초록 ▼

A jack-up rig for offshore operations comprises a hull. In addition, the rig comprises a support leg moveably coupled to the hull. The support leg has a central axis, an upper end, and a lower end opposite the upper end. Further, the support leg is adapted to be axially raised and lowered relative t

A jack-up rig for offshore operations comprises a hull. In addition, the rig comprises a support leg moveably coupled to the hull. The support leg has a central axis, an upper end, and a lower end opposite the upper end. Further, the support leg is adapted to be axially raised and lowered relative to the hull. The rig also comprises a ballast tank movably coupled to the support leg. The ballast tank is adapted to be axially raised and lowered relative to the support leg and the hull.

대표청구항 ▼

1. A jack-up rig for offshore operations, comprising: a hull;a support leg moveably coupled to the hull, wherein the support leg has a central axis, an upper end, and a lower end opposite the upper end, and wherein the support leg is adapted to be axially raised and lowered relative to the hull;a ba

1. A jack-up rig for offshore operations, comprising: a hull;a support leg moveably coupled to the hull, wherein the support leg has a central axis, an upper end, and a lower end opposite the upper end, and wherein the support leg is adapted to be axially raised and lowered relative to the hull;a ballast tank movably coupled to the support leg, wherein the ballast tank is configured to be axially raised and lowered relative to the support leg and the hull; anda translation mechanism coupled to the support leg and the ballast tank, wherein the translation mechanism is configured to move the ballast tank axially relative to the support leg in a first direction toward the upper end of the support leg and in a second direction toward the lower end of the support leg;wherein the translation mechanism is configured to move the ballast tank axially relative to the support leg to a position between the upper end and the lower end of the support leg to apply a ballast preload to the support leg to urge the support leg axially downward. 2. The jack-up rig of claim 1, wherein the ballast tank is disposed within the support leg. 3. The jack-up rig of claim 1, wherein the translation mechanism comprises a winch assembly. 4. The jack-up rig of claim 3, wherein the winch assembly includes a winch mounted to the upper end of the support leg, a mounting member coupled to the ballast tank, and a cable extending from the mounting member to the winch. 5. The jack-up rig of claim 1, wherein the translation mechanism comprises a rack and pinion device. 6. The jack-up rig of claim 5, wherein the translation mechanism includes an elongate leg rack attached to the support leg, an elongate tank rack attached to the tank and radially opposed the leg rack, and a pinion radially positioned between the leg rack and the tank rack; wherein the leg rack and the tank rack are each oriented parallel to the central axis of the support leg;wherein the pinion is rotatable relative to the leg rack and the tank rack;wherein the pinion includes a plurality of teeth that engage a plurality of mating teeth on the leg rack and a plurality of mating teeth on the tank rack. 7. The jack-up rig of claim 1, wherein the translation mechanism includes a plurality of elongate leg racks attached to the support leg, a plurality of elongate tank racks attached to the tank, and a plurality of pinions; wherein each leg rack and each tank rack is oriented parallel to the central axis of the support leg;wherein each leg rack is radially opposed one of the tank racks;wherein at least one of the plurality of pinions is radially positioned between one leg rack and one tank rack;wherein each pinion is rotatable relative to the leg racks and the tank racks;wherein each pinion includes a plurality of teeth that engage a plurality of mating teeth on one of the leg racks and one of the tank racks. 8. The jack-up rig of claim 1, wherein the translation mechanism is adapted to lock the axial position of the ballast tank relative to the support leg. 9. A method for operating an offshore jack-up rig including a hull and a plurality of elongate support legs moveably coupled to the hull, each of the support legs having a central axis, an upper end, and a lower end opposite the upper end, the method comprising: (a) moveably coupling a ballast tank to a first of the plurality of support legs;(b) moving the first of the plurality of support legs axially down relative to the hull; and(c) at least partially filling the ballast tank with water;(d) raising the ballast tank axially up relative to the first of the plurality of support legs to a position above the lower end of the first of the plurality of support legs and at least partially above the sea surface after (c);(e) increasing a downward preload applied to the first of the plurality of support legs during (c) to urge the lower end of the first of the plurality of support legs into the sea floor, wherein the preload applied by the ballast tank is not applied to the hull. 10. The method of claim 9, further comprising: moving the jack-up rig to an offshore location with the hull floating on the surface of the water before (b). 11. The method of claim 9, further comprising: lifting the first of the plurality of support legs axially upward relative to the hull; andat least partially filling the ballast tank with air and axially lowering the ballast tank below the sea surface. 12. The method of claim 9, wherein the ballast tank is moved axially up or down relative to the first of the plurality of support legs with a translation mechanism. 13. The method of claim 12, wherein the translation mechanism includes a leg rack attached to the first of the plurality of legs, a tank rack attached to the tank radially opposite the leg rack, and a pinion positioned between the leg rack and the tank rack. 14. The method of claim 13, wherein (d) comprises engaging the leg rack and the tank rack with the pinion, and rotating the pinion relative to the leg rack and the tank rack. 15. The method of claim 12, further comprising: attaching a winch to the upper end of the first of the plurality of support legs;coupling a cable to the winch and the ballast tank; andusing the winch to axially raise or lower the ballast tank relative to the first of the plurality of support legs. 16. A method for deploying an offshore jack-up rig, comprising: (a) building the jack-up rig, wherein the jack-up rig includes a hull, a plurality of support legs moveably coupled to the hull, and a ballast tank moveably coupled to each of support legs; wherein each support leg has a central axis, an upper end, and a lower end opposite the upper end;(b) moving the jack-up rig to an offshore drilling site with the hull floating on the surface of the water after (a);(c) positioning the jack-up rig over the offshore drilling with the hull floating on the surface of the water after (b);(d) lowering the plurality of support legs axially downward relative to the hull after (c);(e) engaging the sea floor with the lower end of each of the support legs during (d);(f) raising the hull above the surface of the water;(g) lowering each ballast tank at least partially below the surface of the water;(h) filling each ballast tank with water after (g); and(i) raising each ballast tank above the surface of the water after (h). 17. The method of claim 16, further comprising (i) penetrating the sea floor with the lower end of each support leg during (h). 18. The method of claim 16, further comprising applying a ballast preload to each support leg with its corresponding ballast tank during (h) without applying the ballast preload to the hull. 19. The method of claim 16, wherein each ballast tank is disposed within its corresponding support leg.