NO332855B1 - Procedure for jacking up a platform or vessel at sea - Google Patents

Abstract

Method for creating relative vertical movement between legs and vessel on an upright vessel for use at sea, which vessel is provided with three or more legs which are moved in a vertical direction relative to the vessel, which legs are provided with a number of grips in the vertical extent of the legs. . Further, there is provided a system for creating relative vertical movement between legs and vessel on an upright vessel for use at sea, which vessel is provided with three or more legs which move in a vertical direction relative to the vessel, which legs are provided with a plurality of legs. grips in the legs' vertical extent.

Description

The present invention relates to a method for jacking up a platform or vessel at sea, which platform or vessel is provided with a number of legs that can be lowered to firm contact with the bottom and where further the platform can be jacked up along the legs to a working position where the platform is free from wave action . Such a platform can, for example, be used for the installation of structures at sea, such as wind power plants, foundations for wind power plants, other forms of power plants that utilize the sun, wind, electricity or waves, or other forms of work at sea where there is a need for a platform that can be fixed to the bottom for a period of time. As the platform or vessel is jacked up on legs with fixed bottom contact, it is possible to virtually eliminate vessel movements such as pitch, roll and heave. The platform or vessel can also be equipped with a crane to carry out the intended tasks.

The platform itself can be a self-propelled vessel designed to be jacked up, it can be a barge or another form of floating vessel equipped with three or more legs for jacking up the platform. Furthermore, the invention relates to a hydraulic system and devices that can be used together with the method for jacking up a platform of the aforementioned type.

In particular, the invention relates to a method including systems and devices in connection with a jack-up vessel or platform which is designed to move quickly into place into an operational position and which can be immediately brought into operation and then quickly brought out of the operational position after the relevant mission accomplished. Such a vessel will be able to effectively utilize a short weather window for operations, in contrast to heavy crane vessels etc which are slow to position and which are more difficult to use when the weather window is opportune. In a number of places in the world, the weather window is as short as 48-72 hours and it is therefore beneficial to develop a vessel for quick response. This places demands on the mobility of the vessel but also demands on the system that will jack the vessel or the platform into operational position.

Jacking up can also take place in several phases, where a preparatory phase is first carried out where the legs are brought down to the seabed. Furthermore, a pre-loading phase is often carried out where a smaller number of the legs, for example two out of four legs, preferably diagonally, are pushed into the bottom. Such a preload phase can also be carried out several times. A jacking-up phase is then carried out where the legs will sink into the seabed to varying degrees depending on the nature of the bottom. When the legs meet high enough resistance, they will stick and the vessel will be jacked up.

However, such a jack-up vessel that can utilize a short weather window must be able to quickly carry out the actual positioning process as well as jack-up with any preload etc.

In order to be fast enough, it is therefore desirable to use new technology rather than previously known solutions which mainly use a rack and pinion to move the legs in a vertical direction. In particular, it is desirable to use a solution that moves the legs in a vertical direction at a relatively high speed. The movement should also be smooth.

Previously known solutions with jack-up platforms often use triangular legs of composite frameworks. In the present invention, the starting point is cylindrical legs, although various other shapes can also be used.

The legs are provided with gripping attachments such as recesses, knobs or holes which enable the system and equipment that will move the legs in a vertical direction, and which will jack up the vessel, to grip the legs. The grip fasteners are arranged or formed in a row in the vertical direction of each of the legs with a predetermined distance between each of the grip fasteners. In various embodiments, several parallel rows of grippers can be placed or formed along the circumference of the leg.

Of known solutions, US 4655640 should be pointed out, which describes a solution for vertically displacing a leg in a jackable structure by means of rack and pinion. In an alternative embodiment, it is also indicated that the toothed drive can be replaced with a locking mechanism that engages with the rack. During movement, however, the two units with locking mechanisms that move the leg will move to an end position before a change of grip occurs, after which movement is resumed.

Furthermore, US 4007914 describes a similar arrangement for jacking up a structure on legs.

With this starting point and based on the overall requirements for the vessel's operational characteristics, a method has been developed for moving the legs in a vertical direction on a vessel with three or more legs as well as jacking up the vessel to an operational position.

The present invention is thus a method for creating relative vertical movement between leg and vessel as stated in subsequent claims 1-7.

In various embodiments of the invention, the two lifting frames can move essentially simultaneously in the opposite direction to each other in the vertical direction and the locking means on the two frames alternate between being engaged with a selection of the leg's gripping attachments. The relative movement can be completely simultaneous, but this need not be the case. In other cases, parts of the movement may be simultaneous and the speed may also be different.

Furthermore, the locking means' engagement with the leg's grip fasteners will in one embodiment overlap so that one lifting frame's locking means engage with the leg's grip fasteners before the other lifting frame's locking means engage with the leg's grip fasteners. After both lifting frames' locking means are engaged, the first lifting frame's locking means will come out of engagement with the leg's grippers. Thus, it is ensured that at least one locking frame is engaged with the leg's grip fasteners at all times.

The lifting frames will be able to be controlled in different ways, where the two lifting frames can be individually movable or they can be controlled by a common control system.

The locking means can be activated by various conditions, such as when the activation of the locking means is coordinated with the movement of the lifting frame. Furthermore, the activation of the locking means can be coordinated with the position of the lifting frame or in relation to the position of the lifting frame relative to the leg's gripping attachments.

Furthermore, the locking means can be designed in such a way that the locking means on the first locking frame can engage before the locking means in the second frame go out of engagement while the two locking frames still move relative to each other.

In a further embodiment, the length of movement of the locking frames in the vertical direction along the leg can be equal to or greater than the distance between two subsequent gripping attachments on the legs.

In a further embodiment, the method will be used with a system to create relative vertical movement between legs and vessel on a jackable vessel for use at sea, which vessel is provided with three or more legs which move in a vertical direction relative to the vessel, which legs is provided with a number of grip fasteners in the vertical extent of the legs. On the vessel, a jacking device will be placed at each leg, in which jacking device a first and a second vertically movable lifting frame is placed one above the other in the lengthwise direction of the leg, which lifting frames are provided with activatable locking means that can engage with the grip fasteners on the legs, where each of the lifting frames is connected to one end of at least one linear motor, which linear motor at the opposite end is connected to the vessel so that the linear motors move each of the lifting frames relative to the vessel. The movement is in a vertical direction, or along the extent and length of the leg.

The linear motors can be of different designs, but it is preferred that the linear motors are hydraulic linear motors. Furthermore, the stroke length of the linear motors in one embodiment is equal to or greater than the distance between two subsequent grippers on the legs.

In the system as in the method, in various embodiments there will be alternatives where the locking means engage with the grippers on the legs when the locking means are activated or the locking means come out of engagement with the grippers on the legs when the locking means are activated.

An embodiment of the invention is subsequently shown in the attached figures where: Figure 1 shows a vessel with four legs, which vessel can be jacked up using the present invention.

Figure 2 shows a schematic diagram of a jacking device according to the invention.

Figure 3-10 shows a work sequence for the jack device as shown in Figure 2, according to the present invention.

Figure 1 shows a vessel 1 with four legs 2. The legs 2 are led through the vessel in a passage 4 in each corner. A jack device 3 according to the present invention is placed at each leg 2. When transporting the vessel, the legs 2 can be lifted in an upper position where the lower end of the legs is at the bottom of the vessel (not shown). Furthermore, the legs can be jacked down, or lowered by means of the jacking device 3 to a position approximately as shown in Figure 1. When the legs 2 meet a firm bottom, the legs will stop moving downwards relative to the sea surface and the vessel will instead move upwards relative to the sea surface, after which the vessel is jacked up as a platform.

Figure 2 shows in more detail a jacking device 3 in accordance with the present invention. A section of the vessel 1 is shown with part of a leg 2 in a passage 4 through the vessel 1. A jacking device 3 is shown in more detail where an upper (first) lifting frame 5 is placed around the leg 2. The lifting frame 5 is connected to the vessel 1 via an upper linear motor 6 which is shown here as a hydraulic cylinder, which cylinder can move the lifting frame 5 in a vertical direction along the longitudinal axis of the leg 2.

Furthermore, a lower (second) lifting frame 7 is shown which, like the lifting frame 5, is placed around the leg 2 and is connected to the vessel 1 via a lower linear motor 8 which is also a hydraulic cylinder.

Both lifting frames are provided with locking means 9 along their circumference, which locking means 9,11 are positioned and designed in such a way that they can engage with gripping fasteners 10 on the circumference of the legs 2. The grip fasteners 10 are shown here as openings in the leg 2.

In figure 3-10, it is further shown how the jack device 3 functions in a cycle.

Figure 3 shows a starting point where the locking means 9 is in engagement with the leg 2 in a gripping attachment 10. The lifting frame 5 is in the upper position and the lifting frame 7 is in the lower position. Locking means 11 is out of engagement with leg 2.

In figure 4, the cylinder 6 moves the lifting frame 5 to the lower bearing and the leg 2 is pushed in a vertical direction relative to the vessel. This can mean that the vessel moves up if the leg 2 has a firm attachment to the bottom or that the leg 2 moves down in the water if it does not have a firm attachment to the bottom. At the same time, the cylinder 8 moves the lifting frame 7 to the upper bearing.

In Figure 5, the locking means 11 is brought into engagement with the leg in a gripping attachment 10. The locking means 9 is still attached. This situation is short-lived.

In Figure 6, the locking means 9 is brought out of engagement with the leg 2.

In figure 7, the cylinder 6 brings the upper lifting frame 5 to the upper bearing at the same time as the cylinder 8 brings the lifting frame 7 to the lower bearing and thereby the leg 2 is displaced relative to the vessel (or vice versa) in the same way as in figure 4.

In Figure 8, the locking means 9 is brought into engagement with the leg 2 in a gripping attachment 10. The locking means II is still engaged and this situation, like the situation in Figure 5, is short-lived.

In Figure 9, the locking means 11 is brought out of engagement and a lifting cycle has been carried out so that the starting point in Figure 3 is again achieved.

In figure 10, the cylinder 6 moves the lifting frame 5 to the lower bearing and the leg 2 is pushed in a vertical direction relative to the vessel. This can mean that the vessel moves up if the leg 2 has a firm attachment to the bottom or that the leg 2 moves down in the water if it does not have a firm attachment to the bottom. At the same time, the cylinder 8 moves the lifting frame 7 to the upper bearing. This is similar to the movement in Figure 4.

Claims (7)

1. Procedure for creating relative vertical movement between legs and vessel on a jackable vessel for use at sea, which vessel (1) is provided with three or more legs (2) which move in a vertical direction relative to the vessel (1), which legs (2) are provided with a number of gripping fasteners (10) in the vertical extent of the legs, where a jacking device (3) is placed on the vessel (1) at each leg (2), in which jacking device (3) a first and a second vertically movable lifting frame (5,7) above each other in the longitudinal direction of the leg (2), which lifting frames (5,7) are provided with activatable locking means (9,11) which can engage with the gripping fasteners (10) on the legs (2) and which lifting frames (5,7) and locking means (9,11) move in a pattern to create a relative vertical movement between legs (2) and vessel (1), where the two lifting frames (5,7) move essentially simultaneously in the opposite direction to each other in the vertical direction and the locking means (9,11) on the two frames (5,7) alternate between being e in engagement with a selection of leg grippers (10), characterized in that the locking means (9,11) are arranged and designed in such a way that the locking means (9,11) on the first lifting frame (5) can engage before the locking means (9,11) in the second lifting frame (7) go out of engagement while the two lifting frames (5,7) still move relative to each other, so that the second lifting frame (7) engages with the leg's gripping fasteners (10) while the leg (2) moves at the same time as the first lifting frame (5) moves the leg ( 2), and where the second lifting frame (7) takes over the movement of the leg (2) while the first lifting frame (5) withdraws from engagement while the leg moves. 2. Method according to claim 1, characterized in that the engagement of the locking means (9, 11) with the leg's (2) gripping fasteners (10) overlap so that one lifting frame's locking means (9, 11) engage with the leg's (2) gripping fasteners (10) before the other lifting frame's locking means (9, 11) engages with the leg (2) gripping fasteners (10), after which the first lifting frame's locking means (9, 11) disengage with the leg (2) gripping fasteners (10). 3. Method according to claims 1-2, characterized in that the two lifting frames (5, 7) can be individually movable or they can be controlled by a common control system. 4. Method according to claims 1-3, characterized in that the activation of the locking means (9, 11) is coordinated with the movement of the lifting frame (5, 7). 5. Method according to claims 1-3, characterized in that the activation of the locking means (9, 11) is coordinated with the position of the lifting frame (5, 7). 6. Method according to claims 1-5, characterized in that the activation of the locking means (9, 11) is controlled in relation to the position of the lifting frame (5, 7) relative to the leg's grip fasteners (10). 7. Method according to claims 1-6, characterized in that the length of movement of the lifting frames (5, 7) in the vertical direction along the leg is equal to or greater than the distance between two subsequent gripping attachments (10) on the legs.