초록 ▼

Implementations of the present invention include a core barrel assembly having a driven latch mechanism. The driven latch mechanism can lock the core barrel assembly axially and rotationally relative to a drill string. The driven latch mechanism can include a plurality of wedge members positioned on

Implementations of the present invention include a core barrel assembly having a driven latch mechanism. The driven latch mechanism can lock the core barrel assembly axially and rotationally relative to a drill string. The driven latch mechanism can include a plurality of wedge members positioned on a plurality of driving surfaces. Rotation of the drill string can cause the plurality of wedge members to wedge between an inner diameter of the drill string and the plurality of driving surfaces, thereby rotationally locking the core barrel assembly relative to the drill string. The driven latch mechanism can further include a refracted groove adapted to lock the plurality of wedge members radially within the core barrel assembly, thereby allowing for faster travel within the drill string. Implementations of the present invention also include drilling systems including such driven latch mechanisms, and methods of retrieving a core sample using such drilling systems.

대표청구항 ▼

1. A core barrel head assembly configured to be removably received within a drill string, the drill string having a longitudinal axis and an inner surface defining an annular groove, the core barrel head assembly comprising: a sleeve having a plurality of openings extending there through;a plurality

1. A core barrel head assembly configured to be removably received within a drill string, the drill string having a longitudinal axis and an inner surface defining an annular groove, the core barrel head assembly comprising: a sleeve having a plurality of openings extending there through;a plurality of wedge members positioned at least partially within respective openings of the plurality of openings, the plurality of wedge members being unattached to the core barrel head assembly; anda driving member defining a plurality of driving surfaces, the driving member being positioned at least partially within the sleeve, the plurality of driving surfaces cooperating to define a circumferentially tapered outer surface of the driving member such that, at a selected axial position relative to the longitudinal axis of the drill string, the distance between the inner surface of the drill string and the outer surface of the driving member varies circumferentially about the outer surface of the driving member, the driving member including at least one first groove extending therein, the at least one first groove being configured to receive and maintain the plurality of wedge members in a retracted position within the sleeve,wherein the at least one first groove of the driving member is configured to maintain the plurality of wedge members in the retracted position such that the plurality of wedge members do not drag along the inner surface of the drill string during tripping of the core barrel head assembly,wherein the plurality of wedge members are adapted to axially lock the core barrel head assembly relative to the drill string by extending radially outward of the sleeve into the annular groove in the inner surface of the drill string, andwherein, upon rotation of the drill string, the plurality of driving surfaces are configured to wedge the plurality of wedge members between the inner surface of the drill string and the driving member such that the core barrel head assembly is rotationally locked relative to the drill string. 2. The core barrel head assembly as recited in claim 1, wherein movement of the driving member relative to the sleeve causes the plurality of wedge members to move radially in and out of the plurality of openings. 3. The core barrel head assembly as recited in claim 1, wherein wedge members of the plurality of wedge members are generally spherical. 4. The core barrel head assembly as recited in claim 1, wherein the driving member varies in diameter along at least a portion of its length. 5. The core barrel head assembly as recited in claim 1, further comprising: a valve positioned within the sleeve; anda ball piston configured to engage the valve and prevent fluid from passing through the sleeve past the valve. 6. The core barrel head assembly as recited in claim 1, further comprising a biasing member configured to bias the driving member against the plurality of wedge members. 7. The core barrel head assembly as recited in claim 1, wherein driving surfaces of the plurality of driving surfaces are planar. 8. The core barrel head assembly as recited in claim 1, further comprising at least one second groove extending into the driving member, the at least one second groove being adapted to receive and maintain the plurality of wedge members in a deployed position wherein the plurality of wedge members extend radially outward of the sleeve. 9. A core barrel head assembly configured to be removably received within a drill string, the drill string having a longitudinal axis and an inner surface defining an annular groove, the core barrel head assembly comprising: a sleeve defining a plurality of openings;a driving member defining a plurality of driving surfaces, the driving member being moveably coupled to the sleeve, the plurality of driving surfaces cooperating to define a circumferentially tapered outer surface of the driving member such that, at a selected axial position relative to the longitudinal axis of the drill string, the distance between the inner surface of the drill string and the outer surface of the driving member varies circumferentially about the outer surface of the driving member;a plurality of wedge members positioned on the driving member, the plurality of wedge members being unattached to the core barrel head assembly, wherein axial movement of the driving member relative to the sleeve causes the plurality of wedge members to move radially relative to the sleeve between a latched position and a retracted position, wherein, in the retracted position, each wedge member of the plurality of wedge members is positioned within a respective opening of the plurality of openings of the sleeve; andat least one first groove extending into the driving member, the at least one first groove being adapted to receive and lock the plurality of wedge members in the retracted position,wherein the at least one first groove of the driving member is configured to maintain the plurality of wedge members in the retracted position such that the plurality of wedge members do not drag along the inner surface of the drill string during tripping of the core barrel head assembly,wherein, in the latched position, the plurality of wedge members are adapted to axially lock the core barrel head assembly relative to the drill string by extending radially outward of the sleeve into the annular groove in the inner surface of the drill string, andwherein, in the latched position, upon rotation of the drill string, the plurality of driving surfaces are configured to wedge the plurality of wedge members between the inner surface of the drill string and the driving member such that the core barrel head assembly is rotationally locked relative to the drill string. 10. The core barrel head assembly as recited in claim 9, wherein wedge members of the plurality of wedge members are generally spherical. 11. The core barrel head assembly as recited in claim 10, wherein the plurality of driving surfaces comprise a plurality of generally planar driving surfaces extending along the driving member relative to the longitudinal axis of the drill string, wherein the plurality of wedge members are configured for engagement with the plurality of generally planar driving surfaces. 12. The core barrel head assembly as recited in claim 11, further comprising a biasing member, wherein the biasing member biases the planar driving surfaces against the plurality of wedge members. 13. The core barrel head assembly as recited in claim 12, wherein the biasing member biases the driving member toward the sleeve. 14. The core barrel head assembly as recited in claim 9, further comprising at least one second groove extending into the driving member, the at least one second groove being adapted to receive and maintain the plurality of wedge members in the latched position wherein the plurality of wedge members extend radially outward of the sleeve. 15. A drilling system for retrieving a core sample, comprising: a drill string having a longitudinal axis, an inner surface, and a plurality of drill rods, the inner surface of the drill string defining an annular groove;a core barrel assembly having a sleeve defining a plurality of openings, the core barrel assembly being adapted to be inserted within the drill string; anda driven latch mechanism positioned within the core barrel assembly;wherein the driven latch mechanism comprises a plurality of wedge members positioned on a driving member, the plurality of wedge members being unattached to the core barrel assembly, the driving member defining a plurality of driving surfaces, the plurality of driving surfaces cooperating to define a circumferentially tapered outer surface of the driving member such that, at a selected axial position relative to the longitudinal axis of the drill string, the distance between the inner surface of the drill string and the outer surface of the driving member varies circumferentially about the outer surface of the driving member, the driving member having at least one first groove adapted to receive and lock the plurality of wedge members in a retracted position wherein the plurality of wedge members are radially positioned within the core barrel assembly,wherein the plurality of wedge members are adapted to axially lock the core barrel assembly relative to the drill string by extending radially outward of the sleeve into the annular groove in the inner surface of the drill string,wherein, upon rotation of the drill string, the plurality of driving surfaces are configured to wedge the plurality of wedge members between the inner surface of the drill string and the driving member such that the core barrel head assembly is rotationally locked relative to the drill string, andwherein the at least one first groove of the driving member is configured to maintain the plurality of wedge members in the retracted position such that the plurality of wedge members do not drag along the inner surface of the drill string during tripping of the core barrel head assembly. 16. The drilling system as recited in claim 15, further comprising at least one second groove, wherein the at least one second groove is adapted to lock the plurality of wedge members in a deployed position wherein the plurality of wedge members are radially positioned at least partially outside of the core barrel assembly. 17. The drilling system as recited in claim 15, wherein wedge members of the plurality of wedge members comprise generally spherical balls. 18. The drilling system as recited in claim 15, wherein at least one drill rod of the plurality of drill rods includes an inner diameter that varies along the length of the at least one drill rod. 19. The drilling system as recited in claim 15, further comprising a spearhead assembly coupled to the barrel assembly. 20. A method of drilling using a core barrel assembly comprising a sleeve, a driving member, and a plurality of wedge members, comprising: manipulating the core barrel assembly to position the plurality of wedge members into at least one retracted groove on the driving member, the plurality of wedge members being unattached to the core barrel assembly, the driving member defining a plurality of driving surfaces, the at least one retracted groove being adapted to hold the plurality of wedge members radially within the sleeve in a retracted position;inserting the core barrel assembly within a drill string, the drill string having a longitudinal axis, wherein the plurality of driving surfaces of the driving member cooperate to define a circumferentially tapered outer surface of the driving member such that, at a selected axial position relative to the longitudinal axis of the drill string, the distance between the inner surface of the drill string and the outer surface of the driving member varies circumferentially about the outer surface of the driving member;moving the core barrel assembly within the drill string to a drilling position, wherein the driving member is configured to maintain the plurality of wedge members in the retracted position within the at least one retracted groove such that the plurality of wedge members do not drag along an inner surface of the drill string during movement of the core barrel assembly within the drill string, and wherein upon reaching the drilling position the plurality of wedge members are configured to move out of the at least one retracted groove into a deployed position in which the plurality of wedge members extend at least partially radially outward of the sleeve, thereby axially locking the core barrel assembly relative to the drill string; androtating the drill string thereby causing the plurality of driving surfaces of the driving member to wedge the plurality of wedge members between an inner surface of the drill string and the driving member, thereby rotationally locking the core barrel assembly relative to the drill string. 21. The method as recited in claim 20, further comprising: lowering an overshot onto a spearhead of the core barrel assembly; andpulling on the overshot to retract the core barrel assembly;wherein the pulling moves the plurality of wedge members into the at least one retracted groove. 22. The method as recited in claim 20, wherein the plurality of wedge members are locked within a deployment groove formed in the driving member when in the deployed position. 23. The method as recited in claim 20, wherein a biasing member forces the driving member to move axially relative to the sleeve upon reaching the drilling position. 24. The method as recited in claim 20, further comprising advancing the drill string into a formation thereby causing a portion of the formation to enter the core barrel assembly.