APPARATUS AND METHOD FOR SUBSEA WALL INSERTION

Abstract

A lead for installing a pile into a seabed floor comprising: an elongated body extending longitudinally along a first axis in a first direction from a top end to a bottom end and configured to receive a pile oriented in the first direction; and a lead indexing foot attached to the bottom end of the elongated body and laterally offset with regard to the first axis.

Claims

1. A lead for installing a pile into a seabed floor comprising: an elongated body extending longitudinally along a first axis in a first direction from a top end to a bottom end and configured to receive a pile oriented in the first direction; and a lead indexing foot attached to the bottom end of the elongated body and laterally offset with regard to the first axis.

2. An apparatus for installing a subsea wall into a seabed floor, the apparatus comprising: a lead according to claim 1; and a pile insertion device configured to drive a pile in the first direction into the seabed floor.

3. (canceled)

4. (canceled)

5. (canceled)

6. (canceled)

7. (canceled)

8. The lead of claim 1, wherein the lead further including a lead gate and an indicator device configured to indicate whether the lead gate is open or closed.

9. A method of driving a pile into a seabed floor adjacent to an existing foundation structure, the method comprising: lowering a lead longitudinally oriented in a first direction toward the subsea floor; engaging a lead indexing foot of the lead with the existing foundation structure; and advancing the pile, along the lead, in the first direction into the subsea floor.

10. The method of claim 9, further comprising inserting an interlock of the pile into an interlock of the existing foundation structure.

11. The method of claim 10, further comprising determining whether the interlock of the pile has engaged the interlock of the adjacent existing foundation structure.

12. (canceled)

13. (canceled)

14. The method of claim 9, further comprising loading the pile onto the lead prior to the step of lowering the lead in the first direction.

15. The method of claim 9, further comprising loading the pile onto the lead after the step of lowering the lead.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0038] FIG. 1 is a perspective overview of an apparatus for installing subsea foundation elements;

[0039] FIG. 2 is a perspective view of an apparatus shown in FIG. 1, showing an embodiment of a pile gate;

[0040] FIG. 3 is a perspective view of an apparatus shown in FIG. 1, showing an embodiment of an indexing foot;

[0041] FIG. 4 is another perspective view of an apparatus shown in FIG. 1, showing an embodiment of the moveable template and leader connection;

[0042] FIG. 5 is a methodology diagram showing how a subsea wall is constructed; and

[0043] FIG. 6 is a perspective view of a foundation element being installed.

DESCRIPTION OF THE EMBODIMENTS

[0044] Reference will now be made in detail to exemplary embodiments of the disclosure, examples of which are illustrated in the accompanying drawings. Wherever possible, the same reference numbers will be used throughout the drawings to refer to the same or like parts.

[0045] FIG. 1 shows an apparatus for installing a seabed wall 1. The apparatus may include a lead 10, a template 20, rails 30, and a pile insertion device 40.

[0046] The lead 10 comprises a long structural column that extends along an axis Y1 from a top end 10a to a bottom end 10b; the top end 10a is higher in elevation than the bottom end 10b.

[0047] The lead 10 is a self-supporting system that uses integrated winches or crane winches to control the lead lift and elevation, the tool (e.g., pile driving hammer) lift and elevation, and the pile lift and elevation. The lead 10 is also equipped with an integrated slide 12 (shown in FIG. 4) which has a built-in interlock with the template 20 and a range of motion (vertical movement) suitable for a specific project. The hydraulic power that actuates the lead 10 integrated systems (winches, guiding gates and driving/drilling tools) is provided by the supporting crane hydraulics or additional valve control system with a separate power pack unit or a combination of both (not shown).

[0048] As shown in FIG. 2, the lead 10 may have one or several gates 14 that are configured to position and align a foundation element, for example, a pile 50, relative to the lead 10. The gate 14 may include at least one gate arm 14a, that may be configured to swing between open and closed positions. The opening and closing of the gate arm 14a may be controlled by any suitable means, for example, hydraulics.

[0049] The lead 10 may further comprise a lead indexing foot 16 that extends along an axis Y2 that is laterally offset from the lead axis Y1. The lead indexing foot 16 is attached to the bottom end 10b of the lead. The lead indexing foot 16 may be joined to the bottom end 10b of the lead by, for example, welding or the lead indexing foot 16 may be fully integrated with the lead 10 as a unitary piece.

[0050] As shown in FIG. 3, the lead indexing foot 16 may form a tip portion 16a that is configured to align with an opening of an existing foundation structure 60, for example, a previously installed pile, group of piles, sheets, submerged supports laying on the seabed, etc. The lead indexing foot 16 further comprises a fitted portion 16b that is configured to at least partially contact an interior surface of the opening of the existing foundation structure 60. The lead indexing foot 16 further comprises a base portion 16c that is configured to interface with a top end 60a of the existing foundation structure 60.

[0051] The radial distance r.sub.a from the axis Y2 of the tip portion 16a may be smaller than a radial distance r.sub.b from the Y2 axis than the fitted portion 16b. A surface that extends between the tip portion 16a and the fitted portion 16b of the lead indexing foot 16 may be tapered.

[0052] The lead 10 may further comprise a second lead indexing foot 18 that is configured to align and interface with another portion of the existing foundation structure 60, for example, an adjoining previously installed pile. The second lead indexing foot 18 may extend along a third axis Y3 that is laterally offset from both the lead axis Y1 and the first indexing foot axis Y2. This second lead foot can be used to provide additional alignment of the lead and pile.

[0053] As seen in FIG. 4, the ground level template 20 consists of a structural frame that is installed on rails 30, which aid in the alignment and movement of the template 20. The template 20 and rails 30 may be made of any suitable material, for example, steel, iron, aluminium, etc.

[0054] The position of the template 20 can be fixed or can be moved to a predetermined location based on the required foundation spacing. The template 20 is configured to be removeably connected to the lead 10.

[0055] The template 20 may have a pivotable connection 22 with the lead 10. For example, the pivotable connection 22 of the template 20 may be configured to pivot the lead 10 about a first pivot axis so that an operator can account for any construction deviation in the piles and the lead may be adjusted to steer the pile position to maintain the construction within a specified tolerance. The pivotable connection 22 may be further configured to pivot the lead about a second or a third pivot axis. The pivotable connection 22 may be lockable such that the lead 10 can be locked into place after pivoting it about a first, second, and/or third pivot axis.

[0056] The pile insertion device 40 may be attached to the lead 10 by any suitable means, for example, fasteners. The pile insertion device 40 may be attached proximate to the top end 10a of the lead 10. The pile insertion device 40 may be any appropriate means to insert a pile into a seabed floor F, for example, a pile driving vibrating or impact hammer.

[0057] In operation, the template 20 is installed on rails 30 or rollers that are leveled and aligned with a subsea pile grid along the wall to be constructed. After assembly of the lead 10 and appropriate placement of the template 20, the lead 10 is held vertically with the lead indexing foot 16 touching the ground or connected to a supplied stand that limits movement during pile 50 lifting and loading.

[0058] As shown in FIG. 5, the hydraulic gate 14 is opened and then the pile 50 is connected to the pile line and lifted vertically using a crane or integrated lifting winches. The hydraulic gate 14 is subsequently closed such that the pile 50 interlocks 50f, 50m are now aligned with the pile line. The interlocks 50f, 50m will be discussed in more detail with reference to FIG. 6.

[0059] The lead 10 having the pile 50 therein is lifted, moved, and then lowered to be connected to the template 20. The lead assembly may be lifted using a crane. The lead integrated slide engages the template 20 by locking thereto. The provided locks, which have 3 axis lockable rotation, are engaged to maintain proper alignment in the horizontal and vertical directions, as well as prevent unwanted movement.

[0060] The lead 10 is then lowered toward the seabed floor F. The lead 10 is maintained in a vertical position, which can be monitored with, for example, inclinometers, plumb system, or hand held level tools. As the lead 10 is lowered, the tip portion 16a of the lead 16 will initially be inserted into the opening of an existing foundation structure 60, e.g., previously installed pile. The tapered surface between the tip portion 16a and fitted portion 16b pilots the lead indexing foot 16 until the existing foundation structure contacts the base portion 16c of the lead indexing foot 16. Thus, the lead indexing foot 16 is inserted into and is supported by the existing foundation structure 60. In this configuration, the lead 10 is substantially connected to the lead indexing foot 16.

[0061] As can be seen in FIG. 3, it is envisioned that the lead 10 may have a second lead indexing foot 18 that is configured to engage another portion of the existing foundation structure 60 in a similar manner as the previously discussed, first lead indexing foot 16. The second lead indexing foot 18 may extend along an axis Y3 that is laterally offset from axes Y1 and Y2. The second lead indexing foot 18 may have a similar shape as the first lead indexing foot 16 and be disposed on the second end 10b of the lead 10.

[0062] Turning to FIGS. 5 and 6, after at least one lead indexing foot 16 is fully inserted into the existing foundation structure 60, the pile 50 that is loaded in the lead 10 is in proper alignment and can be lowered.

[0063] The pile 50 has interlocks 50m, 50f that is adapted to engage interlocks 60m, 60f of the existing foundation structure 60. For example, at least a portion of pile 50 may have a male type interlock 50m that extends along a length of the pile 50, parallel to axis Y1. The existing foundation structure 60, which may be an existing pile, may have a female type interlock 60f that extends along a length of the existing foundation structure 60, parallel to axis Y2. Therefore, when the pile 50 is being lowered toward the seabed floor F, the respective interlocks 50m, 60f engage each other. Any suitable interlocking means may be implemented, for example a T-shaped protrusion and a corresponding channel. Cameras and/or sensors may be used to ensure that the respective interlocks 50m, 60f are properly engaged.

[0064] After it is determined that the respective interlocks 50m, 60f are properly engaged, the gates 14 are opened allowing the pile 50 to be lowered to the seabed floor F. Once the pile contacts the seabed floor F, the pile insertion device 40 drives the pile 50 therein. The pile insertion device 40 may be an impact hammer, a vibratory hammer, or a means to drill the pile 50 into the seabed floor F. A feedback means may be used with the gates 14, for example hydraulic flags configured to provide visual feedback on the gate position (open/close) even when water turbidity prevents visual confirmation or during a night time installation.

[0065] Once the pile 50 has been installed into the seabed floor F, the lead 10 is elevated vertically, away from the seabed floor F. The lead 10 is moved back into its initial position and thereafter disconnected from the template 20. At this point, a new pile can be loaded into the lead 10. This may be done concurrently with moving the template 20 to the next position. The template 20 may be advanced using a wire rope, winches, or hydraulically actuated cylinders.

[0066] The benefits of performing this method of operation using the lead 10 having at least one lead indexing foot 16 is that lowering the lead indexing foot 16 into the existing foundation structure 60, e.g., previously installed piles, fine tunes the alignment of the lead 10 at seabed elevation and allows the lead 10 to index using the existing foundation structure 60. Further, because the lead 10 is indexed with both the existing foundation structure 60 and the template 20, it is possible to determine the position and alignment of the existing foundation structure 60 by surveying or instrumentation on the lead 10. This enables installation of a seabed wall during times with low viability, for example, turbulent water or night.

[0067] An alternative method of installing a pile 50 into the seabed floor F is similar to the previous method, except that the lead 10 is connected to the template 20 without having a pile 50 loaded therein. The lead 10 is then lowered toward the seabed floor F. Similar to the previous exemplary method, the lead indexing foot 16 is inserted into and is supported by the existing foundation structure 60. Also similar to the previous method, it is envisioned that the lead 10 may have a second lead indexing foot 18 that is configured to engage another portion of the existing foundation structure 60.

[0068] After at least one lead indexing foot 16 is fully inserted into the existing foundation structure 60, the pile 50 is loaded into or onto the lead 10 and secured with a movable gate 14. The pile 50 is then lowered toward the seabed floor F.

[0069] Similar to the previous method, after the respective interlocks 50m, 60f of the pile 50 and existing foundation structure 60 are properly engaged, the gates 14 are opened allowing the pile 50 to be lowered to the seabed floor F and the pile insertion device 40 drives the pile 50 therein.

[0070] After the pile 50 has been installed into the seabed floor F, the lead 10 is elevated vertically, away from the seabed floor F and into its initial position. Thereafter, the lead 10 can be moved concurrently with the template 20 to the next position. The lead 10 and template 20 assembly may be advanced using a wire rope, winches, or hydraulically actuated cylinders.

[0071] The benefits of performing this method of operation using the lead 10 having at least one lead indexing foot 16 is that lowering the lead indexing foot 16 into the existing foundation structure 60 remains the same as the previous method in that the lead indexing foot 16 fine tunes the alignment of the lead 10 at seabed elevation and allows the lead 10 to index using the existing foundation structure 60. However, if the installation is occurring in placid or calm water, refraining from disconnecting the lead 10 from the template 20 after every pile 50 is driven, and adjusting the lead 10 with the template 20, expedites the installation process.

[0072] Throughout the description, including the claims, the term “comprising a” should be understood as being synonymous with “comprising at least one” unless otherwise stated. In addition, any range set forth in the description, including the claims should be understood as including its end value(s) unless otherwise stated. Specific values for described elements should be understood to be within accepted manufacturing or industry tolerances known to one of skill in the art, and any use of the terms “substantially” and/or “approximately” and/or “generally” should be understood to mean falling within such accepted tolerances.

[0073] Although the present disclosure herein has been described with reference to particular embodiments, it is to be understood that these embodiments are merely illustrative of the principles and applications of the present disclosure.

[0074] It is intended that the specification and examples be considered as exemplary only, with a true scope of the disclosure being indicated by the following claims.