NL1022415C2 - Salvage device for raising e.g. sunken ship by passing cables underneath, comprises work platform designed to sunk onto e.g. sea bed next to object being raised - Google Patents

Abstract

The work platform (10) is designed to be sunk so that it rests on the e.g. sea bed (2) next to the object (3) to be salvaged. At least one cable (9) is passed beneath the object using a work platform with a drilling device which is used to drill a rod (6) from one side of the object to the other via the e.g. sea bed. The free end of the drill rod is provided with a drill head (8). A cable is passed through the resulting bore from one side of the object to the other so that it is passed beneath the object.

Description

Brief indication: Device for lifting an object from the bottom of the sea, a river and the like.

DESCRIPTION

The invention relates to a device for lifting a sunken ship, shipwreck or other object from the bottom of the sea, a river and the like with the aid of at least one cable arranged under the object, comprising a working platform provided with means for driving a drill rod through the bottom of the object by means of rotation from one side to the other side of the object, the free end of the drill rod being provided with a drill bit and then passing it from the other side to the one side through the resulting bore lead from a cable.

For lifting a sunken ship, shipwreck or other object lying on the bottom of the sea, a river or other kind of water, inter alia can be done by attaching cables to the sunken object from a work ship located at sea level and this object then pull it up using the cables. Such a technique is not functional when the object is at great depths, since all work takes place from the salvage ship. In particular, activities that have to be performed at great depths are therefore difficult to perform or controllable, since these activities are strongly influenced by weather conditions and ocean currents.

In addition, attaching the cables to the sunken object requires specific work on site which can only be carried out by specifically trained persons and with the help of specific equipment.

Yet another technique involves arranging one or more cables under the sunken object with the aid of a device according to the aforementioned preamble. Here too, all work is carried out from a work platform / salvage vessel that is at sea level, which adversely affects the accuracy of the work to be performed.

The invention has for its object to obviate the above-mentioned drawbacks in a device which makes it possible to arrange a cable under a sunken object in a more efficient, safe but above all accurate manner.

According to the invention, the working platform can be sunk down to the bottom and next to the sunken object. This offers the possibility of carrying out the work, namely driving a drill rod from one side to the other side of the object through the seabed, which considerably improves the accuracy of the drilling operation to be performed. Furthermore, the work is not adversely affected by the weather conditions at sea level, so that even in very bad weather conditions, the work on the seabed can continue.

More in particular, according to the invention, the working platform can be provided with ballast tanks, displacement or positioning means, or be provided with anchoring means, the latter of which are composed of at least one jack driftable in the ground.

These embodiments make it possible to accurately position the work platform relative to the object during the sinking process, using specific displacement means such as a drive motor. Once positioned, the platform can be firmly anchored in the ground with the help of one or more jacks.

According to a special feature, the work platform comprises angle adjustment means for adjusting the angle of inclination between the drilling means and the bottom. Because the angle adjusting means comprise, for example, an expansion cylinder and the drilling means are pivotally connected to the working platform, an angle adjustment of the drilling means relative to the bottom can be obtained in a simple manner for the purpose of accurately driving the drill rod into the bottom.

In a special embodiment, the device according to the invention is characterized in that the drilling means form a frame provided with at least two guides, between which a part I of the drill rod can be received.

More specifically, the drill rod can be hollow or an assembly of connected pipes.

The drill rod can optionally be accommodated in a flexible metal tube, which metal tube can be unwound from above the water level of a reel I.

More specifically, the drilling means comprise a drill motor for rotating the drill rod, which drill motor is arranged on the one hand on the reel above the water level and, in another embodiment, is movably movable between the guides in the frame of the sunken working platform .

In this latter embodiment, the drilling motor can be connected to the piston rod of at least one expansion cylinder.

In the embodiment in which the drill motor is mounted on the sunken work platform, the drill motor comprises a hollow, rotatable drive shaft, through which hollow shaft the drill rod can be clamped.

It is thus possible to move the drill motor which is clamped around the drill rod with its rotatable drive shaft with the aid of the expansion cylinder between the guides in the frame, whereby the drill rod is driven into the ground over a small distance each time After which the drill motor is moved back to its upper position by the expansion cylinder upon reaching its lower position in the I frame, thereby again clamping itself on the drill rod with the hollow rotatable shaft.

For the purpose of accurate control and control of the device during the driving of the drill rod into the ground, according to the invention the drill head is provided with at least one measuring probe for determining the inclination angle, the depth, position and radial position of the drill bit relative to the bottom. The device can furthermore be provided with processing means situated above a sea level on a work vessel for processing the measured values measured with the measuring probe. The processing means can be connected to the measuring probe wirelessly or via a connecting cable running through the drill rod.

In another aspect according to the invention, a flexible tube assembly can be guided through the resulting bore, which tube assembly is provided with a plurality of openings directed towards the object for passage of a medium pumped under pressure through the tube assembly, for example a bentonite mixture and / or air .

The invention will be explained in more detail with reference to the drawing, which drawing successively shows: figures 1A-1C overviews of an embodiment of the device according to the invention; Figures 2A-2B are views of a first embodiment of a device according to the invention; Figures 3A-3B show another embodiment of a device according to the invention.

Figures 1A-1C disclose the principle of the invention according to the invention. The object to be lifted here is a shipwreck 3 which is located on the bottom 2 of a sea, river or other kind of water 1. At the sea level 1a there is a salvage vessel 4 with the suitable steering means 5 for controlling or driving a working platform 10 which can be sunk down to the seabed 2 according to the invention. For this purpose, the working platform has 10 ballast tanks (not shown). By filling these ballast tanks with water 30, the work platform 10 will descend vertically downwards until it comes to rest on the seabed 2. The working platform 10 is again provided with drilling means, which are not shown in figures 1A-1C, which drilling means a long drill rod 6, lowered from the salvage vessel 4, from one side to the other side of the wreck to be lifted at a certain angle. 3 float through the bottom 2. For this purpose, the free end of the drill rod 6 is provided with a drill head 8.

While driving the drill bit 8 and the drill rod 6 through the bottom 2, a bentonite mixture can be pumped in a manner known per se via the salvage vessel 4 in a suitable manner via or along the drill rod 6, which bentonite mixture via the drill bit 8 into the resulting bore 10 flows and the bore stabilizes.

When the drill bit 8 has finally reached the other side of the wreck 3 (as shown in Fig. 1A), the drill rod 6 is retracted, whereby a cable 9 is also provided under the wreck through the resulting bore. Optionally, first or simultaneously, a clearing means connected to the drill rod 6 can be withdrawn through the resulting bore for widening / clearing the bore. The cables 9 are connected with the ends 9a resp. 9b attached to a hoisting device (not shown) which are placed on a floating pot 12. With the aid of this floating poton 12, as shown in Fig. 1C, the wreck or object 3 can be lifted with the aid of the various cables 9 arranged and thus transported to a port.

A special aspect of the invention is shown in Figure 1C. Because wrecks that lie on the seabed over time sink into the soft seabed due to their own weight, this soft seabed exerts a suction effect on the wreck during lifting. As a result, when lifting the object 3, a greater hoisting force is required to overcome this suction effect than is really necessary for lifting the object 3 to be lifted up. As a result, the hoisting means placed on the floating poton 12 as well as on the 30 cables, 9 stricter structural requirements are set.

However, if the wreck 3 comes loose from the seabed 2, an acceleration in the hoisting direction can occur (see the upward pointing arrows in Figure 1C), which acceleration cannot be directly caused by the hoisting devices placed on the floating poton 12 and by the cables 9. are collected. The shock wave that then arises can cause the lifting cables 9 to break, or worse that the wreck 3 will break through the middle and end up in pieces on the seabed 2. The latter situation makes it difficult to highlight the various pieces.

In order to be able to cancel the suction effect of the seabed 2, in a specific embodiment of the invention flexible hollow tubes 11 are also guided through the bores formed, which hollow tubes are connected to the control means 5 on the work vessel 4 . All flexible hollow tubes 11 are connected to each other and are connected on the working vessel to a high-pressure pump installation forming part of the control means 5. Since according to the invention the hollow tubes 11 are provided with a large number of openings which are directed towards the object 3, a bentonite mixture pumped through the high-pressure pumping installation I through the hollow tubes 11 can leave these hollow tubes 11 via I, so that the bottom in which the wreck 3 has collapsed is saturated by the bentonite mixture. The bentonite mixture can optionally be provided with additives which break down certain soil structures in the soil.

The saturation of the seabed 2 at the location of the shipwreck 3 with a bentonite mixture removes the suction effect of the bottom 2 during the lifting of the wreck 3, which considerably simplifies the lifting of the wreck 3. Optionally, during pumping of the bentonite mixture through the bobbin cases 11, air can also be pumped through the high-pressure pumping installation 5 with an overpressure relative to the bentonite pressure, which pumped air topples the bottom 2 at the location of the wreck 3 and thus the sucking action further reduce I 30.

It will be clear that with this embodiment the lifting installation as well as the hoisting cables 9 have to be constructed considerably less heavily, which benefits the weight as well as the costs thereof.

Figures 2A and 2B show a first embodiment 5 of the working platform 10 as it can be sunk on the bottom 2 according to the invention. The working platform 10 has a frame or frame 20 which can be anchored to the bottom 2 with the aid of jacks 21a-21d. The jacks 21a, 21b, 21c, 21d are thereby actuated remotely, since the working platform 10 is provided for this purpose with a control module 30. This control module 30 controls, among other things, the correct control of the various anchoring means 21a-21d so that the working platform 10 is firm but also in the desired position or orientation relative to the bottom 2 / the object 3 is anchored.

Although not shown, the working platform 10 is also provided with suitable positioning and displacement means, for example driven propellers, which is via the control module 30 and via an "umbilical cord" 7 (see Figs. 1A-1C) with the control means 5 on the salvage ship 4 connected. Thus, the operating personnel present on the salvage vessel 4 can remotely operate the work platform 10. For this purpose, it is not necessary for divers to descend, which benefits safety, but moreover makes it possible to carry out work at such depths where divers can only stay for a very short time.

In this embodiment, the work platform 10 is provided with drilling means 22 which are hingedly connected to the frame 20 of the work platform 10 by means of a hinge. The drilling means 22 are adjustable at an angle with respect to the bottom 2 with the aid of a suitable expansion cylinder 23 which, with the aid of hinged arms 24a-24b, can be used with the drilling means 22 and 24 respectively. the base plate 20 is connected. The expansion cylinder 23 can also be driven in a manner known per se via the control unit 30 by the personnel on the salvage vessel 4 in order to adjust the 1022415 H angle of the drilling means 22 relative to the bottom 2 depending on the situation on site. .

The frame 22 of the drill bit and is provided with two guides 26a-26b through which the drill rod 6 can be received.

Between the two guides 26a-26b two guides 27c-27d H are arranged which form part of two expansion cylinders 27a-27b.

A drilling motor 28 is included between the two cylinders, which drilling motor 28 is provided with a hollow drive shaft 29. The drill rod 6 is received through this hollow drive shaft 29. This hollow drive shaft 29 of the drilling motor 28 is also provided with clamping means so that the drill rod 6 can be clamped in the hollow drive shaft.

Similarly, the drilling motor 28 is actuated by the operating personnel on the work vessel 4 via the control unit 30, the "umbilical cord" 7, so that the hollow drive shaft 29 with the H 15 drill rod 6 clamped in it starts to rotate together with the free end 6a mounted Drilling head 8. With the expansion cylinders 27a-27b the drill motor 8 can be moved from a position near the guide 26b over the two guide rods 27c-27d in the direction of the other guide 26a during rotation of the drill rod 6. The drill rod 6 and I, more particularly the drill head 8, are driven into the bottom 2 over a distance equal to the distance I between the two guides 26a-26b.

As soon as the drill motor 28 has been moved to near the guide 26a, the clamping means on the hollow drive shaft 29 are disconnected, whereafter the drive motor 8 is moved back over the guide rods 27c-27d by means of the expansion cylinders I 27a-27b the guide 26b. There, the clamping means are again energized, so that the hollow drive shaft 29 clamps onto the drill rod 6. Driving the drill motor 28 again results in a rotation of the drill rod I6 (and the drill bit 8). A corresponding displacement of the drilling motor 28 over the guide rod 27c-27d by the expansion cylinders 27a-27b in the direction of the guide 26a results in a displacement. 9 of the drill bit 8 through the bottom 2 over a distance equal to the distance between the two guides 26a-26b.

Thus, the drill rod 6 is driven stepwise through the bottom 2 together with the drill bit 8.

At the moment that the drill bit 8 has been hit on the other side of the object to be lifted, the drill rod 6 is retracted in a corresponding manner, while the drill bit 8 can be replaced by divers by a clearing means which widenes the resulting bore during the rotary retraction / cleans up. At the same time, a cable 9 can be pulled along through the resulting bore, which cable can then be attached to suitable hoisting means on a floating pot 12 (see Figure 1C). The retraction of the drill rod 6 can also be utilized for mounting the flexible coil housings 11 as already described above in combination with Fig. 1C.

In the embodiment as shown in figures 2A and 2B

the drill rod 6 is composed of an assembly of connected hollow hearing tubes of a specific length, wherein the drill rod on the salvage vessel 4 is each time extended with a new hearing tube. The drill end 8 is mounted on the free end of the drill rod 6, while the other end of the drill rod on the salvage vessel 4 is connected to a hydraulic pump 5 for pumping a bentonian mixture through the hollow drill rod 6 to stabilize the resulting bore in the seabed 2.

The measuring sensor which is present in the drill bit 8 for determining the angle of inclination, the depth, the position and the radial position of the drill bit 8 relative to the bottom 2 is by means of a connecting cable which runs through the hollow drill rod 6 connected to the suitable processing means which are placed on the salvage vessel 4.

Another embodiment which is also suitable for lifting an object from the bottom of the sea is disclosed in 1? ? 4 Ί 5 H Figures 3A and 3B. Here, the drill rod 6 is not composed of a plurality of interconnected hollow hearing tubes, but is designed as a long steel cable 6 which is received in a flexible metal tube 33.

This flexible metal tube 33 is manufactured in one piece and rolled in several turns on a reel 31, which reel 31 is placed on the salvage vessel 4. Analogously to the embodiment in Figs. 2A-2B, the free end of the steel cable 6 is provided with a drill bit 8, while the other end of the steel cable 6 received in the flexible tube 33 is connected to the drilling motor 28.

The drilling motor 28 is rigidly mounted on the reel 31 and is connected to the end of the steel cable 6 with a rotary coupling (swivel) 28a, in order to cause this steel cable to rotate. The flexible tube 33 which is wound around the reel 31 in several turns is not rotated.

The flexible tube 33 is unwound from the reel 31 by means of suitable displacement means 32, which are present on the sunken H working platform 10. The flexible tube 33 is also included in the two guides 26a-26b (see Figs. 2A-H 2B), while the displacement means 32 take the place of the expansion cylinders 27a-27b of Figs. 2A-2B. It will be clear that also in this embodiment the sinkable work platform 10 does not contain a drilling motor 28, since the drilling motor 28 in the embodiment as shown in Figs. 3A and 3B is mounted on the reel 31 on the salvage vessel 4.

The displacement means 32 preferably consist of two sets of drivable rollers 32a-32b which can be placed against the flexible tube 33 by suitable means (not shown). This is represented by the double arrows in Figure 3A. The different drive rollers 32a-32b are preferably provided with a recess I between which the flexible tube 33 can be received.

As Fig. 3B shows, the steel cable 6 is included with some play 35 in the flexible tube 33. This makes it possible to have a "0 V". 1, ·, ν. - - 1 11 bentonite mixture to be pumped in the direction of the drill bit 8 for the purpose of stabilizing the resulting bore and for lubricating the bores in the metal tube 33 rotating steel cable 6. The bentonite mixture is pumped into the flexible metal tube 33 by a pump system placed on the salvage vessel 4. To this end, the flexible metal tube 33 with its end 33a is connected via a rotary coupling to the center axis 31a, which center axis 31a is at is in turn connected to the pump system by means of a flexible rotary coupling 5.

As Fig. 3B discloses, the steel cable 6 is provided with a hollow core 34, in which a signal cable 36 is received, which signal cable 36 on the one hand is connected, for example with the aid of a watertight plug connection, to the measuring probe in the drill bit 8.

On the other hand, this signal cable is connected at the location of the drilling motor 28 on the reel 31 with the aid of a water-tight sliding contact at the reference numeral 28a (the swivel) to a water-tight sliding contact on the central axis 31a. Via this sliding contact on the central axis 31a of the reel 31, the signal cable is then connected to the processing means on the salvage vessel 4, which processes all received measurement data from the measuring probe.

The displacement means 32a-32b serve on the one hand to drive the flexible tube 33 and the steel cable 6 with the drill head 8 into the seabed 2 and on the other hand to simultaneously withdraw it with a clearing means for widening the resulting bore and simultaneously through the draw the resulting bore from a hoisting cable 9, as shown in figures 1B and 1C. 1 1022415

Claims (21)

Device for lifting a sunken ship, shipwreck or other object from the bottom of the sea, a river and the like with the aid of at least one cable arranged under the object, comprising a working platform provided with drilling means for using rotation of the drill rod from the one side to the other side of the object through the bottom, the free end of the drill rod being provided with a drill bit and then leading the resulting bore from the other side to the one side a cable, characterized in that the work platform can be sunk down to the bottom and next to the object. 2. Device as claimed in claim 1, characterized in that the working platform is provided with ballast tanks. Device according to one or more of the preceding claims, characterized in that the working platform is provided with displacement or positioning means. 4. Device as claimed in one or more of the foregoing claims, characterized in that the working platform is provided with anchoring means. Device as claimed in claim 4, characterized in that the anchoring means are composed of at least one jack driftable in the bottom. I 25 Device as claimed in one or more of the foregoing claims, characterized in that the working platform comprises angle adjustment means for adjusting the angle of inclination between the drilling means and the bottom. 7. Device as claimed in claim 6, characterized in that the angle adjustment means comprise an expansion cylinder. 8. Device as claimed in claim 6 or 7, characterized in that. The drilling means are hingedly connected to the working platform. 9. Device as claimed in one or more of the foregoing claims, characterized in that the drilling means form a frame provided with at least two guides, between which a part of the drill rod can be received. Device according to one or more of the preceding claims, characterized in that the drill rod is hollow. 11. Device as claimed in one or more of the foregoing claims, characterized in that the drill rod is an assembly of hearing tubes connected to each other. Device as claimed in one or more of the foregoing claims, characterized in that the drill rod can be received in a flexible metal tube, which metal tube can be unwound above the water level of a reel. Device according to one or more of the preceding claims, characterized in that the drilling means comprise a drill motor for rotating the drill rod. 14. Device as claimed in one or more of the claims 1-13, characterized in that the drill motor can be accommodated movably in the frame between the guides. Device as claimed in claim 14, characterized in that the drilling motor is connected to the piston rod of at least one expansion cylinder. 16. Device as claimed in claim 14 or 15, characterized in that the drill motor comprises a hollow, rotatable drive shaft, through which axis the drill rod can be clampedly received. Device as claimed in claim 13 in dependence on claim 12, characterized in that the drilling motor is arranged on the reel. Device as claimed in one or more of the foregoing claims, characterized in that the drill bit is provided with at least one H measuring probe for determining the angle of inclination, the depth, the position and H radial position of the drill bit relative to the bottom. 19. Device as claimed in claim 18, characterized in that the device is further provided with processing means located above a sea level on a work vessel 5 for processing the measured values measured by the measuring probe. Device as claimed in claim 19, characterized in that the processing means are connected to the measuring probe wirelessly or via a connecting cable running through the drill rod. Device as claimed in one or more of the foregoing claims, characterized in that a flexible H tube assembly can be guided through the resulting bore, which tube assembly is provided with a plurality of openings directed towards the object by passage of a pressure pumped through the tube assembly medium, for example a betony mixture and / or air.