RU60601U1 - PACKER FOR TESTING A COLUMN OF PIPES IN A WELL - Google Patents

Abstract

The proposal relates to the oil and gas industry and is intended for crimping a pipe string in a well.

The pressure testing packer of the pipe string in the well contains a landing tool, a drain device made in the form of a cable head with a cable, a cylindrical body with a saddle and a central axial and radial channels connecting the outer space of the body with its central axial channel, a sealing element mounted on the housing movable in axial direction and a sleeve inserted into the housing with supporting crackers.

The pipe string below the crimping interval is equipped with a compression sleeve equipped with a calibrated central channel with an inner diameter d less than the inner diameter d _{1 of} the pipe string and located below the ring sample with a larger longitudinal dimension L than the length of the technological joints of the pipe string couplings.

The support crackers are made with a longitudinal dimension - L, corresponding to the longitudinal size - L of the ring sample of the crimping sleeve, with L> b, while the support crackers are spring-loaded outward by means of spring plates and inserted into the radial channels of the housing equipped with a process pipe on top. The saddle of the casing is made below the radial channels in the form of an extension of the central axial channel, on the outside of which a sealing element is placed on the casing, made with the possibility of tight interaction with the central channel of the compression sleeve.

On the outer surface of the housing above the sealing element there is a circlip and a shock absorber. The cushioning element is installed above the retaining ring, which has the ability to interact with the upper end of the calibrated central channel of the crimping sleeve.

The sleeve on the outside is equipped with a thickening in the lower part and the upper end of the reduced diameter, with which the sleeve interacts from the inside with the process pipe, above which the sleeve is equipped with radial holes and a plug in series. The plug is equipped with a fishing head equipped with a figured selection from the outside. The thickening of the sleeve is made with the possibility of interaction from the inside with the supporting crackers during their interaction with the annular selection of the crimping sleeve.

On the outer surface at the top of the technological branch pipe, longitudinal short and long grooves are made, connected from below by a curly groove. A long groove is made to the edge of the technological branch pipe, while the landing tool is made in the form of a pusher connected to the drain device and interacting from above with the catch head of the sleeve, and a branch pipe mounted on the push rod with the possibility of rotation and axial movement, as well as covering the technological branch covering the lower part.

The pipe is equipped with an internal pin that interacts with the grooves of the technological pipe with the initial installation in a short groove.

The proposed packer allows crimping in columns of pipes of small diameter, and a decrease in the metal consumption of the structure leads to savings in material and financial resources for its manufacture.

2 ill. for 1 liter

Description

The proposal relates to the oil and gas industry and is intended for crimping a pipe string in a well.

A known pressure testing packer (patent RU No. 2153570, IPC 7 E 21 B 33/12, publ. 07/27/2000), comprising a housing, a sealing unit with a stop element, a lower sleeve and a seal chamber, a bypass device and a check valve, it has a valve assembly with shear elements, a ball valve and a seat for this valve in the form of a cylindrical sleeve, and the body has an annular collar for restricting movement of the lower sleeve, an annular groove, a stepped annular groove and radial holes for installing shear screws, while the bypass device your made in the form of a spool with an internal stepped groove corresponding to the internal stepped groove of the housing, a spring and an adjusting nut that sets the spring force and stroke length of the spool, and the seal chamber is formed by a sealing element and an annular groove of the housing.

The closest in technical essence is a packer (patent RU No. 2125148, IPC 7 E 21 B 33/12, publ. 20.01.1999), comprising a cylindrical body with a central axial channel and a seat on the inner surface, a sealing element with lower support and a spacer ring, a casing forming an annular space with an inner surface with an outer surface of the housing, a piston located in the annular space, a spring-loaded pusher associated with the piston, a valve assembly located on the saddle of the housing and made in ideally movable in the axial direction of the sleeve with supporting crackers, a shear element and a saddle on the upper end, a ball locking element mounted in the saddle of the sleeve, the housing is made with axial channels connecting the annular space to the central axial channel, and the shear element is mounted on the sleeve with the possibility of limiting the longitudinal movement of the ball element.

Both analog and prototype have, to one degree or another, common flaws:

- firstly, the impossibility of crimping in columns of pipes of small diameter in the well (for example, crimping a string of tubing with a diameter of 48 mm);

- secondly, the complexity of manufacturing, due to the large number of technically complex parts, which leads to an increase in the cost of the structure as a whole and, as a consequence, its high cost.

The technical task of the utility model is the possibility of crimping a string of pipes of small diameter in the well, as well as reducing the metal consumption of the structure and, as a consequence, its cost.

The stated technical problem is solved by a packer for crimping a pipe string in a well, containing a landing tool, a drain device, a cylindrical body with a saddle on the inner surface and central axial and radial channels connecting the outer space of the body with its central axial channel, a sealing element mounted on the body, movable in the axial direction and the sleeve inserted into the housing with supporting crackers.

What is new is that the pipe string below the crimping interval is equipped with a compression sleeve equipped with a calibrated central channel with an inner diameter smaller than the internal diameter of the pipe string and located below the ring sample with a large longitudinal dimension of the technological joints of the pipe string couplings, and support crackers made with a longitudinal size of the corresponding the longitudinal dimension of the ring sample of the crimping sleeve, are spring-loaded outward and inserted into the radial channels of the housing equipped with a technological pipe, moreover, the housing seat is made above the radial channels in the form of an extension of the central axial channel, on the outside of which a sealing element is placed on the housing, which is capable of tightly interacting with the central channel of the compression sleeve, in addition, a snap ring is placed on the outer surface of the housing above the sealing element and a shock-absorbing element, while the shock-absorbing element is mounted above the retaining ring, which has the ability to interact with the upper the end of the calibrated central channel of the crimping sleeve, the sleeve on the outside equipped with a thickening in the lower part and the upper end of the reduced diameter, with which the sleeve from the inside interacts with the process pipe, above which the sleeve is equipped with sequentially radial holes and a plug equipped with a fishing head, equipped with a figured outside, and a thickening the sleeves are made with the possibility of interaction from the inside with supporting crackers when they interact with the ring selection of the crimping couplings s, and on the outer surface at the top of the technological branch pipe, longitudinal short and long grooves are connected, connected at the bottom by a curly groove, the long groove being made to the edge of the technological branch pipe, while the landing tool is made in the form of a pusher connected to a drain device and interacting from above with the catch head of the sleeve , and a nozzle mounted on the pusher with the possibility of rotation and axial movement, as well as covering the lower

part of the technological pipe, and the pipe is equipped with an internal pin that interacts with the grooves of the technological pipe with the initial installation in a short groove.

The figure 1 in longitudinal section shows a packer for crimping a string of pipes in the well.

The figure 2 shows a scan grooves made on the outer surface of the process pipe.

The compression packer of the pipe string 1 (see Fig. 1) in the well (not shown in Figs. 1 and 2) contains a landing tool 2, a drain device 3, made in the form of a cable head with a cable, a cylindrical body 4 with a saddle 5 and a central axial 6 and radial 7 channels connecting the outer space 8 of the housing 4 with its central axial channel 6, a sealing element 9 mounted on the housing 1, axially movable and inserted into the housing 4 of the sleeve 10 with supporting crackers 11.

The pipe string 1 below the crimping interval is equipped with a compression sleeve 12 equipped with a calibrated central channel 13 with an inner diameter d less than the inner diameter d _{1 of} the pipe string 1 and located below the ring sample 14 with a larger longitudinal dimension L than the length of the technological joints of the couplings (in FIG. . not shown) pipe string 1.

The support crackers 11 are made with a longitudinal dimension — b corresponding to the longitudinal dimension — L of the ring sample 14 of the crimping sleeve 12, with L> b, and the support crackers 11 are spring-loaded outwardly by means of spring plates 15 and inserted into the radial channels 7 of the housing 4, equipped with a top process pipe 16.

The saddle 5 of the housing 4 is made below the radial channels 7 in the form of an extension of the central axial channel 6, on the outside of which a sealing element 9 is placed on the housing 4, which is made with the possibility of tight interaction with the central channel 13 of the compression sleeve 12.

On the outer surface of the housing 1 above the sealing element 9 there is a locking ring 17 and a shock absorbing element 18. The shock absorbing element 18 is mounted above the locking ring 17, which is able to interact with the upper end 19 of the calibrated central channel 13 of the compression sleeve 12.

The sleeve 10 is externally equipped with a bulge 20 in the lower part and the upper 21 end of a reduced diameter, with which the sleeve 10 from the inside interacts with the process pipe 16, above which the sleeve 10 is equipped with sequentially radial

the holes 22 and the plug 23. The plug 23 is equipped with a fishing head 24, equipped with a figured selection 25 from the outside.

The thickening 20 of the sleeve 10 is made with the possibility of interaction from the inside with the supporting crackers 11 when they interact with the ring sample 14 of the crimping sleeve 12.

On the outer surface at the top of the technological pipe 16, longitudinal short 26 (see FIG. 2) and long 27 grooves are connected, connected at the bottom by a curly groove 28. A long groove 27 is made to the edge of the technological pipe 16, while the landing tool 2 is made in the form of a pusher 29, connected to the drain device 3 and interacting from above with the fishing head 24 of the sleeve 10, and the pipe 30 mounted on the pusher 29 with the possibility of rotation and axial movement, as well as covering the lower part of the technological pipe 16.

The pipe 30 is equipped with an internal pin 31 that interacts with the grooves 26, 27, 28 of the technological pipe 16 with the initial installation in a short groove 26.

A packer for crimping a pipe string in a well works as follows.

The crimping sleeve 12 (see figure 1) is installed as part of the pipe string 1 in the interval of its crimping. Then the pipe string 1 is lowered into the well.

Prepare the packer for descent into the pipe string 1. To do this, install the inner pin 31 of the technological pipe 30 (see figure 2) in the longitudinal short groove 26 of the technological pipe 16.

Then, the packer assembly is lowered into the pipe string 1 (see Fig. 1) on a cable (not shown in Figs. 1, 2, 3), as shown in Fig. 1. During the descent of the packer, the support crackers 11 are spring-loaded outward by means of spring plates 15 are in contact with the inner walls of the pipe string 1, in addition, the retaining ring 17 mounted on the outer surface of the housing 4 above the sealing element is also in contact with the inner walls of the pipe string 1.

During the descent of the packer into the pipe string 1, the pusher 29 of the landing tool 2 acts on top of the fishing head 24 of the sleeve 10, while the thickening 20 installed in the saddle 6 of the housing 4 by the lower end of the sleeve 10 acts on the support crackers 11 inserted into the radial channels 7 of the housing 4 , which in turn cause axial downward movement of the housing 4. In addition, the support crackers 11 and the retaining ring 17 center the packer during its descent into the pipe string 1 and landing.

During the descent, the packer reaches the compression sleeve 12 of the pipe string 1, while the sealing element 9 (see Fig. 1), mounted on the outer surface of the housing 4, hermetically interacts with the calibrated central

channel 13 l internal diameter d of the compression sleeve 12, while the landing tool 2 together with the drain device 3 are lowered down relative to the process pipe 16, due to the fact that the inner pin 31 (see figure 2) moves down the longitudinal short groove 26 and enters the curly groove 28.

The descent of the packer is continued, while the supporting crackers 11 (see FIG. 1) come out of contact with the inner wall of the pipe string 1 and fall into the ring sample 14 of the compression sleeve 12, since the longitudinal size — b of the supporting crackers 11 is smaller than the longitudinal size — L of the ring sample 14 of the support sleeve 12. In the annular selection 14 of the support sleeve 12, spring-loaded outward by means of spring plates 15, the support crackers 11 radially expand.

As a result, the sleeve 10 moves downward and with a thickening 20 made in the lower part of the sleeve 10, enters into the support crackers 11, while the upper end of the reduced diameter 21 of the sleeve 10 also moves downward, and the radial holes 22 of the sleeve 10 are hermetically sealed by the technological pipe 16.

The descent of the packer is continued, while the retaining ring 17 abuts against the upper end 19 of the calibrated central channel 13 of the compression sleeve 12.

Next, the drain device 3 with the landing tool 2 is unloaded to the packer body 4, the shock-absorbing element 18 is compressed, and the support crackers 11, which are in contact with the ring sample 14 of the compression sleeve 12, are pressed against the lower end by the ring sample 14 of the pressure sleeve 12 , after which the descent is stopped.

Then, the drain device 3 is lifted up with the landing tool 2, made in the form of a pusher 29 connected to the nozzle 30, while the inner pin 31 installed in the nozzle 30, together with the above-mentioned parts, moves up and out of the figured groove 28 (see Fig. 2), gets into a long groove 27 along which moving up leaves the long groove 27 of the technological pipe 16. Next, the drain device 3 with the landing tool 2, made in the form of a pusher 29 connected to the pipe 30 and the inner pin 31, removed removed from the pipe string 1. The column pipe 1, i.e., outer space 8 above the packer body 4 made up with the process fluid and produce a tubing string pressure testing 1. After the pressing, according to the approved plan work pressure in the pipe string 1 is vented.

To remove the packer into the pipe string 1, a fishing tool (not shown in FIGS. 1 and 2) is lowered of any known construction, for example, an outer tube. Make the capture of the packer for the figured selection 25 of the fishing head 24.

Raise the fishing head 24 and, consequently, the sleeve 10, while the radial holes 22 of the sleeve 10 come out of tight interaction with the process pipe 16 and communicate over- and sub-packer spaces, and the sleeve is lifted with little effort, since the outer diameter of the sleeve 10 is small in compared to the outer diameter of the housing 4.

As a result, the liquid flows from top to bottom through the radial holes 22 and the central hole of the sleeve 10. The packer is held in a raised position for a certain time until the pressures are equalized above and below the packer and then the packer is completely removed from the pipe string 1.

The proposed packer allows crimping in columns of pipes of small diameter, and a decrease in the metal consumption of the structure leads to savings in material and financial resources for its manufacture.

Claims (1)

A packer for crimping a pipe string in a well, comprising a planting tool, a drain device, a cylindrical body with a saddle on the inner surface and a central axial and radial channels connecting the outer space of the body with its central axial channel, a sealing element mounted on the body, movable in the axial direction and a sleeve inserted into the housing with supporting crackers, characterized in that the pipe string below the crimping interval is equipped with a crimping sleeve equipped with a calibrated central a channel with an inner diameter smaller than the inner diameter of the pipe string and an annular sample located below with a large longitudinal dimension of the technological joints of the pipe string couplings, and support crackers made with a longitudinal dimension corresponding to the longitudinal size of the ring sample of the crimping sleeve are spring-loaded outward and inserted into the radial channels of the housing equipped with a technological branch pipe on top, and the seat saddle is made above the radial channels in the form of an extension of the central axial shaft ala, on the outside of which a sealing element is arranged on the housing, which is capable of tightly interacting with the central channel of the compression sleeve, in addition, a retaining ring and a shock-absorbing element are placed on the outer surface of the housing above the sealing element, while the shock-absorbing element is mounted above the retaining ring, which interaction with the upper end of the calibrated central channel of the crimping sleeve, and the sleeve is equipped with a thickening at the bottom and top the end of the reduced diameter, with which the sleeve interacts from the inside with the process pipe, above which the sleeve is equipped with radial holes and a plug provided with a fishing head, equipped with a figured selection from the outside, and the thickening of the sleeve is made with the possibility of interaction from the inside with support crackers during their interaction with the ring selection of the crimping couplings, and on the outer surface at the top of the technological branch pipe, longitudinal short and long grooves are connected, connected by a curved groove, and a long groove made up to the edge of the technological branch pipe, while the landing tool is made in the form of a pusher connected to a drain device and interacting from above with the catch head of the sleeve, and a branch pipe mounted on the pusher with the possibility of rotation and axial movement, as well as covering the lower part of the technological pipe, and the pipe is equipped with an internal pin that interacts with the grooves of the technological pipe with the initial installation in a short groove e.