RU2213197C1 - Device for secondary tapping of producing formations of oil and gas wells (versions) - Google Patents

Abstract

FIELD: drilling and servicing of oil and gas wells, particularly, secondary tapping of producing formations. SUBSTANCE: device has drill pipe connected with hollow body having fixing unit, accommodated in body and guide channel of deflecting member flexible pipe, rock cutting tool installed on shaft of spindle-deflecting tool of hydraulic motor whose stator is connected with drill pipe by means of flexible pipe, and adapter coaxially installed in body and made for longitudinal motion in body cavity on joint in form of recess made in body wall and installed in spline of adapter. Invention covers two versions of device design differing from each other by design features of hollow adapter and spline connected with it, which is made according to one of version in form of differential piston, and in other version, spline is installed in lower half- body of hollow adapter made for turning relative to upper half-body in which additional spline for engagement with additional longitudinal recess formed in body well is installed. EFFECT: extended functional potentialities, higher productivity, operate reliability and longevity of device. 17 cl, 12 dwg

Description

 The invention relates to the field of drilling and repair of oil and gas wells, in particular, the secondary opening of reservoirs.

 Known devices for the secondary opening of productive formations of oil and gas wells, including a drill pipe connected to a hollow body having a fixing unit, a rock cutting tool associated with a flexible pipe, configured to extend into the housing located in the lower part of the cylindrical cavity of the body deflecting element [ 1].

 A disadvantage of the known device that impedes the achievement of the technical result indicated below when using it is that the drilling of lateral perforation shafts of small diameter, performed by rotating a long flexible pipe at the wellhead, makes it possible to create only small wastes from the main shaft, determined by the angle of entry of the tool into the reservoir, limited by the flexibility of the pipe and the channel of the deflecting element, which leads to the occurrence of significant loss of torque on the trend e coiled tubing to drill pipe, duct and the deflecting element side bore. As a result, alternating stresses arise in the flexible pipe, as well as mechanical damage from friction, which are stress concentrators, which leads to fatigue failure of the flexible pipe. The performance of the device is low.

 The closest device of the same purpose to the claimed invention in terms of features is a device for the secondary opening of productive formations of oil and gas wells, including a drill pipe connected to a hollow body having a fixing assembly, a hydraulic motor, the deflector spindle shaft of which is connected from below to the rock cutting tool, and the stator is connected to the drill pipe by means of a cylindrical adapter housing coaxially located in the cylindrical cavity and made with the possibility of extension into the casing space of the pipe, made, in turn, with the possibility of longitudinal movement in the cylindrical cavity of the housing by means of a joint in the form of a groove formed in the wall of the housing and a slot that interacts with it and is installed in the adapter [2].

 The disadvantages of the known device that impede the achievement of the technical result indicated below when it is applied include the fact that the drilling of side perforation channels of small diameter, carried out without the use of a deflecting element, makes it possible to drill channels from the main shaft at a small angle of entry of the tool into the reservoir, and in the absence of a flexible connection (flexible pipe) between the stator of the downhole motor and the cylindrical adapter with the drill pipe does not allow the formation of long curvilinear channels with a small radius of curvature, receive significant waste (perforation depth) from the main wellbore, significantly increase the well filtration zone. The implementation of the locking element working due to the increased pressure in the cylindrical cavity of the housing leads to accelerated wear of the seals in the movable joints between the housing and the pipe and the failure of the device.

 The problem to which the invention is directed is to increase the efficiency of the device.

 The technical result of the invention is to expand the functionality, increase productivity, reliability and durability of the device.

 The specified technical result in the implementation of the invention according to the first embodiment is achieved by the fact that in this device, including a drill pipe connected to a hollow body having a fixing assembly, a hydraulic motor, the shaft of the deflector spindle of which is connected from below to the rock cutting tool, and the stator is connected to the drill pipe by coaxially located in the cylindrical cavity of the housing of the cylindrical adapter and made with the possibility of extension into the casing of the pipe, made mi, in turn, with the possibility of longitudinal movement in the cylindrical cavity of the housing by connecting in the form of a groove formed in the wall of the housing and the slot interacting with it installed in the adapter, a feature of the invention is that the cylindrical adapter is hollow and the pipe connecting the stator a hydraulic motor with a hollow cylindrical adapter, is flexible, while in the lower part of the cylindrical cavity of the housing a deflecting element and a fixing knot are sequentially placed ate, the slot is made in the form of a differential piston, one end of which - of a smaller diameter - is placed in the recess formed on the side of the wall of the cylindrical cavity of the housing formed on the opposite groove, with the possibility of exiting from it and entering the other end into the groove, the upper portion of which is made with a bevel that allows the slot to return into the recess when moving the cylindrical hollow adapter to the upper position relative to the hollow body.

 In addition, a feature of the invention lies in the fact that the lower portion of the groove is made helical, and the cylindrical hollow adapter consists of a lower half-shell rigidly connected to the flexible pipe with a slot installed in it and made with the possibility of rotation relative to the lower upper half-housing, in which an additional slot for interaction with an additional longitudinal groove formed in the wall of the housing.

In addition, a feature of the invention is that the locking unit is made in the form of an anchor, consisting of an axial hole located in the lower part of the housing and with the possibility of longitudinal movement of the rod connected by articulated leads with dies mounted outside the housing on guide elements consisting of one, made, for example, at an angle of 3 ^o , or several sections with radial bevels with successively increasing angles to the bottom of the housing.

 In addition, a feature of the device is that the rod is fixed in the housing in the lowest position by means of a latch made, for example, in the form of a shear pin or a radially spring-loaded ball.

 In addition, a feature of the device lies in the fact that the axial hole in the housing is blind, and the closed cavity formed in it by the rod is connected to the housing by the gap between the rod and the walls of the hole.

 In addition, a feature of the invention is that the housing and the locking assembly are rotatable relative to each other or moved by means of a screw connection formed in conjunction between them.

 In addition, a feature of the device is that an additional slot is installed in the wall of the housing, an additional groove is made in the upper half-housing of the adapter multi-wired, while each upper longitudinal section of the groove is connected by a zigzag transverse groove with two adjacent lower longitudinal sections made offset from the upper, length the latter is greater than the distance from the rock cutting tool in its upper position in the housing to the exit of the deflecting element from the channel into the housing .

 In addition, a feature of the device is that it contains a hydraulic axial load regulator installed between the cylindrical hollow adapter and the flexible pipe, consisting of a nozzle with internal longitudinal grooves and an end with slots in the nozzle of the hollow piston that interacts with the grooves and the other end connected to the flexible pipe while a closed space is formed between the piston and the inner wall of the nozzle, connected with the piston cavity by gaps in the interface between the slots and grooves.

 In addition, a feature of the device is that it is equipped with a hydraulic monitor sub located between the stator of the engine and the flexible pipe, the cavity of which is connected to the casing by a channel, the outlet of which is made directed upward from the engine to the flexible pipe.

 In addition, a feature of the device is that the fixing unit is made in the form of an expander, part of the cutting elements of which are arranged in a spiral with the possibility of coinciding its direction with the resulting movement during rotation and axial feeding of the fixing unit.

 The technical result in the implementation of the invention according to the second embodiment is achieved by the fact that in this device, including a drill pipe connected to a hollow body having a fixing assembly, a hydraulic motor, a deflector spindle shaft of which is connected from below to the rock cutting tool, and the stator is connected to the drill pipe by coaxial located in the cylindrical cavity of the housing of the cylindrical adapter and made with the possibility of extension into the casing of the pipe, made in its queue, with the possibility of longitudinal movement in the cylindrical cavity of the housing by connecting in the form of a groove formed in the wall of the housing and the slot interacting with it installed in the adapter, a feature of the invention is that the cylindrical adapter is hollow and the pipe connecting the stator of the hydraulic motor with a hollow a cylindrical adapter - flexible, while in the lower part of the cylindrical cavity of the housing the deflecting element and the fixing unit, the lower the groove section is made helical, and the cylindrical hollow adapter consists of a lower half-shell rigidly connected to the flexible pipe with a slot installed in it and rotatable relative to the lower upper half-housing, in which an additional slot is installed to interact with the additional longitudinal groove formed in the wall of the housing, the upper a portion of which is made in the form of an arcuate bend having a ledge transverse to the groove on top.

 When analyzing the distinguishing features of the described device, no similar known solutions were found regarding the connection of the stator of a hydraulic motor with a drill pipe by means of a flexible pipe and a hollow cylindrical adapter, a fixing unit, which allows drilling perforation channels with a diameter of less than 60 mm with curved trunks with descending and ascending sections with small radii of curvature up to 2.5 m, makes it possible to create channels with significant waste from the main trunk over 6 m, increase the filter area wells, increase the productivity and reliability of the device. The implementation of the slot in the form of a differential piston, one end of which is of a smaller diameter, is placed in the recess of the housing with the possibility of exiting it when the washing fluid is supplied under pressure and entering the other end into the groove, the upper portion of which is made with a bevel, to prevent jamming of the housing when descent into the well due to the spontaneous exit of the rock cutting tool into the casing space and its breakage, create the necessary axial load for landing the device with emphasis on the side wells and provide actuation of the locking assembly, thereby improve the reliability and durability of the device.

 The implementation of the upper section of the additional groove in the form of an arcuate bend with a transverse groove on the ledge allows to simplify the design and also prevent spontaneous exit from the cylindrical cavity of the rock cutting tool body during descent into the well and its breakage, to ensure the operation of the fixing unit, thereby improving reliability and durability devices.

 All signs of the independent claims are essential, that is, necessary to ensure a technical result. The remaining features are partly essential, necessary for the implementation of particular solutions to the design of the device.

 Thus, the execution of the lower portion of the groove with a screw, and the adapter consisting of two half-shells, the lower of which with a slot installed in it, is rigidly connected to the flexible pipe and made with the possibility of rotation relative to the upper half-shell with an additional slot interacting with an additional longitudinal groove, which allows without a difficult and inaccurate turning a long (2000-3000 m) drill pipe string, undesired torque in the adapter and drill pipe turn the flexible pipe, engine with spindle with a deflector around its axis during the movement of the slot along the screw section of the groove, thereby increasing the reliable operation of the device and expanding its functionality by ensuring the drilling of horizontal and horizontally ascending sections of perforation channels with significant waste from the main shaft.

The implementation of the fixing node in the form of an anchor, consisting of a rod located in the axial hole of the rod, connected by hinged leads with dies, mounted on guiding elements, consisting of one (at an angle less than 3 ^o ) or several sections with bevels with corners successively increasing to the bottom of the case, allows you to securely fasten it in the well when landing the device with the rod to the bottom by sticking dies between the guiding elements and the borehole wall on the bevel, to ensure that the housing is kept from breaking in quently accidental jamming of the adapter in the housing when removing the coiled tubing with the hydraulic motor and rock cutting tool of the lateral bore, thereby to avoid crushing flexible pipe and jams the device, to ensure the reliability of its operation.

 Fixing the rod in the casing by means of a shear pin or a spring-loaded ball allows avoiding rod movements in the casing when lowering the device due to accidental jamming in the narrowing and curvature of the casing string, which can lead to spontaneous extension of the dies into the casing space, their jamming and even breakage at high speeds descent (more than 1 m / s).

 The execution of the axial hole with a deaf hole forming a closed cavity in it, connected by a throttle gap between the rod and the hole with the housing, makes it possible to dampen the shock load in case of accidental impact of the bottomhole device, to ensure smoother movement of the dies along the guiding elements, to avoid damage to the dies and the borehole wall (casing), thereby increasing the durability of the device.

 The execution of the housing and the fixing unit with the possibility of rotation relative to each other or moving on a screw connection makes it possible to drill other perforation channels without removing and then installing the fixing unit, including with inputs arranged in a helical spiral, which allows you to create a denser grid of channels in well without accidentally falling into previously drilled shafts and increase the productivity of the device.

 Performing a multi-groove groove in the upper semicase housing with upper and lower longitudinal sections offset relative to each other, connected by a zigzag transverse groove, allows the device to perform discrete rotations by a predetermined distance between adjacent longitudinal sections by reciprocating movements of the pipe string relative to the body, more accurately and tightly places for drilling perforation channels in the wall of the well, thereby expanding the functionality of the device and increase the productivity of his work. The implementation of the upper sections of the groove longer than the distance from the rock cutting tool in its extreme upper position in the housing until the deflecting element exits the guide channel into the housing, provides for drilling of the perforation channel with the housing fixed relative to the drill pipe, which avoids drift of drilled channels and improves operational reliability devices.

 The installation of an axial load hydraulic regulator between the adapter and the flexible pipe allows perforating channels to prevent overloading of the drill pipe of the rock cutting tool and its relatively low-power engine with a multi-ton string, which can lead to their stop. The formation of a closed space between the piston and the nozzle, connected to the piston cavity by throttle clearances in the interface between the slots and the grooves, makes it possible to avoid sudden movements in the piston nozzle and the associated rock cutting tool, to make them smoother. The magnitude of the hydraulic force developed by the proposed regulator, for a given pressure drop on the hydraulic motor (8-9 MPa) is determined by the smallest outer diameter of the piston (its rod). Thanks to this, it is possible to reduce the axial load on the engine, the permissible value of which is very small (1.5-2 kN) for the motor sizes of small diameters used in drilling perforation channels, to prevent its overload and stop, which will increase the productivity of the drilling process and the reliability of the device.

 Placing a hydromonitor sub between the engine and the flexible pipe, the cavity of which is connected to the housing by the channel, the inlet of which is directed upward from the engine to the flexible pipe, can significantly weaken the stator of the engine, which rises the pressure jumps of the flushing fluid when starting and stopping the engine due to axial overload. In addition, the fluid flowing from the hole at a high speed of 70-100 m / s contributes to the intensive washing of the perforation channel from the sludge and increase the productivity of the device.

 The execution of the fixing unit in the form of an expander, part of the cutting elements of which are arranged in a spiral, allows you to move and fix the device by drilling spiral perforations into the barrel wall when drilling perforation channels in an open-hole main shaft, to drill perforation channel trunks with entrances located along a helix, which also makes it possible to increase the number of sidetracks drilled in one run of the device and increase its performance.

 The invention is illustrated by drawings, where: in Fig.1 shows a device for the secondary opening of productive formations of oil and gas wells, a General view; figure 2 is a longitudinal section of a cylindrical hollow adapter with a slot in the form of a differential piston; figure 3 - screw section of the groove; in FIG. 4 - longitudinal section of the adapter, consisting of two half-shells, with an additional slot; figure 5 - fixing node in the form of an anchor; Fig.6 - the housing and the locking unit, made with the possibility of rotation relative to each other; Fig.7 - multi-groove groove in the upper half of the adapter; on Fig - scan multi-groove groove; figure 9 - hydraulic axial load regulator; figure 10 - hydraulic monitor sub; figure 11 is a fixing node in the form of an expander; on Fig - section of the additional groove in the form of an arcuate bend.

 The device for the secondary opening of reservoirs according to the first embodiment includes a drill pipe 1 (Fig. 1), a hollow body 2 movably connected to it with a fixing unit 3, a flexible pipe 5 and a deflecting element 6 with a guide channel 6 located in its cylindrical cavity 7 with a rock cutting tool 8 mounted on the shaft 9 of the deflector spindle 10 of the hydraulic motor 11, the stator 12 of which is connected by a flexible pipe to a cylindrical hollow adapter 13 fixed to the lower end of the drill pipe, into a cat A slot 14 is installed with a hole, interacting with a groove 15 made in the cylindrical wall of the hollow body. A flexible pipe with a hydraulic motor and a rock cutting tool is configured to exit into the hull 16. The slot 14 (FIG. 2) is made in the form of a differential piston 17, one end of which 18 — of smaller diameter — is placed in the side of the wall of the cylindrical cavity formed on the opposite groove 15. 4 of the housing 2 of the recess 19 with the possibility of exiting and entering the other end 20 into the groove 15, the upper portion of which is made with a bevel 21, which ensures the return of the differential piston into the recess when moving the adapter in the uppermost position relative to the housing. A restriction element 22 is placed in the middle part of the differential piston, and seals 23 are installed in the housing at the interfaces with the differential piston.

 The lower portion of the groove 15 can be made screw 24 (Fig. 3), and the cylindrical hollow adapter - consisting of a lower half-shell 25 rigidly connected to the flexible pipe 5 (Fig. 4) with a slot 14 installed therein and rotatable relative to the lower half-housing the upper half-housing 26, in which an additional slot 27 is installed for interaction with the additional longitudinal groove 28 formed in the housing wall. A seal 29 is placed in the cylindrical mating of the half-bodies.

 The fixing unit 3 (Fig. 5) can be made in the form of an anchor, consisting of a rod 31 located in the axial hole 30 formed in the lower part of the housing and connected by hinged leads 32 to the dies 33 mounted on the outside of the housing on the guiding elements 34 consisting of two sections 35 with radial bevels with successively increasing corners to the bottom of the hull.

 The rod 31 of the locking unit (Fig. 5) can be fixed in the housing in the lowest position by means of the latch 36, made in the form of a shear pin or a spring ball.

 The axial hole 30 (Fig. 5) can be made blind, and the closed cavity 37 formed by the rod 31 therein is connected to the housing 16 by a throttle clearance 38 between the rod and the walls of the hole. In addition, a compression spring can be placed in the cavity 37.

 The housing and the fixing unit (Fig.6) can be made with the possibility of rotation relative to each other or to move through a screw connection 39 formed in conjunction between them.

An additional slot 27 can be installed in the wall of the housing 2 (Fig. 7), and an additional groove 28 is made in the upper half-housing 26 by a multi-grooved one, in which each upper longitudinal section 40 of the groove is connected by a zigzag transverse groove 41 with two adjacent lower longitudinal sections 42 made offset relative to the upper ones, the length L _In which (Fig. 8) is greater than the distance S from the rock-cutting tool 8 (Fig. 1) in its extreme upper position in the housing 2 until the deflecting element 6 exits the channel 7 into the housing 16.

 The device may include an axial load regulator 43 installed between the lower half-housing 25 of the adapter 13 (Fig. 9) and the flexible pipe 5, consisting of a pipe 44 with internal longitudinal grooves 45 and an end 47 placed in the pipe of the hollow piston 46 with splines 48 interacting with the grooves, the other end 49 is connected to the flexible pipe, while between the piston and the inner wall of the pipe a closed space 50 is formed, connected with the piston cavity by the throttle gaps 51 in conjunction between the slots and the grooves.

 Between the stator 12 of the engine 11 (Fig. 10) and the flexible pipe 5, a hydronic monitor sub 52 can be placed, the cavity 53 of which is connected to the housing 16 by a channel 54, the outlet 55 of which is directed upward from the engine to the flexible pipe.

 The fixing unit 3 (Fig. 11) can be made in the form of an expander 56, part 57 of the cutting elements of which are arranged in a spiral, the other part 58 is made calibrating.

 The device for the secondary opening of productive formations according to the second embodiment includes a drill pipe 1 (Fig. 1), a hollow body 2 movably connected to it with a fixing unit 3, a flexible pipe 5 and a deflecting element 6 with a guide channel located in its cylindrical cavity 4 7 with a rock cutting tool 8 mounted on the shaft 9 of the deflector spindle 10 of the hydraulic motor 11, the stator 12 of which is connected by a flexible pipe to a cylindrical hollow adapter 13 fixed to the lower end of the drill pipe, into a cat the orm has a slot 14 that interacts with the groove 15. The lower portion of the groove is made screw 24 (Fig.3), and the adapter - consisting of a lower half-shell 25 rigidly connected to the flexible pipe (Fig.4) with the slot 14 installed in it and made rotation relative to the lower upper half-housing 26, in which an additional slot 27 is installed for interacting with an additional longitudinal groove 28 formed in the cylindrical wall of the housing, the upper portion of which is made in the form of an arcuate bend 59 (Fig. 12), having erechny slot ledge 60.

 The device made according to the first embodiment, operates as follows.

 When lowering the device on the drill pipe 1 (Fig. 1) into the well and then securing it in the perforation zone of the well using the fixing unit 3, the vertical movements of the cylindrical hollow adapter 13 in the hollow body 2 are limited by a slot 14 made in the form of a differential piston 17 (Fig. 2), one end of which - of smaller diameter 18 - is located in the restrictive recess 19, which helps to prevent spontaneous exit of the rock cutting tool 8 from the guide channel 7 of the deflecting element 6 into the casing 16. After fixing the device, flushing fluid is supplied to it, while the rock cutting tool begins to rotate by a hydraulic motor 11 through the diverter 10. The differential pressure of the fluid 13 in the cavity of the adapter 13 begins to push the differential piston 17, pressing it with the end of a larger diameter 20 to the wall of the hollow body . Then, the adapter 13 begins to slowly move down the drill pipe 13. In this case, the differential piston, moving down together with the adapter, ends with the end 20 in the bevel 21 of the groove 15, slides along it and finally extends into the groove, leaving the engagement with the recess 19. When further moving the drill pipe in the body cavity and transferring the axial load through the hydraulic motor to the rock cutting tool, which moving along the channel 7 of the deflecting element 6, goes into the housing 16, introducing its teeth in the borehole wall. Using a diverter spindle, a perforation channel is drilled in the reservoir with a curved arcuate shaft consisting of a descending and ascending sections. The flushing fluid coming through the tool 8 removes the sludge of the rock destroyed by the cloves from the sidetrack. After drilling, the flexible pipe, the engine with the rock cutting tool are removed from the sidetrack by moving the drill pipe all the way to the adapter 13 against the end of the hollow body 2. Upon further movement of the drill pipe, the body is released in the main wellbore by unfastening the fixing unit 3. After the device is relocated, it is drilled next trunk.

 When using a device in the case of which the lower section of the groove is made screw 24 (Fig. 3), and the adapter consists of the lower 25 and upper 26 half-shells (figure 4), while moving the slot 14 along the screw section of the groove, the lower half-housing gradually rotates relative to the upper half-housing of the adapter and the hollow body 2, forcing a flexible pipe, a hydraulic motor, a spindle-deflector with a rock cutting tool to rotate around its curvilinear axis, a curvilinear drill in the perforation channel horizontal and / or horizontally ascending sections.

The application for fixing the body of the device in the borehole of the fixing unit 3 shown in Fig. 5 and made in the form of an anchor consists in supporting the bottom 31 of the rod, while the fixing unit and the housing are lowered relative to the latter, the die 33 moves on the guide element 34, first on the site with a large radial bevel 12-15 ^o , then bevel 1-3 ^o . When the teeth of the die are introduced into the barrel wall, the knot 3 is knocked on the die. The fixing unit is released by the force transmitted to the housing by the drill pipe when it is lifted.

 The use in the fixing node 3 (Fig. 5) of the mounting of the rod 31 by means of the latch 36, made in the form of a shear pin or a radial spring-loaded ball, prevents its spontaneous operation during descent into the well and emergency jamming of the device. After reaching the specified load on the rod 31, the pin is cut off (the ball is extruded from the conical socket in the rod into the hole in the housing, compressing the spring), the housing is anchored in the well.

 When using the fixing unit (Fig. 5), in which a closed cavity 37 is formed, the stem 31, squeezing the fluid out of the cavity through the throttle gap 38 into the housing 16, smoothly moves in the blind axial hole, the dies 33 are moved apart along the guide elements without sudden movements, thereby preventing breakage of the dies and damage to the well wall.

 When using the device, the housing 2 and the fixing unit 3 (Fig.6) which are connected by means of a large-screw connection, the housing is rotated relative to the fixing unit for drilling each subsequent perforation channel without releasing the fixing unit.

 When using a device in which an additional slot 27 is installed in the housing 2 (Fig. 7), and an additional groove 28 is made in the upper half-housing 26 of the adapter multi-strand, while moving down the drill pipe with an adapter in the housing of the slot 27 from position (1) (Fig. .8) it moves to the adjacent upper groove section 40, turning the hollow body 1, the lower half-housing 25, the flexible pipe 5 with the engine and rock cutting tool 8. After drilling the perforation channel while lifting the adapter to the end against the end of the housing, the transfer slot moves to position (2) by turning the housing. When the drill pipe is moved down again with the adapter, the next sidetrack is drilled.

 When axial load is used in the device of the hydraulic regulator (Fig. 9) at the moment of flushing fluid supply under the influence of its overpressure in the cavity of the pipe 44, the piston 46 moves relative to it downward with the flexible pipe 5. If the adapter 13 is excessively high in speed, in the housing 2 under by the action of the weight of the drill pipe during drilling of the perforation channel, the piston compensates for its excess by moving upward relative to the nozzle.

 When using a hydromonitor sub 52 (Fig. 10) installed above the engine 11 in the device during drilling of the perforation channel, an additional amount of flushing fluid enters the casing space 16 through the channel 54, which improves flushing of the barrel from the sludge due to its high flow rate away from the bottom of the trunk of the channel.

 When using the fixing unit in the form of an expander 56 (Fig. 11) during the final formation of the open borehole and fixing the casing 2 therein, for drilling the perforation channel, the spiral-mounted cutting elements 57 cut into the borehole wall, holding the casing of the device from longitudinal movements, and calibrating elements 58 finally form the main barrel during rotational and axial movements of the device.

 The device made according to the second embodiment, operates as follows. When lowering the device on the drill pipe 1 (Fig. 1) into the well and then securing it in the hole perforation zone using the fixing unit 3, the vertical movements of the adapter 13 in the hollow body 2 are limited by the slot 14 resting against the ledge 60 (Fig. 12) of the arcuate bend 59 After fixing the housing in the well, flushing fluid is supplied to the device. The upper half of the adapter 26 is turned with a drill pipe relative to the hollow body and the lower half of the housing 25 (Fig. 4), as a result of this, the additional slot 27 is disengaged from the ledge, the adapter with a flexible pipe, and a hydraulic motor are able to move down to the exit of the rock cutting tool along channel 7 deflecting tool 6 into the housing 16 and drilling the perforation channel. Using the diverter spindle 10, a curved downward section of the perforation channel is drilled in the reservoir. When the slot 14 moves along the screw lower portion 24 of the groove 15, the lower half-housing 25 gradually rotates in the housing relative to the upper half-housing 26, forcing a flexible pipe, a hydraulic motor with a spindle-deflector to rotate around its curved axis, as a result of which horizontal and / or horizontal upward drilling is carried out sections of the perforation channel. At the end of drilling, the drill pipe rises, an additional slot 27 returns to its original position, blocking the longitudinal movements of the adapter in the housing.

 Thus, the tool embodying the claimed device in its implementation is intended for use in the field of drilling and repair of oil and gas wells, namely for the secondary opening of reservoirs. For the claimed device in the form as described in the independent paragraph of the claims, the possibility of its implementation using known means is confirmed. A device embodying the claimed invention is capable of achieving the above technical result.

Sources of information
1. Copyright certificate of the USSR 1789640, cl. E 21 B 7/08, 1993.

 2. USSR copyright certificate 1776746, cl. E 21 B 7/08, 1992.

 3. Patent EP 0685628, cl. E 21 B 7/06, 1995.

Claims (17)

 1. A device for the secondary opening of productive formations of oil and gas wells, including a drill pipe connected to a hollow body having a fixing unit, a hydraulic motor, the deflector spindle shaft of which is connected from below to the rock cutting tool, and the stator is connected to the drill pipe by coaxially arranged in a cylindrical cavity of the housing of the cylindrical adapter and made with the possibility of extension into the casing of the pipe, made, in turn, with the possibility of the longitudinal displacements in the cylindrical cavity of the casing by connecting in the form of a groove formed in the wall of the casing and the slot interacting with it installed in the adapter, characterized in that the cylindrical adapter is hollow and the pipe connecting the stator of the hydraulic motor to the hollow cylindrical adapter is flexible, this in the lower part of the cylindrical cavity of the housing sequentially placed a deflecting element and a locking unit, the slot is made in the form of a differential piston, one horse a smaller diameter is placed in the recess formed on the side of the wall of the cylindrical cavity of the housing formed on the opposite groove, with the possibility of exiting from it and entering the other end into the groove, the upper portion of which is made with a bevel, which allows the slot to return to the recess when the cylindrical hollow adapter is moved to the upper position relative to the hollow body .  2. The device according to p. 1, characterized in that the lower portion of the groove is made screw, and a cylindrical hollow adapter consisting of a lower half-shell rigidly connected to the flexible pipe with a slot installed in it and made to rotate relative to the lower upper half-housing, in which an additional a slot for interacting with an additional longitudinal groove formed in the wall of the housing. 3. The device according to any one of paragraphs. 1 and 2, characterized in that the fixing unit is made in the form of an anchor, consisting of an axial hole located in the lower part of the housing and with the possibility of longitudinal movement of the rod connected by articulated leads with dies mounted outside the housing on guide elements consisting of one made , for example, at an angle of less than 3 ^o , or several sections with radial bevels with successively increasing corners from the bottom to the bottom.  4. The device according to p. 3, characterized in that the rod is fixed in the housing in the lowest position by means of a latch made, for example, in the form of a shear pin or a radial spring ball.  5. The device according to any one of paragraphs. 3 and 4, characterized in that the axial hole in the housing is blind, and the closed cavity formed in it by the rod is connected to the housing by the gap between the rod and the walls of the hole.  6. The device according to any one of paragraphs. 1-5, characterized in that the housing and the locking unit are made with the possibility of rotation relative to each other or move through a screw connection formed in conjugation between them.  7. The device according to any one of paragraphs. 1-6, characterized in that the additional slot is installed in the wall of the hollow body, the additional groove is made in the upper half-shell of the cylindrical hollow adapter multi-strand, while each upper longitudinal section of the groove is connected by a zigzag transverse groove with two adjacent lower longitudinal sections made offset from the upper, the length of the latter is greater than the distance from the rock cutting tool in its upper position in the housing to the exit of the channel of the deflecting element into the casing space in.  8. The device according to any one of paragraphs. 1-7, characterized in that it contains installed between the cylindrical hollow adapter and the flexible pipe axial load regulator, consisting of a pipe with internal longitudinal grooves and placed in the pipe of the hollow piston with an end with slots interacting with the grooves, the other end connected to the flexible pipe, in this case, a closed space is formed between the piston and the inner wall of the nozzle, connected with the piston cavity by gaps in the interface between the slots and grooves.  9. The device according to any one of paragraphs. 1-8, characterized in that it is provided with a hydraulic monitor sub located between the stator of the engine and the flexible pipe, the cavity of which is connected to the housing by a channel, the outlet opening of which is made directed upward from the engine to the flexible pipe.  10. The device according to any one of paragraphs. 1, 2, 8 and 9, characterized in that the fixing unit is made in the form of an expander, part of the cutting elements of which are arranged in a spiral with the possibility of coinciding its direction with the resulting movement during rotation and axial feeding of the fixing unit.  11. A device for the secondary opening of productive formations of oil and gas wells, including a drill pipe connected to a hollow body having a fixing assembly, a hydraulic motor, a deflector spindle shaft which is connected from below to the rock cutting tool, and a stator connected to the drill pipe by coaxially arranged in a cylindrical cavity of the housing of the cylindrical adapter and made with the possibility of extension into the casing of the pipe, made, in turn, with the possibility of wasp the longitudinal displacements in the cylindrical cavity of the casing by connecting in the form of a groove formed in the wall of the casing and the slot interacting with it installed in the adapter, characterized in that the cylindrical adapter is hollow and the pipe connecting the stator of the hydraulic motor to the hollow cylindrical adapter is flexible, this in the lower part of the cylindrical cavity of the housing sequentially placed a deflecting element and a locking unit, the lower portion of the groove is made screw, and cylindrical The hollow adapter consists of a lower half-shell rigidly connected to a flexible pipe with a slot installed in it and made with the possibility of rotation relative to the lower upper half-housing, in which an additional slot is installed to interact with an additional longitudinal groove formed in the housing wall, the upper portion of which is made in the form of an arcuate a bend with a transverse groove on the ledge. 12. The device according to p. 11, characterized in that the fixing unit is made in the form of an anchor, consisting of an axial hole located in the lower part of the housing, with the possibility of longitudinal movement of the rod connected by articulated leads with dies mounted on the outside of the housing on guiding elements consisting from one, made, for example, at an angle of less than 3 ^o , or several sections with radial bevels with corners successively increasing downward from the body.  13. The device according to p. 12, characterized in that the rod is fixed in the housing in its lowest position by means of a latch made, for example, in the form of a shear pin or a radial spring ball.  14. The device according to any one of paragraphs. 12 and 13, characterized in that the axial hole in the housing is blind, and the closed cavity formed in it by the rod is connected to the housing by the gap between the rod and the walls of the hole.  15. The device according to any one of paragraphs. 11-14, characterized in that it contains an axial load regulator installed between the cylindrical hollow adapter and the flexible pipe, consisting of a pipe with internal longitudinal grooves and a hollow piston placed in the pipe with an end with slots interacting with the grooves, the other end connected to the flexible pipe, in this case, a closed space is formed between the piston and the inner wall of the nozzle, connected with the piston cavity by gaps in the interface between the slots and grooves.  16. The device according to any one of paragraphs. 11-15, characterized in that it is provided with a hydraulic monitor sub located between the stator of the engine and the flexible pipe, the cavity of which is connected to the housing by a channel, the outlet of which is made directed upward from the engine to the flexible pipe.  17. The device according to any one of paragraphs. 11, 15 and 16, characterized in that the fixing unit is made in the form of an expander, part of the cutting elements of which are arranged in a spiral with the possibility of coinciding its direction with the resulting movement during rotation and axial feeding of the fixing unit.

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