RU2713276C1 - Device for extraction of whipstock from well - Google Patents

Abstract

FIELD: soil or rock drilling.

SUBSTANCE: invention relates to drilling and overhaul of oil and gas wells and can be used in construction of multi-hole wells and conversion of existing wells into multi-barrel wells. Proposed device comprises barrel with fishing hook for reciprocal recess of whipstock and with possibility of connection with pipe string. Stem is hollow with a radial channel in the lower part above the fishing hook made perpendicular to the device axis on the opposite side relative to the fishing hook. Fishing hook comprises body and barb made integral. Upper and lower surfaces of the housing are made at angle of 10–15° to transverse axis of the device. Upper surface of the body is equipped with a flushing channel connected to the hollow shaft. Small-toothed beak has projections located parallel to the axis of the device and tapering at angle of 20–25° to the tip of the barb. Protrusions are made with possibility of interaction with mating flanges in recess of whipstock. Device is equipped with a hydro-vibrator.

EFFECT: enlarging process and functional capabilities, facilitating orientation of fishing hook on sample of whipstock and its cleaning from contamination, facilitating faster and more reliable grip of whipstock without using geophysical batch, providing fixation and retention of the whipstock in the process of extraction from the well, excluding emergency cases, necessity to perform works on disconnection of the device when it is impossible to remove the whipstock from the well, improved manufacturability and structural strength.

4 cl, 7 dwg

Description

The invention relates to the field of drilling and overhaul of oil and gas wells and can be used during the construction of multilateral wells (MZS) and the transfer of existing wells to the multilateral category (MSS) by the method of cutting and drilling sidetracks (BS) from an extracted whipstock while maintaining the main wellbore for operation.

A device for extracting a whipstock (divergence wedge) from a well is known - a catching bell (Kress L.A., Miller S.U. Use of a removable whipstock for drilling a well with two horizontal shafts // Oil and Gas Technologies. - 1994. - No. 1–2 . - P. 12-15), including a hollow body with an internal thread, with a screw pointed lower end and upper thread for connection with a pipe string.

The disadvantages of the device are:

- the difficulty of obtaining a reliable connection of the device with the wedge-diverter, due to the fact that the strength of the housing of the fishing bell is associated with the thickness of its walls. The outer diameter of the fishing bell has a certain value for passing into the main wellbore, which is unchanged. Reducing the thickness of the wall of the fishing bell and its guiding funnel to increase the internal diameter, simplifying the process of gripping and screwing on the diverter wedge when it is removed from the well, will lead to crushing of the guiding funnel and destruction of the housing, since when screwing the taper thread of the fishing bell onto the taper The deflecting wedge in the body of the fishing bell produces large radial tensile forces. An increase in the wall thickness of the fishing bell to increase its strength and carrying capacity will lead to a decrease in the inner diameter, the impossibility of entering the deflector wedge and its reliable capture;

- the difficulty of disconnecting the bell from the diverter wedge if it cannot be removed from the well, the occurrence of an emergency and, as a result, the large material and time costs for its elimination and the increase in the cost of building the MSS and MZS.

A device is known for extracting a deflecting wedge from a well (patent RU No. 2421598, IPC ЕВВ 31/20, published on 06/20/2011, bull. No. 30), including an adapter, a hollow body with a screw pointed lower end and a fishing mechanism located inside case and made in the form of a hollow rod rigidly connected to the coupling and equipped with a radial channel and an inclined surface under the trough of the deflector wedge, equipped with a technological hole for placement of the lower movable sleeve, which interacts with the technological hole - a sample to diverting line when it is removed from the well.

The disadvantage of this device is:

- low reliability of the device associated with the insufficient structural strength of the hollow rod, which perceives the main axial load by moving the deflector wedge from the place of fixing and removing it from the well. The most weak point of the hollow rod is the radial channel in which the lower movable sleeve is installed. When creating an axial load on the device for extracting the deflecting wedge from the well, bending forces will tear the lower sleeve out of the hollow rod or it will jam in the radial channel of the hollow rod and its destruction. All this will lead to an emergency, additional time and material costs, and an increase in the cost of building an MSS and MZS.

A device is known for extracting a deflecting wedge from a well (patent RU No. 2464406, IPC ЕВВ 31/12, published on October 20, 2012, in bull. No. 29), including a threaded barrel at the top for connection with a pipe string and fishing hook at the bottom for connection with diverter wedge. In this case, the barrel is made hollow, muffled from below and equipped with a calibrated side hole below, located on the opposite side of the barrel relative to the fishing hook. The top of the barrel is equipped with a casing, below which a latch is installed with side flats at the top. Outside the barrel there is a cylindrical spring-loaded cylindrical body with a bottom groove on the side of the fishing hook, equipped with a horseshoe-shaped support sleeve from below, and a support sleeve with a rectangular internal longitudinal hole above the sample, which is located outside the retainer so that it can interact with its hole with its side flanges, limited upward movement and radial deviation in the opposite direction from the fishing hook. Moreover, the barrel is inserted into a horseshoe-shaped sleeve with the possibility of limited radial movement in the opposite direction from the fishing hook. In this case, the supporting sleeve is configured to interact with the upper end face of the deflecting wedge, and the horseshoe-shaped sleeve is with side grooves of the deflecting wedge.

The disadvantages of this device are:

- the complexity of lowering the device into the well, since the horseshoe-shaped support sleeve constantly falls into the gap between the ends of the casing pipes in the coupling joints, especially in the inclined and horizontal sections of the wellbore. To pass the couplings, it is necessary to constantly rotate the device of the pipe string, which increases the time and complexity of the work;

- the complexity of connecting the device to the deflecting wedge, since the support sleeve is triggered only when interacting with the upper end of the deflecting wedge, and as practice has shown when cutting a window in the casing wall with the milling cutter assembly and tripping of the drilling tool during drilling BS, the upper part and the end face of the deflecting wedge are processed until all protrusions that impede the descent of the drilling tool are completely eliminated;

- a narrow scope of the device, since for its operation it is necessary to produce a wedge-deflector with side grooves for interaction with the groove of the horseshoe-shaped support sleeve, which will lead to higher cost of equipment and an increase in the cost of building an MSS and MZS. In addition, the impossibility of the device capturing the wedges-deflectors with significant wear, as this leads to the loss of the supporting surfaces of the grooves, and the device freely slides, not being fixed on the gutter of the wedge-deflector;

- low reliability of the device, since the diameter of the casing is larger than the overall size of the fishing hook, and the lower groove is made in the casing itself, the device will freely rotate in the groove of the diverter wedge without interacting with its side channels and without capturing the diverter wedge;

- low reliability of the device, since the design of the device does not provide for the fixation of the deflector wedge with a fishing hook, in connection with this, there is a high probability of loss of the deflector wedge during extraction from the well;

- low reliability of the device, since there is no device for cleaning the sample in the body of the diverter wedge from compacted drill cuttings, metal shavings and hardened cement, which makes it difficult to capture and remove the diverter wedge from the well, especially installed in inclined and horizontal sections of the wellbore.

A device is known for extracting a deflecting wedge from a well (patent RU No. 2415250, IPC ЕВВ 31/20, publ. 03/27/2011, bull. No. 9), including a barrel with a fishing hook at the bottom and an upper thread for connecting with a drill pipe string. In this case, the barrel is hollow, muffled from below, and the fishing hook is made with a double beard. At the same time, the width of the fishing hook exceeds the gap between the chute of the deflecting wedge and the casing wall, and a sub with a skew angle is installed on the upper thread for connection with the drill pipe string, which allows the fishing hook to be deflected with the back side of the bore axis. The trunk is made of multidirectional radial channels communicated with its internal cavity, the lower of which is made with a reverse double beard of the side, and the upper one is blocked from the inside by a sleeve with a saddle for a ball, fixed with shear elements relative to the barrel and made with the possibility of limited downward movement with the opening of the upper radial channel .

The disadvantages of this device are:

- the complexity of connecting the device to the deflector wedge and the need to use a geophysical lot to orient the device’s fishing hook along the slots in the body of the deflector, since the design of the fishing hook does not allow to determine the location of the deflector in the well. Practice has shown that when cutting a window in the casing wall with a milling cutter, the upper edge of the window is higher than the end of the deflecting wedge, and the assumption that the fishing hook due to its width can determine the interval of the end of the deflecting wedge is not confirmed. In addition, the upper part of the deflecting wedge and the end face, in particular, are processed until all protrusions that impede the descent of the drilling tool are completely eliminated in order to avoid complications when drilling BS;

- low functionality, since there is no device that signals the capture of a deflector wedge with a fishing hook, and not the upper edge of the casing window. The hooking of the upper edge of the window with a fishing hook will lead to an emergency situation with a breakdown of the device or drilling tool, deformation of the casing and the inability to continue further work;

- low reliability of the device, since there is no device for cleaning the side slots in the body of the diverter wedge from compacted drill cuttings, metal chips and hardened cement, which makes it difficult to capture the diverter wedge, especially installed with emphasis on the bottom wall of the well in inclined and horizontal sections trunk;

- low reliability of the device, since there is no device for fixing the deflector wedge with a fishing hook, which can lead to spontaneous disconnection of the deflector wedge in the process of removing it from the well, thus, there is a high probability of emergencies with the fall of the deflector wedge into the well and the re-capture and removal of the deflecting wedge from the well, which will lead to an increase in the time and cost of construction of the MSS and MSS.

A device for extracting a deflecting wedge from a well is known - a fishing hook of the SMITH Services company (Advertising brochure of construction equipment and technologies for MZS and MSS), including a main barrel with a fishing hook and an upper connection for a pipe string. In this case, the fishing hook is made with a beard. The beard of the fishing hook enters from the front side of the deflecting wedge a sample made in the form of a through slot in its body from the side of the trench, thereby capturing and removing it from the well.

The disadvantages of the device are:

- the complexity of connecting the device to the deflector wedge and the need to use a geophysical batch to orient the device’s fishing hook exactly according to the sample in the body of the rejection wedge, since the catch of the fishing hook in longitudinal and cross section has a trapezoid shape with a wide base towards the sample of the rejection wedge, which prevents its entry into the sample and capture of the deflecting wedge, which requires calling the geophysical batch for very precise orientation of the fishing hook relative to the sample in the wedge-open body onitelya both in depth and azimuth with the help of geophysical instruments;

- low reliability of the device, since there is no device for fixing the deflecting wedge with a fishing hook and pressing the deflecting wedge to the device barrel, as a result of which the upper part of the deflecting wedge can skew and deviate to the borehole wall, which will lead to its jamming in the coupling joints casing and abandonment in the well, especially in wells with a complex profile of the wellbore;

- low functionality, since there is no device for creating efforts to force the fishing hook into the selection of the deflecting wedge;

- low reliability of the device, since there is no device for cleaning the sample in the body of the deflector from compacted drill cuttings, metal chips and hardened cement, especially when installing the deflector in the inclined and horizontal parts of the trunk, which prevents the fishing hook from entering the sample deflecting wedge, capturing and removing it from the well;

- the difficulty of disconnecting the device from the diverter wedge if it is not removed from the well and an emergency occurs, since there is no device that pushes the fishing hook from the selection of the diverter wedge in such a situation.

A device for extracting a deflecting wedge from a well is known - a special fishing hook for sampling in a Schlumberger deflecting wedge (Promotional brochure: “TrackMaster Plus sidetracking systems - Extraction tools”), including a main barrel with a fishing hook and top connection for pipe string. In the main trunk, a longitudinal channel is made, connected to two radial channels. In this case, the fishing hook is made with a beard. The beard is made in the form of a bolt with a head that enters the sample from the front side of the deflecting wedge. The selection in the wedge-deflector is made in the form of a through slot in his body from the side of the gutter.

The disadvantages of the device are:

- low functionality of the device associated with the need for very accurate orientation of the fishing hook relative to the selection in the body of the deflector wedge both in depth and in azimuth using geophysical instruments, which requires calling the geophysical lot, since the beard of the fishing hook is made in the form of a bolt, directed the extended part (bolt head) in the direction of the sample in the body of the diverter wedge, which prevents its entry into the sample and capture of the diverter wedge;

- low reliability of the device, since there is no device for fixing the deflecting wedge with a fishing hook and pressing the deflecting wedge to the device barrel, as a result of which the upper part of the deflecting wedge can skew and deviate to the borehole wall, which will lead to its jamming in the coupling joints casing and abandonment in the well, especially in wells with a complex profile of the wellbore;

- low reliability of the device, since there is no device for cleaning the sample in the body of the deflector from compacted drill cuttings, metal chips and hardened cement, especially when installing the deflector in the inclined and horizontal parts of the trunk, which prevents the fishing hook from entering the sample deflecting wedge to capture and extract it from the well;

- the difficulty of disconnecting the device from the diverter wedge if it is not removed from the well and an emergency occurs, since there is no device that pushes the fishing hook from the selection of the diverter wedge in such a situation.

A device for extracting from the wellbore the whipstock - hook Quickcut ^TM to retrieve the whipstock Quickcut ^TM series with the armature MultiCatch Company «Weatherford» (Brochure: "Construction of a multilateral well 4th level using Weatherford company MillThru ^TM technology") comprising a barrel with a fishing hook in the lower part and the upper connection for the pipe string. The barrel in the lower part is deviated from the axis of the device in the opposite direction from the fishing hook, and the fishing hook is made with a beard. The beard of the fishing hook is made in the form of a parallelepiped, which enters from the front side of the diverter wedge into a sample made in the form of a through slot in its body from the side of the gutter, thereby capturing the diverting wedge and removing it from the well.

The disadvantages of the device are:

- low functionality of the device associated with the need for very accurate orientation of the fishing hook relative to the selection in the body of the deflecting wedge both in depth and in azimuth using geophysical instruments, which requires calling the geophysical lot, since the beard of the fishing hook is made in the form of a parallelepiped with a flat surface directed towards the sample of the deflecting wedge, which prevents its entry into the sample and capture of the deflecting wedge;

- the complexity of manufacturing a fishing hook, since the lower part with a beard is made by forging from a workpiece of large diameter and length, which has significant weight, with the formation of a large amount of waste, which increases the cost of the device;

- low reliability of the device associated with insufficient strength. The device is designed for an axial load of 20,000 pounds (90.72 kN), which is not enough to remove the deflecting wedge when installing it in wells with a complex trunk profile;

- low reliability of the device due to the lack of a device for pressing the deflecting wedge to the device barrel and fixing it. When the deflecting wedge is removed, it can skew and deviate in the borehole wall, which will cause it to become jammed in the casing collar joints or preventer dies and leave it in the borehole, especially in boreholes with a complex bore profile, thus, the probability of emergencies that lead to an increase in the time and cost of construction of the MZS and MSS;

- low reliability of the device due to the lack of a device for cleaning the sample in the body of the deflector from compacted drill cuttings, metal chips and hardened cement, especially when installing the deflector in the inclined and horizontal parts of the trunk, which prevents the fishing hook from entering the wedge sample - deflector, capture and extraction of it from the well;

- low reliability of the device associated with the difficulty of disconnecting the fishing hook from the deflecting wedge if it is not removed from the well due to the lack of a device that ejects the fishing hook from the sample of the deflecting wedge, as a result of which an emergency situation occurs when the deflecting wedge and the device are left for its extraction in the well, which will lead to an increase in the time and cost of construction of the MZS and MSS.

A device for extracting a deflecting wedge from a well is known - a fishing hook of the Baker Hughes company (Training program for Surgutneftegas OJSC - “The latest developments in the construction of multilateral wells”), including a main barrel with a fishing hook in the lower part and the upper connection for the column pipes, while the fishing hook is made in the form of a multifaceted prism with a beard, while the beard of the fishing hook in cross section has the shape of a trapezoid, which is directed with a wide base to the selection of the deflector wedge made in in the form of a through slot in his body from the side of the trench, thereby capturing the deflecting wedge and removing it from the well.

The disadvantages of the device are:

- low functionality of the device associated with the need for very accurate orientation of the fishing hook relative to the selection in the body of the deflecting wedge both in depth and in azimuth using geophysical instruments, which requires calling the geophysical lot, since the beard of the fishing hook in the cross section has a trapezoid shape with a wide base directed towards the sampling of the deflecting wedge, which prevents its entry into the sample and capture of the deflecting wedge, which increases the duration and cost of construction va FHI and MCC;

- low functionality, since there is no device for creating efforts to force the fishing hook into the selection of the deflecting wedge;

- low functionality, since there is no device for cleaning the sample in the body of the deflector from compacted drill cuttings, metal chips and hardened cement, especially when installing the deflector in the inclined and horizontal parts of the trunk, which prevents the catch hook from entering the wedge selection diverter, capture and extraction of it from the well;

- the difficulty of disconnecting the device from the diverter wedge if it is not removed from the well and an emergency occurs, since there is no device that ejects the fishing hook from the sample of the diverting wedge, as a result of which the diverting wedge and the device for its removal in the well are left , which will lead to an increase in the time and cost of construction of the MZS and MSS.

The closest in technical essence to the proposed invention is a device for extracting a deflecting wedge from a well (Kress L.F., Miller S.U. Use of a removable whipstock for drilling a well with two horizontal shafts // Oil and Gas Technologies. - 1994. - No. 1 –2. - P. 12–15), including a barrel with a fishing hook for the reciprocal selection of the deflecting wedge and with the possibility of connecting to the pipe string. The fishing hook is made in the form of a beard. The beard of the fishing hook enters from the front side of the deflecting wedge a sample made in the form of a through slot in its body from the side of the trench, thereby capturing and removing it from the well.

The disadvantages of the device are:

- the complexity of the operation of capturing the deflecting wedge with a fishing hook of the device, since it is very necessary to orient the fishing hook with respect to the selection in the body of the deflecting wedge both in depth and in azimuth using geophysical instruments, which requires a call to the geophysical lot and leads to an increase in terms and the cost of building the MSS and MZS;

- low functionality, since there is no device that signals the capture of a deflector wedge with a fishing hook, and not the upper edge of the casing window. When creating an axial load downward (lowering the pipe string into the well), the hook of the fishing hook freely slides out of the sample of the deflector wedge, thereby not signaling to the surface that the deflector wedge has been captured. When the upper edge of the casing window is engaged, the weight of the pipe string increases, which is fixed on the surface by the weight control device of the drilling tool as well as when the diverter wedge is captured, and when the pipe string is lowered into the well, the fishing hook passes freely into the BS and is not fixed on the surface reducing the weight of the pipe string, misleading the driller. The driller, thinking that he has captured the deflector wedge, will increase the axial load upwards to move the deflector wedge from the installation site and move it to the transport position, will actually apply axial load to the upper edge of the window, which will lead to an emergency situation with a device breakdown or drilling tool, casing string deformation and inability to continue further work;

- low reliability of the device, since when removing the wedge-diverter is not pressed against the barrel of the device and its upper part may skew and deviate in the wall of the well, which will lead to its jamming in the coupling joints of the casing or dies of the preventer and leave in the well, especially in wells with a complex profile of the wellbore;

- low functionality, since there is no device for creating effort to force the fishing hook into the selection of the deflector wedge when it is captured;

- low functionality, since there is no device for cleaning the sample in the body of the diverting wedge of compacted drill cuttings, metal chips and hardened cement, which prevents the fishing hook from entering the sampling of the diverting wedge, trapping and removing it from the well, despite the fact that the hook bar has a pointed tip;

- low reliability of the device, since the design does not have a device for fixing the deflector wedge with a fishing hook, which can lead to spontaneous disconnection of the deflector wedge when removing it from the well, thus, there is a high probability of emergencies with the fall of the deflector wedge borehole bottom and its repeated extraction, which will lead to an increase in the time and cost of construction of the MZS and MSS;

- low manufacturability of the device, since the beard is welded to the trunk of the fishing hook by electric welding, which leads to recrystallization of the metal in the weld zone, a decrease in its strength and an increase in the probability of breakage when removing the deflector from the well, which will lead to an emergency.

The technical objectives of the invention are to expand the technological and functional capabilities of the device for extracting the deflecting wedge from the well by facilitating and improving the orientation accuracy of the device for selecting the deflecting wedge, eliminating the call of the geophysical lot, cleaning the sample in the body of the deflecting wedge and simplifying the wedge capture operation deflector and signaling to the surface about its capture, as well as improving the reliability of the device by holding the deflector wedge in the pressed ixed position to the device’s trunk during extraction from the well, excluding cases of distortion and non-removal of the deflecting wedge from the well or its loss during the ascent to the surface, reducing emergency situations by eliminating the possibility of disconnecting the device from the wedge-deflector in the well and breaking the device, and also increasing the manufacturability of the device itself and its structural strength, which in the aggregate will lead to a significant reduction in funds and terms in the construction of a new MZS or transferring an existing well to the MCC discharge while maintaining the main wellbore for operation.

Technical problems are solved by a device for extracting the diverter wedge from the well, including a barrel with a fishing hook for the reciprocal selection of the diverter wedge and with the possibility of connecting to the pipe string.

New is that the barrel is made hollow with a radial channel located in the lower part of the barrel above the fishing hook, and made perpendicular to the axis of the device on the opposite side relative to the fishing hook, the fishing hook contains a body and a beard, made at the same time, the upper and lower surfaces of the body are made an angle of 10–15 ° to the transverse axis of the device, the upper surface of the casing provided with a flushing channel connected to the hollow barrel, the beard is made with protrusions located parallel to the axis of the antenna roystva and tapering at an angle of 20-25 ° to the tip barb, capable of cooperating with mating flanges in the sample whipstock, the apparatus is provided with a hydraulic vibrators.

Also new is the fact that the barrel of the device is made of upper and lower parts connected by a thread or a hot fit or bayonet connection, the lower part of the barrel being made integral with the fishing hook.

Also new is the fact that the body of the fishing hook is made in the form of an oval or rectangle, or a cylinder in longitudinal section, depending on the shape of the sampling of the deflecting wedge.

Also new is the fact that the hook of the fishing hook is made in the form of a trihedral prism located parallel to the longitudinal axis of the device, one face of which is perpendicular to the transverse axis of the device, forming protrusions that interact with the shelves in the sample of the deflecting wedge, and the other two converge at an angle of 90– 105 °, forming with the upper base made at an angle of 20–25 ° to the longitudinal axis of the device, the pointed tip of the beard, the edge of the prism directed towards the sampling side of the deflecting wedge, is beveled to the bottom of the device at an angle of 1.5–2 °, exceeding the angle of the gutter of the deflector wedge.

In FIG. 1 shows a device for extracting a deflecting wedge from a well, lowered into the installation interval of the deflecting wedge (longitudinal section).

In FIG. 2 shows a device for extracting a whipstock from a well with a partial longitudinal section.

In FIG. 3 shows a cross section AA of FIG. 2.

In FIG. 4 shows a view B of FIG. 1.

In FIG. 5 shows the extension element B in FIG. 2.

In FIG. 6 shows a longitudinal section GG of FIG. 5.

In FIG. Figure 7 shows the process of capturing the deflector wedge by retrieving the device with the fishing hook and pressing the deflector wedge against the device barrel and securing it with the protrusions of the device’s fishing hook to the shelves located in the upper part of the deflector wedge when stragging (breaking) it from the installation site.

A device for extracting the deflecting wedge from the well includes a barrel 1 (Fig. 1) with a fishing hook 2 for a reciprocal sampling 3 of the deflecting wedge 4 and with the possibility of connecting to the pipe string 5. In this case, the barrel 1 (Fig. 2) of the device is hollow with the Central channel 6, and the barrel 1 of the device is made separately of two parts of the upper 7 and lower 8 in order to improve manufacturability and structural strength, as well as reduce the cost of the device. The upper part 7 of the barrel 1 is, for example, made of a part of a drill pipe or pump compressor pipe, or a weighted drill pipe, etc. with upper and lower threads in accordance with the calculated axial loads that occur when removing the deflector 4 (Fig. 7) from the well 9, with no less strength than the pipe string 5. The lower part 8 (Fig. 2) of the barrel 1 is integral with a fishing hook 2 and an upper thread for connecting with the lower thread of the upper part 7 of the barrel 1. The connection of the upper 7 and lower 8 parts of the barrel 1 can be performed in various ways, for example, by threading, hot landing, bayonet coupling, etc. in ways that do not reduce the strength of the device. The implementation of the lower part 8 of the barrel 1 at the same time with the fishing hook 2 of the device separately from the upper part 7 of the barrel 1 reduces the transverse overall dimensions of the entire device, allows you to make it more technological methods on conventional metalworking machines from more durable materials, which increases the strength of the whole device as a whole, contributing to to increase the functionality of the device, improving its patency in wells with a complex path of the trunk, facilitating the orientation of the fishing hook 2 devices on a sample of 3 wedges klonitelya 4 and contributing to a more rapid and secure grip whipstock 4 without the involvement of the geophysical party, reducing its cost and the probability of accidents with breakage (destruction).

The lower part 8 of the barrel 1 is made with a radial channel 10 located above the fishing hook 2. The radial channel 10 is made perpendicular to the axis of the device on the opposite side relative to the fishing hook 2. The radial channel 10 is designed to create forces for forcing the fishing hook 2 into the sample 3 the deflecting wedge 4 (Fig. 1 and 7) when it is captured under the action of a reactive force resulting from a jet of washing liquid. When this fishing hook 2 (Fig. 2) contains a housing 11 and a beard 12, made at the same time. Moreover, the upper 13 and lower 14 surfaces of the housing 11 are made at angles α and β (Fig. 5) to the transverse axis of the device, respectively, and equal to 10-15 °. The upper 13 (Fig. 2 and 5) and lower 14 of the surface of the housing 11 of the fishing hook 2 interact with the upper 15 and lower 16 surfaces of the sample 3 (Fig. 4) of the deflecting wedge 4 (Fig. 7) when moving it (breaking) it installation or disconnection of the device from the wedge-deflector 4 if it is impossible to remove it from the well 9 and create a minimum coefficient of friction (steel on steel).

Moreover, the upper surface 13 (Fig. 2, 3 and 5) of the housing 11 is equipped with a washing channel 17 connected to the Central channel 6 of the hollow barrel 1. In this case, the washing channel 17 is directed to the pointed tip 18 of the beard 12 of the fishing hook 2. The lower surface 14 of the housing 11 it is a signaling device for capturing the deflecting wedge 4 (Fig. 7) for the sample 3 by the fishing hook 2 of the device, and not the upper edge of the window 19 in the wall of the casing string 20 and allows you to disconnect the device from the deflecting wedge 4 (Fig. 7) if necessary, excluding the production emergency operations during nevo Moznosti retrieval of the whipstock from the well 4 9.

For the cornerα(Fig. 5) the optimum angle is 12.5 °, providing minimal friction between the upper surfaces of the housing 11 of the fishing hook 2 and sample 3 (Fig. 4) of the deflector 4 in atmospheric conditions during the capture of the deflector 4 (Fig. 7), separation it from the wall of the well 9 and pressing it to the barrel 1 of the device. Moreover, the upper surface 13 of the housing 11 (Fig. 6) of the fishing hook 2 is made with a rounded radiusr equal to radiusr ₁ (Fig. 4) the upper part of the sample 3 from the side of the gutter of the diverter wedge 4 (Fig. 1).

In addition, the angle α allows you to create a pointed tip 18 of the beard 12 (Fig. 2 and 5) of the fishing hook 2, to increase its strength to bending loads that occur when gripping the wedge-deflector 4.

The implementation of the upper surface 13 (Fig. 2) of the housing 11 of the fishing hook 2 at an angle α (Fig. 5) increases the structural strength of the device, reduces the friction coefficient between the interacting surfaces of the deflector 4 and the device when the deflector 4 is pressed tightly (FIG. 7) to the barrel 1 of the device, reducing the shoulder torque forces, thereby increasing the reliability of the device, reducing the likelihood of emergency situations associated with breakdowns (destruction) of the device when the wedge deflector 4 is broken from the installation site and from attracting it from the well 9, it becomes possible to reduce the overall dimensions of the device without reducing its strength and use in small diameter wells, which is especially important at present, when the production diameter of the wells is reduced due to a reduction in their production rate.

The angle β (Fig. 5) is determined empirically within the indicated limits (10–15 °) depending on the angle of inclination of the main wellbore 9 (Fig. 1) in the installation interval of the deflector 4, the type of flushing fluid used for drilling BS 21 , the diameter of the deflecting wedge 4 and the device for its extraction, construction of a new MZS or transfer of an existing well to the MSS category and is determined for each specific region depending on the drilling technology of the MSS and MSS.

The beard 12 (Fig. 2) of the fishing hook 2 is made with protrusions 22 (Fig. 3). The protrusions 22 are parallel to the axis of the device (Figs. 2, 3 and 5) and taper at an angle δ equal to 20–25 ° (Fig. 5) to the pointed tip 18 of the beard 12. The protrusions 22 are configured to interact in the initial stage of wedge capture deflector 4 (FIG. 7) with mating flanges 23 (FIGS. 1 and 4) in sample 3, providing a minimum coefficient of friction between them as the fishing hook 2 moves (FIG. 7) along sample 3 to its upper surface 15 (FIG. .4) and the separation of the upper part of the deflecting wedge 4 (Fig. 7) from the wall of the well 9, which is especially important, since the majority of owls the belt wedges-deflectors 4 (Fig. 1) do not have a transverse axis for deflecting and pressing the upper part to the wall of the well 9, but deviate and are pressed against the wall of the well 9 by the entire body with spacer dies. In this regard, the deviation (separation) of the upper part of the deflecting wedge 4 (Fig. 7) from the wall of the well 9 and pressing it to the barrel 1 of the device are the main conditions for the successful removal (disruption) of the deflecting wedge 4 from the installation site and removing it from the well 9.

To connect the device with the wedge-deflector 4 (Fig. 7) during its extraction from the well 9 in the trough of the wedge-deflector 4 (Figs. 1, 4 and 7), a retrieval of fishing hook 2 was made of sample 3 (Fig. 4). Sample 3 is made in the form of a through groove of various widths along the length of the gutter of the wedge 4 with shelves 23 located in the upper part of the sample 3 for interaction with the protrusions 22 (Fig. 3) of the fishing hook 2 and fixation of the deflecting wedge 4 (Fig. 7) with the device when removing it from the well 9, and of equal width from the back of the deflecting wedge 4 (Fig. 4). A similar design of sample 3 is known and used in the design of other deflecting wedges, therefore, the authors do not pretend to its design.

In the process of capturing the deflecting wedge 4 (Fig. 7) with the pointed tip 18 of the beard 12 of the fishing hook 2 with the protrusions 22, at the same time, the sample 3 of the deflecting wedge 4 is cleaned of compacted drill cuttings, metal shavings and hardened cement (not shown) that are formed in the process of cutting and drilling BS 21 from the casing 20 of the well 9 and fill all the samples, niches and irregularities on the bottom wall of the inclined and horizontal sections of the well 9 and compacted to a sufficiently dense state under the action of the drilling a strumenta (not shown) using the pointed tip 18 (Fig. 2, 3 and 5) of the catch 12 of the fishing hook 2, a jet of liquid flowing from the washing channel 17, which exits onto the upper surface 13 of the housing 11 and connected to the central channel 6 of the lower part 8 hollow barrel 1 and a hydraulic vibrator 24 (Fig. 1 and 7), which is equipped with a device. Moreover, the hydraulic vibrator 24 can be installed above the device through several pipes or directly above the device (as in the presented embodiment), or below it, etc. methods depending on the trajectory and diameter of the wellbore 9, the diameter of the pipe string 5, the necessary longitudinal and transverse forces created by the hydraulic vibrator 24 on the pipe string 5 and the pointed tip 18 of the beard 12 of the fishing hook 2, etc. downhole conditions.

The housing 11 (Fig. 6) of the fishing hook 2 is made in the form of an oval or rectangle, or a cylinder in longitudinal section by a cutting plane GG (Fig. 5) parallel to the longitudinal axis of the device, depending on the shape of the sample 3 of the deflector 4 (Fig. 4 ) In the presented embodiment, the housing 11 (Fig. 6) of the fishing hook 2 is made in the form of an oval with a radius of the upper 13 of the surface r equal to the radius r ₁ (Fig. 4) of the upper surface 15 of the sample 3 from the side of the gutter of the deflecting wedge 4. This form of execution of the housing 11 (Fig. 6) of the fishing hook 2 and sample 3 (Fig. 4) of the diverter wedge 4 allows for more even distribution of the axial load created by the removal of the diverter wedge 4 (Fig. 7) from the well 9 along the interacting surfaces of these devices and increase them structural strength, reduce the likelihood emergency situations with their breakdowns (destruction).

To expand technological and functional capabilities, as well as increase the reliability of the device, the beard 12 (Fig. 2, 3 and 5) of the fishing hook 2 is made in the form of a trihedral prism located parallel to the longitudinal axis of the device, one face of which is perpendicular to the transverse axis of the device, forming protrusions 22 (Fig. 3) interacting with the shelves 23 (Fig. 4) in the sample 3 of the deflecting wedge 4, and the other two converge at an angle γ (Fig. 3) of 90–105 °, forming with the upper base 25 (Fig. 3). 5) made at an angle δ equal to 20–25 ° to the longitudinal the axis of the device, the pointed tip 18 of the beard 12. In this case, the rib 26 (Fig. 1 and 5) of the prism directed towards the sample 3 (Fig. 1 and 4) of the deflector 4 to facilitate the entry of the beard 12 into the sample 3 of the deflector 4 , beveled to the bottom of the device at an angle τ (Fig. 5) exceeding the angle φ (Fig. 1) of the trough of the wedge-deflector 4 by 1.5–2 °, creating the opposite angle to the pointed tip 18 (Fig. 5) of the fishing bar 12 hook 2, thereby preventing the stop of the fishing hook 2 (Fig. 7) the lower part of the beard 12 into the gutter of the deflecting wedge 4 and the inability to capture the deflecting wedge 4. This increases the functionality and reliability of the device by facilitating and simplifying the operation of capturing the deflecting wedge 4.

Technical connecting elements of work surfaces that do not affect the operability of the device, to simplify the drawings and description in FIG. 1-7 are not shown or shown conditionally.

A device for extracting the deflecting wedge 4 from the well 9 works as follows.

The device (Fig. 1) on the pipe string 5 is lowered into the well 9 in the installation interval of the deflector 4 (patent RU No. 2414580, etc.), controlling the depth of the device descent along the length of the pipe string 5. At that, the central 6 (Fig. 1 and 2), radial 10 and flushing 17 channels of the device allow filling the internal cavity of the pipe string 5 (Fig. 1) during the descent of the device into the well 9, thereby eliminating the operation of periodically adding flushing fluid to the cavity of the pipe string 5, and performing technological flushing the well 9 to align the parameters urs solution and elimination of complications in the open part of the BS 21.

In the interval of finding the upper part of the deflecting wedge 4, connect the lead pipe and turn on the pump (not shown in Figs. 1–7), which is installed on the surface, and continue the descent of the device with rotation and flushing of the well 9 to clean the upper part of the deflecting wedge 4 and sample 3 from deposits of compacted drill cuttings mixed with metal chips and hardened cement (not shown in Figs. 1–7). When drilling BS 21 from an inclined or horizontal section of the MZS or MSS, large particles of drill cuttings and metal shavings are not completely washed out of the borehole 9, but are deposited on the bottom wall of the barrel in the form of dunes, filling all irregularities, selections and niches, including sample 3 the deflector wedge 4, made for the catch of the hook 2 of the device, and compacted under the action of a working drilling tool (not shown in Figs. 1–7) to a sufficiently dense state, which cannot always be washed out and removed with a stream of liquid from rad cial 10 and purging channels 17 (FIGS. 1 and 7). In the process of eliminating the complication zones during drilling of BS 21 using cement technology, cement is laid in and around 3 deflecting wedges 4 and hardens around it, which is not easy to remove from the confined spaces as a sample of 3 deflecting wedges 4. When cleaning the wedge location interval, of the diverter 4, the reactive force of the jet of liquid flowing from the radial channel 10 presses the fishing hook 2 of the device to the wall of the well 9 and, accordingly, to the groove of the diverter wedge 4, while the hydraulic vibrator 24 (US Pat. RU No. 2186926, etc.), installed in pre Laga above embodiment, the device creates a longitudinal and transverse wave oscillations, are transformed into transverse blows towards the pointed tip of the hook 18 of the picker 2 as the working tool in the pneumatic drill or punch. For better destruction of compacted drill cuttings mixed with metal shavings or hardened cement and maintaining operability (sharpness), the tip 18 (Fig. 5) of the beard 12 of the fishing hook 2 can be equipped with a tip of increased strength, which under the action of shock loads - longitudinal and transverse vibrations, how a perforator easily destroys compacted drill cuttings with metal shavings or hardened cement inside a sample 3 (Fig. 7) of the diverter wedge 4 and prepares it for washing out by a stream of liquid flowing from the washing channel 17 and the pointed tip 18 of the beard 12 of the fishing hook 2 entering the working zone. The destroyed drill cuttings are easily washed out of the sample 3 of the deflecting wedge 4 by vibration and a liquid stream, making room for the beard 12 of the fishing hook 2 of the device. Thus, after several trips of the device with rotation in the interval between the upper part of the deflecting wedge 4, the sample 3 and the upper part of the deflecting wedge 4 are quickly cleaned of compacted drill cuttings and other contaminants. When the fishing hook 2 enters the sample 3 of the diverter wedge 4 or the casing window 19, it abuts against either the sampling wall 3 in the body of the diverter wedge 4 or the wall of the casing window 19 and loses its ability to freely rotate around the axis of the device. In the pipe string 5, the torque increases, which is fixed on the surface with a torque meter (not shown in Figs. 1–7). At this moment, the rotor is stopped (not shown in FIGS. 1–7). By supplying the pipe string 5 downward, an axial load is applied to the device, if the fishing hook 2 is included in the sample 3 of the deflecting wedge 4, then after a certain distance (length of the sample 3) it will rest against its lower surface 14 of the housing 11 (Fig. 2) to the lower surface 16 (Fig. 1) of sample 3, and the dynamometer will show a decrease in the weight of the pipe string 5 on the hook of the drilling rig (not shown in Figs. 1–7), signaling to the driller about the capture of the deflector wedge 4. If, when creating an axial load, there is a decrease in the weight of the pipe string 5 on the hook of the drilling rig, nachit, fishing hook device 2 captures the upper edge of the window 19 of the casing 20 of the well 9, and when filing down device extends freely in the BS 21 without encountering obstacles. Thus, the driller receives a signal that he did not capture the deflector 4, but the upper edge of the casing window 19 and will know exactly what to do next. In this case, the driller determines the exact location of the sample 3 of the deflecting wedge 4, located on the opposite side of the borehole 9 from the casing string window 19, by measuring the length of the pipe string 5; the pipe string 5 is rotated 180 ° around the axis, the fishing hook 2 of the device is installed in the interval sample 3 of the diverter wedge 4, tertiary treatment of the sample 3 and capture of the diverter wedge 4, creating an axial load on the pipe string 5 up. In this case, the fishing hook 2 (Fig. 7) with a pointed tip 18 easily enters the sample 3 of the deflecting wedge 4, grabbing it and using the protrusions 22 (Fig. 5), converging at an angle δ , interacts with the shelves 23 (Fig. 1 and 4) sample 3 of the wedge-deflector 4 and takes (tears) its upper end from the wall of the well 9 (Fig. 7). Thus, the orientation accuracy of the fishing hook 2 of the device for sampling 3 of the deflector 4 is facilitated and increased, the operation of cleaning the sample 3 of drill cuttings and other contaminants, capture of the deflector 4 and signaling this to the surface to the driller is simplified. The operation of orienting the device for sampling 3 of the deflecting wedge 4 using geophysical instruments is also excluded, which ultimately reduces the time and cost of construction of the MSS and MSS.

The operations of combining the fishing hook 2 of the device with the sampling 3 of the deflecting wedge 4 are used in other similar devices, so the authors do not claim to be new.

Further, with an increase in the axial load on the pipe string 5 (Fig. 7), the deflector 4 with the upper surface 15 (Fig. 4) of the sample 3 slides along the upper inclined surface 13 (Fig. 2) of the fishing hook body 11 made at an angle α ( Fig. 5) in the direction of the barrel 1 (Fig. 7) of the device under the action of the clamping force, which occurs according to the rule of the parallelogram of forces when the axial force acts on the inclined surface, deviating from the wall of the casing string 20, being cleaned of the remains of drill cuttings or solidified cement and tightly pressed against the barrel 1 of the device , reducing the torque arm of the forces acting with the maximum value on the device at the time of breaking (stalling) of the deflector 4 from the installation site. In this case, the vibration loads created by the hydraulic vibrator 24 further reduce the coefficient of friction between the upper surface 13 (Fig. 2) of the fishing hook body 11 and the upper surface 15 (Fig. 4) of the sample 3 of the deflector 4, as well as to reduce the friction forces between the wall of the casing string 20 (Fig. 7) and the diverter wedge 4, thereby reducing axial loads when stragging (breaking) the diverter wedge 4 from the installation site in the well 9 and putting it into transport position. The deflector wedge 4 is released by creating an axial load of the calculated value empirically determined before the device is launched into the well 9. A decrease in the axial load indicates the release of the deflector 4, which is recorded on the surface by a dynamometer (not shown in Figs. 1–7). The freed wedge-deflector 4 is removed from the well 9 at significantly lower axial loads, since its diametrical dimensions become equal to the transport dimensions, which is proved by practice.

In the process of stragging (disruption) of the deflector wedge 4 from the installation site in the well 9 and its transfer to the transport position, the greatest axial loads occur on the device and the deflector wedge 4, under the action of which the deflector wedge 4 is fixed and pressed to the barrel 1 of the device . The wedge-deflector 4 is fixed with the device by jamming with an interference fit between the shelves 23 (Figs. 1 and 4) of the sample 3 between the protrusions 22 (Figs. 3 and 7) of the beard 12 of the fishing hook 2 and the lower part 8 of the barrel 1 of the device, which is facilitated by vibration loads, created by the hydraulic vibrator 24, reducing the coefficient of friction between these surfaces. After turning off the pump and stopping the vibration of the device, the friction forces between the surfaces of the shelves 23 of the sample 3 of the deflector 4 and the protrusions 22 of the beard 12 of the fishing hook 2 and the lower part 8 of the barrel 1 of the device reliably hold the deflector 4 in a fixed position to the barrel 1 of the device during extraction from well 9, excluding cases of warping and non-extraction of the deflecting wedge 4 from well 9 or its loss during the ascent to the surface. This is guaranteed to reduce the number of emergencies associated with the disconnection of the deflector 4 from the device in the process of extracting it from the well 9.

In wells 9 with particularly difficult conditions (with a long horizontal section, a complex bore profile), deep wells, or with several BS 21, when the axial load cannot be brought to the device, jars can be included in the pipe string arrangement 5 (in Fig. 1– 7), which are used, if necessary, to create short-term axial shock loads to disrupt the deflector 4 from the installation site and transfer it to the transport position using the hydraulic force of the liquid pressure.

If it is impossible to remove the deflector 4 from the well 9 after using all the equipment included in the layout of the pipe string 5, in order to exclude emergency work on disconnecting the device from the deflector 4 and remove the device from the well 9, disconnect the device from the deflector 4 in the following sequence. On the pipe string 5 create an axial load down. When exceeding a certain load, empirically determined for each type of size of the deflecting wedges 4 and devices for their extraction, downhole conditions (see above), the fishing hook 2 (Fig. 2), relying on its lower surface 14 having an angleβ(Fig. 5), on the lower surface 16 (Figs. 4 and 7) of the sample 3, the deflecting wedge 4 slides down to BS 21, the dynamometer at the wellhead 9 will show the recovery of the weight of the pipe string 5. The device with the pipe string 5 is rotated 90 ° and the device is removed from the well 9 without complications. This eliminates emergency work to free the device from the wedge-deflector 4 if it is impossible to extract it from the well 9.

The present invention allows to expand the technological and functional capabilities of the device for extracting the deflecting wedge from the well by facilitating and improving the orientation accuracy of the device for selecting the deflecting wedge, eliminating the call of the geophysical lot, cleaning the sample in the body of the deflecting wedge and simplifying the operation of capturing the deflecting wedge and signaling to the surface about its capture, as well as to increase the reliability of the device by holding the deflector wedge in a pressed fixed position to the device in the process of extraction from the well, excluding cases of distortion and non-removal of the diverter wedge from the well or its loss during the ascent to the surface, reduce emergency situations by eliminating the possibility of disconnecting the device from the diverter wedge in the well and the device breaking, as well as improving manufacturability manufacturing of the device itself and its structural strength, which in the aggregate significantly reduces the means and time during the construction of a new MZS or transferring an existing well to the discharge d MSS with preservation for operation of the main wellbore.

Claims (4)

1. Device for extracting a deflecting wedge from a well, including a barrel with a fishing hook for reciprocal selection of the deflecting wedge and with the possibility of connecting with a pipe string, characterized in that the barrel is hollow with a radial channel located in the lower part of the trunk above the fishing hook and made perpendicular to the axis of the device on the opposite side relative to the fishing hook, the fishing hook contains a housing and a beard, made at the same time, the upper and lower surfaces of the housing are made at an angle of 10-15 ° to the transverse the axis of the device, the upper surface of the body having a flushing channel connected to the hollow barrel, the beard is made with protrusions located parallel to the axis of the device and tapering at an angle of 20-25 ° to the tip of the beard, made with the possibility of interaction with mating flanges in the selection of the deflector wedge, while the device is equipped with a hydraulic vibrator. 2. The device according to p. 1, characterized in that the barrel of the device is made of upper and lower parts connected by a thread, or by a hot fit, or by a bayonet connection, the lower part of the barrel being made integral with a fishing hook. 3. The device according to p. 1, characterized in that the housing of the fishing hook is made in the form of an oval, or a rectangle, or a cylinder in longitudinal section, depending on the shape of the selection of the deflecting wedge. 4. The device according to claim 1, characterized in that the hook of the fishing hook is made in the form of a trihedral prism located parallel to the longitudinal axis of the device, one face of which is perpendicular to the transverse axis of the device, forming protrusions that interact with the shelves in the sample of the deflector, and two others converge at an angle of 90-105 °, forming with the upper base made at an angle of 20-25 ° to the longitudinal axis of the device, the pointed tip of the beard, the prism edge directed towards the sampling side of the deflecting wedge, beveled to the bottom devices at an angle 1.5-2 ° higher than the angle of the gutter of the deflector wedge.

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