NO165437B - ANCHORING DEVICE. - Google Patents

Description

The present invention relates to an anchoring device

for retaining a chain-shaped anchor line in the form of chain, wire, synthetic rope etc. to the seabed, preferably for a floating platform construction for the extraction of

natural occurrences, comprising an anchor element to which the anchor line is attached, which anchor element has negative buoyancy and is held in relation to the seabed in the largely horizontal stretching direction of the anchor line by a bottom foundation.

Different types of anchors have previously been used for anchoring floating platform structures of the semi-submersible type. The most common are so-called plow anchors and plate anchors, which dig into the seabed when subjected to stress. The disadvantages of such anchors are that their holding power depends on the bottom conditions and that they are easy to loosen if they are subjected to tension at an upward angle. Due to uncertainty about the nature of the bottom at the place where the anchor is to be placed, it is often necessary to oversize the anchor. Furthermore, the anchor line must be made long and the chain closest to the anchor relatively coarse to ensure that the anchor is only exposed to forces that act along the seabed. At great depths this leads to disproportionately long anchor lines. Another disadvantage is that when the anchor line with chain is to be inspected, it is necessary to break loose the anchor and raise it to the surface. Such a procedure is naturally time- and resource-consuming, and it also involves considerable work in bringing the anchor into place afterwards.

Another formerly used type of anchor is the so-called pole anchor. Here the anchor chain is attached to a pile a little

under the upper end of this, and the pile is drilled and/or rammed into the seabed using known techniques. Such pile anchors are nearly impossible to remove, once installed, so that inspection of the anchor chain closest to the pile becomes nearly impossible. We are therefore advised here to use such a coarse chain that you are sure it will last for the time the platform will be in place. If the chain is to be salvaged when the platform is moved, it is recommended to burn the chain loose at the pile with the help of divers.

A third type of anchor is the so-called gravity anchor. This produces a holding force with the help of its own weight, possibly aided by a suction effect between the seabed and the anchor on its underside. This type of anchor is also very difficult to bring to the surface for inspection of the chain and its attachment point. The problems are therefore largely the same as for pile anchors.

The present invention aims to provide an anchoring device which is not affected by the above-mentioned shortcomings and disadvantages. This is achieved according to the invention with an anchoring device of the type mentioned at the outset, the characteristic of which is that the anchor line is attached at the periphery of the anchor element, the anchor element having a largely cylindrical shape, and that the anchor element is shape-matched to the bottom foundation which is attached to the seabed.

Here, the bottom foundation can be placed in advance with good precision and firmly attached to the seabed using previously known techniques. The anchor element itself with the anchor line can then be installed very quickly when the platform is to be anchored, e.g. by means of a surface vessel and an ROV or by means of a normal steering line system. When the anchor line is to be inspected, this is done simply by lifting the anchor element out of the bottom foundation and raising it to the surface together with the anchor line.

Due to the form-locking effect between the anchor element and the bottom foundation, these will be able to be designed without difficulty so that an upward-sloping pull in the anchor line will be tolerated without the anchor element loosening from the bottom foundation. This allows the use of significantly shorter anchor lines, which is particularly advantageous when anchoring at greater depths.

According to an advantageous embodiment of the invention, the bottom foundation comprises an upwardly open cavity into which the anchor element fits down. With such a design, the anchor element can be given the necessary strength even if it is relatively small and light, and under these circumstances it becomes extra easy to raise the anchor element with the chain to the surface for inspection.

According to the invention, it is also proposed to pile the bottom foundation to the seabed with several piles. By adapting the number, size and distribution of the piles on the bottom foundation, an almost unlimited holding power can be achieved within the limits set by the strength of the anchor line.

According to an advantageous embodiment of the invention, the bottom foundation is formed by an upwardly open cavity in the upper part of a pipe lowered into the seabed. One can imagine this pipe being set down in the seabed in the same way as a well casing, and the pipe can be set down using the same technology that is used in well drilling. If you want to avoid using excessive wall thickness in the pipe to provide the necessary strength, you can arrange several joined pipes concentric to each other,

in the same way as you install well casing.

Instead of letting the bottom foundation have an upward open cavity like a plug or the like. with the anchor line fitting down, according to the invention, the anchor element can be made up of a largely ring-shaped body which fits down onto a pile which forms the bottom foundation or protrudes from it. Such a pile can advantageously comprise a pipe which is lowered into the seabed and is preferably filled with concrete. The pile can also comprise several concentric, mutually molded tubes. Again, the pile can be mounted using normal drilling technology.

In order to facilitate the lowering of the anchor element and its placement, especially in rough weather, it is proposed according to the invention to provide the bottom foundation with attachment options for at least one guide line. These attachment options can advantageously take the form of a releasable steering column, which can thus be removed after use and remounted if necessary. To simplify this method, the bottom foundation can comprise a normal well frame. This reduces the need for special parts and makes it easier to use existing well drilling technology.

According to the invention, it is also proposed to mount or design the bottom foundation so that the central axis of its cavity or pile forms an acute angle with the vertical. By letting the central axis tilt away from the platform in an upward direction, you can reduce the possibility of the anchor element breaking free from the bottom foundation when the anchor line pulls diagonally upwards from the bottom. Under such conditions, you will not only be able to shorten the anchor line significantly, but you will also be able to avoid having to use the usual chain closest to the anchor.

For a better understanding of the invention, it shall be explained in more detail with reference to the design examples shown in the attached drawings. Fig. 1 shows schematically and in perspective a first embodiment of the present invention. Fig. 2 shows schematically and in perspective a second embodiment of the invention. Fig. 3 shows schematically and in perspective a third embodiment of the present invention.

The anchoring device according to fig. 1 comprises a bottom foundation generally denoted by 1, consisting of a bottom frame 2 and a block 3 with an upwardly open cavity 4. On one side, the block 3 is provided with a recess 5 that leads into the cavity 4. The bottom foundation is attached to the seabed (not shown) using piles 6.

The anchoring device also comprises an anchor element 7, which has a shape that is largely complementary to the cavity 4

and the recess 5 in the block 3. The anchor element 7 thus has a projection 8 which fits in the recess 5, and to this projection the anchor line 9 is attached, here shown in the form of a chain. Above, the anchor element 7 has a fastening eye 10 for a line 11, which is used from a surface vessel (not shown) to lower the anchor element into place in the bottom foundation. The same line can of course be used to raise the anchor element with the chain 9 for inspection or replacement. The line 11 can be permanently attached to the anchor element and be provided

with a marking buoy etc. at its other end so that it can be fished up by the surface vessel if necessary. Alternatively, the line can be releasably attached to the fastening eye 10, e.g. by means of a remotely controllable or triggerable coupling device (not shown).

It will be understood that the cavity 4 and the recess 5 in the block 3 can be designed with outwardly sloping edges at the top in order to

easy introduction and orientation of the anchor element 7. It will be understood that it may be appropriate to make use of an ROV when the anchor element 7 is to be guided into place in the block 3. Alternatively, you can make use of customary guide lines, such as e.g. can be attached to the bottom frame 2 by means of per se known releasable guide posts. In this connection, it is conceivable to let the bottom frame 2 be made up of a normal well frame.

If the bottom foundation 1 is mounted in a place where strong ocean currents can occur which will be able to stir up sediments such as sand from the seabed, these sediments will have a tendency to settle in the cavity 4 before the anchor element 7 is set in place. In order to prevent such sediments from making it difficult to place the anchor element, it is conceivable to arrange the bottom frame 2 at a certain distance above the seabed and leave the cavity 4 partially open at the bottom, so that any sediments will fall out by themselves or be pushed out when the anchor element 7 is brought into place.

The anchor element is in fig. 1 shown with a horizontal cross-section of largely circular shape. However, it will be understood that the anchor element and the corresponding cavity in the bottom foundation can also have a polygonal cross-sectional shape or any other suitable shape.

In the design example in fig. 2, there is also a bottom frame 2, but here the block is replaced with a tube 12 which is routed, e.g. drilled, a suitable distance down into the seabed and possibly cemented firmly. The bottom frame 2 can also here be fixed in the seabed by means of piles, but usually the pipe 12 itself will have sufficient strength to give it the necessary holding force.

In this case, the anchor element consists of a largely cylindrical plug 13 which fits down into the pipe 12. The plug is provided with a collar 14 at the top, which in the plug's mounted state will rest against the top edge of the pipe and thus limit the plug's penetration into it. The length of the plug can advantageously be at least twice its diameter in order to distribute the forces from the anchor chain over a larger part of the pipe 12. The plug 13 can be conically tapered at the bottom to facilitate its introduction into the pipe, and the plug can also be made internally hollow to reduce its weight.

The pipe 12 can be made up of a single, relatively thick-walled pipe, or it can be composed of several concentric, mutually molded pipes, e.g. similar to a conventional well casing.

In fig.. 3'. is shown an embodiment where the bottom foundation is made up of a more or less massive pile 15, which is fixed in a suitable way in the seabed and projects a bit up and above the bottom frame 2. The anchor element in this case mainly consists of a ring 16 that fits down on the pile. The ring is provided with a hoop 17, which has an eye for attaching the line 11. It will be understood that in this case the ring will be able to be brought into place on the pile even if the pile is overgrown with marine growth or is partially covered by sand or other sediments because the ring will simply scrape away or displace such foreign elements during assembly.

Furthermore, it will be understood that the pile 15 can be conically tapered at the top to facilitate alignment of the ring when it is to be lowered into place. The pile itself can be massive, e.g. consist of a concrete-filled pipe, or it can consist of several concentric, preferably cast-together pipes, which can be closed at the top with a conical cap or plug.

A.S.M.A/S. 15,000. 6.84

The invention is not limited to the embodiments described above, but can be varied and modified in a number of ways within the scope of the following claims. Thus, e.g. the bottom foundation and the anchor element must be designed so that these parts lock to each other when the anchor element is exposed to the tensile force of the anchor line. Such interlocking can be mainly due to friction, but can also be strengthened by the fact that the bottom foundation is provided with undercuts or recesses which cooperate with lugs or protrusions on the anchor element.

Claims (10)

1. Anchoring device for retaining a chain-shaped anchor line (9) in the form of chain, wire, synthetic rope etc. to the seabed, preferably for a floating platform construction for the extraction of natural resources, comprising an anchor element (7) to which the anchor line (9) is attached, which anchor element has negative buoyancy and is held in relation to the seabed in the largely horizontal direction of the anchor line by a bottom foundation, characterized in that the anchor line (9) is attached to the periphery of the anchor element (7), the anchor element (7) having a largely cylindrical shape, and that the anchor element (7) is shape-matched to the bottom foundation (1) which is attached to the seabed. 2. Anchoring device according to claim 1, characterized in that the bottom foundation (1) comprises an upwardly open cavity (4) into which the anchor element (7) fits. 3. Anchoring device according to claim 1 or 2, characterized in that the bottom foundation (1) is piled to the seabed with several piles (6). 4. Anchoring device according to claim 2, characterized in that the upward open cavity of the bottom foundation (1) is formed by the upper part of a pipe (12) lowered into the seabed. 5. Anchoring device according to claim 1, characterized in that the anchor element consists of a largely ring-shaped body (16) which fits onto a pile (15) which forms the bottom foundation or protrudes from it. 6. Anchoring device according to claim 5, characterized in that the pile (15) comprises a pipe which is lowered into the seabed and is preferably filled with concrete. 7. Anchoring device according to claim 6, characterized in that the pile (15) comprises several concentric, cast together pipes. 8. Anchoring device according to one of claims 4-7, characterized in that the bottom foundation (1) includes attachment options for at least one guide line. 9. Anchoring device according to one of claims 4-8, characterized in that the bottom foundation (1) comprises a fire frame. 10. Anchoring device according to one of claims 2-9, characterized in that the central axis of the bottom foundation cavity (4, 12) or pile (15) forms an acute angle with the vertical.