, a flexible hose with circuits for supplying molding material components, supplying drilling fluid, a power supply line, while the circuit for supplying molding materials components contains channels for supplying molding material components, valves , controlling the supply of components, while a single block for forming a protective pipe is installed between the screen with the area for receiving contaminated drilling fluid and the flexible sleeve, which is an assembly of rotating stages with movable nozzles for supplying one of the components of the molding material, with a zone for feeding another component of the molding material, equipped with a motor for rotating it and a screen with a zone for removing contaminated drilling mud.

The essence of the invention is illustrated by drawings, where FIG. 1 shows a general view of a device for forming a protective tube simultaneously with drilling a well during well construction, FIG. 2 shows a general view of a device for forming a protective tube simultaneously with drilling a well during extraction from a well; FIG. 3 shows a functional hydraulic diagram of a device for forming a protective pipe simultaneously with drilling a well.

A device for forming a protective pipe simultaneously with drilling a well consists of a drilling tool, represented by a bit 1 and a reamer 2, a gearbox 3, which ensures the rotation of a bit 1 in the direction opposite to the rotation of a reamer 2, an engine 4 for rotating a bit 1 and a reamer 2, a movement mechanism 5, consisting of of two movable displacement devices 6 and 7, a screen 8 with an area for receiving contaminated drilling mud 9, a single block 10 for forming a protective pipe 19, consisting of stages 11 with the possibility of rotation with movable nozzles 12, with an injection zone 13, the number of stages 11 and the structure and the number of movable nozzles 12 are not the object of this invention, the engine 21 for rotating a single block 10 for forming a protective pipe 19, a screen 14 with a zone for removing contaminated drilling mud 15, a flexible hose 16, inside which there are contours for supplying drilling mud 17, components of the molding material 18 , for the protective pipe 19 into the injection zone 13 and to the movable nozzles 12, the power supply line 20 of the engine 4, the engine 21 of the single block 10 for forming the protective tube 19, valves 22, 23 that control the supply of components.

The contour for supplying the components of the molding materials 18 may contain several channels, at least two, depending on the design of the formed protective tube 19.

In this case, screens 8, 14, a single block 10 for the formation of a protective pipe provide the transit of contaminated drilling fluid 24 removed from the bottomhole, and including bit 1, gearbox 3, reamer 2, engine 4 provide transit of media supplied along the circuits 17, 18 passing inside the flexible sleeves 16 in accordance with the functional hydraulic diagram of the device for forming a protective pipe simultaneously with drilling a well, shown in FIG. 3.

The operation of the device for forming a protective pipe simultaneously with drilling a well is as follows.

Drilling a well is carried out in two stages, first, drilling is carried out, for example, with a bit 1, and then the diameter of the well is expanded with the help of an expander 2, which ensures the extraction of the drilling tool for its replacement, while using a gearbox 3 installed between the expander 2 and the engine 4 , the rotation of the bit 1 occurs in the opposite direction relative to the reamer 2, which reduces the unwanted transmission of torque to the protective tube molding device.

In this case, the continuous movement of the drilling tool and the protective tube molding device is carried out by alternating movement of two movable displacement devices 6 and 7, which are part of the movement mechanism 5 of the protective tube molding device.

As the drilling tool moves down into the borehole, a device for forming a protective pipe is introduced, while at the same time:

- the screen 8, increases its diameter, for example, by pressurization, and separates the zones for receiving contaminated drilling mud and forming a protective pipe, the contaminated drilling mud is removed through the contaminated drilling mud receiving zone 9 along the contaminated drilling mud withdrawal circuit 24;

- the screen 14 increases its diameter, for example, by pressurization, and separates the zones of formation of the protective pipe and the removal of contaminated drilling mud, the removal of contaminated drilling mud is carried out through the zone of removal of contaminated drilling mud 15;

- open valves 22 and 23;

- a single block 10 for the formation of a protective tube 19 begins to rotate, while the movable nozzles 12 are transferred from the transport position, which ensures the extraction of equipment from the well after the completion of construction, to the operating position, which ensures the formation of a protective tube 19 on the borehole wall, with the maximum diameter of each stage 11 of a single block 10 for forming the protective tube 19 in the working position is reduced in the direction from bottom to top to ensure the optimal distance from the nozzle 12 to the surface of the formation of the layer of the protective tube 19, at the same time, along the contour 18 for the molding material, the components of the molding material are first fed into the injection zone 13 and the second to the movable nozzles 12 .;

- the component of the molding material supplied to the injection zone 13 fills the volume between the screens 8, 14. For example, liquid polyamine (aromatic and / or aliphatic compounds with two or more reactive end amino groups, for example, based on oligomers of ethylene glycol or propylene glycol);

- the component of the molding material supplied to the movable nozzles 12 is supplied by dispersion directly in the area near the borehole wall for the first stage 11 of the single block 10 for forming the protective tube 19 or in the area formed by the coating for the subsequent stages 11 of the unit 10 for forming the protective tube 19. For example , available di-, tri- or polyisocyanates (para-phenylenediisocyanate, toluene diisocyanate (TDI, 2,4 or 2,6-isomers, separately or their mixture), bis (4-isocyanato phenyl) methane (4,4'-MDI, in pure form, or in the form of mixtures of isomers - 2,2'-MDI, 2,4'-MDI and 4,4'-MDI), tris (4-isocyanato phenyl) methane, hexamethylene diisocyanate) and / or other isocyanates or mixtures thereof;

- there is a mixing of the components of the molding material, the formation of the molding mixture, the polymerization reaction and obtaining a single layer of coating on the walls of the well or on the previous layer. Curing of the coating occurs in 2-4 seconds without additional external influence.

As the device for forming the protective pipe advances during the construction of the well, the protective pipe 19 is formed.

If necessary, catalysts can be used both to change the time of the polymerization reaction and to obtain the required mechanical parameters of the formed molding material. Various tertiary amines and / or compounds of transition metals, for example, tin (tin oleate, dibutyltin dilaurate, dialkyltin halides, etc.) can be used as catalysts.

In this case, the design of the movable nozzles 12 and their number in the stage 11 make it possible to obtain both a continuous coating layer and a given shape, for example, a spiral one, which, if necessary, ensures the creation of a reinforcing mesh between the single layers of the protective pipe 19.

If it is necessary to obtain a protective tube 19 with different mechanical parameters in layers, it is possible to supply different second components in the stage 11 of a single block 10 for forming a protective tube 19, which will lead to an increase in the number of channels in the circuit for supplying the components of molding materials 18 and valves that control the supply of components.

If necessary, additional reinforcement of the protective tube can be performed by adding reinforcing fibers to the components of the molding materials.

At the end of the construction of the well or in the case of replacement of the drilling tool, the protective pipe molding device operates as follows. Expander 2, two movable displacement devices 6 and 7, movable nozzles 12 are transferred to the transport position, screens 8, 14 decrease their diameters, for example, by blowing.

Close valves 22, 23.

Further, the device for forming the protective pipe is lifted and removed from the well.

The alleged invention will achieve:

- simplification of layout solutions for the placement of equipment in the well, which ensures the formation of a protective pipe with specified characteristics;

- reducing the dependence of the rate of well construction on the time of fixing the molding materials;

- increasing the level of safety to prevent solidification of the molding material inside the equipment in emergency situations.

Claims (1)

A device for forming a protective pipe simultaneously with drilling a well, containing a drilling tool, including a bit and a reamer, a reducer for transmitting torque to the bit and ensuring rotation of the bit and reamer in opposite directions, a motor for rotating the drilling tool, a movement mechanism consisting of two movable devices displacement, a screen with an area for receiving contaminated drilling fluid, a flexible hose with circuits for supplying molding material components, drilling fluid, a power supply line, while the circuit for supplying molding material components contains channels for supplying molding material components, valves that control the supply of components, characterized by that between the screen with the contaminated drilling fluid receiving area and the flexible sleeve there is a single block for forming a protective pipe, which is an assembly of stages with the possibility of rotation with movable nozzles for supplying one of the components of the molding material, with an injection zone of another component of the molding material, equipped with a motor for its rotation, and a screen with a zone for removing contaminated drilling mud.

Images