RU2267002C1 - Cable adapter sub - Google Patents

Abstract

FIELD: drilling equipment, particularly cable television system used to perform navigational control of directional and horizontal oil and gas well drilling from ground surface and to guide borehole cable rope from inner cavity out of drilling string.

SUBSTANCE: sub comprises threaded connection pipe with thrust end, body with straight and peripheral inclined channels, bush and annular sealing member arranged in straight body channel. Straight body channel is central and provided with cup with inner and outer longitudinal grooves. The bush is installed so that the bush may cooperate with thrust end of threaded connection pipe and has longitudinal extensions arranged in inner longitudinal cup grooves. Annular sealing member comprises extension having orifice and cut for cable introduction into the orifice. The extension is arranged in peripheral inclined channel of the body. Safety means formed as reinforcing member facing straight channel and as elastic member with orifice and cut for cable introduction and arrangement is installed at inclined channel inlet.

EFFECT: increased service life, ease of sub operation and repair.

3 cl, 4 dwg

Description

The invention relates to the field of drilling equipment and is, in particular, part of cable telesystems for navigational control from the surface during the drilling of directional and horizontal oil and gas wells and is used to transfer wireline cable from the internal cavity to the drill pipe string.

Known cable sub, embedded in the swivel, and cable sub, installed directly in the drill pipe string as part of its layout (Kalinin AK and others. Drilling of deviated and horizontal wells. Reference. "Nedra", M., 1997, p .394-395).

The former do not provide reliable access to the launching device to the landing device located in horizontal and in some directionally directed sections of the wells. The second are more convenient for assembly, preparation for operation and in operation, since during maintenance they are located directly above the wellhead.

Known cable sub mounted in the drill pipe string, which serves to seal the cable during transportation of the device suspended from it, launched to the bottom of the well along the drill pipe string with the drilling fluid supplied by the mud pump (Kriksiunas V.P., Startsev A.O. technical equipment SSK-46G. NTZh "Exploration and protection of mineral resources". "Nedra", M., 1991, No. 7, p.6-8).

Such an adapter consists of a nozzle in the form of a discharge chamber, a housing, a sealing device and a side supply nipple for connection to a mud pump manifold. The sealing device includes a package of rubber sealing cuffs, pressed by a spring, and serves to seal the cable when the device is hydraulically dispensed under a pressure of 10-15 kgf / cm ² and feed no more than 2 l / s in shallow (up to 300 m) and small diameter (up to 46 mm) exploration wells drilled from the surface and from underground mining in the deposits of coal and other minerals. The sealing device and the cable are placed in the central channel of the sub housing, and the drilling fluid is supplied through the channel of the lateral supply nipple.

This sub does not provide sealing cable during drilling oil and gas wells with downhole motors with simultaneous circulation of the drilling fluid at a working pressure of up to 50-70 kgf / cm ² . They work with him only when he is on the surface. Such cable subs do not meet the requirements for drilling horizontal and directional oil and gas wells using telesystems for navigation control from the surface of the drilling process.

The closest in technical essence and the achieved result is cable adapter PK1-195.000A produced by the domestic industry (Cable adapter PK1-195.000A. Passport. Drilling equipment pilot plant, Kotovo, 2002).

It consists of a threaded pipe connected to the housing by a threaded cap. Inside the casing there is a rectilinear channel displaced relative to the central axis of the cable sub to accommodate the sealing device and two side bypass channels of small diameter for circulating the drilling fluid. The sealing device consists of a seal made in the form of a package of separate flat sealing rings with a through hole for a wireline and slotted slots (in the form of a thin section of a sharp knife cutting a wall into a wall) for cable entry. Above and below the package are discs consisting of two half-disks.

O-rings are clamped using a split nut and a central bushing with an axial bore and thus seal the wireline cable and the interior walls of the sub housing simultaneously. The cable is fastened with a pair of collets clamped in a conical bore of the central sleeve. O-rings and collets when assembling a cable sub are selected in the field according to the diameter of the bore corresponding to the diameter of the wireline being used at the moment.

The circulation of the drilling fluid is carried out through the side bypass channels located in the threaded pipe and in the housing and interconnected by bushings with rubber o-rings.

Such a cable sub provides the landing of the measuring device in the landing device of the telesystem when this device is at a certain depth in the vertical section of the well. Fastening and sealing of the cable when it is withdrawn from the drill string into the annulus is carried out in a cable sub above the wellhead. The delivery of the measuring device along the inclined and horizontal bore is carried out together with the landing device due to the extension of the drill string above the cable sub and its descent into the well before the bottom.

Such a cable sub is designed for drilling oil and gas wells with downhole motors with cable telesystems with a drilling fluid supply of 25-30 l / s and an operating pressure of 50-70 kgf / cm ² .

A significant drawback of this cable sub is that the main cross-sectional area of the body is occupied by a straight channel with a sealing device, and the holes for drilling mud circulation are made in the form of side bypass channels of small diameter with thin bridges between them due to the limited free cross-sectional area section of the body. Due to technological gaps between the connecting sleeves, the threaded pipe and the housing, as well as the displacement of the axes of the circulation openings, the profile of the bypass channels has sharp (or sudden) expansion, narrowing and rotation of the mud flow, which is accompanied by intense vortexes and cavitation phenomena along the channels and at the outlet logging cable from under the sealing device. All this causes additional losses in the circulation system, intense abrasive wear and cavitational erosion of the wireline cable and walls restricting the flow. The displacement of the rectilinear channel relative to the central axis of the cable sub limits, in addition, the length of devices passed through it into the drill string with sensors of tele-systems. During operation, there are cases of washing the walls of the side bypass channels into the rectilinear channel with a sealing device. Depressurization of the cable sub occurs, which, by the way, is difficult to detect in a timely manner from the surface during drilling. This leads to the flushing of the cable sub, damage to the expensive multi-kilometer logging cable and the need for an extraordinary forced lifting of the entire assembly of the drill string to change or repair the sub or cable.

Great inconvenience is caused by the need to select in the field the sealing rings and collets, because it forces them to be on the rig in sets that differ in the diameter of the bore for the corresponding cable.

When assembling a cable sub with a wireline cable above the wellhead, because of the position of the bushings that are asymmetric with respect to the center of gravity, the bushings connecting the side bypass channels, the threaded pipe and the housing are skewed, which often leads to the cutting of the rubber sealing rings in these bushings and depressurization of the sub even on the surface.

After lifting the cable sub from the well for disassembling and releasing the wireline cable, it is not possible to remove the pack of o-rings, pressed with mud pressure while working in the well. This causes certain difficulties and requires additional work time to release the cable. When repairing a cable sub, it is impossible to remove the bushings with O-rings remaining in the threaded pipe or in the housing after the sub is disconnected.

In addition, there is no protection of the logging cable from damage when it is removed from the cable sub into the annulus. This leads to pinches, abrasion and other damage to the cable.

Such cable sub are short-lived, especially when drilling with large diameter downhole motors (240 mm), requiring increased (up to 50 l / s) supply of drilling mud, are inconvenient in operation, maintenance and repair.

The invention is aimed at solving the problem of increasing durability, ease of use, maintenance and repair of cable sub.

To do this, in a cable sub containing a threaded pipe with a persistent end, a housing with rectilinear and peripheral inclined channels, a sleeve and an annular seal located in the rectilinear channel of the housing, the rectilinear channel of the housing is made central, while a glass with internal and external longitudinal grooves is placed in it , the sleeve is installed with the possibility of interaction with the persistent end of the threaded pipe and is made with longitudinal protrusions located in the internal longitudinal grooves of the glass, the ring seal spruce formed with a projection having a hole and a slot for insertion into the cable hole and disposed in a circumferential inclined channel housing, the outlet of which is mounted a fuse in the form of the reinforcing member facing the rectilinear path, and an elastic member with a hole and a groove for receiving and cable entry.

In addition, the sleeve has a restriction ring mounted by means of retaining bolts on its longitudinal protrusions, and the restriction ring at the inlet of the drilling fluid stream has an inwardly rounded end face with a radius of (0.1-0.2) d, where d is the diameter of the internal passage opening of the restriction ring and the output has a diffuser with a taper angle in the range of 4-10 °.

In addition, the upper end of the sleeve is made with internal thread, the lower end of the threaded pipe is made with two cylindrical protrusions, one of which has a thrust end and is located in the interval of the internal thread of the sleeve, and the other has grooves for sealing rings located on the outer surface.

The cable is led beyond the drill pipe string through a peripheral oblique channel through an opening in the seal protrusion, coaxial with the hole of the fuse elastic element, which ensures its reliable protection against damage.

The internal thread of the sleeve is designed to connect a device that extracts a set of parts during disassembly from the sub housing and releases the cable.

The threaded pipe in its lower part has a thrust end on a cylindrical protrusion, which, when interacting with the sleeve during assembly of the cable sub, deforms the sealant. The internal thread of the sleeve is protected from abrasive drilling fluid by the sealing rings in the grooves of the cylindrical protrusion of the threaded pipe.

The central position of the channel for the circulation of the drilling fluid, its linear execution and the corresponding formation of the flow at the inlet and outlet of the restriction ring ensure the long-term operation of the cable sub with increased (up to 50 l / s) flow of the drilling fluid and pressure up to 100 kgf / cm ² .

When assembling the cable sub, a threaded pipe is screwed into the housing and the seal is deformed. Due to axial deformation, the sealant seals the cable and seals the walls of the central rectilinear and peripheral inclined channels in the sub housing. The sealing rings of the threaded pipe prevent the flow of drilling fluid into the annulus during circulation during drilling. A fuse protects the cable from abrasion and damage to the thread of the pipe and the wall of the peripheral oblique channel in the housing above the seal when the cable is removed from the sub into the annulus. The groove in the elastic element of the fuse provides free entry and placement of the cable in the hole of the elastic element, and the restrictive ring of the sleeve prevents folding into its longitudinal protrusions and the loss of contact of the locking bolts with the glass during the next removal of parts from the housing, including a sealant adhering to the walls of the cable sub housing during axial deformation and under pressure of the drilling fluid in the well.

Rounding into the end face of the restrictive ring with a radius within the specified limits significantly reduces losses due to the reduction or complete elimination of the compressed section of the transit stream of the mud flow inside the ring.

In a diffuser with a taper angle within the specified limits, the transit stream of the drilling fluid does not detach from the walls of the diffuser and the associated vortex zones and cavitation phenomena do not occur, and it reduces losses during the circulation of the drilling fluid. This protects the cable from local damage at its exit from under the glass into the body of the cable sub.

The invention is illustrated by drawings, where in Fig.1 shows a General view of a cable sub in longitudinal section; figure 2 is a top view of the arrow "A" of figure 1; figure 3 - fuse; figure 4 is a top view of the arrow "B" of figure 3.

The cable sub contains a housing 1 with a central rectilinear 2 and a peripheral inclined 3 channels and a threaded pipe 4. The sleeve 5 is placed inside the annular seal 6 and the glass 7 and are all together placed in the central rectilinear channel 2 of the housing 1. The glass 7 has an inner 8 and an outer 9 longitudinal grooves. One of the outer longitudinal grooves 9 is made short to accommodate the finger 10 (conventionally shown in this place), and the second outer longitudinal groove 9, on the opposite side, is solid - to accommodate the cable 11. Cable 11 is mounted from axial displacement in a continuous outer longitudinal groove 9 cups 7 using the clamp 12 and the screw plug 13 with the sealing ring 14. The annular seal 6 has a protrusion 15 with a hole 16 and a slotted slot 17 for the cable 11, located in the peripheral inclined channel 3 of the housing 1. The lower end of the threaded pipe 4 and has two cylindrical projections 18 and 19. Cylindrical protrusion 18 is situated in the range of the internal thread 20 of the sleeve 5 and has an abutment end 21 for interaction with the latter. The sleeve 5 also has longitudinal protrusions 22 located in the internal longitudinal grooves 8 of the cup 7. The cylindrical protrusion 19 has grooves 23 located on the outer surface of the sealing ring 24. The restriction ring 25 is secured to the longitudinal projections 22 of the sleeve 5 by means of retaining bolts 26. The restriction ring 25 at the inlet of the drilling fluid stream has an end face rounded with a radius of (0.1-0.2) d, where d is the diameter of the internal bore of the restriction ring 25, and at the outlet has a diffuser with a taper angle of 4-10 °. In the upper part of the peripheral inclined channel 3 at the outlet of the annulus, a fuse is installed in the form of a reinforcing element 27 facing the central rectilinear channel 2 and an elastic element 28 with an opening 29 and a groove 30 for receiving and inputting the cable 11.

The principle of operation of a cable sub is as follows. After lowering part of the drill string into the well to the required depth, screw the housing 1 of the cable sub into it. Through the central rectilinear channel 2 of the housing 1, the measuring device is lowered into the drill string on the cable 11 until it is planted in the telesystem landing unit (not shown). After that, the cable 11 through the slotted slot 17 is inserted into the hole 16 of the protrusion 15 of the O-ring 6, assembled complete with the sleeve 5, the sleeve 7 and the restrictive ring 25. Then the assembly together with the cable is inserted into the cable sub with the protrusion 15 of the O-ring 6 in the peripheral inclined channel 3 of the housing 1. Using the clamp 12 and the screw plug 13, the cable 11 is fixed in the housing 1 from axial displacement. Next, install the fuse and screw the threaded pipe 4. Due to the working stroke of the thread of the threaded pipe 4, the annular seal 6 with the protrusion 15 deform and seal the cable 11, the outer walls of the sleeve 5 and the inner walls of the central rectilinear 2 and peripheral inclined 3 channels of the housing 1. From abrasion and Damage to the walls of the peripheral inclined channel 3 in the housing 1 and to the threads of the threaded pipe 4; cable 11 is protected by a fuse. After that, the cable sub is ready to build up the drill string and then lower it into the well.

When drilling, the circulation of the drilling fluid is carried out through the central rectilinear channel 2 of the sleeve 5 of the cable sub and further to the bit and bottom of the well. Moreover, the profile of the inner bore of the restriction ring 25 forms a flow of drilling fluid in the cable sub and protects the cable 11 from local damage.

After the next chiselling and lifting of the tool with the cable sub to the surface to release the cable 11, unscrew the threaded pipe 4, unscrew the threaded plug 13 and remove the latch 12. Using the device (not shown), fixed to the internal thread 20 of the sleeve 5, remove the sleeve 5 together with the glass 7 and the O-ring 6. In this case, the restrictive ring 25 does not allow the longitudinal protrusions 22 of the sleeve 5 to fold inward and lose contact with the glass 7. In this way, involuntary suction is prevented Inonu recoverable parts and abandonment of some of them in the body 1 cable sub.

Claims (3)

1. Cable sub, containing a threaded pipe with a persistent end, a housing with a rectilinear and peripheral inclined channels, a sleeve and an annular seal located in the rectilinear channel of the housing, characterized in that the rectilinear channel of the housing is made central, while it contains a glass with internal and external longitudinal grooves, the sleeve is installed with the possibility of interaction with the thrust end of the threaded pipe and is made with longitudinal protrusions located in the internal longitudinal grooves of the glass, rings the th sealer is made with a protrusion having a hole and a slot for input into the cable hole and placed in the peripheral inclined channel of the housing, at the output of which a fuse is installed in the form of a reinforcing element facing the rectilinear channel, and an elastic element with a hole and a groove for accommodating and introducing the cable . 2. The cable sub according to claim 1, characterized in that the sleeve has a restrictive ring mounted by means of retaining bolts on its longitudinal protrusions, the restrictive ring at the inlet of the drilling fluid stream having an rounded end with a radius of (0.1-0.2) d where d is the diameter of the inner bore of the restriction ring, and at the outlet there is a diffuser with a taper angle of 4-10 °. 3. The cable sub according to claim 1, characterized in that the upper end of the sleeve is made with internal thread, the lower end of the threaded pipe is made with two cylindrical protrusions, one of which has a thrust end and is placed in the interval of the internal thread of the sleeve, and the other has the outer surface of the groove under the o-rings.

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