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A pressurization tool comprises a body for connection to a tubular by box, and pin, and providing for flow of fluid by way of a throughbore of varying cross-section to form chambers. A lower chamber accommodates a spring that contacts a shoulder providing a reaction surface for compression of the sp

A pressurization tool comprises a body for connection to a tubular by box, and pin, and providing for flow of fluid by way of a throughbore of varying cross-section to form chambers. A lower chamber accommodates a spring that contacts a shoulder providing a reaction surface for compression of the spring under applied force. The chamber merges into intermediate chamber that accommodates a movable index sleeve that cooperates with an index pin inserted through the wall of the tool body. Associated with the upper part of the index sleeve is a valve seat assembly, positioned to abut the index sleeve and moveable therewith, said valve seat assembly being configured to receive a plug or ball, and in one unpressurised configuration, is located in a wider chamber that permits fluid flow around the assembly.

대표청구항 ▼

1. A tool comprising: a tubular body configured to be connected to other tubular bodies, the tubular body having a longitudinal throughbore that permits through passage of fluid;an indexing sleeve movably positioned within the tubular body;a biasing member cooperating with the indexing sleeve to pos

1. A tool comprising: a tubular body configured to be connected to other tubular bodies, the tubular body having a longitudinal throughbore that permits through passage of fluid;an indexing sleeve movably positioned within the tubular body;a biasing member cooperating with the indexing sleeve to position the indexing sleeve within the tubular body in a first configuration;an index pin located in the tubular body and engaging with the indexing sleeve such that upon axial and/or rotational movement of the index pin relative to the indexing sleeve different predetermined configurations of the tool are obtainable;a valve seat associated with the indexing sleeve and configured to be plugged by an obturator such that fluid pressure can be increased within the tubular body to displace the indexing sleeve against the biasing member, whereby by control of fluid pressure the tool can be cycled selectively between a configuration in which fluid flow through the tubular body is restricted and internal pressure can be increased and a configuration in which fluid flow through the tubular body is permitted and internal pressure can be decreased; andthe indexing sleeve comprising a track configured to receive at least one follower or index pin,wherein at least one part of the track is configured to permit the indexing sleeve to move relative to the follower or index pin to uncompress the biasing member to displace the associated valve seat longitudinally within the throughbore into an upper chamber having a diameter larger than an intermediate chamber housing the indexing sleeve, andwherein the indexing sleeve includes at least one port in proximity to the associated valve seat, and accessing the upper chamber when the biasing member is uncompressed to displace the valve seat beyond a sealing position with the intermediate chamber, and thereby form a fluid by-pass channel to re-open the throughbore to fluid flow through the tubular body. 2. The tool as claimed in claim 1, wherein the throughbore within the tubular body has differing diameters configured to provide accommodation within its length for the biasing member and adjacent indexing sleeve and valve seat, and further providing the fluid by-pass channel to permit fluid flow around the valve seat associated with the indexing sleeve in at least one configuration of the tool. 3. The tool as claimed in claim 1, wherein the biasing member is a spring located in a lower chamber defined within the throughbore and, the lower chamber having an internal shoulder at one end of the chamber against which the spring can react. 4. The tool as claimed in claim 3, wherein the spring comprises at least one compression spring such as a coil spring or a disc spring. 5. The tool as claimed in claim 2, wherein the throughbore comprises a lower chamber configured to receive the biasing member and having an internal shoulder at one end of the lower chamber, the lower chamber having a length configured to receive the indexing sleeve within at least part of said length in at least one configuration of the tool, and the upper chamber having a diameter wider than the lower chamber, the upper chamber configured to accommodate the valve seat with sufficient clearance to permit fluid flow around the valve seat. 6. The tool as claimed in claim 1, wherein the indexing sleeve is configured to provide the track comprising a plurality of grooves configured to receive at least one follower or index pin, the track further comprising a plurality of angular sections configured to progressively advance the follower or index pin relative to the track when pressure is cycled within the tubular body. 7. The tool as claimed in claim 6, wherein progressively advancing the index pin with respect to the track is provided by reciprocation of the tool. 8. The tool as claimed in claim 1, wherein the tool is set for use downhole to adopt configurations by fluid pressure cycling against the biasing member without use of shear fastener means. 9. A method comprising: providing a tool comprising: a tubular body configured to be connected to other tubular bodies, the tubular body having a longitudinal throughbore that permits through passage of fluid;an indexing sleeve movably positioned within the tubular body;a biasing member cooperating with the indexing sleeve to position the indexing sleeve within the tubular body in a first configuration;an index pin located in the tubular body and engaging with the indexing sleeve such that upon axial and/or rotational movement of the index pin relative to the indexing sleeve different predetermined configurations of the tool are obtainable; anda valve seat associated with the indexing sleeve and configured to be plugged by an obturator such that fluid pressure can be increased within the tubular body to displace the indexing sleeve against the biasing member, whereby by control of fluid pressure the tool can be cycled selectively between a configuration in which fluid flow through the tubular body is restricted and internal pressure can be increased and a configuration in which fluid flow through the tubular body is permitted and internal pressure can be decreased, andwherein the indexing sleeve includes at least one port in proximity to the associated valve seat,attaching the tool to an end of a tubular to installed within a wellbore;running the tool and tubular into the wellbore;introducing the obturator in a circulation fluid into the tool whereby passage of fluid through the tubular body is restricted to allow high fluid pressure within the tubular to be achieved as to effect plastic deformation and expansion of the tubular cross-section; andreducing fluid pressure within the tubular to uncompress the biasing member and form a fluid by-pass channel configured to permit fluid flow around the valve seat. 10. The method of claim 9, further comprising: operably connecting the tool and a pressure-actuated expansion tool; andactuating the pressure-actuated expansion tool. 11. An tool comprising: a tubular body comprising a longitudinal throughbore configured to permit fluid flow through;an index pin disposed in the tubular body;an indexing sleeve disposed in the throughbore, the indexing sleeve comprising a track, the track comprising a plurality of grooves that are configured to receive the index pin and control movement of the index pin relative to the track;a valve seat disposed on an end of the indexing sleeve and configured to prevent fluid flow through the tubular body; anda biasing member disposed in the throughbore axially below the indexing sleeve and configured to axially displace the indexing sleeve,wherein the indexing sleeve includes at least one port in proximity to the valve seat, the at least one port configured to by-pass the valve seat and allow fluid flow through the throughbore when the biasing member is sufficiently uncompressed. 12. The tool of claim 11, wherein the valve seat is disposed on an upper end of the indexing sleeve. 13. The tool of claim 12, wherein the valve seat is configured to receive and seal with an obturator. 14. The tool of claim 11 further comprising a lower chamber configured to accommodate the biasing member and at least portion of the indexing sleeve. 15. The tool of claim 14 further comprising an intermediate chamber configured to accommodate the indexing sleeve, wherein the intermediate chamber has a larger diameter than the lower chamber. 16. The tool of claim 15 further comprising an upper chamber having a diameter larger than the intermediate chamber, wherein the port of the indexing sleeve is configured to access the upper chamber when the biasing member is sufficiently uncompressed. 17. The tool of claim 12, wherein the index sleeve is located between the upper chamber and the lower chamber. 18. The tool of claim 14, wherein the upper chamber is configured to provide sufficient clearance between the indexing sleeve to permit fluid flow around the valve seat when pressure displacing the biasing member is relieved. 19. The tool of claim 18, wherein the upper chamber comprises a pressure bleed off mechanism. 20. The tool of claim 18, wherein the valve seat is configured to be sealed by an obturator.