EA014439B1 - A device for perforating a well - Google Patents

Abstract

The invention relates to oil and gas industry, in particular to devices for orienting perforators in a well, and can be used for the perforation of casing pipes in oil and gas wells. The technical problem of the claimed useful model is simplifying a construction of the perforator and providing the control of the perforator operation only by a hydraulic system. A device for perforating the well comprises a body with a slewing mechanism placed in it, containing a spring loaded piston distributor and two half-couplings, one of which is spring-loaded in the axial direction, and the other one is rigidly connected to the body; a perforating element that is made in the form of at least two pistons, provided with a piercing tool, the pistons are made with the possibility of radial movement and connected to the hydraulic system; the hydraulic system is a hydraulic drive, on which a series connection valve is additionally mounted; the half-couplings of the slewing mechanism are made cogged, and one cogged half-coupling of the slewing mechanism is made with two degrees of freedom and connected to the spring loaded piston distributor by means of the screw-nut connection and spring-loaded relatively the piston distributor, and a reducing coupling for connecting with a pump-compressor pipe is mounted in the upper part of the body.

Description

The invention relates to orientable devices for perforating casing strings in oil and gas wells and can be used in the oil and gas industry.

Known downhole drill with an internal orientation system, comprising at least one cylindrical body with inner and outer surfaces, having the ability to rotate around its longitudinal axis, located in the housing, a substantially cylindrical pipe with inner and outer surfaces and at least one located in it a cumulative charge and at least one load located on the outer surface of the pipe, which shifts the center of gravity of the perforator relative to its longitudinal axis and has znye openings aligned with the shaped charge (patent EA 005840 B1 30.06.2005. IPC E21V43 / 119).

A device is also known for orienting a cumulative perforator, comprising sections including a case in the form of a sleeve located inside the frame and fixed in its lower and upper parts of the sleeve, and at the end end of each sleeve of the frame of the cumulative perforator in the diameter plane parallel to the axis of the sleeve there are two blind cylindrical holes , in one of which a spring-loaded pin is installed, partially extended from the hole, the device is equipped with a rotary device in the form of a flange containing in parts, pressed to the end surface of the upper sleeve, two blind cylindrical holes located in accordance with the location of the holes in all the bushings, in one of the holes there is a spring-loaded pin partially extended from the hole (RF patent No. 2304702, publ. 20.01.2007).

The disadvantages of the known devices include the fact that the orientation of the perforator in the well requires the installation of a special measuring device, a marking system, angle measurements, and application of calculation methods taking into account the azimuth of the borehole section. This complicates the technology of opening the formation and the design of perforators, requires additional equipment and time.

Closest to the proposed one is a drilling perforator-sampler, including a connecting cable head, a housing with an electric motor placed in it, a two-stage planetary gearbox having a second stage hollow shaft, and a rotation mechanism, a casing with a mounted drive, a clamping lever and a retractable drill, characterized in that that it contains a pressure compensator, the mounted drive is made in the form of a hydraulic actuator, the rotation mechanism is placed on the hollow shaft of the second stage of the planetary gearbox and located in the cavity formed by the casing and the casing, movably connected relative to each other, the casing has a partition and grooves, the hollow shaft of the second stage of the planetary gear on the outer surface has two axially spring-loaded ratchet coupling halves, one of which is made with internal slots included in engagement with the corresponding splines made on the outer surface of the hollow shaft of the second stage of the planetary gearbox, and the other half-coupling has radial spikes, mating with the grooves of the casing movably in the axle th direction, and the response ratchet teeth are located, respectively, on the shoulders of the casing and the partition of the housing, while the height of the ratchet teeth on the partition of the housing is greater than the height of the teeth on the shoulders of the casing, RF patent No. 2163249 IPC Е21В 49/06, publ. 02.20.2001, selected by the applicant as a prototype.

The disadvantage of this device is the design complexity, because it uses an electric motor, planetary gearbox, hydraulic drive, which is driven by a shaft, providing perforation due to drilling the casing wall. Also, when using this device, it is quite difficult to ensure the rotation of the puncher at a given angle, since the suspension of the device is a cable. If this device perforates a well, then it is necessary to additionally move the entire structure along the vertical axis, which requires additional labor and energy costs for such manipulations. As a result, the use of a known design requires a complex control system and an expensive maintenance system.

The technical task of the claimed invention is to simplify the design of the punch and its control system while providing the ability to rotate the punch in the well at a given angle.

The technical problem is solved in that the perforator contains a housing with a rotational mechanism located therein, a perforating organ, a hydraulic system in communication with the perforating organ, the rotational mechanism is equipped with half couplings, one of which is spring loaded in the axial direction, and the second is rigidly connected to the housing, characterized in that the perforating body is made in the form of at least two pistons equipped with a piercing tool, the pistons are made with the possibility of translational-radial movement, the hydraulic system is a hydraulic the actuator, on which the sequential switching valve is additionally installed, the rotation mechanism is additionally equipped with a spring-loaded piston-distributor, which is in communication with the hydraulic actuator, the half-couplings of the rotation mechanism are gear, and one gear half-coupling of the rotation mechanism is made with two degrees of freedom and is connected to the spring-loaded piston-distributor by screw-nut connections and is spring-loaded relative to the piston-distributor, and in the upper part of the housing there is an adapter sleeve for connecting with tubing.

Comparison of the claimed invention with the prototype shows that it differs in the following

- 1 014439 signs:

an additional sequential valve is installed on the hydraulic line;

the perforating body is made in the form of at least two pistons equipped with a piercing tool;

the pistons of the perforating body are made with the possibility of radial movement; the rotation mechanism is additionally equipped with a spring-loaded piston distributor; both coupling halves of the rotation mechanism are gear;

one gear half-coupling of the rotation mechanism is made with two degrees of freedom, connected to a spring-loaded piston-distributor by means of a screw-nut connection, spring-loaded relative to the piston-distributor;

an adapter sleeve is installed in the upper part of the casing, which ensures the connection of a perforator with a tubing (tubing).

Comparison of the claimed technical solution with the prototype allows us to conclude that the claimed invention meets the criterion of novelty.

The invention can be manufactured on standard equipment using well-known processes, therefore, we can conclude that it meets the criterion of industrial applicability.

As a result of our patent information research, the claimed combination of features was not identified. It should be noted that, in contrast to the prototype, the claimed device has the ability to rotate at a given angle. This allows perforation over the entire surface of the production casing section and eliminates the need to orient the punch in the well in azimuth. In the inventive device, the rotation of the punch and the perforation process is performed from a hydraulic actuator connected with the tubing. It should be noted that the rotation of the hammer is relative to the fixed suspension of the tubing. The inventive device can significantly reduce labor and energy costs for the perforation process while simplifying the design and process control. The inventive device provides a technical result, which obviously does not follow from the prior art. The above allows us to conclude that the claimed invention meets the criterion of inventive step.

The figure schematically depicts the inventive perforator, which was manufactured for industrial testing.

The device consists of a cylindrical housing 1 with a gear coupling half 10, a transition sleeve 2 connected to the tubing. A rotary mechanism is installed in the perforator, which comprises a piston distributor 3 with a screw 4 and a gear half-coupling 5, which have a screw nut connected to each other, while the gear half-coupling 5 is spring-loaded relative to the distribution piston 3 by a spring 12 and has the possibility of rotation and longitudinal movement. In the piston-distributor 3 there are channels for supplying the working fluid to the hydraulic line 11 of the punch (in the drawing, the channels in the piston are shown with a dashed line), and it is equipped with a return spring 6. A serial valve (CPV) 9 is installed on the hydraulic line 11 of the punch, and pistons 7 with a piercing tool 8 (the possibility of translational-radial movement).

The device operates as follows. The perforator is lowered into the well on the tubing string to the place of perforation. In this case, the tubing string is connected to the device by a transition sleeve 2 (not shown in the drawing). When the working fluid is supplied under a pressure of 10 MPa into the cavity of the adapter sleeve 2, the distributor piston 3 begins to move along the device axis, and the spring 12 compresses. Due to the fact that the distributor piston 3 has a screw-nut connection with the gear coupling half, it starts rotation around the axis. Since the gear coupling half 5 is meshed with the gear coupling half 10 of the housing 1, the housing 1 rotates, and the rotation angle is determined by the tooth pitch of the coupling halves. After the movement of the piston-distributor 3 is completed, the working fluid supply channel is connected to the hydraulic line of the hammer drill 11. Then, the fluid pressure is raised to 60 MPa, while the sequential switching valve 9 is switched on and the working fluid flows into the working cavity of the pistons 7. Piston 7 with a piercing tool 8 moves in the radial direction and the puncture wall is punctured. Then the pressure of the working fluid is lowered to 10 MPa, which switches the sequential valve 9, while the supply of working fluid to the piston cavity of the pistons 7 and the return of the pistons 7. Then the pressure is released to 0 MPa. Under the load of the return spring 6, the piston distributor 3 returns to its original position, while the coupling half 5 is rotated in the opposite direction and again engages with the coupling half 10. The device is ready for the next cycle.

The claimed invention allows for the rotation of the perforator in the well at any desired angle, which eliminates the need to orient the perforator in azimuth, and perforate the production casing with maximum density, while the entire control process is performed using only a hydraulic system, which greatly simplifies the process, reduces labor and energy costs.

Claims (1)

CLAIM A device for perforating a well, comprising a housing with a rotational mechanism located therein, a perforating organ, a hydraulic system in communication with the perforating organ, the rotational mechanism is provided with half couplings, one of which is spring loaded in the axial direction, and the second is rigidly connected to the housing, characterized in that the perforating organ made in the form of at least two pistons equipped with a piercing tool, the pistons are made with the possibility of radial movement, the hydraulic system is a hydraulic actuator, on which the sequential switching valve is installed, the rotation mechanism is additionally equipped with a spring-loaded piston-distributor, which is in fluid communication, the coupling halves of the rotation mechanism are gear, while one gear-coupling half of the rotation mechanism is made with two degrees of freedom and is connected to the spring-loaded piston by distributing the screw nut and spring-loaded relative to the piston distributor, and in the upper part of the housing there is an adapter sleeve for connection with a pump-compressor hydrochloric pipe.