RU196715U1 - DEVICE FOR SECONDARY OPENING OF THE STRING - Google Patents

Abstract

The utility model relates to the oil and gas industry, and in particular to devices used in the secondary opening of productive formations by drilling above the depth of penetration of the filtrate of drilling, grouting and other polluting process fluids. Allows you to increase the reliability of the device and the depth of penetration into the reservoir. The essence of the proposed utility model: a device for the secondary opening of the formation, lowered into the well on a geophysical cable, including a housing with a drilling unit located in it, a milling cutter made in the form of a sleeve with a sharpened hard alloy plate at the end, a mechanism for fixing the housing to the casing wall, a cassette with drill sleeves located therein and preloaded by a spring and rod for expanding the drill bush string, a spindle for rotating and feeding the drill bush string, a conductive bush providing alignment of the axis of the drill sleeve, the expanding column of drill sleeves, with the axis of the column of drill sleeves and the spindle, while in the drilling unit there is a compartment in which the conductive sleeve is placed, part of the cassette with drill sleeves for building the column of drill sleeves, the end of the spindle interacting with the drill string bushings, and the end of the drill bush string, the compartment is connected through a channel to the pump and, together with the conductive bush, spindle, drill string and cassette, is hermetically isolated from the rest of the device. The spindle is made integral, which eliminates the cutting of the fixing screws of the spindle nozzle during rotation and increases the reliability of the device. The connection of the spindle with the drill sleeve is made in the form of a spring-loaded shank with protrusions for engagement with the drill sleeve, which provides a smooth connection and eliminates the cutting of the protrusions at the ends of the shank and grooves of the drill sleeves.

Description

The utility model relates to the oil and gas industry, in particular to devices used in the secondary opening of productive formations by drilling above the depth of penetration of the filtrate of drilling, grouting and other polluting process fluids.

Allows you to increase the reliability of the device and the depth of penetration into the reservoir. Existing devices used during the secondary drilling of productive formations by drilling allow penetration into the formation to a depth of 1000 mm, which is not enough for effective opening of the formation. The proposed utility model of the device for the secondary opening of the formation allows you to penetrate into the formation to a depth of 2000 mm. A device for the secondary opening of the reservoir by drilling, (analog) (1), patent of the Russian Federation No. 2232873, filing date 01/23/2003, published July 20, 2004. The device includes a tubular body with a drilling unit located therein for rotating and supplying the drill to the borehole wall, a drill, a drilling flushing assembly, mechanisms for fixing the housing to the borehole wall, a cassette with a drill and drill sleeves for building it, and a housing suspension in the form of a wireline cable. The drill is made in the form of a hollow rod with a mill on the end. The drilling unit is equipped with an elastic diaphragm with a central hole. Its diameter is smaller than the diameter of the drill sleeve, synchronously rotating when working with a drill passing through its hole. Housing fixation mechanisms are installed above and below the drilling unit as close to it as possible and are located symmetrically relative to it. The drill and drill sleeves are spring-loaded from below. The cassette is integrated in the lower part of the device and partially located in the drilling unit with the possibility of alignment of the axes of the drill and the spindle of the drilling unit. The drill cutter is made in the form of an ellipse in cross section. The disadvantages are low reliability, a small depth of penetration into the reservoir.

A device for the secondary opening of the reservoir by drilling, (analog) (2), RF patent No. 98045 U1, filing date 06/11/2010, published 09/27/2010, including a housing with a drilling unit, a drill made in the form of a hollow rod , with a drill at the end, mechanisms for fixing the housing to the wall of the wellbore, a cassette with nozzles for growing the drill located in it and preloaded by a spring, a spindle with protrusions at the end, interacting with grooves at the ends of the nozzles for rotating and feeding the drill, conductive sleeve, ensuring the alignment of the axis of the nozzle that builds up the drill with the axis of the drill and spindle, as well as the suspension of the housing in the form of a logging cable, while in the drilling unit there is a compartment in which the sleeve is placed, part of the cartridge with nozzles for building the drill, the end of the spindle interacting with drill, and the end of the drill, and the compartment through the channel is connected to the pump and together with the conductive sleeve, spindle, drill and cassette is hermetically isolated from the other nodes of the device. The disadvantages are low reliability, a small depth of penetration into the reservoir. A device for opening a reservoir by drilling, (prototype) (3), patent RU No. 171303 U1 Е21В, application filing date 01/23/2017, published on 05/29/2017. The device includes a housing with a drilling unit located in it, a drill made in the form of a hollow rod with a drill at the end, mechanisms for fixing the housing to the wall of the wellbore, a cassette with nozzles for growing the drill placed in it and preloaded by the spring, a spindle with projections at the end, interacting with grooves at the ends of the nozzles for rotating and feeding the drill, a conductor sleeve that ensures alignment of the axis of the nozzle that builds up the drill, with the axis of the drill and spindle, the housing suspension in the form of a wireline cable mounted on the end of the spindle with the possibility of free rotation and movement of the ring on it, as well as stops that limit the extreme position of the ring on the spindle when it moves in both directions. In the drilling unit, a compartment is made in which a conductor sleeve, a part of a cartridge with nozzles for extending the drill, a spindle end interacting with the drill, and an end of the drill are located, the compartment being connected through a channel to the pump and hermetically sealed with the conductor bush, spindle, drill and cartridge isolated from other nodes of the device. The disadvantages are the small depth of penetration into the reservoir, as well as the fact that the spindle is prefabricated, which leads to cutting off the fixing screws and the failure of the device. During the reciprocating movement of the spindle during the change of the drill sleeve, the protrusions are cut at the engagement points due to insufficient depth of approach of the protrusions of the spindle shank into the grooves of the drill sleeve, which reduces the reliability of the device. The technical problem solved by the proposed utility model is to increase the reliability of the device and the depth of penetration into the reservoir. The purpose of the proposed utility model is achieved by the fact that the device lowered into the well on a geophysical cable includes a housing with a drilling unit located therein for rotating and supplying the cutter to the casing wall, a cutter, a flushing unit for the cutter and channel, and a housing fixing mechanism to the casing wall , a cartridge with drill sleeves for building a string of drill sleeves. At the same time, the feed stem of drill sleeves is shortened by 20 diameters of drill sleeves, with a sleeve diameter of 14 mm, and the length of the cartridge is increased by 500 mm, which allows it to accommodate 80 sleeves and penetrate the formation to a depth of 2000 mm.

The technical result achieved by the proposed utility model is solved by a device for secondary opening of the formation, lowered into the well on a geophysical cable, including a body with a drilling unit located in it, a milling cutter made in the form of a sleeve with a sharpened plate of hard alloy at the end, the mechanism for fixing the body to the wall of the casing string, a cassette with drill sleeves located therein and preloaded by the spring and rod for extending the drill string, spindle for rotating and feeding the drill string to, a conductor sleeve that ensures alignment of the axis of the drill sleeve, increasing the column of drill sleeves, with the axis of the column of drill sleeves and spindle, while in the drilling unit there is a compartment in which the conductor sleeve is placed, part of the cartridge with drill sleeves for building the column of drill sleeves, end the spindle interacting with the drill bush string and the end of the drill bush string, the compartment is connected via a channel to the pump and, together with the conductive bush, spindle, drill and cassette, is hermetically isolated from other nodes at construction. According to the invention, the feed stem of the drill sleeves is shortened by 20 diameters of drill sleeves, with a sleeve diameter of 14 mm, and the length of the cartridge is increased by 500 mm, which allows it to accommodate 80 sleeves and penetrate the formation to a depth of 2000 mm. The spindle is made integral, which eliminates the cutting of the fixing screws of the spindle nozzle during rotation and increases the reliability of the device. The connection of the spindle with the drill sleeve is made in the form of a spring-loaded shank with protrusions for engagement with the drill sleeve, which provides a smooth connection and eliminates the cutting of the protrusions at the ends of the shank and grooves of the drill sleeves. The proposed utility model of the device for the secondary opening of the formation allows to increase the reliability of the device and the depth of penetration into the formation.

What is new is that the feed stem of drill sleeves is shortened by 20 diameters of drill sleeves, with a sleeve diameter of 14 mm, and the length of the cartridge is increased by 500 mm, which allows it to accommodate 80 sleeves and penetrate the formation to a depth of 2000 mm. The spindle is made integral, which eliminates the cutting of the fixing screws of the spindle nozzle during rotation and increases the reliability of the device. The connection of the spindle with the drill sleeve is made in the form of a spring-loaded shank with protrusions for engagement with the drill sleeve, which provides a smooth connection and eliminates the cutting of the protrusions at the ends of the shank and grooves of the drill sleeves.

The drawing shows a device, lowered on a geophysical cable into the zone of the reservoir. The device comprises a housing 3 lowered into the wellbore 1 on a wireline 2, in which a drilling unit 4 is located, interconnected by mechanical, hydraulic, and electrical systems, including a drill sleeve string 5, made in the form of a hollow core with a drill sleeve 6 cutter with a cutter 7 at the end, coaxial with a column of drill sleeves 5 spindle 8 with elements for transmitting rotation and supply of a column of drill sleeves 5, made in the form of a shank 9 spring-loaded with spring 10 with engagement protrusions interacting with grooves drill sleeves 6, conductive sleeve 11 for aligning the axes of the spindle 8 and the column of drill sleeves 5 with the axis of the drill sleeve 6 when building with the column of drill sleeves. Drill bushings 6 are connected to each other and the cutter 7 in the process of building using thread. The drill sleeves 6 are placed in the cartridge 12 mounted in the cartridge 13 and preloaded by the spring 14 and the rod 15. The cartridge 12 is located below the drilling unit 4 and partially in it. The working end of the spindle 8, part of the cassette 12 and the conductor sleeve 11 with the next drill sleeve 6 for building with the column of drill sleeves 5, as well as part of the column of drill sleeves 5, are located in the compartment 16 made in the drilling unit 4 and are hermetically isolated from the other nodes of the device. The flushing unit consists of a pump 17 connected by a channel 18 with a compartment 16 located in the drilling unit 4. The body 3 is fixed in the wellbore 1 by a locking mechanism 19. The mechanisms of the device are driven by an electric motor 20, which is powered by a geophysical cable 2.

Work with the device for the secondary opening of the formation as follows. The device descends into the wellbore 1 to the required depth. After starting the electric motor 20 from the ground control panel (not shown in the drawing), the device is fixed by the locking mechanism 19. At the same time, the pump 17 for supplying flushing fluid to the compartment 16 and the drilling assembly 4 starts working. Spindle 8, moving back and forth during the working stroke towards the wall casing string of the well, engages with a cutter 7, which first drills the wall of the casing string of the well 1, and then deepens into the formation. With the reverse (idle) stroke of the spindle 8 in the tip of the cassette 12, the space for the next drill sleeve 6 is freed up, which is fed there under the action of the spring 14. Next, the spindle 8 is smoothly engaged with the end of the drill sleeve 6 with the spring loaded shank and screw it into the mill 7 Then, the cutter 7 and the drill sleeve 6 continue to deepen into the reservoir by the working length of one drill sleeve 6. The process of building the string of drill sleeves 5 is repeated and continues until no drill sleeve 6 remains in the cassette 12. romyvochnaya liquid in compartment 16 is pressurized. When the spindle 8 is idling, the flushing fluid is pumped into the cavity of the drill sleeve 5 column directly from the compartment 16, and during the working, through the connection between the ends of the spindle protrusions 8 and the drill sleeve grooves 6. The excess pressure in the compartment does not allow the cuttings to penetrate into its inner zone. After no drill sleeve 6 is left in the cassette 12, the reverse of the electric motor 20 is turned on, the casing 3 is unlocked and removed from the well 1 for recharging. The column of drill sleeves 5 remains in the well and serves as a channel for the passage of formation fluid.

The proposed device for the secondary development of the reservoir is implemented in LLC "Secondary reservoir" of the Republic of Tatarstan. This device allows to increase the reliability and depth of penetration into the reservoir. Technological and technical results when using the proposed utility model are achieved by increasing the reliability of the device and the depth of penetration into the reservoir. The economic effect of the use of the invention can be achieved by increasing the time between failures, accelerating installation, reducing the time of work, which can significantly save material and labor resources.

Literature:

1. RF patent No. 2232873, filing date of the application January 23, 2003, published July 20, 2004.

2. RF patent No. 98045 U1, the filing date of the application is 11.06.2010, published on 09.27.2010.

3. Patent RU No. 171303 U1 Е21В, filing date of the application on January 23, 2017, published on May 29, 2017.

Claims (1)

A device for the secondary opening of the formation, lowered into the well on a geophysical cable, including a housing with a drilling unit located in it, a milling cutter made in the form of a sleeve with a sharpened hard alloy plate at the end, a mechanism for fixing the housing to the casing wall, a cassette with it and pre-loaded spring and rod drill sleeves for building a string of drill sleeves, a spindle for rotating and supplying a string of drill sleeves, a conductive sleeve that ensures alignment of the axis of the drill sleeve, the core of the drill bush, with the axis of the drill string and spindle, while the drilling unit has a compartment in which the sleeve is placed, a portion of the cartridge with drill sleeves for expanding the drill bush string, the end of the spindle interacting with the drill bush string, and the end of the string drill sleeves, the compartment through the channel is connected to the pump and together with the conductive bush, spindle, drill string and cassette are hermetically isolated from the other nodes of the device, characterized in that the spindle is made whole, and the connection of the spindle with the drill sleeve is made in the form of a spring-loaded shank with protrusions for engagement with the drill sleeve.

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