EA034113B1 - Working element of perforating device - Google Patents

Abstract

The invention relates to devices used in the secondary opening of productive reservoirs. The working element comprises housing 1 with guide bar 2 and cutting saw chain 3. Drive gear 4, hydraulic motor 5 with fluid supply channel 6 are fixed on the guide bar 2, the hydraulic actuator consisting of hydraulic cylinder 7 with piston 8, which rod 9 is connected to the toothed rack 10 which is located in the channel 11 and interacts with the drive gear 4. The housing 1 contains vertical channels 12 with nozzles 13 located along the length of the working area, and gap 14 is made in housing 1. Vertical channels 12 with nozzles 13 are located at the exit of the slit 14 from the housing 1 along the entire height of the working area. The shaft 15 of hydraulic motor 5 is equipped with a drive gear 16 in contact with the sprocket 17 of the guide bar 2. In the piston space 19 of cylinder 7, the spring 20 is installed, which interacts with the additional piston 21. The technical result is an increase of the reliability of the device by reducing the vibration during the operation of the drilling device.

Description

The invention relates to the oil and gas industry, and in particular to devices used in the secondary opening of reservoirs.

A device for the secondary opening of oil and gas manifolds is known, comprising a housing with an engine and a drive shaft, a gear wheel pivotally mounted in the housing, a tire provided with a drive sprocket and articulated with the housing, an endless chain equipped with cutting elements and covering the tire and the drive sprocket, the housing is additionally equipped with a tire with a drive sprocket, two hydraulic cylinders and at least one fixing mechanism to the inner wall of the casing, the engine is kinematically connected to the pump and driving tire sprockets, the pump is connected to one hydraulic cylinder and the locking mechanism, the gear wheel is rigidly connected to the tires and covered by a chain whose ends are connected to the pistons of the hydraulic cylinders, and the free ends of the tires are opposite (patent for utility model of the Russian Federation No. 107546, published on 08.20.2011) .

A device for the secondary opening of the reservoir, including a housing with a drive placed therein for rotating and feeding the drilling tool, the latter is made in the form of a tire with a flexible working body and is equipped with a drive sprocket, a longitudinal guide groove is made in the tire, the drilling tool is kinematically connected with the drive, the body is equipped with a mechanism for fixing to the wall of the wellbore, the drilling device is pivotally mounted on the body, the guide groove is equipped with a slider made with the possibility of alternating scheniya inside the groove in the housing set screw pair, the screw of which is kinematically connected to the drive nut and coupled to the slide (utility model patent RF № 107 823, publ. 10.05.2011).

The following technical solutions in this technical field are also known: AU 1995032567, RU 2030563, RU 2137912, RU 2254450, RU 2030583.

As a result of patent research revealed a technical solution (EP 0774039), which is accepted by the applicant as a prototype. The device comprises a housing with a drive placed therein for rotation and supply of the drilling tool, the latter is made in the form of a tire with a flexible working body and is equipped with a drive sprocket and a drive gear that can interact with a gear rack, the drilling device is made with the possibility of movement inside the housing.

The disadvantage of this design is its complexity and insufficient rigidity, which can lead to unwanted vibrations and damage to the tool.

The technical task of the proposed solution is to simplify the device while improving the reliability of its operation.

The technical result consists in increasing the reliability of operation by reducing vibration during operation of the drilling device.

An additional technical result consists in providing the possibility of cooling the working body, which also provides increased reliability of operation of the device.

The technical problem is achieved by the fact that the working body of the perforating device includes a housing with a drive placed therein for rotation and feeding of the drilling device, which is made in the form of a tire with a flexible working body and is equipped with an asterisk and drive gear having the ability to interact with the gear rack, the drilling device is made with the possibility of movement inside the housing, characterized in that the housing is made integral, the gear rack is placed in a vertically oriented channel of the housing, its upper part connected to the piston rod of the hydraulic cylinder formed in the whole housing, for the tire to be brought into operating position, a slot is made in the housing, the axial line of which is the chord of the section of the housing, at the outlet of the gap from the housing, along the entire height of the tire’s working area, additional vertical channels are made in the housing, slots located on both sides and provided with nozzles, while a spring is installed in the piston cavity of the hydraulic cylinder in contact with the pistons with the possibility of an additional piston acting on it.

Comparison of the proposed solution with the prototype shows that it differs in the following features:

the case is made integral;

a gear rack is placed in a vertically oriented channel of the housing;

to bring the tire into working position, a slot is made in the housing;

the centerline of the slit is the chord of the section of the body;

additional vertical channels are made at the exit of the slit from the housing along the entire height of the working zone of the tire in the housing;

additional vertical channels are located on both sides of the gap;

additional vertical channels are provided with nozzles;

a spring is installed in the piston cavity of the hydraulic cylinder in contact with the reapers with the possibility of acting on it with an additional piston.

The claimed technical solution can be performed using known technological processes, therefore, it meets the criterion of industrial applicability.

The main problems of devices that use the saw chain are increased tire vibration and overheating of the saw chain. It is also known from practice that when cutting a cutting saw

- 1 034113 chain in the casing may break the circuit, which leads to a significant investment of time for replacing the tool. In the claimed technical solution, in order to reduce vibration, the entire gear rack, which ensures the rotation of the tire, is located in a vertically oriented channel specially created in a single body. Accordingly, the drive gear with which the gear rack interacts, the gear rack itself and the one-piece housing are a closed system. The proposed structural embodiment reduces vibration loads on the tire. To avoid jamming of the chain and its breakage when cutting into the casing string, a constant clamping force is created on the tire, which is ensured by a spring installed in the piston space of the hydraulic cylinder, providing a gear rack supply. The cutting chain is cooled throughout the entire working area due to the vertical channels with nozzles. Thus, the claimed technical solution meets the criterion of inventive step.

In FIG. 1 shows the inventive working body of the perforating device.

In FIG. 2 shows a section of the inventive working body in section AA with two tires.

The working body contains a housing 1, inside of which a tire 2 with a cutting saw chain 3 is installed, a drive gear 4 is mounted on the tire 2, a hydraulic motor 5 with a fluid (water) supply channel 6, which serves to drive (rotate) the tire 2, a hydraulic actuator consisting from a hydraulic cylinder 7 with a piston 8, the rod of which 9 is connected to a gear rack 10, which is all located in the channel 11 for its movement, interacting with the drive gear 4. In addition, the housing 1 contains vertical channels 12 with nozzles 13 located along the entire length of the working zones for hearth water through them under high pressure (to increase the efficiency of perforation) and cooling the cutting saw chain 3. In the housing 1, a slot 14 is made to allow the tire 2 to rotate. Vertical channels 12 with nozzles 13 are located at the exit of the slot 14 from the housing 1, throughout working area height. The shaft 15 of the hydraulic motor 5 is equipped with a drive gear 16 in contact with the sprocket 17 of the tire 2. In the piston space 19 of the cylinder 7, a spring 20 is mounted, which is acted upon by an additional piston 21. A perforating device with the inventive working body is placed in the casing 18 of the well. The design of the device may include a second drilling device. In this case, the second drilling device is located in the housing symmetrically with respect to the horizontal center line of the cross section of the device, and when the device is in operation, the tires 2 are directed in opposite directions (Fig. 2).

The inventive working body of the perforating device operates as follows.

A perforating device is connected to the tubing string by means of a coupler (not shown). During the descent of the device into the borehole to the perforation zone, the tube space is filled with borehole fluid. After the device reaches the perforation zone, the descent stops. A working fluid is supplied into the tubing under pressure, which, passing through the filter, enters the channel 6 of the hydraulic motor 5, bringing the shaft 15 with the drive gear 16 into rotation, and through it the sprocket 17, which, in turn, drives cutting saw chain 3 on bar 2.

Liquid under pressure also enters the cylinder 7 of the hydraulic actuator and, acting on the piston 21, and then through the spring 20 and the piston 8, transmits the force through the rod 9 of the gear rack 10, interacting with the drive gear 4, mounted on the tire 2. As a result, the gear 4 rotates the tire 2 in the slots 14, and the cutting saw chain 3 cuts into the wall of the casing 18, while the tire 2 is under constant force, which is provided by the spring 20 pressure on the piston 8 under the influence of the piston 21. As the tire 2 further rotates, the cutting 2 drank Naya circuit 3 is in contact with the ground near-wellbore zone, cutting it and forming slits (perforations). With further movement (rotation) of the tire 2, for example, to the position indicated by the dotted line in FIG. 1, an extensive perforation gap is formed (the penetration depth into the soil can reach 1.5 m). When the piston 8 reaches the bottom point (bottom), the cylinder 7 of the hydraulic actuator stops acting on the drive gear 4, the rotation of the tire 2 stops. The angle between the initial position of the tire 2 and the final position is about 120 °. This is necessary so that there is no difficulty in returning the tire 2 to its original position by lifting the punch, which is necessary to transfer the punching device to the next bottomhole zone. When lifting the punch, the tire 2 abuts against the ground and the casing 18, while the drive gear 4 rotates in the opposite direction and raises the gear rack 10, rod 9 and piston 8 to their original position. Then the cycle repeats.

The operation of the device with two tires occurs in a similar way, while it is necessary to have sufficient pressure of the fluid supplied to the hydraulic motor 5 and cylinders 7.

Thus, the claimed technical solution allows to increase the reliability of the device by reducing vibration during operation of the drilling device and provides cooling of the working body.

Claims (3)

CLAIM 1. The working body of the perforating device, comprising a housing with a drive for rotating and feeding the drilling device, which is made in the form of a tire with a flexible working body and is equipped with an asterisk and drive gear that can interact with the gear rack, the drilling device is movable inside the housing, characterized in that the housing is integral, the gear rack is placed in a vertically oriented channel of the housing, its upper part is connected to the piston rod an indra formed in a single-piece casing, a slot is made in the casing for bringing the tire to its working position in the casing, the axial line of which is the chord of the section of the casing; additional vertical channels located on both sides are made in the casing along the entire height of the working zone of the tire slots and provided with nozzles, while in the piston cavity of the hydraulic cylinder there is a spring in contact with the pistons with the possibility of acting on it with an additional piston. 2. The working body according to claim 1, characterized in that it contains an additional drilling device, which is located symmetrically relative to the horizontal axial line of the cross section of the perforating device. 3. The working body according to claim 2, characterized in that the tires of the drilling devices during operation are directed in opposite directions.