RU2295623C2 - Telescopic connection for compensating thermobaric alterations of length of column of pipes in a well - Google Patents

Abstract

FIELD: well equipment, possible use during extraction of fluid or forcing of working agent into well with one or several beds.

SUBSTANCE: connection includes body and shaft built into it, interconnected by telescopic drive, sealing packer, stopper in form of cams and a shell. Body is made of several standard pipes, interconnected by sleeves. Positioned in one of them is stopper for rigid connection of body to shaft. Shaft has radial grooves for positioning of stopper and threaded radial apertures, wherein shear screws are mounted for holding in shell shaft. Shell is made with external grooves, in one of which packing ring is positioned, and in other one - shear screws. Shell is mounted in shaft with possible downward movement and has internal planting channel for its downward movement by hydraulic action by means of cable reverse valve or mechanical effect by means of impact tool, external supporting surface for stopper for rigid holding in original position of shaft and body, and external recess for positioning of stopper after its downward movement. Body has internal supporting clamp. Shaft is made with external stopping and internal stopping clamps.

EFFECT: simplified construction, manufacturing technology and, appropriately, lower costs and also increased reliability and efficiency of operation.

12 cl, 8 dwg

Description

The invention relates to downhole equipment and can be used when producing fluid or pumping a working agent into a well with one or more formations.

Known telescopic connection type CT2 for installing removable valves (Reference manual on the gas-lift method of operating wells / Yu.V. Zaitsev, R.A. Maksutov, O.V. Chubanov, etc.: M., Nedra, 1984. - see page .104, 105), comprising a body with an internal support collar, a barrel installed in it with a telescopic stroke, radial grooves, an external stop and an internal support collar, a sealing seal, a cam stop in radial grooves for rigid connection of the barrel with the body, located in barrel sleeve with external bearings th surface and the groove. This telescopic connection is lowered into the well as a part of the packer equipment in a locked state (the barrel with the body is rigidly connected through a stopper) and only after the packer has been set up to provide telescopic travel and relieve the tension of the pipe string is unlocked by moving the sleeve from the lower to the upper position using a rope tool - pusher. However, practice has shown that in deep wells, the movement of the sleeve using the pusher is unreliable, because with dynamic impacts the pusher is pressed and leaves the sleeve prematurely, that is, without moving the sleeve up to the stop in the barrel, as a result of which CT2 does not unlock. In addition, there are no changes (adjustments) to the telescopic stroke either up or down depending on the characteristics and parameters of the well.

The problem solved by the invention is to simplify the design, manufacturing technology, as well as improving the reliability and efficiency of the telescopic connection.

The technical result in the manufacture of a telescopic connection is achieved through the use of standard tubing or drill pipes with their couplings as its body and barrel, and when implemented, it is ensured by the reliability and efficiency of its operation in borehole conditions, as well as the selection of the optimal range for adjusting the telescopic stroke between the body and the barrel, depending on the characteristics and parameters of the well.

The purpose of the invention is achieved in that the housing is made of several standard pipes interconnected by couplings, in one of which, depending on the length of adjustment of the telescopic stroke up and / or down, there is a stopper for rigidly connecting the housing to the barrel having radial grooves for accommodating the stopper and threaded radial holes in which shear screws are installed for fixing in the barrel sleeve, which is made with external grooves, one of which has a sealing ring, and the other has a shear screw s, and the sleeve is installed in the barrel with the ability to move down and has an internal landing channel for moving it down hydraulically using a rope check valve or mechanically using a percussion instrument, an external abutment surface under the stopper for rigid fixation in the initial position of the barrel and body, and an external groove for accommodating the stopper after moving it downward, while the body has an internal support collar, the barrel is made with an external stop and internal support collars. A sealing gasket is installed in the housing or on the barrel. A fixed sleeve for a rope check valve or percussion instrument can be installed in the sleeve. The barrel above the stopper can be made with an internal bore to circulate the working medium after moving the sleeve down to the stop in the inner support shoulder of the barrel. The housing may be made of tubing or drill pipe. Also, the barrel can be made of tubing or drill pipe. The housing can be equipped with upper and / or lower sub. The upper and / or lower housing sub can be made with internal splines, while the barrel accordingly has a tip with an external stop shoulder made with external splines for transmitting torque at the upper and / or lower positions of the barrel relative to the housing. The tip of the upper barrel can be made with a sealing ring. The stopper and the outer groove of the sleeve from the bottom can be made respectively with an internal support and external stop collars. The sleeve can be equipped with a latch to prevent its reverse movement. The sleeve can also be made in the form of a differential piston mounted in the barrel.

These solutions as a whole make it possible to simplify the design and manufacturing technology of the telescopic joint, and also increase the reliability and efficiency of its operation in production or injection wells with packer units. With thermobaric changes, that is, with an increase or decrease in pressure or temperature in the well, the length of the pipe string lengthens or shortens, and thereby the axial load transmitted to the planted packer in the well changes, which can lead to its spreading and spontaneous unpacking. In this case, the telescopic connection is compensated for by the lengths of variation of the pipe string within its up and down stroke.

In figure 1, 3 shows the telescopic connection in the initial position; figure 2 is the same, only in the working position; figure 4, 5 - sleeve in the barrel in the form of a differential piston, triggered, respectively, from the annular or pipe overhead wellhead pressure; Fig.6-8 - telescopic connection in the well.

The telescopic connection (hereinafter referred to as STS) consists of a housing 1 (for example, see Fig. 1) made of several 2, 3 and 4 standard tubing or drill pipe (larger diameter), interconnected by couplings 5, 6 and having upper 7 and lower 8 sub. In the housing 1 there is an internal supporting collar 9 and a barrel 10 is placed in it, also made of tubing or drill pipe (smaller diameter) interconnected by a telescopic stroke up - L ₁ and / or down - L ₂ (see Fig. 2). The barrel 10 is a threaded connection of the following parts: a pipe 11, a tip 12, a core 13 and a stop 14. The barrel 10 (Fig. 1) has radial grooves 15, an external stop 16 and an inner support 17 of the collar. A stopper 18 in the form of cams is placed in the radial grooves 15, and a sleeve 19 with an external abutment surface 20 and a groove 21 under the stopper 18 is installed inside the barrel 10. The housing 1 or the barrel 10 is equipped with a sealing seal 22.

The stopper 18 (see figure 2) depending on the length of the adjustment of the telescopic stroke up - L ₁ and / or down - L ₂ between the housing 1 and the barrel 10 is located in one of the standard couplings 5 or 6 between the pipes 2 and 3 or 3 and 4 for rigid connection of the barrel 10 with the housing 1 at the initial position of the STS. The barrel 10 (figure 1) or the stopper 18 (figure 3) is made with threaded radial holes 23 or 24, in which shear screws 25 or 26 are installed. The sleeve 19 (see figure 3-5) is installed in the barrel 10 with the possibility downward movement, and it has external grooves, for example 27, 28, 29, 30. The sleeve 19 has an internal landing channel 31 (Fig. 1) for a check valve or percussion instrument of a larger diameter. In a particular case, a sleeve 32 (Fig. 3) is placed and fixed in the landing channel 31 in order to install a rope check valve or a percussion instrument of a smaller diameter when the sleeve 19 is moved downward by hydraulic or mechanical action.

An outer ring 33, 34 is located in the outer grooves 27, 28 of the sleeve 19 (see FIGS. 3, 4), and shear screws 25 or 26 are located in the other 29. Also, an inner bore 35 can be made in the barrel 10 above the stopper 18 (FIG. .2, 3) for the circulation of the working medium after moving the sleeve 19 down to the stop in the inner support shoulder 17 of the barrel 10.

The upper 7 and / or lower 8 sub of the housing 1 (see figure 1) can be made with internal slots (grooves) 36, and the barrel 10, respectively, has a tip 12 with or without an O-ring 37, and / or with an external stop collar 38 without or with external slots 39 for transmitting torque at the upper or lower extreme or both the upper and lower positions of the barrel 10 relative to the housing 1 (for example, for disassembling and assembling the STS on the stand, as well as to disconnect the left-hand disconnector, landing or releasing the packer by rotating the count onna of pipes in the well, etc.). To exclude the reverse movement of the sleeve 19, it (see FIG. 3) can be equipped with a latch 40. As well as the stopper 18 (FIG. 3) and the outer groove 21 of the sleeve 19 from the bottom, respectively, can be made with an internal support 41 and an external stop 42 collars.

In the outer grooves 27 and 28 of the sleeve 19 (see Fig. 4, 5) above and below the shear screws 25, if the o-rings 33 and 34 are placed, the sleeve 19 is installed in the barrel 10 in the form of a differential piston moving from the installed excess wellhead pipe ( see figure 5) or annular (see figure 4) pressure depending on the number of shear screws 25.

TSS (for example, see Figs. 1, 6–8) descends into the well 43 as part of the packer equipment in a blocked state, where the barrel 10 is rigidly fixed with the body 1 through the stopper 18. That is, in this case (see Figs. 1, 3 ) the outer supporting surface 20 is located under the stopper 18, which, in turn, is located inside one of the couplings (for example, clutch 5). After the packer 44 and / or 45 is planted to trigger the telescopic stroke of the STS and relieve the tension of the pipe string 46 (see Figs. 6-8), the STS is unlocked (see Fig. 2) by cutting the shear screws 25 and moving the sleeve 19 from the upper source the position to the lower working position with the help of a cable check valve or percussion instrument, respectively, by hydraulic or mechanical action on the sleeve 19. Moreover, under the stopper 18 there is an outer groove 21 of the sleeve 19, thereby the stopper 18 in the form of cams is insulated from the sleeve 5 in rad cial groove 15 of the barrel 10, thereby providing a telescopic free play between the casing 1 and the barrel 10, both up and down. If a check valve is installed in the sleeve 19, then it is possible to obtain information about the movement of the sleeve 19 down to the stop in the support shoulder 17 of the barrel 10 due to the occurrence of circulation from top to bottom with an increase in excess wellhead pressure above the pressure under the sleeve 19. After moving down the sleeve 19 in the barrel 10 is fixed in its lower position either by the latch 40 (Fig. 3) or by stopping the collar of the sleeve 19 in the support collar of the stopper 18 (Fig. 2). Also, the movement of the sleeve 19 (see Fig. 4, 5) in the form of a differential piston can be carried out hydraulically (without a rope check valve) when creating excessive wellhead pipe or annular pressure to cut off the screws 25.

It should be noted (see figure 1) that the stopper 18, located in the radial channels 15 of the barrel 10, can be installed in the coupling 6 in the coupling 6 located on top (also can be bottom or middle, etc.) of the housing 1 to ensure either telescopic stroke only one way or a discrete change in the telescopic stroke up and respectively down, depending on the characteristics and parameters of the well. In a particular case, the stopper 18 can be removed from the housing 1. In this case, the housing 1 and the barrel 10 with respect to each other will have a free telescopic stroke even at the initial position of the housing, for example below pump 47 in the well 43 (see Fig. 8). to relieve dynamic loads during operation of the pump 47. In addition, the TSS descends into the well 43 on the pipe string 46 between two packers 44 and 45 (see Fig. 7), in particular for the possibility of a separate breakdown of the upper packer 44, and then the packer 45 behind account of the telescopic stroke up.

Claims (12)

1. Telescopic connection to compensate for thermobaric changes in the length of the pipe string in the well, including a housing and a barrel installed in it, interconnected by a telescopic stroke, a sealing seal, a cam stop and a sleeve, characterized in that the housing is made of several standard pipes connected interconnected by couplings, in one of which, depending on the length of adjustment of the telescopic stroke “up and / or down”, there is a stopper for rigidly connecting the body to the barrel having a radial grooves to accommodate the stopper and threaded radial holes in which shear screws are installed for fixing in the barrel of the sleeve, which is made with external grooves, in one of which the o-ring is placed, and in the other - shear screws, the sleeve being installed in the barrel with the possibility of movement down and has an internal landing channel for moving it down hydraulically using a rope check valve or mechanically using a percussion instrument, the outer bearing surface under the stopper for rigid fixation in the initial position of the barrel and the casing and an external groove for placing the stopper after it is moved downward, while the casing has an internal support collar, the barrel is made with an external stop and internal support collars. 2. The telescopic connection according to claim 1, characterized in that the sealing sealant is installed in the housing or on the barrel. 3. The telescopic connection according to claim 1, characterized in that the sleeve has a fixed sleeve for the cable check valve or percussion instrument. 4. The telescopic connection according to claim 1, characterized in that the barrel above the stopper is made with an internal bore to circulate the working medium after moving the sleeve down to the stop in the inner support collar of the barrel. 5. The telescopic connection according to claim 1, characterized in that the housing is made of tubing or drill pipe. 6. The telescopic connection according to claim 1 or 5, characterized in that the barrel is made of tubing or drill pipe. 7. The telescopic connection according to claim 1, characterized in that the housing is equipped with upper and / or lower sub. 8. The telescopic connection according to claim 7, characterized in that the upper and / or lower housing sub are made with internal splines, while the barrel, respectively, has a tip with an external stop collar made with external splines for transmitting torque at the upper and / or lower positions of the barrel relative to the body. 9. The telescopic connection of claim 8, characterized in that the tip of the upper barrel is made with a sealing ring. 10. The telescopic connection according to claim 1, characterized in that the stopper and the outer groove of the sleeve below are respectively made with an internal support and an external stop collars. 11. The telescopic connection according to claim 1, characterized in that the sleeve is equipped with a latch to prevent its reverse movement. 12. The telescopic connection according to claim 1, characterized in that the sleeve is made in the form of a differential piston installed in the barrel.

Images