TURRET ASSEMBLY

Abstract

A turret assembly for a vessel comprises a moonpool defined in the vessel and a turret structure rotatably mounted in said moonpool. The turret structure comprises a turret table which by means of a main bearing is rotatably mounted in said moonpool and a hollow turret shaft defined by a surrounding shaft wall, which turret shaft has an upper shaft end connected to the turret table, a substantially cylindrical shaft part that extends downwardly from the turret table and a lower shaft end provided with means intended for cooperation with a lower bearing. The shaft wall of the upper shaft end comprises a widened part surrounding the cylindrical shaft part and defines a circumferential crest, wherein the shaft wall of the upper shaft end, starting from said circumferential crest, extends downwardly towards a position where the upper shaft end is connected to the turret table.

Claims

1. A turret assembly for a vessel, comprising a moonpool and a turret structure rotatably mounted in said moonpool, wherein the turret structure comprises a turret table rotatably mounted in said moonpool with a main bearing and a hollow turret shaft defined by a surrounding shaft wall, which turret shaft has an upper shaft end connected to the turret table, a substantially cylindrical shaft part that extends downwardly from the turret table and a lower shaft end cooperative with a lower bearing, wherein the shaft wall of the upper shaft end comprises a widened part surrounding the cylindrical shaft part and defines a circumferential crest, wherein the shaft wall of the upper shaft end, starting from said circumferential crest, extends downwardly towards a position where the upper shaft end is connected to the turret table.

2. The turret assembly according to claim 1, wherein the shaft wall of the upper shaft end substantially defines a half torus shape.

3. The turret assembly according to claim 1, wherein the shaft wall of the upper shaft part end substantially defines a revolved elliptical shape.

4. The turret assembly according to claim 1, wherein at least a part of the shaft wall between the circumferential crest and the turret table extends vertically for defining a substantially elongate cylindrical shaft wall part.

5. The turret assembly according to claim 1, wherein at least a part of the shaft wall between the circumferential crest and the turret table extends inclined outwardly for defining a widening shaft wall part.

6. The turret assembly according to claim 1, wherein at least a part of the shaft wall between the circumferential crest and the turret table extends inclined inwardly for defining a narrowing shaft wall part.

7. The turret assembly according to claim 1, wherein the shaft wall, starting from the connection between the cylindrical shaft part and the upper shaft end extends horizontally for defining a ring-shaped circumferential crest.

8. The turret assembly according to claim 7, wherein at said ring-shaped circumferential crest a torsion-box like construction is provided.

9. The turret assembly according to claim 7, wherein at said ring-shaped circumferential crest a solid block is provided.

10. The turret assembly according to claim 1, wherein the turret table comprises an upper surface and a lower surface, wherein a channel is provided extending between said upper and lower surfaces, through which channel the turret shaft extends and wherein the circumferential crest of the upper shaft end is located at a level above said upper surface of the turret table.

11. The turret assembly according to claim 1, wherein the turret table comprises an upper surface and a lower surface, wherein a recess is provided extending upwardly from the lower surface in which the upper shaft end is located and wherein the circumferential crest of the upper shaft end is located at a level between said upper surface and said lower surface.

12. The turret assembly according to claim 11, wherein said recess has a closed upper end below the upper surface.

13. The turret assembly according to claim 1, wherein at least part of the shaft wall of the upper shaft end has a larger thickness than remaining parts of the shaft wall.

14. The turret assembly according to claim 13, wherein a transition between shaft wall parts with different thicknesses is asymmetrical.

15. The turret assembly according to claim 13, wherein the lower shaft end includes a lower table cooperating with the lower bearing define.

16. The turret assembly according to claim 13, wherein a transition between shaft wall parts with different thicknesses is symmetrical.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0022] Hereinafter aspects of the invention will be elucidated while referring to the drawings, in which:

[0023] FIG. 1a in a schematic manner illustrates a cross sectional view of a state of the art turret assembly;

[0024] FIG. 1b in a schematic manner illustrates a cross sectional view of another state of the art turret assembly;

[0025] FIG. 2 in a schematic manner illustrates a cross sectional view of part of a first embodiment of the turret assembly; and

[0026] FIGS. 3-8 in a schematic manner show cross sectional views of parts of alternative embodiments of the turret assembly.

DETAILED DESCRIPTION

[0027] A state of the art turret assembly for a vessel is schematically represented in figure la. It comprises a moonpool 1 defined in the vessel 2 and a turret structure 3 rotatably mounted in said moonpool 1. The turret structure 3 comprises a turret table 4 which by means of an upper main bearing 5 is rotatably mounted in said moonpool 1 around a vertical axis 6 (such that the vessel 2 can weathervane around the turret structure 3). The turret table 4 also may be part of a so-called turntable, or such a turntable (schematically indicated in broken lines as 7) may be positioned on top of the turret table 4.

[0028] The turret structure 3 further comprises a hollow turret shaft 8 defined by a surrounding shaft wall 9. An upper shaft end 10 of the turret shaft 8 is connected to the turret table 4 and a substantially cylindrical shaft part extends downwardly from the turret table 4.

[0029] It is noted that the cylindrical shaft part not necessarily should have a circular cross-section, but that also other cross sectional shapes (for example hexagonal or otherwise polygonal) are conceivable. The cylindrical shaft may be conical, at one or more sections or as a whole and may include a variation of diameters and thicknesses over its length.

[0030] A lower shaft end 11 is provided with a chain table 12 intended for supporting, among others, anchoring lines or chains 13 and risers 14. The chain table 12 has an outer circumferential surface 15 which is intended for cooperation with a lower bearing 16 positioned on or incorporated into an inner surface 17 of the moonpool 1. It is also known per se that the lower bearing 16 may be fitted to the moonpool 1 and the chain table 12 or parts on the moonpool 1 and other parts on the chain table 12 with mentioned gap in between.

[0031] As is generally known, the circumferential surface 15 of the chain table 12 and the lower bearing 16 are spaced by a small gap (the lower bearing is open) when there are no or only small horizontal loads acting on the chain table 12. However, when such horizontal loads occur (for example arising from mooring loads acting on the anchoring lines 13), the turret shaft 8 will bend until a substantial part of the circumferential surface 15 engages the lower bearing 16 (the lower bearing is closed).

[0032] One will understand that once the circumferential surface 15 engages the moonpool 1 through the lower bearing 16, loads on the turret shaft 8 (especially moments acting at the upper shaft end 10) and main bearing 5 are lowered. Thus it is a primary goal of the present invention to amend the design of the turret assembly in such a manner that the turret shaft 8 can more easily assume a position in which the lower bearing is closed without the need for large horizontal loads acting on the chain table 12 (and thus without resulting large stresses (moments) at the upper shaft end 10 and loads in the main bearing 5).

[0033] FIG. 1b shows a partial cross sectional view of another state of the art turret assembly. In this layout the turret table 4 is reduced to a flange that connects the upper shaft end 10 to the main bearing 5. Similar parts have identical references as in FIG. 1a.

[0034] FIG. 2 schematically shows part of an embodiment of the turret assembly. It only represents part of the turret table 4 and of the turret shaft 8 with its upper shaft end 10. The shaft wall 9 of the upper shaft end 10 comprises a widened part surrounding the cylindrical shaft part of the turret shaft 8. This widened part defines a circumferential crest 20. The shaft wall 9 of the upper shaft end 10, starting from said circumferential crest 20, extends downwardly towards a position where the upper shaft end 10 is connected to the turret table 4. In this embodiment the connection between the cylindrical shaft part of the turret shaft 8 and the upper shaft end 10 is indicated schematically by a broken line 19. In the illustrated embodiment the shaft wall 9 of the upper shaft end 10 substantially de-fines a half torus shape. The inner dimensions may be such that a person may gain access.

[0035] Further one can see that a lower part of the shaft wall 9 between the circumferential crest 20 and the turret table 4 extends vertically for defining a substantially elongate cylindrical shaft wall part 9. This is not necessary, however, in all embodiments and may depend on the specific circumstances (as will hold true for many of the design details described).

[0036] FIG. 2 also shows that in this embodiment at least part of the shaft wall 9 of the upper shaft end 10 may have a larger thickness t2 than remaining parts of the shaft wall 9, 9 (which for example have a thickness t.sub.1). The transitions between shaft wall parts with different thicknesses may be symmetrical (such as between wall parts 9 and 9) or asymmetrical(such as between wall parts 9 and 9).

[0037] The turret table 4 comprises an upper surface 21 and a lower surface 22 and a channel 23 is provided extending between said upper and lower surfaces, through which channel 23 the turret shaft 8 extends without engaging the turret table 4. The circumferential crest 20 of the upper shaft end 10 is located at a level above said upper surface 21 of the turret table 4.

[0038] The shape and position of the upper shaft end 10 may be varied in many ways. Some exemplary embodiments are illustrated in FIGS. 3-8 which all show only about one half of a cross sectional view compared to FIG. 2.

[0039] In the embodiment illustrated in FIG. 3 a part of the shaft wall 9 between the circumferential crest 20 and the turret table 4 extends inclined outwardly for defining a widening shaft wall part.

[0040] In the embodiment illustrated in FIG. 4 a part of the shaft wall 9 between the circumferential crest 20 and the turret table 4 extends inclined inwardly for defining a narrowing shaft wall part.

[0041] In FIG. 5 a part of the shaft wall 9 of the upper shaft end 10 connecting to the wall 9 of the cylindrical shaft part of the turret shaft 8 extends inclined outwardly (but also may have another orientation).

[0042] It is noted that, although in the FIGS. 2-5 the upper shaft end 10 defines part of a torus with a constant radius (as seen in cross section), it also may have different radiuses varying locally or other shapes (for example conical).

[0043] In the embodiment of the turret assembly according to FIG. 6 the turret table 4 comprises an upper surface 21 and a lower surface 22, wherein a recess 24 is provided extending upwardly from the lower surface 22 and having a closed upper end below the upper surface 21. The upper shaft end 10 is located in said recess 24. In this embodiment the circumferential crest 20 of the upper shaft end 10 is located at a level between said upper surface 21 and said lower surface 22. The upper surface 21 in such an embodiment may (or may not) extend uninterrupted over the entire extent of the turret table 4 (apart from any holes or recesses for other purposes).

[0044] The FIGS. 7 and 8 illustrate embodiments in which the upper shaft end 10 does not define a half torus shape (which is defined by a line shaped upper crest 20 as in the FIGS. 2-6) but a square or rectangular shaped design. In these embodiments a planar ring-shaped circumferential crest 20 is defined. Such a design also may be combined with other positions and shapes of some parts of the shaft wall (for example with inclined wall parts as illustrated in FIGS. 3-5). The planar crest 20 also may have an inclined position.

[0045] In FIG. 7 at said ring-shaped circumferential crest 20 a torsion-box like construction 25 is provided, whereas in FIG. 8 at said ring-shaped circumferential crest 20 a solid block 26 is provided, whatever suits best constructional demands.

[0046] In FIG. 7 the upper wall of the torsion-box like construction also could be made of a part of the shaft wall extending horizontally. In FIG. 8 such a separate horizontally extending shaft wall is not really present, but may be considered to be integrated in the solid block 26. In another embodiment not illustrated, though, the solid block 26 could be located below such a shaft wall.

[0047] The invention is not limited to the embodiments described before which may be varied widely within the scope of the invention as defined by the appending claims.