NO872275L - PROCEDURE FOR UNDERWATER DEEP ANCHORING. - Google Patents

Description

French patent document 85.09355 describes the principle of a body designed to be displaced in an unlimited fluid flow, of the type whose front and rear shape is determined based on considerations dictated by the known technique, and where the body is characterized by the fact that, in order to

lower the resistance to movement, avoid peeling of the outermost layer and suppress phenomena related to cavity formations and instability, a profile is given over the part that connects the front and the rear part so that the pressure coefficient is kept constant over this whole part.

This French patent, among other things, and like corresponding patents concerning such bodies, has mainly been aimed at investigations of the seabed or seabed, and then particularly regarding the nature of the bed and resistance to penetration. The body described has then mainly been intended for vertical displacement.

The present invention relates to another application of such a body for vertical displacement in a marine environment and other bodies with similar properties, namely underwater deep anchorages for larger structures.

It can often be the case that the seabed at great depths

is of a relatively soft nature, and this means that it can be very difficult to ensure a solid anchoring of structures such as oil drilling platforms that expose the anchorings to particularly large vertical and horizontal forces and where it is consequently difficult to find suitable anchoring points.

The invention thus sees it as its task to use a body such as that described in the aforementioned patent document or a similar body in connection with an actual anchoring device which can be of traditional construction or of a new type and particularly suitable for holding a special construction firmly anchored, and the overall structure that is thus formed and lifted out from an auxiliary vessel on the surface or from the structure to be anchored, then hits the seabed at a high speed thanks to the special shape of the body or the anchor, and anchoring is ensured by the fact that the the anchor penetrates deep into the seabed and secures a

good and solid anchoring of the desired construction.

By "corresponding body" one understands an anchor

which is assembled so that a high speed is achieved when it is released. An anchoring body or anchor in accordance with the invention usually comprises three parts: The anchor tip or the penetration body itself, the connecting or anchoring body which is connected to an anchor line, and these bodies shall be described in more detail in the following description in connection with the anchor head which is attached to the anchor tail part, and a connecting organ between these two parts. In such a case, the uncoiling drum for the guide line connecting the anchor to the surface vessel during the anchor's unhealing may be arranged in the anchor head, otherwise the connecting means mentioned above may be a rigid steel line or a concrete injection pipe, in which case the mass and profile of the assembly of the three parts could be determined on the one hand based on the desire for a deep penetration into the seabed and on the other hand based on the relevant movement energy during the penetration and the buoyancy of the anchor head in combination to keep a stretch in the connecting line or to avoid that a possible connecting pipe breaks.

In order to avoid the undermining that can occur in connection with the connecting line, another type of anchoring device can be used in accordance with known technology, but which does not necessarily need to be designed for driving in, as it is then sufficient to place this on the seabed at the end of a guide line that connects the anchor with an auxiliary vessel on the surface, before the actual anchoring is carried out. In such a case, an anchoring device can be used which acts as a suction cup and which is described in French patent 74.10700.

According to another embodiment of the invention, the anchoring body which has been called an anchor is itself

the main anchoring unit and has a smooth profile that does not change during the entire downward movement, and where the anchor includes side plates that unfold when the anchor is pulled after it has penetrated the bottom at the desired location, as

these side plates, for example, are activated with the help of explosive charges or similar devices so that a permanent dredge is formed at the bottom. This will resist any promotion and will therefore serve as a solid and reliable anchorage.

To further complete this anchoring, several anchors of this type can be connected together in a bundle or a group.

In this way, you can provide an anchorage that will be able to withstand several million or tens of millions of Newtons of traction in the vertical direction.

However, there may be periodic horizontal forces that pull on the anchor and which can cause mass to be dug away so that the effective covering is reduced. For this reason, in accordance with the invention, an anchoring system is arranged to which the mentioned anchoring body is connected, and such a system can e.g. include ballast that rests on the surface of the seabed and helps to hold the anchor in place. In such a case, deep anchoring of the anchor to a large penetration depth in connection with a further anchoring device based on suction cup action will be sufficient for reliable total anchoring. The connection of the anchor line takes place by means of a guide line which connects the surface vessel with an anchoring ring on the anchor.

The attachment of the anchor line to the anchor head can be carried out in different ways, either in the same way as the anchor line is attached to the anchor when it is to be anchored deep into the seabed, with the help of a rigid connection line, or with the help of a pipe designed for concrete injection.

In accordance with a preferred embodiment of the invention, a connection to marker means such as an ultrasound transmitter is arranged which provides for pilot control of the anchor line during its assembly.

The invention thus primarily aims at a

method for underwater deep anchoring of floating structures, characterized in that

an assembly is used which comprises a penetration anchor with high but limited speed, anchoring means and permanent marker means for the anchor and connecting lines between this and the anchoring means and the marker means, the assembly being constructed in such a way that the penetration anchor needs a certain calculated depth down into the seabed when the assembly is dropped from the floating structure, thereby securing its anchoring, while the marker bodies remain permanently above the bottom, and that the assembly is dropped or raised completely from the surface where signals from the marker bodies are received, whereby an anchor line can be attached to the anchoring bodies.

In the following, the invention will be described with reference to the drawings, where fig. 1 shows a first embodiment of an anchoring body or anchor according to the invention, fig. 2 shows a second embodiment of this anchor, fig. 3 indicates a way of reducing the cyclic horizontal displacements of an anchorage, and fig. 4 schematically shows the application of the invention when anchoring a drilling platform form for oil.

The anchor shown in fig. 1, has the form of an axisymmetric body, here called an anchor 1 and arranged for vertical displacement and optionally equipped with control fins 2. The anchor 1 is connected by an anchor line (not shown) to a structure which is to be held in position on the surface.

According to this embodiment, the anchor 1 has four depressions in the form of radial slits 3 in which are embedded narrow plates or rails 4 which are pivotably mounted on horizontal shafts 5 at the tip of the anchor.

The anchor that is raised from the auxiliary vessel on the surface reaches the seabed at a high speed, in the order of 40 to 80 m/s thanks to its profile which is described in the first mentioned patent document, and the anchor then penetrates the bottom to a considerable depth which can be of in the order of 20 to 50 meters. As soon as the anchor stops after this penetration, the rails 4 swing out as shown at 4', and in addition the rails will swing 90° in relation to the axle under the effect of the non-central friction that is formed as soon as the anchor is affected by a stretch, so that the rails barrages flat in the soft seabed. The resulting frictional force has a direction that passes through the center of gravity of each rail 4, and this direction is thus displaced in relation to the rail's axis of rotation. The anchoring must therefore be considered to

be extremely solid and will be able to withstand great forces.

The anchor shown in fig. 2 differs from the previous one in that it has no slits, but the rails 6 are here curved so that they can lie flat against the outer surface of the anchor 1. The unfolding like an umbrella of the rails 6 is caused, for example, by explosive charges which are arranged at the top of the rail lot 7 and which starts an unfolding which continues until the rails lie flat against the soft surface on the seabed as previously described.

If one now considers fig. 3 there is shown an auxiliary vessel S on the N surface of the sea and connected by an anchor line 10 to an anchor 11 in accordance with the invention and which is driven into the seabed and whose plates are unfolded as the invention dictates in order to avoid excavating bottom mass 12, which otherwise could result in horizontal periodic displacements of the line. A mooring system such as a ballast 13 is located on the seabed surface 14 strung around the line or around a connecting pipe 10'. The attachment between the anchor line 10 and the assembly of the anchor and the ballast is carried out by means of an anchor head 15 and may include a fuse in an automatic connection system.

The control of the ballast for its contribution to the assembly with the anchor by deep anchoring of the anchor head, as well as the "clamping" of the anchor line can be carried out using various suitable aids depending on the type of connection between the anchor head and the penetration anchor, e.g. by means of a guide line which is unwound from the anchor head during the pulling or by an oil exploration equipment based on the hydrojet principle and which is controlled by ultrasonic transmitters (pingers) and a video camera for the final phase.

Finally, fig. 4 an oil drilling platform P

which rests on a floating support structure F which is connected via anchor lines 10 to ballast 13 which rests on the seabed 14 and which is connected to the anchor 11 in accordance with the invention via rigid steel cables 10' which are attached to rings 15. This

system ensures a platform anchorage that can withstand tension of the size 50 MN.

Within the same scope of application, the invention is also directed to a certain number of precautions which have to do with the completion of such an anchoring and installation and immobilization of pipelines.

In the first place, in accordance with the invention, it will be possible from the surface to inject a concrete charge into the anchoring body by means of pipes that end in an anchor with a porous wall or opened by explosion after driving in. Although this principle is known, the application in accordance with the invention will give the advantage of a final placement that is much faster than with the help of other relevant aids.

This principle can replace mechanical anchoring means such as the rails 4 and 6 in fig. 1 and 2.

Secondly, in accordance with the known laying technique for pipelines, it may prove useful to immobilize a pipeline section, particularly in the case where this section is affected by strong currents or further when the ground on which the pipeline section rests is of poor quality. In this case, it will be possible to anchor this section within the scope of the invention by means of one or two anchors driven down as described above.

Finally, in accordance with this technique and in the case where the pipeline may have slipped from a certain location point and to a new determined point, it will be possible to use the organs that the invention launches to define fixed and stable points for the use of steel cables that are wound up on drums which must precisely be arranged at such fixed and stable points.

It will be noted that even without any pilot system you will be able to place the anchors in accordance with the invention with an accuracy of the order of 20 meters in relation to a specific target, but if a suitable pilot device is used, this accuracy will be able to be improved to an order of magnitude 1 meter, which particularly opens up the possibility for the latter applications.

One of the main advantages of the present invention is that the anchor, which has a high but limited speed, is separated during the anchor throw from the anchor line, whose friction would significantly limit the anchor's speed if the line had been attached to the tail section during the movement.

The limited speed achieved is the speed of the anchor itself and the means of attachment and connection associated with marker means from the bottom such as ultrasonic transmitters. In the case where these marker bodies consist of a guide line that is wound up from the anchor or the anchor head associated with it,

this guide line, which has a small cross-section, will be motionless in the sea and will introduce nothing but a very small braking of the anchor, which only limits the achievable speed to a correspondingly small extent.

Claims (10)

1. Procedure for underwater deep anchoring of floating structures, characterized by the fact that an assembly is used which includes a penetration anchor with high but limited speed, anchoring means and permanent marker means for the anchor and connecting lines between this and the anchoring means and marker means, in that the assembly is constructed in such a way that the penetration anchor needs a specific calculated depth into the seabed when the assembly is lowered from the floating structure, whereby its anchoring is ensured, while the marker bodies remain permanently above the bottom, and that the assembly is dropped or lifted completely from the surface where signals from the marker bodies is received, whereby an anchor line can be attached to the anchoring means. 2. Method according to claim 1, characterized in that the anchor itself forms the anchoring member, as its profile is smooth and is kept unchanged during the entire downward movement, and that the anchor includes lateral rails (4, 6) which are unfolded after driving in, for example as follows of the action of explosive charges so that a dredge is formed which resists uprooting and contributes to the solidity of the anchorage. 3. Method according to claim 2, characterized in that the rails (4, 6) are pivotably fixed in slots which are distributed in a radial plane over the circumference of the anchor and after driving in, swing out about shafts (5) arranged at the bottom of the rails so that they swing out 90° to form a flat crown for bearing against the seabed under the action of decentered friction resulting from traction forces. 4. Method according to claim 2, characterized in that the rails (4, 6) lie pressed against the outer side of the anchor and their swinging out if the shafts (5) are arranged at the bottom only occurs after driving in, for example by means of explosive charges located at their upper part (7), as this oscillating movement is immediately continued under the action of the decentered frictional forces due to the traction forces. 5. Method according to one of claims 1-4, characterized in that the anchor is connected to the surface via a pipe designed for injection of concrete into the anchor and/or around it to increase the strength of the anchoring. 6. Method according to claim 2, characterized in that the anchoring device is based on the suction cup principle. 7. Method according to one of claims 1-6, characterized in that the marker means consist of a guide line which is guided from the anchor. 8. Method according to one of claims 1-6, characterized in that the marker means are in permanent function and the anchor consists of an ultrasound transmitter. 9. Application of the method according to one of claims 1-8 to prevent the movement of pipelines in zones with strong currents and on a seabed of poor quality. 10. Application of the method according to one of claims 1-8 for establishing fixed points for the installation of pipelines that are pulled into place.