RU227974U1 - Self-setting packer - Google Patents

Abstract

The utility model relates to the oil and gas production industry, namely to packer devices containing an energy charge, and can be used in well repair and various process operations. The self-setting packer comprises a head part, a chamber for placing an energy charge, an energy charge, a piston, a cylindrical rod with an axial longitudinal hole and a transverse hole connected to it, put on the cylindrical rod: at least one slip assembly with teeth on its outer surface, at least one conical sleeve, which are mated with each other along conical surfaces made on them in such a way that when they are shifted towards each other, a force directed radially from the axis of the cylindrical rod acts on the slip assembly, a sealing element, a thrust ring in the upper part of the cylindrical rod and a hollow power cylinder in the lower part of the cylindrical rod. The head part is hermetically connected to the upper part of the cylindrical rod in a way that provides for their disconnection from each other under a given force. The piston is connected to the lower part of the cylindrical rod and has a diameter larger than the diameter of the cylindrical rod. The hollow power cylinder is hermetically placed on the cylindrical rod with its upper part so that it can slide along it, and hermetically placed on the piston with its lower part so that it can slide along the piston. The axial longitudinal opening of the cylindrical rod is connected to the internal volume of the head part, and the transverse opening goes into the gap between the piston and the upper part of the hollow power cylinder. The chamber for placing the energy charge with the energy charge located in it is made in the head part of the self-adjusting packer. The technical result is to increase the strength and reliability of the device, as well as to improve its technical characteristics. 1 Fig.

Description

The utility model relates to the oil and gas production industry, namely to packer devices containing an energy charge, and can be used in well repair and various technological operations.

An energy charge is a pyrotechnic charge that contains a combustible substance and an oxidizer and that is capable of burning without access to air, releasing gases as combustion products that create high pressure in a closed space.

A packer is known (patent for utility model RU No. 107545), containing a metal cylindrical body with a chamber inside, in which an igniter and an energy charge in the form of gunpowder are placed. When the igniter is triggered, the gunpowder begins to ignite. The combustion products (gases) released during this create pressure inside the metal body sufficient for its deformation, swelling and tightly blocking the well interval at the location of the packer.

The disadvantage of this packer is its inability to withstand a large pressure difference between the sections of the well below and above the installed packer.

A well device (US patent No. 2618343) is known that installs a packer using the energy of gases formed during combustion of an energy charge. The device has a head part with a chamber for placing the energy charge, a hollow power cylinder with a piston and a slip-type packer connected to the head part. The hollow power cylinder with the piston form a pneumatic chamber into which gas from the burning energy charge enters under pressure. The transmission of force to the slip-type packer is carried out through an intermediate hydraulic chamber.

The disadvantages of this device are the complexity of the design, inconvenience of maintenance, heavy weight and insufficient reliability.

A self-setting packer is known (US patent No. 7017672). The packer contains a rod with slip elements, cones, a sealing element, and a power cylinder put on it.

On the lower part of the rod there is a piston of a larger diameter than the rod. A cavity passes through the rod, in which the energy charge is placed, and which is connected to a transverse hole that goes into the gap between the piston and the power cylinder. The power cylinder is designed to slide along the rod and piston while maintaining tightness at the points of contact. The power cylinder, piston and rod form a pneumatic cylinder, into which gas enters under pressure when the energy charge burns. In this case, the power cylinder shifts upward along the rod, leading to the movement of the slip elements along the cones, deformation of the sealing element and, ultimately, a strong and tight installation of the packer in the well.

The disadvantage of this self-setting packer is that the placement of the energy charge in the rod, which is the main force-absorbing element of the packer design, leads, when the charge burns, to strong heating of the rod and other parts of the packer surrounding the charge. This causes their deformation, reduction of strength properties and even melting. As a result, the installation of the packer in the well is likely to be of poor quality: the packer will not be able to ensure hermetic retention of the pressure difference between the under- and above-packer areas of the well, and the mechanical strength of the packer's adhesion to the walls of the well will be reduced.

The closest analogue of the claimed device is a self-installing packer (US patent No. 10443331), used for installation in oil and gas wells to isolate sections of the wellbore.

This device contains a cylindrical rod with the following installed on it: a thrust ring, a sealing element, upper and lower conical bushings, slip assemblies contacting the conical bushings, a piston and a power cylinder. The cylindrical rod is made with a central longitudinal opening, which serves as a chamber for placing the energy charge. In addition, a transverse opening is made in the cylindrical rod, connecting the central longitudinal opening with the space between the power cylinder, piston and cylindrical rod. The cylindrical rod is hermetically connected with its upper part to the head using a structural element that is destroyed under a certain axial force.

The disadvantage of this self-setting packer is that the placement of the energy charge in the cylindrical rod, which is the main force-absorbing element of the packer design, leads, when the charge burns, to strong heating of the rod and other parts of the packer surrounding the charge. This causes their deformation, reduction of strength properties and even melting. As a result, the installation of the packer in the well is likely to be of poor quality: the packer will not be able to ensure hermetic retention of the pressure difference between the under- and above-packer areas of the well, and the mechanical strength of the packer's adhesion to the walls of the well will be reduced.

The objective of the claimed utility model is to increase the strength and reliability of the device, as well as to improve its technical characteristics.

The essence of the claimed utility model is that in a self-aligning packer comprising a head part, a chamber for placing an energy charge, an energy charge, a piston, a cylindrical rod with an axial longitudinal hole and a transverse hole connected to it, put on the cylindrical rod: at least one slip assembly with teeth on its outer surface, at least one conical sleeve, which are mated with each other along conical surfaces made on them in such a way that when they are shifted towards each other, a force directed radially from the axis of the cylindrical rod acts on the slip assembly, a sealing element, a thrust ring in the upper part of the cylindrical rod and a hollow power cylinder in the lower part of the cylindrical rod, wherein the head part is hermetically connected to the upper part of the cylindrical rod in a manner that provides for their disconnection from each other under a given force, and the piston is connected to the lower part of the cylindrical rod and has a diameter greater than the diameter of the cylindrical rod, wherein the hollow power cylinder the upper part is hermetically placed on a cylindrical rod with the ability to slide along it, and the lower part is hermetically placed on a piston with the ability to slide along the piston, wherein the axial longitudinal opening of the cylindrical rod is connected to the internal volume of the head part, and the transverse opening goes into the gap between the piston and the upper part of the hollow power cylinder, the chamber for placing the energy charge with the energy charge located in it is made in the head part.

The technical result of the utility model consists in increasing the strength and reliability of the device, as well as improving its technical characteristics.

The claimed utility model is explained with the help of Fig. 1, which shows a general view of the device. In Fig. 1, positions 1-16 indicate:

1 - head part;

2 - chamber for placing the energy charge;

3 - energy charge;

4 - piston;

5 - cylindrical rod;

6 - axial longitudinal hole;

7 - transverse hole;

8 - slip knot;

9 - conical bushing;

10 - sealing element;

11 - thrust ring;

12 - power cylinder;

13 - destructible element;

14 - sealing rings;

15 - sealing rings;

16 - cork.

The main force-absorbing element of the packer design is the cylindrical rod 5. The cylindrical rod 5 has a thrust ring 11 in its upper part, which can be formed on the rod 5 during its manufacture or made as a separate part and secured to the cylindrical rod 5 in a manner known in the art, for example, using a threaded connection.

The head part 1 is hermetically connected to the upper part of the cylindrical rod 5, for example using rubber sealing rings. The strength of the connection is determined by the destructible elements 13, for example made in the form of shear pins that are sheared under a given force.

In the head part 1 a cavity is formed, which is a chamber for placing the energy charge 3. The head part 1 in its upper part has connection dimensions for connection with downhole instruments or a logging cable (not shown in Fig. 1). The chamber for the energy charge 2 is hermetically sealed at the top, for example, with a plug 16, and at the bottom it is connected to an axial longitudinal opening 6 passing through a cylindrical rod 5.

The energy charge 3 can be made with an igniter built into it, or the igniter can be located in the head part 1 separately from the energy charge 3, for example in the plug 16.

In the lower part of the cylindrical rod 5 there is a piston 4, which can be formed on the rod 5 during its manufacture or made as a separate part and fixed on the cylindrical rod 5 in a manner known in the art, for example, using a threaded connection. In this case, the piston 4 has a diameter larger than the diameter of the middle part of the cylindrical rod 5.

The following are mounted on the cylindrical rod 5 with the possibility of moving along it: slip assemblies 8, one or more, conical bushings 9, one or more, at least one sealing element 10, and a power cylinder 12. The power cylinder 12, hollow inside, with its upper part hermetically contacts the middle part of the cylindrical rod 5, and with its lower part, also hermetically, with the outer surface of the piston 4. The hermeticity is ensured by methods known from the prior art, for example, by sealing elastic rings 14 and 15.

Slip assemblies 8 and conical bushings 9 are mated with each other by conical surfaces made on them.

The sealing element 10 is an elastic seal made, for example, from rubber or other elastomeric materials that can withstand the well environment and temperature.

The axial longitudinal hole 6 is connected to the transverse hole 7, made in the lower part of the cylindrical rod 5 or piston 4 and extending into the gap between the power cylinder 12, piston 4 and cylindrical rod 5.

The thrust ring 11 in the upper part and the power cylinder 12 in the lower part of the claimed device limit the movements of the slip assemblies 8, conical bushings 9 and sealing elements 10 along the cylindrical rod 5.

The cylindrical rod 5, conical bushings 9, thrust ring 11 can be made of metal or polymer materials known in the art, of sufficient strength.

The slip unit 8 must be made of high-hardness materials, such as hardened alloys or cast iron. The slip unit 8 may have a monolithic structure or be a block assembled from individual parts. The teeth of the slip unit 8 may be formed on the parts themselves, such as by cutting, or inserted into the body of the unit, or made using another technology known from the state of the art.

The head part 1 is made mainly from heat-resistant alloys, which allows it to be used repeatedly.

The self-setting packer works as follows.

To lower the packer into the well to a specified depth, serial well equipment is used with a logging cable.

When installing a self-setting packer on downhole equipment, electrical contact is made between the igniter of the energy charge and the electrical cores of the logging cable.

The signal from the day surface transmitted via the logging cable causes ignition of the energy charge 3. When the energy charge burns, a large amount of combustion products - gases - is released. The pressure in the internal cavities of the packer: in the chamber for placing the energy charge 2, in the axial longitudinal opening 6, in the transverse opening 7, in the gap between the cylindrical rod 5, piston 4 and power cylinder 12 - increases as the energy charge burns.

When the pressure inside the packer cavities equals the pressure in the well, in the interval where the packer is located, and continues to increase further, then under the action of gases the power cylinder 12 will begin to move upward along the piston 4 and the cylindrical rod 5.

In this case, under the action of the pressure of the power cylinder 12, the slip assemblies 8 will move and the sealing element 10 will be deformed. The slip assemblies 8 will move along the conical surfaces of the conical bushings 9 and will wedge between the bushings 9 and the well walls, firmly fixing the packer in the well. The sealing element 10, deforming, will tightly close the gap between the cylindrical rod 5 of the packer and the well walls, ensuring tightness.

With a further increase in pressure inside the packer cavities, the fastening elements 13, which connect the head part 1 with the cylindrical rod 5, will be destroyed. After which the well equipment together with the head part 1 is raised to the daylight surface, and the packer remains installed in the well.

The technical solution used in the claimed device allows to increase the strength and reliability of the device, as well as improve its technical characteristics.

The claimed device has successfully passed factory tests at one of the enterprises in Saratov, confirming its functionality and reliability.

Claims (1)

A self-aligning packer comprising a head portion, a chamber for accommodating an energy charge, an energy charge, a piston, a cylindrical rod with an axial longitudinal hole and a transverse hole connected to it, put on the cylindrical rod: at least one slip assembly with teeth on its outer surface, at least one conical sleeve, which are mated with each other along conical surfaces made on them in such a way that when they are shifted towards each other, a force directed radially from the axis of the cylindrical rod acts on the slip assembly, a sealing element, a thrust ring in the upper part of the cylindrical rod and a hollow power cylinder in the lower part of the cylindrical rod, wherein the head portion is hermetically connected to the upper part of the cylindrical rod in a manner that provides for their disconnection from each other under a given force, the piston is connected to the lower part of the cylindrical rod and has a diameter greater than the diameter of the cylindrical rod, wherein the hollow power cylinder with its upper part is hermetically put on the cylindrical rod with the possibility of sliding along it, and with its lower part hermetically placed on the piston with the ability to slide along the piston, the axial longitudinal opening of the cylindrical rod is connected to the internal volume of the head part, and the transverse opening goes into the gap between the piston and the upper part of the hollow power cylinder, characterized in that the chamber for placing the energy charge with the energy charge located in it is made in the head part of the self-adjusting packer.