NL9400101A - Method and device for installing a hollow suction pole in the bottom of a water. - Google Patents

Description

Short designation: Method and device for installing a hollow suction pole in the bottom of a water.

The invention relates to a method for installing a hollow suction pole in the bottom of a water, in which the pole is lowered on the bottom, the pressure in the interior of the pole is reduced by removing water from it, whereby the pole penetrates into the soil and a column of soil material penetrates into the interior of the pile.

Such a method is known from European patent specification 0 011 894. In this known method, the pressure in the interior of the pile is reduced by continuously removing water from the interior of the suction pile by means of a pump connected to the suction pile until the pile has penetrated into the soil at the desired depth. This method has the drawback that, with certain soil types or compositions, it is possible that, as a result of the reduced pressure in the interior of the pile, water flows in through the bottom and under the lower edge of the pile through the interior of the pile and / or that ground breakage occurs. In the first case, the underpressure generated in the interior of the suction pole is partly canceled out, in the event of a soil breakage, that is to say the loosening of the bottom at the bottom of the suction pole, results in soil entering the pump and the pump clogging up.

The object of the invention is to provide a method for installing a hollow suction pile in a water bottom, wherein this drawback does not occur.

This object is achieved by a method of the type mentioned in the preamble, which is characterized in that the pressure in the interior of the pile is reduced several times in shock until the pile has penetrated into the ground at the desired depth.

Due to the shock-like reduction of the pressure in the interior of the pile, water has no time to penetrate through the bottom below the bottom edge of the pile into the interior of the pile. With every shock-like reduction of the pressure in the interior of the pile, the pile will be driven into the ground over a certain length by the overpressure on the pile head, without soil breakage occurring.

The invention also relates to a device for carrying out the method according to the invention, which device is characterized by at least one vessel, a connecting pipe connected to the vessel, which seal can be connected to the suction pile for connecting the interior of the vessel with the interior of the suction pole, a first valve for closing the connecting pipe, a pump communicating with the interior of the vessel for pumping out the vessel, a second valve for closing the connecting channel passing through the pump between the interior of the vessel and the environment, as well as means for controlling the valves and the pump.

Preferred embodiments of the method and device according to the invention are set out in claims 2 and 3, respectively. 5 to 8.

The invention further relates to a suction pile as defined in claim 9.

In the following exemplary embodiment, the invention is further elucidated with reference to the annexed drawing, in which:

Fig. 1 shows very diagrammatically in longitudinal section a suction post partially penetrated into the bottom of a water with an apparatus for driving the suction post placed in the bottom,

Fig. 2 schematically represents a particular embodiment of a device according to the invention placed on a suction pole for floating the suction pole in the bottom of a water,

Fig. 3 is a top view of the device of FIG. 2., and

Fig. 4 schematically represents another embodiment of a device according to the invention.

Fig. 1 shows very diagrammatically a suction post 1 which has been partially penetrated into a bottom 2 below a water surface 10. The suction pole 1 consists of a tubular body 3 which is closed at the top by a cap 4 and at the bottom is provided with a cutting edge 5 to facilitate floating in the bottom 2. Such a suction pole is driven into the bottom 2 by lowering the pressure in the interior 6 of the suction pole 1 by removing water from it. Driving can be carried out with a very schematically indicated device 7 which is connected via a pipe 8 to the interior 6 of the suction post 1. By lowering the pressure in the interior 6 of the suction post 1, a pressure difference is created between the interior 6 of the suction post 1 and the water mass surrounding the suction post, as a result of which a downward force is exerted on the hood 4, which force drives the suction post 1 into the bottom 2. The device 7, which is preferably designed as a unit, is connected to a hoisting cable 9 with which the device 7 is lowered from a vessel, whether or not in combination with the suction pole 1 detachably connected to the device 7, and with which the device 7, after floating suction plate 1 in the bottom 2 is hoisted again.

Figures 2 and 3 show a more detailed embodiment of the device 7 placed on a suction post 1 for floating the suction post 1 in the bottom 2 of a water.

In the embodiment shown, the device 7 comprises three vessels 11 and a pump 12. Each of the vessels 11 is connected via a connecting pipe 13 to a gully 14 on the suction side of the pump 12. Via the gully 14, the connecting pipes 13 in communication with the pipe 8 leading to the interior 6 of the suction pole 1. A first valve 15 is arranged in the pipe 8, with which the pipe 8 can be closed or opened.

The pump 12 is further provided with a drain 16 in which a second valve 17 is arranged for closing and opening the drain 16. Each vessel 11 is provided at the top with an opening 19 which can be closed by a third valve 18, via which opening the interior of the vessel 11 can be directly communicated with the environment.

The device is further provided with a control and connection box 20, in which means (not shown) means for controlling the various valves and the pump 12 are accommodated. The different lines for the energy supply and the control are not shown in the drawing. The hoisting cable 9, in which a supply line can also be integrated, is connected to the control and connection box 20.

The device 7 is connected to the suction pole 1 by means of three cables 21 which run from the bottom of the control and connection box 20 to three points 22 distributed over the circumference of the suction pole 1. The connection of the three cables 21 with a suspension eye 23 at the bottom of the control and connection box 20 can be disconnected.

The device 7 can further be surrounded by a protective cage (not shown here in more detail).

When installing the hollow suction post 1 in the bottom 2 of a water with the aid of the device 7 according to the invention, the procedure is as follows.

After on a vessel (not shown here) the device 7 is connected by means of the cables 21 to the suction pole 1, whereby an environmentally close connecting pipe 8 between the device 7 and the interior 6 of the suction pole 1 is established. and the hoisting cable 9 is connected to the control and connection box 20, the whole is sunk from the vessel. During the sinking all valves 15, 16 and 18 are open, until the hood 4 of the suction pole 1 is under water. Then all valves 15, 16 and 18 are closed. The vessels 11 are then still filled with air and function as a buoy for the stabilization of the suction pile 1 during the further sinking of the whole.

As soon as the post 1 touches the bottom 2 with the bottom edge 5, all flaps are opened again. The air present in the vessels 11 will escape through the openings 19, while water flows into the vessels 11. The pile 1 will penetrate into the bottom 2 over a certain length under the influence of its own weight.

Valves 15 and 18 are then closed and pump 12 is started. The pump 12 pumps the water from the vessels 11, whereby a negative pressure is created in the vessels 11 with respect to the environment. After a certain period of time or when a certain negative pressure has been realized in the vessels, the valve 17 in the discharge 16 of the pump 12 is closed and the pump 12 is stopped. The valve 15 is then opened. Due to the prevailing pressure difference between the interior 6 of the pole I and the interior of the vessels 11, water from the interior 6 of the pole 1 will flow at great speed through the pipe 8 and the connecting pipes 13 to the vessels 11, causing a shock the pressure in the interior 6 of the pile 1 is reduced and a downward, somewhat impact-like force is exerted on the cap 4 of the pile 1. As a result, the pile is driven further into the bottom 2.

The moment the pile 1 does not penetrate further into the bottom 2, the valve 15 is closed, the valve 17 is opened and the pump 12 is restarted, whereby water is again pumped out of the vessels II and these vessels are again pressurized .

The above-described steps of pumping out the vessels 11 and shock-reducing the pressure in the interior 6 of the post 1 by flowing water from the interior 6 of the post 1 to the pressurized vessels 11 is repeated so often until the desired penetration depth of the pile 1 into the bottom 2 is reached. Finally, the connection between the cables 21 and the suspension eye 23 is disconnected from the control connection box 20 and the device 7 is hoisted again by means of the hoisting cable 9 and brought on board.

Instead of lowering the device 7 and the suction post 1 together from a vessel, it is also possible to first place the suction post 1 on the bottom 2 and then lower the device 7 and connect it under water to those already on the bottom 2 placed suction pole. Driving the suction pole 1 into the bottom 2 then proceeds in the manner described above.

In fig. 4 another embodiment of the device 7 according to the invention is shown. Parts corresponding to parts of the device shown in Figures 2 and 3 have the same reference numerals.

The embodiment of FIG. 4 differs from that of FIG.

2 and 3 because in this embodiment only one vessel 11 is used and the pump 12 is arranged inside this vessel. This leads to some constructional differences.

The vessel 11 is placed directly on the suction pole 1, whereby the connecting pipe 8 is created. The cables 21 extend from the connection points 22 with the suction pole 1 to connection points 24 which are arranged on the top of the vessel 11 distributed over the circumference thereof. Detachable couplings 25 are arranged between these connection points 24 and the cables 21 near the connection points 24.

The pump 12 is arranged inside the vessel 11 in a tube 26 running from the bottom to the top of the vessel 11. The tube 26 connects at the bottom to the connecting line 8 and is provided with openings 27 near the bottom, via which the interior of the vessel communicates with the suction side of the pump 12. The upper end of the tube 26 communicates with the environment and thus forms the discharge 16 of the pump 12. Here, too, in the discharge 16 second valve 17 included.

The vessel 11 is further provided at the top with an opening 19 which can be closed by a third valve 18.

The control and connection box 20 is placed on top of the vessel 11 via an intermediate piece 29 provided with openings 28.

The operation of the device 7 of fig. 4 is the same as that of fig. 2 and 3.

It will be clear that also embodiments of the device according to the invention are different from other number (two, four or more) vessels 11.

Claims (10)

1. Method of installing a hollow suction post in the bottom of a water, whereby the post is lowered to the bottom, the pressure in the interior of the post is reduced by removing water from it, whereby the post penetrates into the bottom and a column of soil material penetrates into the interior of the pile, characterized in that the pressure in the interior (6) of the pile (1) is reduced several times in shock until the pile (1) penetrates into the soil at the desired depth (2) is squat. Method according to claim 1, characterized in that the interior (6) of the pile (1) is brought into contact with an underpressured space (11) for shock-reducing the pressure. Method according to claim 2, characterized in that space is pressurized by closing the space (11) and pumping out the water present therein. Device for floating a suction pile in the bottom of a water, which can be used in the method of claims 1-3, characterized by at least one vessel (11), a connecting pipe (13) connected to the vessel, which can be connected sealingly to the suction post (1) for connecting the interior of the vessel (11) to the interior (6) of the suction post (1), a first valve (15) for closing the connecting pipe (13) , a pump (12) communicating with the interior of the vessel (11) for pumping out the vessel (11), a second valve (17) for closing a connecting channel passing through the pump (12) between the interior of the vessel and the environment, as well as means (20) for controlling the valves (15, 17) and the pump (12). Device according to claim 4, characterized in that each vessel (11) is provided at the top with an opening (19) which can be closed by a third valve (18), via which opening (19) the interior of the vessel (11 ) can be directly connected to the environment. Device according to claims 4 or 5, characterized in that the device is constructed as a unit (7) which can be placed on a suction post (1). Device according to claim 6, characterized in that the unit (7) can be connected to the suction post by means of a detachable coupling (21, 22, 23; 25). Device according to claim 6 or 7, characterized in that the unit (7) is provided with means for attaching a hoisting rope (9). Device according to any one of claims 4-8, characterized in that it is surrounded by a protective cage. Hollow suction bollard intended to be installed in the bottom of a water, characterized in that the suction bollard (1) is closed at the top by a cap (4) in which a connecting piece is fitted to the interior (6) of the suction post (1) to be connected to a device for driving the suction post (1) into the bottom (2) by lowering the pressure in the interior (6) of the suction post (1).