RU91104U1 - FLEXIBLE SHAFT PERFORATOR - Google Patents

Abstract

1. A flexible shaft of a perforator, including upper and lower parts connected by a flexible part, into which a flexible sleeve with a rope located inside is placed, the flexible part being made in the form of consecutive external bushings, articulated at the ends by means of splined joints with internal bushings, characterized in that its lower part consists of a cutting tool equipped in the end part along the perimeter with protrusions and a cavity with a holder installed in it by means of connecting means, in which the rope is fixed the lower part, and the upper surface of the holder is made spherical and in contact with the adjacent inclined surface of the retainer, made in the form of a two-stage sleeve, a step of a smaller diameter which is connected to the lower end of the flexible sleeve, and a step of a larger diameter with the upper end abuts the ring end face of the intermediate socket equipped with slots meshing with the slots of the last inner sleeve of the flexible part, and the annular end face with protrusions along the perimeter with protrusions of the cutting tool, while the upper I part of the flexible shaft, consisting of clamping, tensioning and damping devices connected in series, ends with a drive housing, inside which a small sleeve with a flexible sleeve is mounted, and the drive housing is equipped with an annular protrusion with recesses for engagement with the drive, and its lower part is equipped splines for articulation with a coupling connecting the drive housing to the first inner sleeve of the flexible portion of the flexible shaft. ! 2. The flexible shaft of the punch according to claim 1, characterized in that the clamping device is made in the form of 2 naki

Description

The utility model relates to devices designed for perforation of oil and gas wells equipped with casing pipes and opening of reservoirs.

As a prototype, the publication of the application of the Russian Federation No. 2006 121052 for the invention “Flexible shaft of a perforator”, IPC ЕВВ 43/11, published December 27, 2007, was adopted. The flexible shaft of a perforator includes end elements connected by a flexible part. The flexible part is made in the form of sequentially arranged intermediate outer cylindrical bushings in which through holes are made. Inserts with a gap are inserted into said through holes, each of which is also made with a through hole and inserted simultaneously into two adjacent outer bushings. At the same time, a cable is placed in the through holes of the outer bushings and bushings. The outer bushings and bushings are connected to each other with the possibility of limited spatial movement relative to each other in any plane by means of a spline connection using splined protrusions and depressions. The slots in the hole of the outer sleeve are spur, and the mating slots of the inserts mating with them are made with rounded surfaces. A flexible sleeve is additionally passed through the openings of the outer bushings and liners.

The signs of the known flexible shaft of a perforator, coinciding with the features of the claimed utility model, consist in the execution of the flexible shaft from the upper and lower parts connected by the flexible part, in the presence of a flexible sleeve passed through the said parts of the flexible shaft with a rope located inside it. The commonality of features also lies in the fact that the flexible part is made in the form of sequentially located external bushings, articulated at the ends by means of splined joints with internal bushings.

The problem, which the utility model is aimed at, is to increase the operational efficiency of the flexible shaft, and, consequently, the hammer drill as a whole. The technical result that mediates the solution of this problem is to increase the clamping force of the rope, to increase the range of tension of the flexible shaft of the perforator, to reduce dynamic loads and increase the rotation of the flexible shaft, in the possibility of self-installation of the cutting tool, in increasing the washing intensity of the well and perforated channel.

The technical result is achieved by the fact that in the flexible shaft of the perforator, including the upper and lower parts, connected by a flexible part into which a flexible sleeve with a rope located inside is placed, and the flexible part is made in the form of consecutive external bushings, articulated at the ends by splined joints with internal bushings , according to a utility model, the lower part consists of a cutting tool equipped with protrusions in the end part along the perimeter and a cavity with a connecting means installed in it with a holder, in which the rope is fixed with its lower part, and the upper part of the holder, with its spherical surface, contacts the adjacent inclined surface of the clamp made in the form of a two-stage sleeve, a step of a smaller diameter which is connected to the lower end of the flexible sleeve, and a step of a larger diameter with the upper end abuts against the end face of the intermediate socket equipped with slots that mesh with the slots of the last inner sleeve of the flexible part, and its end face with protrusions along the perimeter from the protrusion mi cutting tool. The technical result is achieved by the fact that the upper part of the flexible shaft, consisting of series-connected clamping, tensioning and damping devices, ends with a drive housing, inside of which a small sleeve with a flexible sleeve is mounted, the drive housing is equipped with an annular protrusion with recesses for engagement with the drive , and its lower part with splines, articulating with splines of the coupling connecting the drive housing to the first inner sleeve of the flexible part of the flexible shaft. The technical result is achieved by the fact that the clamping device is made in the form of two union nuts screwed onto the clamping body with a through biconical hole, the cones of which are directed towards each other, and bushings with opposite conical holes are installed in the cavity of the union nuts in the end zones with respect to the conical biconical crackers are installed in the openings of the clamp housing and in these conical cavities formed by the conical openings of the clamp housing and the bushings. The technical result is also achieved by the fact that the tension device is made in the form of a tensioner with a cavity in the upper part and holes in the upper wall connecting it to the in-pipe space, its lower part is equipped with an internal thread, screwed onto the shank of the stepped damper sleeve and equipped with a lock nut. The technical result is achieved by the fact that the damping device is made in the form of a stepped sleeve, provided in the lower part with a cavity in which one end of the spring is installed, and its other end is in the upper cavity of the drive housing installed with a gap in relation to the stepped sleeve. The technical result is achieved by the fact that in the holder of the lower part of the flexible shaft of the perforator there are made inclined channels connected to longitudinal grooves located around the perimeter of the holder and with an annular groove at its end, as well as the fact that the cutting tool is also made with channels for washing liquid .

The presence of a holder in the lower part of the flexible shaft of the perforator, rigidly mounted in the cavity of the cutting tool, the execution of the upper surface of the holder spherical in contact with the adjacent inclined surface of the retainer allows the cutting tool to self-adjust, rotate depending on the specific drilling and perforation conditions.

The implementation of the clamping device of the upper part of the flexible shaft in the form of two flare nuts screwed onto the clamp body with a through biconical hole, whose cones are directed towards each other, and in the cavity of the flare nuts in the end zones are installed bushings with counter conical openings relative to the conical openings of the housing clamp and biconus crackers are installed in these biconical cavities, provides clamping of the rope by collet type along two surfaces. This significantly increases the overall clamping force.

The implementation of the tension device in the form of a tensioner with a cavity in the upper part, the presence of an internal thread in the lower part, connecting the tensioner with the shank of the stepped sleeve of the damper and the lock nut provides a sufficiently large stroke of the tensioner along the shank of the stepped sleeve and thereby determines the increased range of both the tension of the flexible shaft and selection of manufacturing and operational backlash.

The implementation of the damping device in the form of a stepped sleeve provided in the lower part with a cavity in which one end of the spring is installed, and its other end in the upper cavity of the drive housing installed with a gap in relation to the stepped sleeve, reduces dynamic loads on the flexible shaft of the perforator and due to clearance - additional freedom of rotation of the flexible shaft.

The totality of the holes in the upper wall of the tensioner, the cavity in its upper part, connected to the cavity of the damping device and then a flexible sleeve, worn in the upper part on a small sleeve installed in the drive housing, and ending on the steps of a smaller diameter of the clamp, the cavity of which is connected to inclined retainer channels connected to its longitudinal and annular grooves associated with the channels of the cutting tool, provides a more intensive washing of the well and perforated channel in the process perforation and drilling.

New features of the claimed technical solution are that its lower part consists of a cutting tool equipped with protrusions in the end part along the perimeter and a cavity with a holder installed in it by means of connecting means, in which the rope is fixed with its lower part, and the upper surface of the holder is made spherical and in contact with an adjacent inclined surface of the clamp made in the form of a two-stage sleeve, a step of a smaller diameter, which is connected to the lower end of the flexible sleeve, and the stupa Hb larger diameter upper end abuts the annular end face of the intermediate jack, equipped with splines meshing with splines latter flexible portion of the inner sleeve, and on the other side of the annular end face is provided with protrusions on the perimeter in contact with the projections of the cutting tool.

New features of the claimed technical solution also consist in the fact that the upper part of the flexible shaft, consisting of clamping, tensioning and damping devices connected in series, is finished with a drive housing, inside of which a small sleeve with a flexible sleeve worn is mounted, and the drive housing is equipped with an annular protrusion with recesses for engagement with the drive, and its lower part is equipped with splines for engagement with a coupling connecting the drive housing to the first inner sleeve of the flexible part of the flexible shaft.

New features of the claimed technical solution also consist in the fact that the clamping device of the upper part of the flexible shaft is made in the form of two union nuts with cavities screwed onto the clamp housing with a double-conical through hole, the cones of which are directed towards each other, and in the cavity of the union nuts in the end In the zones, bushings with counter conical holes are installed with respect to the cones of the through hole of the clamp body and in the biconical cavities formed by the holes of the bushings and clamp body, two Icoconus crackers.

New features of the technical solution also consist in the fact that the tension device is made in the form of a tensioner with a cavity in the upper part and holes in the upper wall connecting the cavity with the in-pipe space, the lower part of the tensioner is equipped with an internal thread, a damping device is screwed onto the shank of the stepped sleeve and equipped with a lock nut .

New features also include the implementation of a damping device in the form of a stepped sleeve, provided in the lower part with a cavity in which the end of the spring is installed, and its other end in the upper cavity of the drive housing, which is installed with a gap in relation to the stepped sleeve.

New features of the technical solution also consist in the fact that inclined channels are made in the holder of the lower part of the flexible shaft of the perforator connected to longitudinal grooves located along the perimeter of the holder and with an annular groove at its end.

New features of the technical solution also include the implementation of a cutting tool with channels for flushing liquid, as well as the use of screws as fasteners for fastening the cutting tool to the holder.

The utility model is illustrated by drawings, where:

figure 1 - shows a flexible shaft perforator in the context;

figure 2 is a section aa in figure 1.

The flexible shaft of the perforator consists of the upper part 1, the flexible part 2 and the lower part 3, in which the flexible sleeve 4 is placed with the cable 5 located inside it, extending beyond the limits of the flexible shaft in its upper part.

The upper part 1 of the flexible shaft consists of clamping devices - 6, tension - 7 and damping - 8. The clamping device 6 consists of two union nuts 9 screwed onto the ends of the housing 10, made with a through hole in the form of cones directed towards each other. In the cavity of the union nuts 9, in the end zones, bushings 11 are installed with counter conical openings with respect to the conical openings of the housing 10. The openings of the housing 10 and the bushings 11 form two cavities with biconical surfaces in which biconus crackers 12 are installed, covering the cable 5. To the device 6 clamp adjacent to the device 7 tension. The tension device 7 consists of a tensioner 13 with a cavity in the upper part and holes 14 in the upper wall connecting it to the in-tube space. In the lower part, the tensioner 13 is screwed onto the shank of the step sleeve 15 of the damping device 8 with the bottom part and is equipped with a lock nut 16. The step sleeve 15 of the damping device 8 is provided in the lower part with a cavity in which spring 17 is installed at one end and its second end is in the upper cavity of the drive the housing 18, installed with a gap H in relation to the stepped sleeve 15. The drive housing 18 in the middle zone is equipped with an annular protrusion 19 with recesses 20 for engagement with the drive (not shown), and its lower part with slots for ochleneniya with coupling 21 connecting the drive housing 18 from the first internal sleeve 22 of the flexible part of the shaft 2 of the perforator. The flexible part 2 of the flexible shaft consists of sequentially located outer bushings 23, jointed at the ends by means of spline hinges with the inner bushings 22. Each outer bush 23 for separating the splined seats for the inner bushings 22 has an annular bridge 24 in the middle zone. The last link of the flexible part 2 of the flexible the shaft in the form of the end part of the inner sleeve 22 is connected by a splined hinge with an intermediate socket 25, the end of which is provided along the perimeter with protrusions 26 that are meshed with the protrusions 27 of the cutting tool 28. The cutting tool 28 is provided with channels 29 for flushing the well and the perforated channel. The cutting tool 28 has a cavity in which the holder 30 is mounted, connected to the cutting tool 28 by screws 31. The lower end of the rope 5 is fixed in the holder 30, and a circular recess 32 is made in its upper surface, surrounded by a spherical surface 33 that passes into the end. The inclined channels 34 are made from the circular recess 32, which are connected to the lateral grooves 35 and the annular groove 36. The holder 30, with its spherical surface 33, contacts the inclined surface of the retainer 37, made in the form of a two-stage sleeve, the end of the large stage of which abuts the end of the intermediate socket 25, and the lower end of the flexible sleeve 4 is put on its smaller step. The upper end of the flexible sleeve 4 is mounted on a small sleeve 38 located in the cylindrical cavity of the drive housing 18.

Flexible shaft punch works as follows. The rotation from the drive is transmitted to the drive housing 18 through the recesses 20. From the drive housing 18, the rotational movement is transmitted to the coupling 21, and from it to the inner sleeve 22 of the flexible part 2 of the flexible shaft. From the inner sleeve 22, rotation is sequentially transmitted to the subsequent outer 23 and inner 22 bushings. The last inner sleeve 22 of the flexible part transmits rotation to the intermediate socket 25, and it is through the protrusions 26 and 27 of the cutting tool 28. The well, perforated channel is flushed from the annulus through the openings 14 of the tensioner 13, then through the flexible sleeve 4, the retainer cavity 37, the inclined channels 34, side grooves 35, an annular groove 36 of the holder 30 and further into the channels of the cutting tool 28. The cutting tool 28 has the possibility of additional rotation relative to the flexible part 2 due to the spherical surface 33 de zhatelya 30.

Claims (7)

1. A flexible shaft of a perforator, including upper and lower parts connected by a flexible part, into which a flexible sleeve with a rope located inside is placed, the flexible part being made in the form of consecutive external bushings, articulated at the ends by means of splined joints with internal bushings, characterized in that its lower part consists of a cutting tool equipped in the end part along the perimeter with protrusions and a cavity with a holder installed in it by means of connecting means, in which the rope is fixed the lower part, and the upper surface of the holder is made spherical and in contact with the adjacent inclined surface of the retainer, made in the form of a two-stage sleeve, a step of a smaller diameter which is connected to the lower end of the flexible sleeve, and a step of a larger diameter with the upper end abuts the ring end face of the intermediate socket equipped with slots meshing with the slots of the last inner sleeve of the flexible part, and the annular end face with protrusions along the perimeter with protrusions of the cutting tool, while the upper I part of the flexible shaft, consisting of clamping, tensioning and damping devices connected in series, ends with a drive housing, inside which a small sleeve with a flexible sleeve is mounted, and the drive housing is equipped with an annular protrusion with recesses for engagement with the drive, and its lower part is equipped splines for articulation with a coupling connecting the drive housing to the first inner sleeve of the flexible portion of the flexible shaft. 2. The flexible shaft of the drill according to claim 1, characterized in that the clamping device is made in the form of 2 union nuts with cavities screwed onto the clamp housing with a double-conical through hole, the cones of which are directed towards each other, and in the cavity of the union nuts at the end In the zones, bushings with counter conical holes are installed with respect to the cones of the through hole of the clamp body, and biconus crackers are installed in these conical cavities. 3. The flexible shaft of the punch according to claim 1, characterized in that the tensioning device is made in the form of a tensioner with a cavity in the upper part and holes in the upper wall connecting the cavity with the in-pipe space, the lower part of the tensioner is equipped with an internal thread, screwed onto the shank of the stepped damper sleeve and equipped with a lock nut. 4. The flexible shaft of the drill according to claim 1, characterized in that the damping device is made in the form of a stepped sleeve provided with a cavity in the lower part in which the end of the spring is installed, and its other end is in the upper cavity of the drive housing installed with a gap with respect to to the stepped sleeve. 5. The flexible shaft of the perforator according to claim 1, characterized in that the holder of the lower part of the flexible shaft of the perforator is made of inclined channels connected to longitudinal grooves located around the perimeter of the holder and with an annular groove at its end. 6. The flexible shaft of the punch according to claim 1, characterized in that the cutting tool is made with channels for flushing fluid. 7. The flexible shaft of the punch according to claim 1, characterized in that screws are used as connecting means for fastening the cutting tool and the holder.