RU2282016C2 - External releasing overshot - Google Patents

Abstract

FIELD: well drilling and overhaul in oil and gas industries, particularly overshot tools.

SUBSTANCE: overshot comprises sub, load-bearing body with inner spiral conical surface and screw ledge, spiral band gripping member having driving flag, longitudinal slot on spiral conical body surface, annular seat under spiral conical surface, guiding ring and guiding funnel. Spiral conical surface is formed on outer surface of gripping member. Inner surface of gripping member is provided with screw fishing threading. Hollow control-rod and leading body are arranged between load-bearing body and sub. Cylindrical abutment is made in upper part of hollow control-rod. Movable valve is installed in initial position in through sub channel so that the valve may cooperate with upper abutment end. Sealing members are arranged between contact surfaces. Inner diameters of through channels provide free broken tube passage.

EFFECT: increased reliability of tube gripping and pipe cleaning efficiency, possibility to trap sludge.

2 cl, 10 dwg

Description

The invention relates to the drilling and overhaul of wells in the oil and gas industry, in particular to a fishing tool, and is intended to capture and extract from the wells a dangling part of a pipe string.

Known external releasing tube containing a sub with an internal passage channel, a bearing housing, a spiral tape gripping element mounted in the bearing housing with the possibility of axial movement, moreover, on the outer surface of the spiral tape gripping element and on the inner surface of the bearing housing there is a spiral conical surface, and a spiral fishing cut is made on the inner surface of the spiral tape capturing element, and a guiding funnel (1. US patent No. 2174077, MKI 294-86.17, 1937).

The disadvantage of this tube is its low reliability due to the low reliability of the capture of pipes and low reliability of the release of the tube during the work cycle.

The closest known solution is an external releasing tube containing a sub with an internal passage channel, a bearing body with an internal spiral conical surface and a screw ledge, mounted in a bearing case with axial movement, a spiral tape gripping element with a threaded screw part and with a lead flag in its lower part, on the outer surface of the spiral tape capturing element is made spiral conical surface, and on the inner - screw fishing thread, a longitudinal groove on a spiral conical surface in the lower part of the housing, an annular seat under the spiral conical surface in the bearing housing, a guide ring and a guide funnel (2. US Patent No. 2559315, MKI 294-86.17, 1948).

A disadvantage of the known tube is its low reliability during the work cycle due to the low reliability of the capture of pipes, since it is possible to flush the "head" of the emergency pipes by moving the flow of flushing fluid pumped (pumped) by the pump (unit) by direct or reverse circulation through the tube, respectively either in the string of the fishing tool, or in the annular annular space of the well, does not have a significant effect on the patency of the tube in the wellbore s until full interaction in the working position of the entire length of the inner surface of the spiral tape gripping element with the outer surface of the protruding ring element on the body of the captured pipe due to the low cleaning efficiency of the internal cavity and the gripping part in the tube, the "head" of the emergency pipes, the annular annular space between the inner the surface of the wellbore and the outer surface of the tube, under the tube and below the “head” of the torn emergency pipes from the bottomhole sludge, sand, g particles, sludge, small and foreign objects, solid sediment after washing the well with lift pipes, saline build-up, tarry and other wellbore deposits that are knocked down from the wall of the well by the outer surface of the fishing tool string when lowering the tube into the well, and other elements located in the well, which densely fill the inner cavity of the tube and, being compressed on the "head" of the emergency pipes, prevent the entry, passage of the "head" of the extracted pipes into the tube and landing it on the emergency "head in the operating position to thoroughly contact the entire length of a fishing helical cutting the inner surface of the spiral rod catching member projecting from the outer surface of the annular element on the body recoverable tubing; as well as low reliability in the operation of the tube due to the low reliability of its release, since the possibility of releasing the tube using torque while lifting does not significantly affect the reliability of its release due to the possibility of skewing, deformation, low stability of the spiral tape gripping element and the reliability of its contact with the outer surface of the "head" of emergency pipes during torsion without the application of axial loads; low reliability in the operation of the tube, since it does not allow the release of the tube when the weight of the column of the fishing tool is much less than the axial force required for the spiral conical surface of the housing to come out of contact with the spiral conical surface of the spiral tape gripping element; in addition, low reliability in the operation of the tube due to the low efficiency of capture and extraction of bottomhole sludge and other elements from the well.

The purpose of the invention is to increase the reliability of the tube by increasing the reliability of the capture of pipes by increasing the permeability of the tube in the wellbore to the full interaction of the entire length of the inner surface of the spiral tape capturing element with the outer surface of the protruding ring element on the pipe body, by increasing the efficiency of cleaning the extracted pipes, increasing reliability of capture and extraction of bottomhole cuttings and other elements from the well, as well as by increasing the reliability of release tubes and at the same time simplifying work with it during the work cycle.

This goal is achieved by the fact that a hollow rod and a drive housing are installed between the bearing housing and the sub with limited axial movement of the bearing housing with respect to the drive housing, the lower part of the hollow rod is fixedly mounted in the upper part of the bearing housing with the possibility of landing the lower end of the hollow rod on the upper the end face of the protruding annular element on the body of the extracted pipes, for example the sleeve in the working position of the spiral tape gripping element on the outer surface of the sleeve, finding the lower part of the dangling pipe, a cylindrical heel is made in the upper part of the hollow rod, the lower and middle parts of the hollow rod are passed through an axial bore made in the lower part of the drive housing connected to the middle part of the hollow rod with an axially movable joint in which the outer the surface of the middle part of the hollow rod and the mating inner surface of the axial hole in the lower part of the drive housing in contact with it are made in cross section, for example, an octagonal shape, in the upper hour and the leading case the lower part of the sub is fixedly mounted, in the passage channel of the sub in the initial position there is a movable valve with the possibility of axial movement up and landing in the working position on the upper end of the cylindrical heel of the hollow rod, an annular ledge is made at the lower end of the outer surface of the cylindrical heel of the hollow rod, and on the inner surface in the lower part of the lead housing a reciprocal annular protrusion is made, on the annular ledge inside the lead housing in the initial extreme lower position and installed a hollow thrust cylindrical heel with the possibility of axial movement upward to a height not less than the working approach of the spiral tape gripping element on the outer surface of the coupling and interacting in the working position of the upper end of the cylindrical heel of the hollow thrust with the lower end of the movable valve fixed in the initial position by shear pins, installed in holes located around the circumference in the lower parts of the sub and the movable valve, forming the inner cavity of the tube, lock I can be sunk from above, while between the outer surface of the cylindrical heel and the inner surface of the leading body in contact with it, between the outer surface of the movable valve and the inner surface of the saddle in contact with it in the lower part of the sub, in the connection of the hollow rod with the supporting body and in the connection of the leading body with the sub the sealing elements are placed, the inner diameters of the passage channels of the cylindrical heel of the hollow rod and the sub are made according to the outer diameter of the dangling pipe with an appropriate gap for the free passage of the dangling part of the pipe inside the tube, the inner diameter of the passage channel of the lower and middle parts of the hollow rod is made larger than the outer diameter of the dangling pipe, but not more than the inner diameter of the spiral tape gripping element in its free position, forming an annular stop in the supporting body, and to increase the reliability of capture and extraction of bottomhole sludge and other elements from the well, the tube is equipped with a bore ring having a bore, fixedly installed in the passage channel of the cylindrical heel, on the upper surface of the landing ring is placed with the possibility of overlapping the passage opening and deviating upward to the vertical extreme position of the circular reed valve, which is connected via a swivel connection to the landing ring and is spring-loaded in the initial position, in the upper part of the landing ring above its base is made in a horizontal plane a semicylindrical surface, curved up, the lower surface of a circular reed valve and the reciprocal upper end surface of the landing ring is made in a shape that repeats its semi-cylindrical surface curved upwards, and the upper surface of the circular reed valve is curved upward, the diameter of the bore of the landing ring and the radius of the lower surface of the circular reed valve made according to the diameter of the dangling tube with the provision of an appropriate clearance for the passage of the dangling pipe inside the tube.

Figure 1 shows the outer releasing tube in the transport folded position of the hollow rod and the drive housing (the spiral tape gripping element is shown in the free extreme upper position), longitudinal section (general view); figure 2, 3, respectively, section aa, bb in figure 1; Figures 4-5 show another embodiment of an external releasing tube including a circular reed valve (circular reed valve shown in an open vertical position), a longitudinal section (general view); in Fig.6 is another embodiment of the external releasing tube, including a guide funnel with a guide ring protrusion, a longitudinal section (General view), (bottom of the tube); Fig. 7 is another embodiment of an external releasing tube including a sleeve gripping element, a longitudinal section (general view), (lower part of the tube); on Fig - another embodiment of an external releasing tube, including a guide ring conical chamfer made under a spiral conical surface on the inner surface of the lower end of the bearing body, longitudinal section (General view), (lower part of the tube); figure 9 is another embodiment of an external releasing tube, including an annular protrusion made under a spiral conical surface, and a guiding annular conical chamfer made on the inner surface of the lower end of the bearing body, longitudinal section (general view), (lower part of the tube); figure 10 is another embodiment of the external releasing tube, including a screw ledge of the bearing body with a spiral conical surface, tapering downward, and a thrust screw part of the gripping element with a spiral conical surface, expanding upward, longitudinal section (General view), (lower part of the tube )

The external releasing tube includes a bearing housing 1, a sub 2 with an internal passage channel. At the top of the sub 2 there is a thread for attaching the tube to the fishing tool string. A spiral tape gripping element 3 is mounted in the bearing housing 1 with the possibility of axial movement. On the inner surface of the bearing housing 1, on the outer screw surface of the spiral tape gripping element 3 in contact with it, there is a spiral conical surface 4, for example, the left, for working with the right column of the fishing tool . To ensure the release of the tube on the inner screw surface of the spiral tape picking element 3 there is a multi-start screw cutting, made, for example, with a persistent triangular profile, which serves to increase adhesion to the outer surface of the emergency pipe. The screw fishing cut on the inner surface of the spiral tape gripping element 3 has the same direction and pitch as the spiral conical surface of the bearing body 1.

Between the bearing housing 1 and the sub 2 there is installed a hollow rod 5 and a driving housing 6 with the possibility of limited axial movement of the bearing housing 1 with respect to the leading housing 6. Moreover, the lower part of the sub 2 is fixedly installed in the upper part of the driving housing 6. The lower part of the hollow rod 5 is stationary installed in the upper part of the bearing housing 6 with the possibility of landing the lower end of the hollow rod 5 on the upper end of the protruding annular element on the body of the extracted pipes, such as couplings, in the working position of the spiral tape th capturing element 3 on the outer surface of the coupling of the lower part of the dangling pipe. The upper part of the bearing housing 1 is rigidly connected by means of a threaded connection to the lower part of the hollow rod 5. The lower part of the sub 2 is rigidly connected by means of a threaded connection to the upper part of the drive housing 6. The inner diameter of the passage channel of the lower and middle parts of the hollow rod 5 is larger than the outer diameter dangling part of the pipe, but not larger than the inner diameter of the spiral tape gripping element 3, forming an annular stop 7 in the bearing housing 1, limiting the axial movement of the protruding annular element on the body of the pipe in the tube. The bearing body 1 and the hollow rod 5 are connected with the sub 2 by the leading case 6 with the possibility of its limited axial movement with respect to the bearing case 1. The lower and middle parts of the hollow rod 5 in their lowermost position are passed through an axial passage hole made in the lower part of the lead case 6. In the upper part of the hollow rod 5, a cylindrical heel is made 8. On the outer surface at the lower end of the cylindrical heel 8 of the hollow rod 5, an annular ledge is made, and on the inner surface in the lower part of the driving case 6 there is no reciprocal annular protrusion, which limits the axial downward movement of the cylindrical heel 8 of the hollow rod 5 in the drive housing 6 when lifting the tube. The length of the lower part of the hollow rod 5, protruding from the drive housing 6, or the length of the working stroke of the bearing housing 1 with respect to the sub 2 must be not less than the depth of the working approach of the spiral tape gripping element 3 on the outer surface of the clutch. The inner diameters of the passage channels of the cylindrical heel 8 of the hollow rod 5 and the sub 2 are made larger than the outer diameter of the dangling pipe with an appropriate clearance for the free passage of the dangling part of the pipe inside the tube.

The cylindrical heel 8 of the hollow rod 5 is installed in the initial extreme lower position on the annular protrusion inside the lower part of the drive housing 6. The cylindrical heel 8 of the hollow rod 5 is installed in the lead housing 6 with the possibility of limited axial movement upward by an amount not less than the necessary and sufficient working depth of the spiral the tape gripping element 3 on the outer surface of the clutch. The middle part of the hollow rod 5 is connected with the lead body 6 in an axially movable connection, in which the inner longitudinal surface of the axial bore in the lower part of the lead body 6 and the reciprocal contacting outer longitudinal surface of the middle part of the hollow rod 5 are made in cross section, for example, octagonal shape. This ensures the transmission of torque from the sub 2 to the spiral tape gripping element 3 through the drive housing 6 and the hollow rod 5 during rotation of the tube. In the passage channel in the lower part of the sub 2 there is a saddle, for example, of a cylindrical shape, in which a movable valve 9 is mounted in the initial position with the possibility of axial upward movement and landing in the working position on the upper end of the cylindrical heel 8 of the hollow rod 5. The movable valve 9, installed in the passage channel of the lower part of the sub 2, forms the inner cavity of the tube, closed at the top, under the pressure of the annular hydrostatic column of fluid in the well, corresponding to the depth of the descent and Spears. The cylindrical heel 8 of the hollow rod 5 is installed in the drive housing 6 with the possibility of limited axial movement and interaction of the upper end surface of the cylindrical heel 8 of the hollow rod 5 with the lower end surface of the movable valve 9. The movable valve 9 is fixed in the initial position from the axial movement upward by shear pins 10. The shear pins 10 are mounted in holes arranged circumferentially at the bottom of the movable valve 9 and the sub 2. Shear pins 10 located at the bottom of the movable valve 9 and p adapter 2, fixed from falling out by bushes. The diameter, material and number of shear pins 10 are determined by the load acting on the movable valve 9, which is caused by the pressure of the annular hydrostatic column of liquid under the valve, taking into account the shear safety factor. Between the outer surface of the cylindrical heel 8 and the inner surface of the driving housing 6, in the connection of the hollow rod 5 with the bearing housing 1, in the connection of the driving housing 6 with the sub 2, between the outer surface of the movable valve 9 and the inner surface of the annular seat of the sub 2 are sealing elements for sealing the inner cavity of the tube. The cylindrical heel 8 of the hollow rod 5 is placed in the lead case 6 with the possibility of limited axial movement and interaction or the lower end surface of the lead case 6 with the upper end surface of the bearing case 1, which ensures the transfer of the weight of the fishing tool string from the sub 2 through the lead case 6 to the bearing case one; or the upper end surface of the cylindrical heel 8 of the hollow rod 5 with the lower end surface of the sub 2, which ensures the transfer of the weight of the column fishing tool through the hollow rod 5 to the bearing body 1 of the tube during the work cycle.

To ensure maximum lifting force that is applied to the tube when removing the pipe string from the well, the angle of inclination of the conical surface 4 of the bearing body 1 and the gripping element 3 is made from the condition of ensuring the strength of the connection between the pipe and the pipe close to the tensile strength of the pipe string being removed and from the condition of self-jamming capturing element 3.

To increase the bearing capacity (load-carrying capacity) of the tube, for example, the lower part of the spiral conical surface 4 of the bearing housing 1 and the upper part of the spiral conical surface 4 of the gripping element 3 can be made either with a tape screw surface, or other shape.

Under the spiral conical surface 4 in the lower part of the supporting body 1 there is an annular seat. In the bearing housing 1 on the spiral conical surface 4 in its lower part above the annular seat there is a longitudinal groove. In the lower part of the spiral tape gripping element 3, to limit its rotation relative to the bearing housing 1, a driving flag 11 is fixedly mounted and rigidly fixed, which is located in a longitudinal groove on the spiral conical surface 4 of the bearing housing 1, to ensure the direction of the emergency pipe inside the tube. In the lower part of the carrier body 1 under the spiral tape gripping element 3, on the inner surface of the carrier flag 11, in the annular seat of the carrier body 1, a guide ring 12 with a carrier pin 13 is fixedly mounted, which is located in the longitudinal groove of the spiral conical surface 4 of the carrier body 1. On the outer surface of the guide ring 12 with the driving finger 13 has a longitudinal groove, which is aligned in the longitudinal plane with the longitudinal groove of the spiral conical surface 4 of the bearing housing 1 with the ability to provide axial and radial movement of the lead flag 11. The lead finger 13 of the guide ring 12 is placed in the longitudinal groove of the spiral conical surface 4 of the bearing housing 1 with the possibility of interaction with the lower end of the spiral tape gripping element 3 and the side surface of the lead flag. The lower end of the spiral tape gripping element 3 through the longitudinal end surface and the longitudinal side surface of the driver flag 11 is connected with the longitudinal side surface of the carrier pin 13, which ensures the transmission of torque from the bearing housing 1 to the spiral tape gripping element 3 when the tube is released. The lower end of the spiral tape gripping element 3 with a leash flag 11 is installed in a longitudinal groove on the inner spiral conical surface 4 of the bearing housing 1 with the possibility of axial and radial movement.

The longitudinal side surface of the driving finger 13 may be either a reciprocal longitudinal side surface of the longitudinal groove on the spiral conical surface 4 of the bearing housing 1 to limit the rotation of the spiral tape gripping element relative to the bearing housing 1 or the longitudinal side of the driving finger 13 and the longitudinal ledge in contact with it on the spiral conical surface 4, combined with the longitudinal lateral surface of the longitudinal groove of the bearing housing 1, can be made clino different shapes in cross section to increase the rigidity of the connection of the driving finger 13 with the bearing housing 1. Moreover, the longitudinal ledge on the spiral conical surface 4 in the longitudinal groove of the bearing housing 1 is made in the cross section of a wedge-shaped shape, expanding one-sidedly from the axis of the bearing housing 1, and the longitudinal side part the lead finger 13 is made in cross section of a wedge-shaped shape, expanding unilaterally from the axis of the guide ring 12.

The longitudinal lateral surface of the driving finger 13 and the corresponding longitudinal end surface of the lower end of the gripping element 3, the side surface of the flag 11 are inclined to the generatrix of the cylindrical surface in the longitudinal groove of the spiral conical surface 4 to divert the lower end of the gripping element 3 from the outer surface of the pipe release the tube. Moreover, the lateral part of the leader flag 11 and the longitudinal lower end of the spiral tape gripping element 3 are in cross section in a wedge-shaped shape with one-sided expansion from its axis, and the corresponding longitudinal lateral surface of the leader finger 13 has in cross-section a wedge-shaped shape with one-sided expansion from the axis of the guide ring 12 .

In the supporting housing 1, under the lower end of the hollow rod 5, a seal 14, for example a lip seal, is installed to create tightness in the connection between the pipe and the pipe, which increases the efficiency of capture and extraction of bottomhole cuttings from the well. Seal 14 allows you to restore the back circulation of the washing fluid, to perform intensive backwashing, install oil and acid baths.

In the lower part of the bearing housing 1, under the guide ring 12, there is a thread, for example internal, for attaching the guide funnel 15. The lower end of the guide funnel 15 can be made with a notch along the helical line forming the ledge to ensure alignment of the axes of the tube and the extracted pipe string, and with a conic facet on the inner surface; or to ensure capture near the upset part, or the castle part, or other protrusions of the pipe with an annular conical chamfer on the inner surface near the threaded connection of the guide funnel 15 with the bearing housing 1; or to ensure the removal of the upper end of the extracted pipes from the borehole wall and to enter the inside of the tube and to ensure that the body grabs a short part of the dangling pipe near the upset part, or the castle part, or other projections of the pipe with a wide U-shaped longitudinal cut and with a conical chamfer on the inside surface; or in case of deviation of the upper end of the extracted pipe string from the center of the well with a notch along a spiral line that goes into a curved longitudinal groove with a retracting hook to ensure the removal of the upper end of the extracted pipes from the "cavity" of the well and insertion into the pipe; or in the form of an annular milling cutter for drilling stuck pipes; or for ring milling of the outer, for example, deformed part of the gripping pipe to the size of the gripping element 3 in the form of a mill, which inside is made conical with corresponding teeth on the working surfaces, which can be reinforced with hard alloy; or to increase the circulation of the washing liquid, beveled in the form of a “feather” and a conical bevel on the inner surface; or with a thread for attaching, for example, another external releasing tube including a spiral tape gripping element, to provide a grip of the sleeve when the short portion of the pipe remaining in the well is small to grip it close to the sleeve; or other form. To center the tube in the borehole, when the inner diameter of the borehole is much larger than the diameter of the extracted pipes, the outer diameter of the lower part of the guide funnel 15 can be made according to the diameter of the borehole with an appropriate clearance for the tube to pass through the borehole. In connection of the guide funnel 15 with the supporting body 1, an o-ring is installed to create a seal.

The passage channel of the cylindrical heel 8 of the hollow rod 5 can be made either in the form of a smooth barrel 16, the inner diameter of which is made along the outer diameter of the dangling pipe with a corresponding gap for the free passage of the dangling pipe inside the tube (Fig. 1); or in the passage channel of the cylindrical heel 8 of the hollow rod 5, a landing ring 17 can be fixedly installed, having a passage hole on which the circular reed valve 18 is mounted 17 in its initial position with the possibility of trapping downhole sludge. At the same time, to increase the reliability of the operation of the tube by providing the possibility of capturing the bottomhole sludge, it is possible (can be performed) another embodiment of the external discharge tube (see figure 4-5).

To enable capture of bottomhole sludge in the passage channel of the cylindrical heel 8 of the hollow rod 5, for example, an annular seat is made concentrically to its axis, in which the seat ring 17 with the passage hole is fixedly mounted. Moreover, on the upper end surface of the landing ring 17 is installed in the initial position, a circular reed valve 18 with the ability to capture downhole sludge. A circular reed valve is located on the upper end surface of the seat ring with the possibility of blocking its passage opening and deflecting upward from its original position to the extreme vertical position. In the upper part of the landing ring 17 above its base, a semi-cylindrical surface curved (convex) is made in a horizontal plane. The lower surface of the circular reed valve 18 is made reciprocal upper end surface of the seat ring 17 in a shape that repeats its semi-cylindrical surface, curved upward convexity. The upper surface of the circular reed valve 18 is made in a form similar to its lower semi-cylindrical surface, curved upwards. The diameter of the bore of the landing ring 17 is made according to the diameter of the dangling tube with the provision of an appropriate clearance for the passage of the dangling pipe inside the tube. The radius of the lower surface of the circular reed valve 18 is made along the outer radius of the dangling pipe with a corresponding gap for the passage of the dangling pipe inside the lower semicylindrical surface of the circular reed valve 18.

The seat ring 17 is fixedly mounted in the passage channel of the cylindrical heel 8 of the hollow rod 5, for example, by means of an annular nut and a spacer ring located on the upper half-cylindrical surface of the seat ring 17. A circular reed valve 18 is mounted on the upper end surface of the seat ring 17 with the possibility of upward deflection with turning to the side from the initial operating position to the extreme vertical position. A circular reed valve 18 is connected to the seat ring 17 via a swivel joint. The swivel connection of the circular reed valve 18 with the seating ring 17 comprises a fixed support fixedly or rigidly connected to the landing ring 17, on the edge of its passage hole, a pivot bracket fixedly or rigidly connected to the circular reed valve 18, and a cylindrical pin passed through the holes of the rotary staples and fixed support. The cylindrical pin is mounted in a horizontal plane in a fixed support with the possibility of limited longitudinal movement in the holes made in the form of longitudinal grooves and landing in the working position of the lower curved upward half-cylindrical surface of the circular reed valve 18 on the upper curved upward half-cylindrical surface of the seat ring 17 with their uniform fit contact surfaces. The circular reed valve 18 is spring-loaded in its initial position by means of a spring, for example a torsion, which serves to facilitate closing of the internal passage channel of the tube with a circular reed valve 18. A torsion spring is installed, for example, in an articulation of the seat ring 17 with the circular reed valve 18.

To capture foreign objects located on the upper end of the protruding annular element on the pipe body of the pipes to be removed, a receiving chamber 19 is made in the passage channel of the lower and middle parts of the hollow rod 5.

To ensure the alignment of the axes of the tube and the extracted pipe string in the annular saddle of the supporting body 1, either a guide ring 12 or a guide annular protrusion made in the upper part above the thread of the guide funnel 15 can be fixedly fixed to allow the capture of pipes of small diameters. At the same time, to increase the reliability of the tube by ensuring the capture of pipes of small diameters, another embodiment of the external releasing tube is possible (see Fig.6). To enable the capture of pipes of small diameters in the upper part above the thread of the guide funnel 15, a guide ring protrusion is made (the guide ring is made in the form of a guide ring protrusion in the upper part above the thread of the guide funnel 15). On the outer surface of the annular protrusion above the thread of the guide funnel 15, an annular landing neck 20. An annular landing neck 20 of the annular protrusion of the guide funnel 15 is fixedly mounted in the annular saddle of the bearing housing 1 on the inner surface of the drive flag 11 with the possibility of capturing pipes of small diameter, axial and radial movement leader flag 11 (see Fig.6).

In the supporting housing 1 can be installed with the possibility of axial movement or a spiral tape gripping element 3, which serves to enable the capture of the extracted pipes on the outer surface of the protruding annular element on the pipe body; or sleeve gripping element 3 to enable capture of the retrievable pipes by the pipe body. At the same time, in order to increase the reliability of the tube operation by providing the possibility of capturing the extracted pipes by the pipe body and increasing the reliability of torque transmission from the tube to the extracted pipe, another embodiment of the external releasing tube is possible (see Fig. 7).

To increase the reliability of the tube by eliminating the rotation of the pipe relative to the gripping element, the gripping element is made in the form of a sleeve gripping element 3. The sleeve gripping element 3 is mounted in the bearing housing 1 with the possibility of axial movement. On the outer surface of the sleeve gripping element 3, a spiral conical surface is formed that is reciprocal to the spiral conical surface 4 of the bearing body 1. To ensure the release of the tube, a screw fishing thread, for example, left-hand, is made for the right column of the fishing tool on the inner surface of the sleeve gripping element 3. Screw fishing cutting on the inner surface of the sleeve gripping element 3 is made, for example, with a persistent triangular profile, which serves to increase adhesion to the outer surface of the emergency pipe. In the bearing housing 1 below the sleeve gripping element 3 is fixedly mounted guide ring 12 with a lead protrusion. The lead protrusion of the guide ring 12 is included in the corresponding longitudinal groove on the spiral conical surface 4 in the lower part of the bearing housing 1 and is placed in the corresponding groove, which is made in the lower part of the sleeve gripping element 3 with the possibility of axial movement. The sleeve gripping element 3 is made with one through, for example, longitudinal section and incomplete longitudinal sections, made, for example, above its lower guide part, which serve to reduce the stiffness of the sleeve gripping element 3 and increase its adhesion to the outer surface of the pipe during rotation of the tube, for example, for unscrewing the extracted pipes (see Fig.7). In the guide ring 12 with a lead protrusion, a seal, for example, a lip seal, is installed between the outer surface of the emergency pipe and the inner surface of the tubing to allow tightness, which allows you to restore the back circulation of the washing fluid, to perform intensive backwashing, to install oil and acid baths.

The lower end of the guide ring 12 for combining the axes of the tubing and the extracted pipe string can be performed either with an annular conical chamfer on the inner surface or for ring milling, for example, a deformed pipe for the size of the sleeve gripping element 3 in the form of a milling cutter with internal cutting teeth, which can be reinforced with hard alloy, or other shape. To create tightness in the connection of the guide ring 12 with the bearing housing 1 between the guide ring 12 and the guide funnel 15 is installed a sealing ring.

To increase the reliability of the tube by providing the possibility of gripping pipes near the protruding ring element on the pipe body, another embodiment of the external releasing tube is possible (see Fig. 8).

To ensure the possibility of gripping the pipes near the protruding ring element on the pipe body, the guide ring 12 with the drive protrusion is fixedly mounted in the carrier body 1 above the sleeve gripping element 3. The drive protrusion of the guide ring 12 is placed in the corresponding longitudinal grooves made on the spiral conical surface 4 in the upper part the bearing housing 1 and in the upper part of the sleeve gripping element 3 with the possibility of its axial movement. A spacer sleeve is fixedly mounted on the upper end of the guide ring 12 so that the lower end of the hollow rod 5 can interact with the upper end of the protruding ring element on the pipe body, for example, the coupling, in the working position of the sleeve gripping element 3 on the outer surface of the coupling.

To ensure the release of the tube on the inner surface of the sleeve gripping element 3 made screw fishing thread, for example left, for the right column of the fishing tool. Screw fishing cutting on the inner surface of the sleeve gripping element 3 is made, for example, with a persistent triangular profile, which serves to increase adhesion to the outer surface of the emergency pipe. The sleeve gripping element 3 is made with one through, for example, longitudinal section and incomplete longitudinal sections, which serve to reduce the stiffness of the sleeve gripping element 3 and increase its adhesion to the outer surface of the pipe during its rotation, for example, to unscrew the pipes to be removed. To increase the adhesion of the sleeve gripping element 3 with the outer surface of the pipe during rotation of the tube, incomplete longitudinal cuts are made over the entire length of the working surface of the sleeve gripping element 3, for example, under its leading part. On the inner surface of the lower end of the bearing body 1 under the spiral conical surface 4, an annular conical bevel is axially movable with a sleeve gripping element 3, with the possibility of gripping pipes near the protruding ring element on the pipe body (see Fig. 8).

To improve the reliability of the tube by providing the possibility of combining the axes of the tube and the extracted pipe string, another embodiment of the external releasing tube is possible (see Fig. 9).

On the inner surface under the spiral conical surface 4 of the bearing housing 1, an annular protrusion and a guiding annular conical chamfer on the inner surface of the lower end of the bearing housing 1 are arranged for axial movement of the sleeve gripping element 3, which serve to increase the efficiency of combining the axes of the tube and the extracted pipe string (see Fig.9).

The lower end of the bearing housing 1 to ensure the alignment of the axes of the tubing and the extracted pipe string can be made either with a guide ring conical bevel on the inner surface to ensure the capture of pipes near the protruding ring element on the pipe body; or to ensure the removal of the upper end of the extracted pipes from the borehole wall and to enter the inside of the tube and to ensure that the body grabs a short part of the dangling pipe near the upset part, or the castle part, or other projections of the pipe with a wide U-shaped longitudinal cut and with a conical chamfer on the inside surface; or with a notch along a helix forming a ledge, and with a tapered chamfer on the inner surface; or to increase the circulation of the washing liquid, beveled in the form of a “feather” and a conical bevel on the inner surface; or with a thread for attaching, for example, another external releasing tube, including a spiral tape gripping element 3, to ensure the coupling of the coupling, when the remaining short part of the pipe in the well is small to carry out its capture near the coupling; or other form.

The screw ledge on the spiral conical surface 4 in the bearing housing 1 and the thrust screw portion of the spiral tape gripping element 3 interacting with the screw ledge of the bearing housing 1 in the highest position can be made in section by a longitudinal plane or rectangular shape to limit the axial upward movement of the gripping element 3 or wedge-shaped to increase the centering efficiency of the tube on the capture pipe when capturing the extracted pipes and releasing the tube. At the same time, to improve the reliability of the tube by increasing the centering efficiency of the tube on the capture pipe when capturing the pipes to be removed and the tube is released, another embodiment of the external tube can be released (see Fig. 10). To center the tube on the capture pipe by improving the alignment of their axes when capturing the pipes to be removed and the tube is released on the thrust screw shoulder of the screw ledge in the bearing housing 1, a conical helical surface is made expanding upward inward of the screw ledge from the protruding screw corner on the inner surface of the bearing housing 1. On the thrust screw shoulder of the thrust screw part of the gripping element 3, in contact in the extreme upper position with a screw ledge carrier body 1 is formed reciprocal helical conical surface tapering downwardly from the protruding helical angle on the outer surface of the gripping member 3. In this case, the screw spiral ledge on the conical surface 4 of the carrying body 1 is a longitudinal sectional wedge shape expanding from one side of its axis. The persistent helical part of the gripping element 3 is made in a longitudinal section of a wedge-shaped shape, expanding one-sidedly to its axis (see Fig. 10).

To eliminate the accident, the tube is lowered into the well on a fishing tool string having a tubing or process pipe string at the bottom.

Prepared for operation, the tubing is attached to the lower pipe of the tubing and lowered into the well. When lowering the fishing tool into the well, the movable valve 9 of the tube ensures filling the internal cavity of the tubing string with air at atmospheric pressure. The required length of the tubing string of the corresponding diameter is determined by the planned volume of cleaning of the “head” of the emergency pipes with the liquid in the annular annular space under the pressure of the hydrostatic column of liquid in the well. An adapter is attached to the fishing tool string at the upper end of the upper pipe string of the tubing string with an upper valve mounted for axial movement upward, for example, in the annular seat of the passage channel of the adapter having a bypass hole in the wall located above the upper valve. The bypass hole located in the adapter above the upper cylindrical valve provides filling of the inner cavity of the pipes of the upper part of the fishing tool column when lowering the tube into the well with liquid from the annular annular space of the well. The upper valve of the adapter hermetically divides the internal cavity of the column of the fishing tool into an area filled with liquid above the valve and into an area filled with air under the valve. With a close approach to the "head" of the emergency pipes, they slowly begin to lower the receiver. The movable valve 9 of the tube hermetically divides the internal cavity of the tube, which is under the action of the pressure of the annular hydrostatic column of liquid in the well, corresponding to the depth of descent of the tube into the well, and the closed air chamber of the tubing filled with air at atmospheric pressure.

If the tube is stuck on the bottom hole, which densely fills the inner cavity of the tube on the head of the emergency pipes under the influence of the weight of the fishing tool, then the leading body 6 together with the sub 2 moves downward with respect to the bearing body 1 until the lower end of the movable valve 9 rests on the upper end of the cylindrical heel 8. With appropriate unloading of the fishing tool, a cylindrical heel 8 of the hollow rod 5 moves the movable valve 9 upward with respect to the annular seat in the sub 2 of the tube. In this case, the pins 10 of the movable valve 9 are cut off by the outer surface of the movable valve 9 relative to the inner surface of the annular seat in the passage channel of the sub 2 of the tube. The movable valve 9, which creates a pressure differential between the pressure of the annular hydrostatic column of liquid in the inner cavity of the tube, closed from above, and the atmospheric pressure of the air in the closed air chamber of the tubing, rises upward, opening the inner passage channel of the tube.

A column of liquid located in the annular annular space of the well rushes through the axial bore of the tubing into the air intake chamber of the tubing with atmospheric pressure, trapping downhole mud and other elements in its path by the movement of the fluid flow. In this case, the circular reed valve 18 by the movement of the fluid flow directed upward fully opens the bore of the landing ring 17, occupying a vertical position in the passage channel of the cylindrical heel 8 of the hollow rod 5. Under pressure of the annular hydrostatic column of liquid in the well, the liquid column in the annular annular space of the well , sweeping, picking up and catching everything in its path, cleans the head of emergency pipes by moving the fluid flow through the axial passage channel of the pipe. The movement of the fluid flow through the passage channel of the tubing raises the bottomhole sludge and other elements together with the fluid into the air chamber of the tubing. The corresponding rarefaction created in the air chamber with the atmospheric pressure of the fishing tool column above the seat of the movable valve 9 of the tube, picking up and dragging everything that is in the way of the fluid flow through the passage channel of the tube, also cleans the "head" of the emergency pipes from the bottomhole sludge and others in the borehole elements.

The movement of the fluid flow through the passage channel of the tube under the influence of the pressure of the annular hydrostatic column of liquid in the borehole also cleans the bottom cavity of the tube, annular annulus between the inside surface of the borehole and the outside surface of the tube, below the tube and below the head of the emergency pipes. The movement of the fluid flow through the tube under the influence of the pressure of the annular hydrostatic column of liquid in the well when the "head" of the emergency pipes passes inside the tube prevents clogging of the inner cavity of the tube with bottomhole sludge and other elements located in the well. As a result, the “head” of the emergency pipes is completely cleaned from bottomhole sludge, sand, clay particles, silt, small and foreign objects, solid sludge after washing the well with lift pipes, as well as from saline build-up, tarry and other well deposits deposited from the well wall the outer surface of the column of the fishing tool when lowering the tube into the well.

This ensures reliable passage of the tube in the wellbore until full interaction along the entire length of the inner surface of the spiral tape gripping element 3 with the outer surface of the emergency coupling. In this case, the tube freely enters the emergency "head". The guiding funnel combines the axis of the pipe with the axis of the emergency pipe string. The “head” of the emergency pipes goes inside the pipe. If the "head" of the emergency pipes at the upper end is represented by a dangling part of the pipe, then when the tube moves downward, the guiding funnel 15, the guiding ring 12 and the driving flag 11 guide the upper end of the dangling pipe into the tube. Depending on its length, the dangling part of the pipe extends either inside the passage channel of the hollow rod 5, or inside the passage channel of the sub 2, or above the pipe inside the tubing located in the fishing tool string, while the pipe moves down. Under the influence of the weight of the fishing tool with its corresponding unloading, the lower end surface of the lead housing 1 abuts against the upper end surface of the bearing housing 1. The emergency clutch freely enters the tube. Under the influence of the weight of the fishing tool, a spiral tape gripping element 3, the inner diameter of which is less than the outer diameter of the emergency coupling, when in contact with it is elastically deformed, is expanded in the radial direction and pushed onto the coupling. Under the action of elastic forces, the spiral tape gripping element 3 is pressed against the outer surface of the coupling and rises up to the stop of its upper helical end in the screw ledge of the bearing housing 1. The interaction of the screw conical surfaces of the screw ledge in the bearing housing 1 and the thrust screw part of the gripping element 3 converts the axial force in radial force, which, combining the axes of the emergency coupling and the tube, centers it on the outer surface of the coupling, increasing the stability and reliability of the contact th element 3 to the outer surface of the coupling. In this case, the lower end surface of the hollow rod 5 moves down to the working position until the ring stop 7 of the bearing housing 1 stops in the upper end surface of the coupling, and the spiral tape gripping element 3 occupies the working position, completely located on the outer surface of the emergency coupling. The upper end of the dangling pipe occupies a position above the lower end surface of the hollow rod 5 either in the passage channel of the tubing or in the passage channel of the tubing of the fishing tool string.

When the “head” of the emergency pipes at their upper end is represented by a sleeve without a dangling part of the pipe, the reed valve of the tube blocks the passage channel of the fishing tool string, preventing the bottomhole sludge from entering the working cavity of the tube. By means of a spring, under the influence of its weight and the weight of the bottom slurry, the circular reed valve 18 closes the passage opening of the seat ring 17 of the cylindrical heel 8 of the hollow rod 5, as a result, blocking the passage channel of the tube. The reed valve, completely blocking the passage channel of the tube above the emergency pipe coupling, keeps the bottom hole from falling out of the fishing tool string, after equalizing the pressure in the annular annular space of the well and in the air chamber of the tubing string located above the pipe. The circular reed valve 18 provides for the capture and retention of bottomhole sludge and other elements from falling out of the upper part of the tube and getting into the exciting part of the supporting body 1 with a spiral tape gripping element 3 during the capture of emergency pipes, the "head" of which is represented by a sleeve. Subsequent tension of the fishing column, the bearing housing 1 moves upward, jamming the spiral tape gripping element 3 under the action of friction between the outer surface of the coupling and the spiral conical surface 4 of the bearing housing 1. As a result, the bottomhole cuttings, other elements located in the well and the emergency pipe string are reliably captured Whose "head" is represented by a clutch. As a result of further lifting of the fishing tool string, the circular reed valve 18, blocking the passage channel of the tubing, eliminates the sticking of the emergency pipes, ensuring the extraction of bottomhole cuttings and other elements from the well while removing the emergency pipes from the well, the “head” of which is represented by a sleeve.

If necessary, to free the tube from the stuck pipes, the fishing tool is first unloaded, i.e. create an axial force of sufficient weight to wedge the bearing housing 1 and the spiral tape gripping element 3, providing a guaranteed gap between their spiral conical surfaces 4. The bearing housing 1 is moved down to the stop of its helical conical surface of the inner screw ledge in the helical conical surface thrust screw part of the gripping element 3. The interaction of the helical conical surfaces of the screw ledge of the bearing housing 1 and the thrust screw part of the grip of the connecting element 3 converts the axial force into a radial force, which, combining the axes of the emergency coupling and the tubing, centers it on the outer surface of the coupling, increasing the stability and reliability of the contact of the gripping element 3 with the outer surface of the coupling.

The spiral tape gripping element 3, the inner surface of which is pressed by elastic forces to the outer surface of the pipe, occupies the extreme upper position in the bearing housing 1. Then, the full weight of the fishing column is removed (removed) from the upper end surface of the bearing housing 1 by tensioning the fishing tool and lift it together with the leading body 6 and the sub 2 of the tube to the height of the working stroke of the hollow rod 5. The leading body 6 thus rises up to the stop of its inner annular sedimentary protrusion in the annular ledge at the lower end of the cylindrical heel 8 of the hollow rod 5. Then slowly rotate (rotate) the tool to the right. The leading body 6 and the hollow rod 5 transmit torque from the sub 2 of the tube to the supporting body 1. The lower end of the spiral band gripping element 3 and the side surface of the upper part of the drive flag 11 abut against the longitudinal side surface of the drive finger 13 of the guide ring 12 installed in the longitudinal groove spiral conical surface 4 of the bearing housing 1.

The circumferential force acting on the lateral longitudinal surface of the pivoting flag 11 and the longitudinal end face of the lower end of the spiral tape gripping element 3 starts to unscrew the spiral tape gripping element 3 by the screw catching thread on the outer surface of the coupling. The axially movable connection of the hollow rod 5 with the driving housing 6 informs the spiral tape gripping element 3 together with the supporting body 1 and the hollow rod 5 of a synchronous translational upward movement corresponding to the step of the spiral belt gripping element 3, increasing its stability and reliability of contact with the outer surface of the coupling . In this case, the bearing housing 1 moves upward relative to the sub 2 and the driving housing 6, providing unhindered synchronous screw movement upward of the picking element 3 along the outer surface of the coupling due to the continuous uniform contact of the screw fishing cuts on the inner surface of the picking element 3 along its entire length with the outer surface of the coupling . The cylindrical heel 8 of the hollow rod 5, moving upward in the lead housing 1, constantly provides a guaranteed radial clearance between the spiral conical surfaces 4 of the bearing housing 1 and the spiral tape gripping element 3. The constant presence of the radial clearance between the spiral conical surfaces 4 of the bearing housing 1 and the spiral tape gripping element 3 prevents distortion, deformation, bending, destruction of the driving finger 13 of the guide ring 12 and the spiral tape capturing lementa 3, and scrolling it on one place. Spiral tape gripping element 3, not being able to rotate relative to the bearing housing 1, rotating with a tube, is reliably unscrewed on the outer surface of the undeformed coupling. Continuing to slowly rotate the fishing tool, reliably free the tube from the emergency column by “screwing up” without lifting the tool at the same time.

If it is necessary to free the tube from the extracted pipes near the wellhead, when the weight of the fishing tool string at static load or at dynamic load is much less than the axial force required for the spiral conical surface 4 of the bearing housing 1 to come out of contact with the spiral conical surface 4 the gripping element 3, then you should remove the full weight of the fishing column from the upper end surface of the bearing housing 1 by tensioning the fishing tool and raise it together those with the leading body 6 and the sub 2 of the tube to an incomplete height, for example, to a height of 2/3 of the working part of the hollow rod 5. The leading body 1 thus rises, and the cylindrical heel 8 of the hollow rod 5 occupies the corresponding position in the leading case 1, informing the bearing housing 1 with the ability to freely move either up or down with respect to the sub 2 of the tube. Then apply torque to the right. The axial force created by the torque through the left spiral conical surface 4 of the bearing housing 1 will allow the spiral conical surface 3 of the bearing housing 1 to be withdrawn from the spiral conical surface 4 of the spiral tape gripping element 3. As a result, the bearing housing 1 moves down to the stop of its inner screw ledge into the upper end surface of the spiral tape gripping element 3, providing a guaranteed gap between the spiral conical surfaces 4 carried present spiral body 1 and the rod catching member 3. Spiral belt gripping member 3 without being able to rotate relative to the supporting frame 1, rotating with the spear begins unscrewed along the outer surface of the box by a fishing helical cuts. Continuing to rotate the tube, reliably free it from the emergency column by “screwing up” without simultaneously lifting the tool.

The use of the proposed tube reduces the time spent on the elimination of accidents by increasing the reliability of the tube, due to the increased reliability of capture of the extracted pipes by increasing the throughput of the pipe in the well, the efficiency of cleaning the internal cavity of the pipe, extracted pipes from the bottom hole, providing the opportunity to capture the bottom hole, increasing the reliability of the release of the tube and at the same time simplifying the work with it during the work cycle.

Claims (3)

1. An external releasing tube containing a sub with an internal passage channel, a bearing body with an internal spiral conical surface and with a screw ledge, mounted in a bearing body with the possibility of axial movement of a spiral tape gripping element with a thrust screw part and with a hook flag in its lower part, a spiral conical surface is made on the outer surface of the spiral tape gripping element, and on the inner surface there is a screw fishing thread, a longitudinal groove on spiral conical surface in the lower part of the housing, an annular seat under the spiral conical surface in the bearing housing and a guiding funnel, characterized in that a hollow rod and a driving housing are installed between the bearing housing and the sub with limited axial movement of the bearing housing with respect to the leading housing, lower part of the hollow rod is fixedly mounted in the upper part of the bearing body with the possibility of landing the lower end of the hollow rod on the upper end of the protruding cylindrical joint an integral element on the body of the removed pipes, for example the coupling, in the working position of the spiral tape gripping element on the outer surface of the coupling, a cylindrical heel is made in the upper part of the hollow rod, the lower and middle parts of the hollow rod are passed through an axial bore made in the lower part of the drive housing, connected with the middle part of the hollow rod by an axially movable joint, in which the outer surface of the middle part of the hollow rod and the mating inner surface contacting therein are axially the holes in the lower part of the lead housing are made in cross section, for example, in an octagonal shape, the lower part of the sub is fixedly mounted in the upper part of the lead housing, a movable valve is installed in the passage channel of the sub in the initial position with the possibility of axial movement up and landing in the working position on the upper the end face of the cylindrical heel of the hollow thrust, an annular ledge is made on the lower end of the outer surface of the cylindrical heel of the hollow thrust, and on the inner surface in the lower part of the leading of the pus, a reciprocal annular protrusion is made, on the annular protrusion inside the drive housing in the initial extreme lower position, a cylindrical hollow thrust heel is installed with the possibility of axial upward movement and interaction in the working position of the upper end of the cylindrical heel of the hollow thrust with the lower end of the movable valve fixed in the initial position, this between the outer surface of the cylindrical heel and the inner surface of the leading body in contact with it, between the outer surface of the movable valve and the inner surface of the saddle in contact with it at the bottom of the sub has sealing elements. 2. The tube according to claim 1, characterized in that to increase the reliability of the tube by allowing capture and extraction of bottomhole cuttings and other elements from the well, in the passage channel of the cylindrical heel of the hollow rod fixedly mounted ring having a passage hole on the upper end the surface of the landing ring is installed in the initial position, a circular reed valve with the ability to capture downhole sludge, a circular reed valve is located on the upper end surface of the landing ring knuckles with the possibility of overlapping its passage opening and tilting upward from the initial position to the vertical position. 3. The tube according to claim 1 or 2, characterized in that to increase the reliability of operation by providing the possibility of gripping pipes of small diameters, a guide ring protrusion is made in the upper part above the thread of the funnel guide, an annular landing is made on the outer surface of the annular protrusion above the thread of the funnel guide. a neck, which is stationary in the annular saddle of the bearing housing on the inner surface of the driver flag with the ability to capture pipes of small diameters, axial and radial movement of the lead marketing flag.

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