RU2376459C2 - Device for secondary opening of production reservoirs with mechanical treatment - Google Patents

Abstract

FIELD: oil-and-gas production.

SUBSTANCE: invention related to oil-and-gas production, particularly to devices for secondary opening of production reservoirs with mechanical treatment till boring filtrate penetration depth, slurries and other reservoir contaminating fluids. Device contains void case on logging cable with located inside engine, boring unit, guide lines, washing unit, case fixing in the well mechanism. Bore compiled from consecutive set of bayonet conjugative coupling boxes 15 and equipped wit cutting tool on its working end. Every coupling box 15 equipped from one side with spherical ring belt 18 with lugs 19, and form other side with cylindrical belt 20, inside of which there is cylindrical cavity 11, adequate to spherical belt surface 18. Spherical cavity 21 has "T"-shaped windows 22 from the cavity to outside for logs 19 of spherical ring belt 18 and channel for locking ring 23.

EFFECT: avoid cleaning fluid losses in plug connections, device simplification and possibility to take bore away from treated canal.

5 dwg

Description

The invention relates to the oil and gas industry, and in particular to devices for the secondary opening of productive formations by machining to a depth of penetration of the filtrate of drilling, grouting and other polluting process fluids and further.

A device for opening productive formations according to patent No. 2137912, class. E21E B 43/00, 1999, containing a cutting device in the form of a saw with a lever carrying an endless chain with cutting elements. The disadvantages of this device are the structural complexity and unreliability in operation due to the large number of cutting elements involved in the opening process, and the high cost.

Known drilling perforator according to patent No. 2243363, comprising a housing, a drill, a curved guide for a drill. The drill is made of composite bushings of cylindrical shape on the outside and non-circular inside, as well as inserts repeating the shape of the holes of the bushings. A spring-loaded cable is passed through the bushings. One side of the drill is connected to the fifth, and the other to the cutting head.

The disadvantage of this device is the low rigidity of the drill and, as a consequence, the unreliability of the device in operation.

The closest claimed technical essence is the device for the secondary opening of the reservoir by drilling according to patent No. 2232873, class. 7E21B 43/11, BI No. 20, 2004. It contains a tubular body, inside of which there is an electric drive, a drilling unit for rotating and feeding the drill, a horizontal guide in the form of a conductor, a vertical guide in the form of a cartridge, a flushing unit, a housing fixing mechanism in the well , and the body suspension in the form of a wireline cable. The drill is made in the form of a sequential set of sleeves, by the addition of which the drill is expanded from the cassette during drilling. The end of the drill is equipped with a cutting tool. The device transmitting rotation to the drill contains a spindle and is mounted on a horizontal rail.

The disadvantage of the closest analogue is the leakage of flushing fluid at the junction of the sleeve with the spindle of the device transmitting the rotation of the drill, especially when the sleeve is removed from the cartridge, which does not provide the required intensity of cleaning the treatment area from sludge and creates a risk of jamming of the drill and tool breakage, the complexity of the cartridge storage device bushings and building them into the drill rod, the practical impossibility of removing the drill from the treated channel, which significantly reduces its useful section.

The technical result provided by the use of the claimed invention is the elimination of losses of flushing fluid at the joints of the bushings and, as a result, intensive removal of sludge from the cutting zone, simplification of the device and the possibility of removing the drill from the treated channel.

This technical result is achieved by the fact that in the device for the secondary opening of the productive formation by mechanical treatment, comprising a drill feed and rotation mechanism, a washing unit, a housing fixing mechanism to the borehole wall, a drill with a cutting tool at the end, composed of a series of paired between each sleeve coupling, guides for moving the drill from vertical to horizontal vector and the housing suspension in the form of a wireline cable, each drill coupling sleeve is equipped with of the bottom side with a sphere-shaped annular belt with protrusions, and on the opposite side, with a cylindrical belt inside which there is a spherical cavity, an adequate response to the surface of the sphere-shaped belt, and having T-shaped windows from the cavity outward under the protrusions of the sphere-shaped ring belt.

The presented drawings illustrate the claimed invention, which shows:

figure 1 is a General view of the device, figure 2 is the working part of the drilling unit, figure 3 - sleeve coupling, rigidly interconnected with direct rotation of the drill, figure 4, 5 - in two projections of the sleeve coupling freely interconnected during reverse rotation of the drill.

The device comprises a housing 2, which is lowered into the well on a wireline 1, in which a drilling unit 3 for rotation and supply of the drill 4 is interconnected by mechanical, hydraulic and electrical systems, a fixing mechanism 5 of the housing 2 in the wellbore 6 and a flushing unit (not shown). In the upper part of the drilling unit 3, a gearbox 7 with two output shafts 8 and 9 is installed. The shaft 8 is made in the form of a lead screw, and the second shaft 9 is equipped with a worm kinematically connected with the drill rotation device 10. At the bottom of the drilling unit 3 there are guides for orientating the drill 4 with a vertical section 11, a radius (assembled from two mirror-machined parts) section 12 and a horizontal section formed by the wheel 13 of the drill rotation device 10 and support rollers 14 mounted around the drill 4. The drill 4 is made up of sleeve sleeves 15 having an axial channel for passage of flushing fluid to the drilling site. On one side of the drill 4, a bracket 16 is installed with a fitting (not shown) for supplying washing liquid from the washing unit to the drill. The bracket 16 interacts with the lead screw 8 and serves to transmit the feed movement to the drill. The working end of the drill 4 is equipped with a cutting tool 17.

Each sleeve coupling 15 is equipped on one side with a sphere-shaped annular belt 18 with protrusions 19 (Fig. 3), and on the opposite side with a cylindrical belt 20, inside which there is a spherical cavity 21, an adequate response to the surface of the sphere-shaped belt 18, and having T-shaped windows 22 from the cavity outward under the protrusions 19 and the groove for the locking ring 23.

The upper and lower parts of the drilling unit 3 are connected by couplers 24.

The device operates as follows. In the initial state, the cutting end of the drill is perpendicular to the wall of the wellbore opposite the working window of the housing 2 of the device. The body of the drill, endowed with a certain degree of freedom due to the spherical relationship of adjacent sleeve sleeves, is bent in the guides 11 and 12 from the vertical position of the upper part to the horizontal in place of the working window. Then the device is lowered into the wellbore to the drilling horizon. An electric drive 25 is turned on from a ground control panel (not shown). At the same time, locking mechanisms 5 are activated that fix the housing 2 relative to the wall of the wellbore 6 and the flushing unit. The rotation from the electric drive 25 is transmitted to the gearbox 7 and the driving screw 8 and the shaft 9 and the wheel 13 of the drill rotation device 10, which rotates one of the sleeve couplings 15, which is in kinematic connection with it, 15 and the connection of the sleeve couplings 15 between along spherical surfaces with protrusions 19 and T-shaped windows 22 form a bayonet joint. The bayonet connection has the ability to lock interconnected parts when rotating them relative to each other in one direction and to release when turning in the other. (See. Polytechnical Dictionary. / Edited by A.Yu. Ishlinsky. M .: Soviet Encyclopedia). Therefore, in the locked position, adjacent sleeve couplings behave as a unit, and in the released position, they act as an articulated sleeve. When transmitting torque from one sleeve-clutch 15 to another with the working direction of rotation of the sleeve-clutch located between the cutting tool and the drill rotation device 10, they rotate with each other so that the protrusions 19 extend into the locking part of the T-shaped window 22. (see Fig. 3) and form a hard section of the drill 4, necessary when processing the channel. The sleeve sleeves 15, located on the other side of the device 10, rotate relative to each other in the opposite direction and the protrusions 19 are pressed against the longitudinal side of the T-shaped window 22 and do not interfere with the bending of the drill when it passes along the radius section 12 of the guides (see Fig. 4 ) The working feed of the drill is carried out by the bracket 16, moved by the lead screw 8, acting on the upper end of the drill. The flushing fluid is supplied to the cutting zone along the central channels of all sleeve couplings, the set of which forms the body of the drill. Its flow washes away the formed sludge along the peripheral cavities of the drilled channel. The drill drills a given depth of the channel, proportional to the number of sleeve sleeves that form the body of the drill. At the end of the drilling, the electric drive is turned on and the latter, rotating, is pulled by the bracket 16 from the formed channel. When rotating (in the opposite direction), the sleeve-coupler are released from rigid adhesion and freely pass the radius section of the guides.

Turn off the power to the device and remove it from the well. The implementation of the claimed device solves the problem of increasing its operational efficiency by reliably removing sludge from the channel while reducing the loss of flushing fluid, making full use of the channel cross section (there are no drill parts left after the process is completed), simplifying both the device itself and the channel development process.

Claims (1)

A device for the secondary opening of the reservoir by machining, containing a drill feed and rotation mechanism, a flushing assembly, a housing fixation mechanism to the borehole wall, a drill with a cutting tool at the end, composed of a consecutive set of coupled bushings, guides for moving the drill from vertical to horizontal vector and the housing suspension in the form of a logging cable, characterized in that each drill coupling sleeve is equipped on one side with a sphere also demanded annular belt with projections and, on the opposite side - a cylindrical zone within which there is a spherical cavity, adequately-reciprocal sphere-like surface of the belt, and having a T-shaped windows outwards from the cavity under a sphere-like protrusions of the annular zone.

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