RU2012117202A - METHOD FOR EXTENDING A WELL BORE, ASSEMBLY OF A TOOL FOR ITS IMPLEMENTATION, ADVANCED HYDRAULIC EXPANDER, CENTER AND STABILIZER - Google Patents

Abstract

1. A method of expanding a section of a wellbore, including placing a tool assembly in a well, moving it from a transport position to a working position, expanding a section of a wellbore using a bottom-up method with centering the tool arrangement relative to the casing, characterized in that during the expansion of the section of the wellbore additionally carry out centering the layout of the tool relative to the surface of the wellbore formed as a result of its expansion, and centering the layout of the tool relative to the casing, carry out at least two points located above the hydraulic sliding expander tool layout. 2. The method according to claim 1, characterized in that the extension of the section of the wellbore is carried out with preliminary cutting of the casing string and simultaneously expanding at the section of cutting the casing string of the wellbore to a diameter equal to or greater than the initial diameter of the well, and then proceed to expand the section of the wellbore to the required diameter .3. The method according to claim 1, characterized in that the centering of the tool layout relative to the surface of the wellbore, formed as a result of its expansion, is carried out at least at one point located below the hydraulic sliding expander tool layout. The method according to claim 1, characterized in that the centering of the layout of the tool relative to the casing is carried out additionally at least at one point located below the hydraulic sliding stabilizer of the layout of the tool. Method p

Claims (20)

1. A method of expanding a section of a wellbore, including placing a tool assembly in a well, moving it from a transport position to a working position, expanding a section of a wellbore using a bottom-up method with centering the tool arrangement relative to the casing, characterized in that during the expansion of the section of the wellbore additionally carry out centering the layout of the tool relative to the surface of the wellbore formed as a result of its expansion, and centering the layout of the tool relative to the casing string, at least two points located above the hydraulic sliding tool assembly extender are provided. 2. The method according to claim 1, characterized in that the expansion of the section of the wellbore is carried out with preliminary cutting of the casing string and simultaneously expanding at the section of cutting the casing string of the wellbore to a diameter equal to or greater than the initial diameter of the well, and then proceed to expand the section of the wellbore to the required diameter. 3. The method according to claim 1, characterized in that the centering of the layout of the tool relative to the surface of the wellbore, formed as a result of its expansion, is carried out at least at one point located below the hydraulic sliding expander tool layout. 4. The method according to claim 1, characterized in that the centering of the tool layout relative to the casing is carried out additionally at least at one point located below the hydraulic sliding stabilizer of the tool layout. 5. The method according to claim 1, characterized in that the expansion of the borehole is carried out using the layout of the tool, made according to one of claims 9 to 10. 6. The method according to claim 2, characterized in that the extension of the borehole section is carried out using a sliding hydraulic expander, made according to claim 11 or 12. 7. The method according to claim 3, characterized in that the centering of the tool layout relative to the casing, at least at two points located above the hydraulic sliding expander, is carried out using at least two sliding hydraulic centralizers made according to one of pp. 13-15. 8. The method according to claim 4, characterized in that the centering of the layout of the tool relative to the surface of the wellbore, formed as a result of its expansion, at least at one point located below the hydraulic sliding expander, is carried out using a sliding hydraulic stabilizer, made one by one from claims 16-20. 9. The layout of the tool for expanding the wellbore, including a sliding hydraulic expander, centralizers and a throttling unit, characterized in that it is equipped with a sliding hydraulic stabilizer installed directly below the sliding expander, with at least two centralizers mounted directly above the sliding expander are made sliding hydraulic, and the throttle assembly is located at the bottom of the sliding hydraulic stabilizer. 10. The arrangement according to claim 9, characterized in that it is equipped with a tip made with the possibility of attaching to the throttle assembly. 11. A sliding hydraulic expander comprising a hollow body with connecting elements, with a central channel in which a piston is mounted rigidly interconnected and having a common throttling channel, spring-loaded relative to the body, and a pusher with cams connected by earrings with cutting blades pivotally suspended in through longitudinal grooves evenly spaced around the circumference of the housing, characterized in that it is provided with a ring mounted on the piston from the side opposite to the push Well, in the piston there are made radial passages, annular external grooves and internal bores hydraulically connected to each other, the central channel in the housing being divided by a plug into the upper and lower parts hydraulically connected by peripheral channels made in the housing, the piston is installed in the upper part the central channel in such a way that its outer annular groove is hydraulically connected to the peripheral channels of the housing in the transport position of the expander and is isolated in its working floor the ring is mounted on the piston with the possibility of limited axial movement relative to the piston and overlapping its inner annular bore in the working position of the expander, while the shortest distance from the longitudinal axis of the housing to the axis connecting the cam follower to the earring is less than to the axis connecting the earring to cutting blade. 12. The sliding hydraulic expander according to claim 11, characterized in that the cutting blades are additionally equipped with cones mounted with the possibility of free rotation. 13. A sliding hydraulic centralizer, comprising a housing with a central axial channel and connecting elements, a running sleeve mounted on the housing with the possibility of axial rotation and axial movement relative to it, a thrust sleeve mounted on the housing with the possibility of only axial rotation relative to it, supporting nodes, evenly placed around the circumference outside the housing between the thrust and running bushings, a glass with an inner annular bore, concentrically placed outside the housing, an annular piston, installed in the inner annular bore of the glass with the possibility of interaction with the running sleeve, the piston cavity communicated by radial channels made in the housing with its central axial channel, characterized in that it is provided with guide assemblies arranged uniformly and in alternating order with respect to the supporting nodes around the circumference outside the housing between the thrust and running bushings, and the glass is rigidly connected to the housing. 14. The sliding hydraulic centralizer according to claim 13, characterized in that the support unit is made in the form of a ski, the ends of which with the help of earrings are pivotally connected respectively to the thrust and running bushings. 15. The sliding hydraulic centralizer according to claim 13, characterized in that the guide assembly is a telescopic connection, which is formed between a rod connected to the running sleeve and a pipe connected to the thrust sleeve and spring-loaded relative to the running sleeve. 16. Sliding hydraulic stabilizer, comprising a hollow body with connecting elements, a running sleeve mounted on the body with axial rotation and axial movement relative to it, a thrust sleeve mounted on the body with only axial rotation relative to it, support nodes evenly spaced around the circumference outside the housing between the thrust and running bushings, a casing with an internal annular bore, concentrically placed outside the housing, an annular piston mounted inside a vertical annular bore of the casing with the possibility of axial movement relative to the housing and interaction with the running sleeve, characterized in that it is equipped with guide nodes arranged uniformly and in alternating order with respect to the supporting nodes, circumferentially outside the housing between the stop and running bushings, and throttling node, while the casing is rigidly connected with the housing, the annular piston is made with rods and interacts with the running sleeve through a washer rigidly connected with the said rods, passed into the squaw GOVERNMENTAL axial holes made in the casing and disposed on the outer surface of the housing and axially movable relative to the body, and throttle unit configured to change the working fluid flow produced by axial movement of the annular piston relative to the housing. 17. The sliding hydraulic stabilizer according to claim 16, characterized in that the support unit is made in the form of a ski, the ends of which with the help of earrings are pivotally connected respectively to the thrust and running bushings. 18. The sliding hydraulic stabilizer according to claim 16, characterized in that the guide assembly is a telescopic connection, which is formed between a rod attached to the running sleeve and a pipe connected to the thrust sleeve and spring-loaded relative to the running sleeve. 19. The sliding hydraulic stabilizer according to claim 20, characterized in that the throttling unit is made in the form of a cap connected to the casing with a central, flushing and throttling axial channels in its partition and a connecting element at the free end of a locking element mounted inside the cap with the possibility limited axial movement and overlap of the washing axial channels in the working position of the sliding hydraulic stabilizer, and fingers of various lengths, which are connected at one end to ring piston and are arranged with the possibility of sequential overlapping or opening of the throttling axial channels with their other ends when the axial movement of the annular piston relative to the housing. 20. The sliding hydraulic stabilizer according to claim 19, characterized in that it is equipped with a tip made with the possibility of connection with the connecting element at the free end of the cap.