received by the International Bureau on 12 May 2018 (12.05.2018)

What is claimed is:

1. A tubular gripping device comprising: an outer body defining an inner tubular cavity having a first inner diameter, a second inner diameter, a first load shoulder, and a second load shoulder, wherein the first inner diameter is greater than the second inner diameter, and wherein an axial taper of the first load shoulder tapers the first inner diameter down to second inner diameter at the second load shoulder, wherein the second load shoulder is configured as a stop at the second inner diameter; a self-locking mechanism positioned substantially co-axially within the tubular cavity of the outer body and proximate the first inner diameter, the self-locking mechanism having a spring expanded position such that an inner diameter of the self-locking mechanism is substantially equal to or greater than the second inner diameter, and having a spring released position such that the inner diameter of the self-locking mechanism would springably contract to be smaller than the second inner diameter were the self-locking mechanism unrestrained; and a retainer member having a first retainer position wherein a leg portion of the retainer member is configured to extend through an aperture in the outer body to interface with and radially restrain the self-locking mechanism in the spring expanded position, and the retainer member having a second retainer position wherein the leg portion of the retainer member is removed from interfacing with and restraining the self-locking mechanism such that the self- locking mechanism may contract to the spring released position to grip an outer surface of a tubular member.

2. The tubular gripping device of Claim 1 , further comprising: a second retainer member having a first retainer position wherein a leg portion of the second retainer member is configured to extend through a second aperture in the outer body to interlace with and radially restrain the self-locking mechanism in the spring expanded position, and the second retainer member having a second retainer position wherein the leg portion of the second retainer member is removed from interfacing with and restraining the self-locking mechanism such that the self-locking mechanism may contract to the spring released position to grip the outer surface of the tubular member.

3. The tubular gripping device of Claim 2, further comprising: a third retainer member having a first retainer position wherein a leg portion of the third retainer member is configured to extend through a third aperture in the outer body to interface with and axially and radially restrain the self-locking mechanism in the spring expanded position, and the third retainer member having a second retainer position wherein the third leg portion is removed from interfacing with and restraining the self-locking mechanism such that the self-locking mechanism may contract to the spring released position to grip the outer surface of the tubular member.

4. The tubular gripping device of Claim 2, wherein the self-locking mechanism further comprises: a set of tapped threads, and wherein the leg portion of the retainer member is configured to extend through the aperture in the outer body to thread into the tapped threads and radially restrain the self-locking mechanism in the spring expanded position.

5. The tubular gripping device of Claim 4, wherein the self-locking mechanism further comprises: a second set of tapped threads, and wherein the second leg portion of the second retainer member is configured to extend through the second aperture in the outer body to thread into the second set of tapped threads and radially restrain the self-locking mechanism in the spring expanded position.

6. The tubular gripping device of Claim 1 , wherein the outer body further comprises: a profiled outer diameter configured to counteract increase in an effective outer diameter of the outer body in response to flaring of the outer body under load on the first load shoulder and the second load shoulder.

7. The tubular gripping device of Claim 1, wherein the outer body further comprises: an outer surface configured to center the tubular member within a borehole.

8. The tubular gripping device of Claim 1 , where in the taper is a constant angle taper.

9. The tubular gripping device of Claim 1, where in the taper is a varied angle taper.

10. The tubular gripping device of Claim 1, wherein an inner surface of the self-locking mechanism comprises: a plurality of wickers configured to engage into the outer surface of the tubular member.

11. The tubular gripping device of Claim 1 , wherein the self-locking mechanism comprises: ac-shaped grip ring.

12. The tubular gripping device of Claim 1 , wherein an edge of the self-locking mechanism is configured to engage a load surface of the second load shoulder, and wherein a first radius of curvature of the load surface of the second load shoulder matches a second radius of curvature of the edge of the self-locking mechanism.

13. A tubular gripping device comprising: an outer body defining an inner tubular cavity having a first inner diameter, a second inner diameter, a first load shoulder, a second load shoulder, a third load shoulder, and a fourth load shoulder, wherein the first inner diameter is greater than the second inner diameter, and wherein the first load shoulder tapers in a first axial direction from the first inner diameter down to the second inner diameter at the second load shoulder, wherein the second load shoulder is configured as a stop, and wherein the third load shoulder tapers in a second axial direction from the first inner diameter down to the second inner diameter at the fourth load shoulder, wherein the fourth load shoulder is configured as a stop, wherein the first axial direction and the second axial direction are opposite directions; a self-locking mechanism positioned substantially co-axially within the tubular cavity of the outer body, the self-locking mechanism having a spring expanded position such that an inner diameter of the self-locking mechanism is substantially equal to or greater than the second inner diameter, and having a spring released position such that the inner diameter of the self-locking mechanism would springably contract to be smaller than the second inner diameter were the self- locking mechanism unrestrained; and a retainer member having a first retainer position wherein a leg portion of the retainer member is configured to extend through an aperture in the outer body to interface with and radially restrain the self-locking mechanism in the spring expanded position, and the retainer member having a second retainer position wherein the leg portion of the retainer member is removed from interfacing with and restraining the self-locking mechanism such thai the self- locking mechanism may contract to the spring released position to grip an outer surface of a tubular member.

14. The tubular gripping device of Claim 13, further comprising: a second self-locking mechanism positioned substantially co-axially within the tubular cavity of the outer body, the self-locking mechanism having a spring expanded position such that an inner diameter of the second self-locking mechanism is substantially equal to or greater than the second inner diameter, and having a spring released position such that the inner diameter of the second self-locking mechanism would springably contract to be smaller than the second inner diameter were the self-locking mechanism unrestrained.

15. The tubuler gripping device of Claim 13, further comprising: a second retainer member having a first retainer position wherein a leg portion of the second retainer member is configured to extend through a second aperture in the outer body to interface with and radially restrain the self-locking mechanism in the spring expanded position, and the second retainer member having a second retainer position wherein the leg portion of the second retainer member is removed from interfacing with and restraining the self-locking mechanism such that the self-locking mechanism may contract to the spring released position to grip the outer surface of the tubular member.

16. The tubular gripping device of Claim 15, further comprising: a third retainer member having a first retainer position wherein a leg portion of the third retainer member is configured to extend through a third aperture in the outer body to interface with and axially and radially restrain the self-locking mechanism in the spring expanded position, and the third retainer member having a second retainer position wherein the third leg portion is removed from interfacing with and restraining the self-locking mechanism such that the self-locking mechanism may contract to the spring released position to grip the outer surface of the tubular member.

17. The tubular gripping device of Claim 15, wherein the self-locking mechanism farther comprises: a set of tapped threads, and wherein the leg portion of the retainer member is configured to extend through the aperture in the outer body to thread into the tapped threads and radially restrain the self-locking mechanism in the spring expanded position.

18. The tubular gripping device of Claim 17, wherein the self-locking mechanism further comprises: a second set of tapped threads, and wherein the second leg portion of the second retainer member is configured to extend through the second aperture in the outer body to thread into the second set of tapped threads and radially restrain the self-locking mechanism in the spring expanded position.

19. The tubular gripping device of Claim 13, wherein the outer body further comprises: a profiled outer diameter configured to counteract increase in an effective outer diameter of the outer body in response to flaring of the outer body under load on the first load shoulder and the second load shoulder.

20. The tubular gripping device of Claim 13, wherein the outer body further comprises: an outer surface configured to center the tubular member within a borehole.

21. The tubular gripping device of Claim 13, where the first load shoulder tapers at a constant angle in the first axial direction.

22. The tubular gripping device of Claim 13, where the first load shoulder tapers at varied angle in the first axial direction.

23. The tubular gripping device of Claim 13, wherein an inner surface of the self-locking mechanism comprises: a plurality of wickers configured to engage into the outer surface of the tubular member.

24. The tubular gripping device of Claim 13, wherein the self-locking mechanism comprises: a c-shaped grip ring.

25. The tubular gripping device of Claim 13, wherein an edge of the self-locking mechanism is configured to engage a load surface of the second load shoulder, and wherein a first radius of curvature of the load surface of the second load shoulder matches a second radius of curvature of the edge of the self-locking mechanism.

26. The tubular gripping device of Claim 13, wherein the outer body configured to slidably move relative to the self-locking mechanism in either of the first axial direction and the second axial direction when the self-locking mechanism is in the spring released position and gripping the outer surface of the tubular member.

27. A method of attaching a tubular gripping device to a tubular member, die method comprising: placing a tubular gripping device onto the tubular member, the tubular gripping device comprising: an outer body which defines an inner tubular cavity configured to slide over an outer surface of the tubular member, the inner tubular cavity having a first inner diameter, a second inner diameter, a first load shoulder, and a second load shoulder, wherein the first inner diameter is greater than the second inner diameter, and wherein an axial taper of the first load shoulder tapers the first inner diameter down to second inner diameter at the second load shoulder, and wherein the second load shoulder is configured as a stop at the second inner diameter; a self-locking mechanism positioned substantially co-axially within the tubular cavity of the outer body and proximate the first inner diameter, the self-locking mechanism having a spring expanded position such that an inner diameter of the self- locking mechanism is substantially equal to or greater than the second inner diameter, and having a spring released position such that the inner diameter of die self-locking mechanism would springably contract to be smaller than the second inner diameter were the self-locking mechanism unrestrained; and a retainer member having a first retainer position wherein a leg portion of the retainer member is configured to extend through an aperture in the outer body to interface with and radially restrain the self-locking mechanism in the spring expanded position, and the retainer member having a second retainer position wherein the leg portion of the retainer member is removed from interfacing with and restraining the self-locking mechanism such that the self-locking mechanism may contract to the spring released position to grip an outer surface of the tubular member; and moving the retainer member from the first retainer position to the second retainer position to allow the self-locking mechanism of the tubular gripping device to grip the outer surface of the tubular member.

28. The method as recited in Claim 27 further comprising: axially repositioning the self-locking mechanism relative to the outer body by sliding the self-locking mechanism into contact with its respective load shoulder by manually interacting with the self-locking mechanism via one or more apertures provided in the outer body.

29. The method as recited in Claim 27, wherein the moving the retainer member from the first retainer position to the second retainer position comprises: unscrewing the leg portion of the retainer member from a set of threads tapped into the self-locking mechanism, wherein the self-locking mechanism comprises a c-shaped grip ring, and the threads are tapped proximal to an end of the c-shaped opening in the c-shaped grip ring.

30. A tubular gripping device comprising:

an outer body defining an inner tubular cavity having a first inner diameter, a second inner diameter, and a load shoulder, wherein the first inner diameter is greater than the second inner diameter, wherein an axial taper of the load shoulder tapers the first inner diameter down to second inner diameter, and wherein the outer body further comprises a profiled outer diameter configured to counteract increase in an effective outer diameter of the outer body in response to flaring of the outer body under load on the load shoulder;

a self-locking mechanism positioned substantially co-axially within the tubular cavity of die outer body and proximate the first inner diameter, the self-locking mechanism having a spring expanded position such that an inner diameter of the self-locking mechanism is substantially equal to or greater than the second inner diameter, and having a spring released position such that the inner diameter of the self-locking mechanism would springably contract to be smaller than the second inner diameter were the self-locking mechanism unrestrained; and a retainer member having a first retainer position wherein a leg portion of the retainer member is configured to extend through an aperture in the outer body to interface with and radially restrain the self-locking mechanism in the spring expanded position, and the retainer member having a second retainer position wherein the leg portion of the retainer member is removed from interfacing with and restraining the self-locking mechanism such that the self- locking mechanism may contract to the spring released position to grip an outer surface of a tubular member.

31. A tubular gripping device comprising:

an outer body defining an inner tubular cavity having a first inner diameter, a second inner diameter, a first load shoulder, and a second load shoulder, wherein the first inner diameter is greater than the second inner diameter, and wherein the first load shoulder tapers in a first axial direction from the first inner diameter down to the second inner diameter, and wherein the second load shoulder tapers in a second axial direction from the first inner diameter down to the second inner diameter, wherein the first axial direction and the second axial direction are opposite directions, and wherein the outer body further comprises a profiled outer diameter configured to counteract increase in an effective outer diameter of the outer body in response to flaring of the outer body under load on the first load shoulder and the second load shoulder; a self-locking mechanism positioned substantially co-axially within the tubular cavity of the outer body and proximate the first inner diameter, the self-locking mechanism having a spring expanded position such that an inner diameter of the self-locking mechanism is substantially equal to or greater than the second inner diameter, and having a spring released position such that the inner diameter of the self-locking mechanism would springably contract to be smaller than the second inner diameter were the self-locking mechanism unrestrained; and a retainer member having a first retainer position wherein a leg portion of the retainer member is configured to extend through an aperture in the outer body to interface with and radially restrain the self-locking mechanism in the spring expanded position, and the retainer member having a second retainer position wherein the leg portion of the retainer member is removed from interfacing with and restraining the self-locking mechanism such that the self- locking mechanism may contract to the spring released position to grip an outer surface of a tubular member.