RU63429U1 - Casing Repair Tool - Google Patents

Abstract

The proposal relates to the oil industry and can be used in the repair of casing strings in wells that are not cemented in their upper part. The device comprises a casing and a sealing plug in the form of a hollow elastically deformed body with the possibility of exceeding the diameter of the casing, while the elastically deformed body is reinforced from the inside with a metal cup, which is fixed on the bottom of the casing, and the inner diameter of the metal cup D _{1 is} smaller than the inner diameter of the casing D ₂ in transport position. Inside the casing string above the metal cup on the pipe string there is a cone equipped with a widening cone at the bottom, made of a diameter prefabricated die, which are spring-loaded by means of a spring and a sleeve. The dies are made with the possibility of limited movement only along the cone up. The dies are made with the possibility of pressing an elastically deformed body with a metal cup to the casing and with a base diameter D ₃ smaller than the inner diameter D _{1 of the} metal cup in its working position. The cone on top is provided with an internal cylindrical groove in which, with limited axial movement, a hollow rod is installed, equipped with a number of through channels, hermetically closed in the working position. A packer is installed between the hollow stem and the pipe string, consisting of a housing and a sleeve, as well as a sealing element installed between them, the sleeve being placed telescopically on top of the housing with the possibility of limited axial movement and radial expansion of the sealing element outward in the operating position. The upper end of the hollow rod from the top is rigidly connected to the packer body, and the lower end of the pipe string is rigidly connected to the packer sleeve. In the pipe string above the packer, a series of radial holes are made, communicating the interior spaces 1 of the pipe string and casing. The sealing plug from below is connected by means of a nozzle to a second sealing plug, also made in the form of a hollow, elastically deformed body with the possibility of exceeding the inner diameter D _{1 of the} casing string. The elastic deforming body is reinforced from the inside with a metal cup, the inner diameter D ₂ , which is smaller than the inner diameter D _{1 of the} casing in the transport position (D ₂ <D ₁ ).

The proposed device for repairing the casing string in the well has a simple design and eliminates the spill of the borehole fluid at the wellhead during the descent and lifting of the pipe string during the sealing of the sealing plug, which does not delay the duration of the lifting operations and does not contaminate the vicinity of the well territory, and improving the quality of repair of the casing of the well is achieved by sealing each violation of the conductor separately, which allows to extend the service life Wells until the next major overhaul. 2 ill. for 1 liter

Description

The proposal relates to the oil industry and can be used for the repair of casing strings in wells that are not cemented in their upper part.

A device is known for repairing a casing string in a well (RF patent for utility model No. 5,086, IPC 7 ЕВВ 33/13, published in Bulletin No. 7 of 03/10/2006), containing a casing string and a sealing plug in the form of a hollow, elastically deformed body with the possibility of exceeding the diameter of the casing string, while the elastically deformed body is reinforced inside with a metal cup, which is fixed on the bottom of the casing, the inner diameter of the metal cup being smaller than the inner diameter of the casing in the transport position and, while inside the casing string above the metal cup on the pipe string there is a piston with a cylinder, the piston cavity communicating with the pipe space of the pipe string, and from the bottom the cylinder is equipped with an expanding cone with an angle at the apex, made with the possibility of pressing an elastically deformed body with a metal cup to the casing column and with a base diameter smaller than the inner diameter of the metal glass in its working position.

The closest in technical essence and the achieved result to the proposed one is a device for repairing a casing string in a well (RF patent for utility model No. 52085, IPC 7 ЕВВ 33/13, published in bulletin No. 7 of 03/10/2006), containing the casing and the sealing plug in the form of a hollow elastically deformed body with the possibility of exceeding the diameter of the casing, while the elastically deformed body is reinforced from the inside with a metal cup, which is fixed on the bottom of the casing, and the inner diameter is metallic The pipe is smaller than the inner diameter of the casing in the transport position, while inside the casing above the metal pipe on the pipe string there is a piston with a cylinder, the piston cavity communicating with the pipe space of the pipe string, and the cylinder is equipped with a cone equipped with an expansion cone made by the diameter of the dies, which are spring loaded from above the cylinder and are made with the possibility of limited movement only along the cone up, and the dies are made with possible Stu uprugodeformiruyuschegosya clamping body with a metallic glass of the casing and having a diameter

base, smaller than the inner diameter of the metal glass in its working position.

Both analog and prototype have common disadvantages:

firstly, the complexity of the design associated with a large number of nodes and parts, in particular, a complex mechanism consisting of a pusher and an anchor node;

secondly, during the round-trip operations of the device on the pipe string into the well, which is filled with well fluid, the well fluid spills at the wellhead, and therefore the duration of the run is delayed and the area adjacent to the well becomes contaminated, and after the pipe string is lowered it must be completely filled with process fluid for planting the device;

thirdly, the sealing plug is installed only below the lower violation, which does not allow each violation to be sealed separately, and therefore the quality of the casing repair is reduced;

The technical task of the utility model is to simplify the design of the device for repairing the casing string in the well and to improve the quality of the repair of the casing string of the well by sealing each infringement of the conductor separately, as well as eliminating the outflow of liquid at the wellhead during tripping operations.

The technical problem is solved by the proposed device for repairing a casing string in a well, comprising a pipe string, a casing string and a sealing plug in the form of a hollow resiliently deformed casing with the possibility of exceeding the casing string diameter, while the resiliently casing casing is reinforced from the inside with a metal casing, which is fixed on the bottom of the casing, moreover, the inner diameter of the metal Cup is less than the inner diameter of the casing in the transport position, while inside the casing columns above the metal cup there is a cone equipped with a widening cone from the bottom, made of a die-shaped prefabricated in diameter, which are spring loaded and can only move upward along the cone, the dies being able to press the elastically deformed body with the metal cup to the casing and with a base diameter smaller than the inner diameter of the metal glass in its working position.

What is new is that the cone on top is provided with an internal cylindrical groove, in which, with limited axial movement, a hollow rod is installed, equipped with a number of through channels sealed in the working position, and a packer is installed between the hollow rod and the pipe string

the housing and the sleeve, as well as the sealing element installed between them, the sleeve being placed telescopically on top of the housing with the possibility of limited axial movement and radial expansion of the sealing element outward in the operating position, the upper end of the hollow rod being rigidly connected to the packer body and the lower end of the pipe string rigidly connected to the sleeve of the packer, while in the pipe string above the packer a series of radial holes are made, communicating the internal spaces of the pipe string and casing.

Also new is that the number of sealing plugs is at least two, and they are interconnected by nozzles.

The figure 1 shows the proposed device for the repair of casing in the well in longitudinal section.

The figure 2 shows a cross section of a cone with dies connected to it.

The device comprises a casing 1 (see FIG. 1) and a sealing plug 2 in the form of a hollow elastically deformed body 3 with the possibility of exceeding the diameter of the casing 1 by it, while the elastically deforming body is reinforced from the inside with a metal sleeve 4, which is fixed on the bottom of the casing 1, and the inner diameter of the metal cup D _{1 is} smaller than the inner diameter of the casing D ₂ in the transport position, as well as the pipe string 5 (for example, tubing string).

Inside the casing 1, above the metal cup 4, a cone 6 is placed, equipped with a widening cone 7 at the bottom, made of a diametrical assembly of dies 8, which are spring-loaded by means of a spring 9 and a sleeve 10.

The dice 8 (see figure 2) is connected to the cone 6, for example, by the connection "dovetail" and is made with the possibility of limited movement only along the cone 6 up. The dice 8 is made with the possibility of pressing the elastically deformed body 3 (see figure 1) with a metal cup 4 to the casing and with a base diameter D ₃ smaller than the inner diameter D _{1 of the} metal cup in its working position.

The cone 6 is provided on top with an inner cylindrical groove 11, in which, with limited axial movement, a hollow rod 12 is installed, equipped with a number of through channels 13, hermetically closed in the working position.

Between the hollow rod 12 and the pipe string 5, a packer 14 is installed, consisting of a housing 15 and a sleeve 16, as well as a sealing element 17 installed between them, and the sleeve 16 is placed telescopically on top of the housing 15

limited axial movement and radial expansion of the sealing element 17 outward in the working position. The upper end of the hollow rod 12 is rigidly connected from above to the housing 15 of the packer 14, and the lower end of the pipe string 5 is rigidly connected to the sleeve 16 of the packer 14. In the pipe string 5 above the packer 14, a series of radial holes 18 are made, communicating the internal spaces 19 and 20, respectively, of the column pipe 5 and the casing 1. The sealing plug 2 through the bottom nozzle 21 is connected with the second sealing stopper 2 'is also formed as a hollow body 3 uprugodeformiruyuschegosya' them with the possibility of exceeding the inner diameter D ₁ of the casing 1. elasticity odeformiruyuschiysya body 3 'is reinforced inside the metal cup 4' having an inner diameter D _2, which is smaller than the inner diameter D ₁ of the casing 1 in the transport position (D ₂ <D _1).

Unauthorized fluid flows during operation of the device are prevented by a sealing ring 22.

The device operates as follows.

Before the casing string 1 is lowered (see FIG. 1), sealing plugs 2 are assembled into the well; 2 '; 2 "... 2 ⁿ , which are connected by pipes 21; 21 '... 21 ⁿ , and the length of the pipes 21 is selected so that each violation 23; 23' ... 23 ^{n of the} pipe string 24 to be sealed (for example, conductor) was located above the corresponding sealing plug 2; 2 '; 2 "... 2 ⁿ and hermetically separated by the latter. On the lower end of the casing string 1, the assembled assembly of sealing plugs 2 is screwed; 2 '; 2 "... 2 ⁿ , for example, consisting of two sealing plugs 2 and 2 '(see figure 1) The casing 1 is lowered into the well until each of the sealing plugs 2 and 2' is below the violation interval 23; 23 ', respectively, of the pipe string 24 to be sealed in the well, after which the upper part of the casing 1 is fixed to the wellhead (not shown) of the well.

Then, a pipe string 5 is lowered into the casing 1 (for example, a tubing string) with a packer 14 and a hollow rod 12 connected to a cone 6 and with an expanding cone 7 made by a dovetail connection that is prefabricated in diameter from dies 8 to the stop the latter into the metal cup 4 of the sealing plug 2, as evidenced by the readings of the weight indicator (not shown in FIGS. 1, 2).

At the same time, during the descent of the pipe string 5 (see Fig. 1) into the casing 1, the fluid located in the well does not spill onto the surface and does not pollute it, nor does it slow down the speed of the pipe string 5 descent, while the downhole fluid flows from bottom to top through annular space between the packer 14 and the inner walls

casing string 1 and a series of radial holes 18 of the pipe string 5 fills the interior spaces 19 and 20, respectively, of the pipe string 5 and casing 1.

Next, the pipe string 5 begins to be unloaded onto the sealing plug 2, first the hollow rod 12 is lowered downward relative to the cone 6, while a number of through channels 13 of the hollow rod 12 are hermetically sealed by the inner cylindrical groove 11 of the cone 6, after which the dies 8 of the expanding cone 7, spring-loaded by means of the spring 9 and the sleeve 10, they begin to move upward relative to the cone 6, due to the dovetail connection with which the dies 8 are connected, until the sleeve 10 located on the cone 6 is limited to move upward, while the spring 9 is compressed, and the cone 6 remains stationary, and the weight indicator shows an increase in the readings by the amount of compression force of the spring 9, at the same time, the sleeve 16 of the packer 14 moves under the action of the weight of the pipe string 5 relative to the housing 15 of the packer 14, compressing the sealing element 17 of the packer 14, which is radially expanding outwardly pressed against the inner walls of the casing 1.

Then, the internal spaces 19 and 20, respectively, of the pipe string 5 and casing 1 are filled with the process fluid from the wellhead, and then the space between the casing 1 and pipe string 5 with the wellhead seal is sealed at the wellhead (not shown in FIGS. 1 and 2) , allowing in the process of planting the device to the string of pipes 5 hermetically move relative to the casing 1, rigidly mounted on the supporting flange of the casing.

Then, overpressure is created in the pipe string 5 and, accordingly, inside the hollow rod 12 and the cone 6 by means of a pump unit (not shown in FIGS. 1 and 2), while the excess pressure is transmitted in the inner space 19 of the pipe string 5 to the cone 6, which it is sealed from below, and in the inner space 20 of the casing 1 to the sealing element 17 of the packer 14, which is pressed against the inner walls of the additional casing 1 by the weight of the pipe string 5 and does not let the liquid pass from top to bottom, while at a certain moment The increase in overpressure of the pipe string 5, together with the equipment attached to it from below, begins to move downward relative to the casing 1, while the cone 6 exerts pressure on the dies 8, which turn and press the metal cup 4 with an elastically deforming body 3 to the inner walls of the pipe string 24 to be sealed below violations 23.

In the process of dying, the dies 8 of the expanding cone 6 will not be lower than the sealing plug 2, while the metal cup 4 with the elastically deforming body 3 are tightly and hermetically pressed against the inner wall

sealed pipe string 24, as evidenced by the pressure drop on the pressure gauge of the pump unit. Next, the pipe string 5 is pulled up until the dies 8 of the cone 6 abut against the sealing plug 2 '. Then, the excess pressure is again increased, as a result, the metal cup 4 'with the resiliently deforming body 3' of the sealing plug 2 'against the inner walls of the pipe string 24 to be sealed below the violation 23'. At the end of the turning, the cone 6 moves downward relative to the hollow rod 12 within its inner cylindrical groove 11.

As a result, a series of through channels 13 of the hollow rod 12 are opened, hermetically closed in the working position, while the space of the casing 1, under the packer 14 communicates with the inner space 19 of the pipe string 5, in addition, the borehole fluid located in the inner space 20 of the casing 1 flows through a series of radial holes 18 into the inner space 19 of the pipe string 5, and this eliminates the outflow of the wellbore fluid at the wellhead during further lifting of the pipe string 5. Then the pipe string 5 together with those located on e At the end, equipment is removed from the well. After that, the necessary equipment is lowered into the well and put into operation.

The proposed device for repairing the casing string in the well has a simple design and eliminates the spill of the borehole fluid at the wellhead during the descent and lifting of the pipe string during the sealing of the sealing plug, which does not delay the duration of the tripping operations and does not contaminate the vicinity of the well territory, and improving the quality of repair of the casing of the well is achieved by sealing each violation of the conductor separately, which allows to extend the service life Wells until the next major overhaul.

Claims (2)

1. A device for repairing a casing string in a well, comprising a pipe string, a casing string and a sealing plug in the form of a hollow resiliently deformed casing with the possibility of exceeding the casing string diameter, while the resiliently casing casing is reinforced from the inside with a metal cup fixed to the bottom of the casing, with an inner the diameter of the metal sleeve is less than the inner diameter of the casing in the transport position, while inside the casing above the metal sleeve times there is still a cone equipped with a widening cone from the bottom, made of prefabricated diameter of the dies, which are spring-loaded and made with the possibility of limited movement only along the cone upward, and the dies are made with the possibility of pressing the elastically deformable body with a metal cup to the casing and with a base diameter smaller than the inner diameter a metal cup in its working position, characterized in that the cone on top is provided with an inner cylindrical groove, in which with the possibility of limited axial movement of the installed hollow rod, equipped with a number of through channels, hermetically closed in the working position, and between the hollow rod and the pipe string installed a packer consisting of a housing and a sleeve, as well as installed between them a sealing element, and the sleeve is placed on top of the housing telescopically with the possibility of limited axial movement and radial expansion of the sealing element outward in the operating position, the upper end of the hollow rod being rigidly connected to the packer body, and the lower ec pipe string is rigidly connected to the packer sleeve, wherein in the pipe string above the packer formed a number of radial hole communicating interior space of the pipe string and the casing. 2. The device according to claim 1, characterized in that the number of sealing plugs is at least two, and they are interconnected by pipes.