RU2579064C1 - Hydromechanical method for disengagement of equipment during downhole operations with simultaneous disengagement of electric or hydraulic lines - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to an emergency tool used in drilling and operation of wells. Hydromechanical method for disconnection of equipment with simultaneous disconnection of electrical or hydraulic lines includes a downhole disconnector, which consists of upper and lower parts hermetically inserted into each other and fixed with locking elements. Upper part is assembled, and a hollow rod connected to pipe string is fixed in said upper part by locking elements fixed with possibility of movement. Locking elements are in form of shear elements or elastic annular elements disposed in a groove. Top and bottom of a borehole disconnector operate through openings for circulation of fluid in transport position covered with upper part. Sealing openings of hollow rod and providing a sealing elements. Upper part of downhole disconnector is equipped with a seat for landing of a ball thrown from wellhead. Disconnection of electric or hydraulic or electric and hydraulic lines is performed during approach of upper, equipped with a seat for landing of a ball thrown from wellhead, part towards lower part of downhole disconnector with using a blade located on one part of downhole disconnector, by cutting electric or hydraulic or electric and hydraulic line on projection of other part during hydromechanical separation of upper and lower parts. After landing ball in seat of upper part of downhole disconnector, pressure is generated in tubing string, sufficient for cutting shear elements. In upper and lower parts of downhole disconnector there is a groove for laying electric or hydraulic line, or electric or hydraulic line is fixed by clamps on upper and lower parts of downhole disconnector. Downhole disconnector slot ends with a projection of disconnection of electric or hydraulic or electric and hydraulic line with preservation of their attachment to upper and lower parts of disconnected equipment. Blade is fixed on upper part of downhole disconnector or ledge is located on upper part of downhole disconnector, and blade is fixed on lower part.

EFFECT: technical result is prevention of emergency dangerous complications with formation of mud ball when lifting equipment, higher reliability.

1 cl, 1 dwg

Description

The invention relates to an emergency tool used in the field of drilling and operating wells for various purposes in the oil and gas industry, in particular to hydromechanical disconnecting devices designed to disconnect the free part of the pipe string from the one stuck in the well, and can be used for downhole operations cases when it becomes necessary to disconnect one part of the equipment from another and to disconnect the electric or hydraulic or electric and hydraulic lines while maintaining their attachment to the equipment. Known isolation adapter (analog) (1), patent RU 2271431, IPC 8 E21B 17/06, publ. in bull. 7 dated 10.03.2006, including a composite housing consisting of upper and lower parts, between which there is a sealing assembly located above the torque transmission assembly, connecting the housing parts to each other and made in the form of a splined connection, and a saddle for the throttle valve, moreover, the device is equipped with an axial load transmission unit in the form of a collet with protrusions on the outer surface of the spring petals, while the continuous end of the collet is connected to the upper part of the housing, and the protrusions of the collet are placed in an annular bore, made th on the inner surface of the lower part of the housing, and fixed in working position by a saddle under the throttle valve, fixed, in turn, by a compression spring mounted on a retaining ring rigidly connected to the lower part of the housing, and the split part of the collet is made with an inner conical surface, and seat under the throttle valve - with a mating outer surface. The disadvantages of this device are: - firstly, the complexity of the design of the device associated with a large number of nodes and parts (slots, collets); - secondly, the low reliability of the device, since it is possible unauthorized operation of the device due to compression of the spring during sharp tripping operations. In addition, a leaky fit of the waste valve on the seat is possible, which can become clogged with sludge, dirt, paraffin and others, especially for wells with a long service life, which ultimately leads to the failure of the device in operation.

Known downhole disconnector (analog) (2), patent RU 2439281 C1 IPC E21B 17/06 from 16/16/2010. The device includes upper and lower parts, hermetically inserted into each other and fixed by a torque transmission unit in the form of a spline connection and an axial load transmission unit having an inner conical surface, connected to the upper part and placed in the transport position in the annular groove of the lower part, a saddle with the place of landing of the ball and the outer conical surface under the conical surface of the axial load transmission unit. The saddle is fixed in the transport position and is made with the possibility of limited movement down. In the upper part there are made radial holes for the axial load transmission unit, which is made in the form of separate dies, the inner conical surface of which is made with the possibility of movement limited by the upper stop of the saddle along the outer conical surface of the saddle inserted into the upper part. An annular expansion is made inside the upper part below the radial holes. The saddle above the ball seat is equipped with radial channels configured to communicate with the annular expansion of the upper part after moving the saddle down, and inside with an annular protrusion under the compression spring, which compresses the ball to the seat in the saddle.

The disadvantages of this device are the impossibility of conducting downhole operations, when disconnecting equipment while disconnecting electrical or hydraulic lines while maintaining their attachment to the equipment. Known downhole switch (analog) (3), patent RU 2444607 C1 IPC E21B 17/06, filing date 03.09.2010. The invention relates to the oil and gas industry and can be used when conducting downhole operations, if necessary, the separation of one part of the equipment from another. The device includes upper and lower disconnectable parts connected by a lock to a gripping collet unlocked by a movable sleeve when moving under excessive pressure. The upper end of the lower part is provided with an annular groove under the collet. Its lower end has a connecting thread. The movable sleeve is hermetically placed inside the sub, fixed in its original position by a shear screw and equipped with a seat for seating the ball discharged from the wellhead. In the initial position, the tabs of the collet are internally pressed against the groove of the lower part of the disconnector by a cylindrical selection on the surface of the sub. The lock is made in the form of a ball retainer inserted into the through holes in the sub. In the initial position, the ball retainers are externally pressed by the inner annular groove of the collet, and from the inside by a movable sleeve, which has the ability in the working position of limited axial movement down with the subsequent drop out of the ball retainers in the cylindrical groove on the outer surface of the sleeve and axial downward movement of the sub relative to the collet with the possibility of output of the collet protrusions from interaction with the outer cylindrical sub sample and from the annular groove of the lower part of the disconnector. The movable sleeve above the ball seat is equipped with radial channels.

The disadvantages of this device are the impossibility of conducting downhole operations, when disconnecting equipment while disconnecting electrical or hydraulic lines while maintaining their attachment to the equipment. Known the disconnecting device of the pipe string in the well (prototype) (4), patent RU 2437999 C1 IPC E21B 17/06, filing date 06/30/2010. The invention relates to the oil and gas industry, in particular to an emergency tool used in the field of drilling and operation of wells for various purposes. The device comprises telescopically connected coupling and housing, latches located respectively in the coupling windows and housing grooves, a movable hollow piston installed inside the coupling, fixed in the initial position from axial movement by the locking element, o-rings between the coupling and the piston, and a throw ball. The coupling has through holes for fluid circulation, blocked in the transport position by a piston or piston and a housing. O-rings are installed between the upper end of the piston and the holes for fluid circulation. The piston has a protrusion for fixing the latches in the coupling windows and a groove located above the protrusion to release the latches from engagement with the housing when the upper end of the piston moves to the o-rings. The disadvantages of this device are the impossibility of conducting downhole operations, when disconnecting equipment while disconnecting electrical or hydraulic lines while maintaining their attachment to the equipment. The objective of the invention is the hydromechanical separation of equipment during downhole operations with the possibility of simultaneous separation of electrical or hydraulic or electric and hydraulic lines while maintaining their attachment to the upper and lower parts of the disconnected equipment and preventing accidental complications in the formation of an oil seal from freely hanging electrical and hydraulic lines when lifting equipment, as well as increased reliability due to guaranteed triggered I device.

The essence of the method is the hydromechanical separation of electric or hydraulic or electric and hydraulic lines when pushing the upper, equipped with a saddle to seat the ball, discharged from the wellhead, part to the lower part of the borehole disconnector using a knife located on one of the parts of the borehole disconnector, by performing an electrical cut or a hydraulic line on the protrusion of another part.

The problem is solved by a borehole disconnector, including the upper and lower parts, hermetically inserted into each other and fixed by locking elements. Moreover, the upper part of the team, in it with the help of locking elements, a hollow rod connected to the pipe string is fixed with the possibility of movement. In this case, the locking elements are in the form of shear elements or elastic ring elements located in the groove. In the upper and lower parts of the borehole disconnector, through holes for fluid circulation are made, which are blocked in the transport position by the upper part, and the sealing of the holes and the hollow stem is provided by sealing elements. The upper part of the borehole disconnector is equipped with a saddle for landing a ball discharged from the wellhead. Separation of electric or hydraulic or electric and hydraulic lines is carried out when pushing the upper, equipped with a saddle to seat the ball, discharged from the wellhead, part to the lower part of the borehole disconnector using a knife located on one of the parts of the borehole disconnector, by cutting off the electric or hydraulic or electric and a hydraulic line on the protrusion of the other part.

During hydromechanical separation of the upper and lower parts after landing of the thrown ball in the saddle of the upper part of the borehole disconnector, create pressure in the tubing string sufficient to cut the shear elements. At the same time, a groove is provided in the lower and upper parts of the borehole disconnector for laying the electric or hydraulic line, the electric or hydraulic line is fixed with clamps on the upper and lower parts of the borehole disconnector. Moreover, in the lower part of the borehole disconnector, the groove ends with a protrusion, on which the electrical, hydraulic or electric and hydraulic lines are disconnected while retaining their fastening to the upper and lower parts of the disconnected equipment and the prevention of emergency-hazardous complications when the gland is formed from freely hanging electric and hydraulic lines when lifting equipment, and the knife is fixed on the upper part of the borehole disconnector, or the protrusion is placed on the upper part of the well Nogo isolator, and the knife is fixed on the lower part. The drawing in longitudinal section shows the design of one of the variants of the borehole disconnector, explaining the method of hydromechanical separation of equipment during downhole operations while simultaneously disconnecting the electric or hydraulic line while maintaining their attachment to the equipment.

The downhole disconnector consists of a lower housing 1 with a clamp 6 for an electric or hydraulic line 10 laid in a groove 13, openings for circulating fluid 4 and a protrusion 9, on which the electric or hydraulic line 10 is cut, the upper housing 2 with a groove 12 for laying electric either a hydraulic line 10, with a clamp 6 for an electric or hydraulic line 10, a knife 7, shear elements 3 and a saddle 8 for a throw ball 5, holes for circulating liquid 4, sealing elements 11 and a hollow stem 14 The hydromechanical method of separation of equipment during downhole operations with the simultaneous separation of electric or hydraulic lines is implemented as follows.

When the hydromechanical separation of the equipment, after landing the throw ball 5 in the saddle 8 of the upper part of the borehole disconnector 2, by creating pressure in the tubing string sufficient to cut the shear elements 3, the shear elements 3 are cut off and the electric or hydraulic line 10 is simultaneously disconnected using knife 7, located on one of the parts 1 or 2 of the borehole disconnector, by cutting the electric or hydraulic line 10 on the protrusion 9 of the other part while maintaining bringing them to the upper 2 and lower 1 parts of the disconnected equipment and the prevention of accident-hazardous complications during the formation of an oil seal from freely hanging electric and hydraulic lines when lifting the equipment.

Next, the tension of the column with the hollow rod 14 is the disengagement of the upper 2 and lower 1 parts of the downhole disconnector and the movement of the upper 2 up. The tightness provided by the sealing elements 11 is broken. When tensioning open holes for the circulation of the fluid 4, which allows the discharge of fluid during lifting operations. On the column after separation, all the details of the upper part of the downhole disconnector remain, which are raised to the surface. Further extraction of the emergency equipment is carried out with standard fishing tools for the pipe string. New is the fact that the separation of electric or hydraulic or electric and hydraulic lines is carried out using a knife with hydromechanical separation of the upper and lower parts by creating pressure after landing a throw ball in the saddle of the upper part of the borehole disconnector. At the same time, a groove is provided in the lower and upper parts of the borehole disconnector for laying the electric or hydraulic line, and the electric or hydraulic line is fixed with clamps on the upper and lower parts of the borehole disconnector. Moreover, in the lower part of the borehole disconnector, the groove ends with a protrusion, on which the electrical, hydraulic or electric and hydraulic lines are disconnected while retaining their fastening to the upper and lower parts of the disconnected equipment and the prevention of emergency-hazardous complications when the gland is formed from freely hanging electric and hydraulic lines when lifting equipment, and the knife is fixed on the upper part of the borehole disconnector, or the protrusion is placed on the upper part of the well Nogo isolator, and the knife is fixed on the lower part.

Technological and technical results when using the method are achieved by accelerating the separation of one part of the equipment from the other during downhole operations and the hydromechanical separation of the electric or hydraulic or electric and hydraulic lines while maintaining their attachment to the equipment, which eliminates the twisting of the line around the tubing and the formation of emergency seal.

The economic effect of the use of the invention can be achieved due to the absence of the need for fishing operations of the electric or hydraulic line in the event of sticking of pumping equipment in the well, due to the preservation of their attachment to the equipment and the reduction of the risk of breakage of the tubing due to a reduction in load due to cutting off the electric or electric and hydraulic lines.

Claims (1)

1. The hydromechanical method of separation of equipment during downhole operations with the simultaneous separation of electric or hydraulic lines, characterized in that the borehole disconnector includes upper and lower parts, hermetically inserted into each other and fixed by locking elements, and the upper part of the assembly, using stop the elements are fixed with the possibility of running a hollow rod connected to the pipe string, while the locking elements are in the form of shear elements or in the form of control through the annular elements located in the groove, in the upper and lower parts of the borehole disconnector, through holes for fluid circulation are closed, the upper part overlapping in the transport position, and the holes and the hollow rod are sealed with sealing elements, while the upper part of the borehole disconnector is equipped with a seat for seating the ball discharged from the wellhead, and the separation of electric or hydraulic or electric and hydraulic lines is carried out when moving the upper with a saddle to seat the ball, discharged from the wellhead, of the part to the lower part of the borehole disconnector using a knife located on one of the parts of the borehole disconnector, by cutting an electric or hydraulic or electric and hydraulic line on the protrusion of the other part with hydromechanical separation of the upper and lower parts in this case, after landing the thrown ball in the saddle of the upper part of the borehole disconnector, create pressure in the tubing string sufficient to cut off elements, and in the lower and upper parts of the borehole disconnector, a groove is provided for laying the electric or hydraulic line, the electric or hydraulic line is fixed with clamps on the upper and lower parts of the borehole disconnector, and in the lower part of the borehole disconnector, the groove ends with the protrusion on which the separation is carried out electrical or hydraulic or electrical and hydraulic lines while maintaining their attachment to the upper and lower parts of the disconnected equipment and preventing accidental complications during the formation of an oil seal from freely hanging electrical and hydraulic lines when lifting equipment, and the knife is fixed on the top of the borehole disconnector, or the protrusion is placed on the top of the borehole disconnector, and the knife is fixed on the bottom.

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