The present invention relates to a device for reeling in a cable from a source and temporarily storing the cable. The invention further relates to a floating structure comprising the device, to a method for reeling in a cable from a source and temporarily storing the cable, and to a method for laying a cable on or in a sea bed using the floating structure.
There is an increasing demand for laying cables, such as data communication and electrical cables on or in a seabed or the bed of another body of water. Such cables desirably have as few connections as possible, since connections represent possible sources of interference or disruption in transmission of the signal. Further, repairing or installing these connections involves an appreciable amount of time and money.
The quantity of cable that can be stored on board of a vessel as one continuous length is limited however. Storage units for cables such as cable carousels for instance are limited in size because of space restrictions on board of a vessel. Deck space is limited but building up cable carousels in the height direction is also limited for reasons of the required stability of the vessel. Indeed, the centre of gravity should not rise to high.
It would be desirable to be able to reel in and store an increased amount of continuous cable on for instance a cable-laying vessel. It is an object of the present invention therefore to provide a device and method for reeling in a cable from a source and temporarily storing the cable that at least partly alleviates aforementioned and other disadvantages. Another object relates to providing a more efficient method for laying a cable on or in a sea bed using the floating structure.
The present invention may also be used for other purposes than laying cables, including on-shore purposes. It is for instance possible to use the invented device for increasing production capacity in cable manufacturing.
The invention provides a device in accordance with claim 1. The device for reeling in a cable from a source and temporarily storing the cable in particular comprises a first and a second storage unit, each comprising a cylindrical body for arranging the cable;
support means for carrying the cable from the source to cable seizing means of the second storage unit and further to the first storage unit; wherein the second storage unit is rotatable around a rotation axis parallel to the cylinder longitudinal axis in a reeling direction, in which the cable is reeled in from the source; and the storage units are arranged such that the second storage unit when rotating in the reeling direction can simultaneously reel in a part of the cable originating from the source and another part of the cable originating from the first storage unit.
The invented device allows storing an increased length of cable relative to known devices, and further does not require extensive modifications to for instance (the deck of) a cable laying vessel that is equipped with the device. The ability to store an increased length of continuous (non-interrupted) cable on such a vessel makes the cable laying operation more efficient; a longer trajectory may be followed with one vessel only.
In a preferred embodiment of the invention, a cylinder longitudinal axis of the first storage unit does not coincide with the rotation axis of the second storage unit. In such an embodiment, the first and second storage units are not positioned on top of each other. This is advantageous on a vessel or another floating structure, since a stacked configuration of the storage units would require a substantial height and/or the positioning of one storage unit on deck and another storage unit below deck of the vessel. The present embodiment allows positioning the storage units side by side, more preferably such that the cylinder longitudinal axis of the first and/or second storage unit extends in a vertical direction. The storage units may then conveniently be placed below deck, thereby saving deck space.
According to the invention at least one of the storage units is rotatable around a rotation axis parallel to the cylinder longitudinal axis in a reeling direction, in which the cable is reeled in from the source. The first storage unit however may be stationary if this is more convenient. In a preferred embodiment the first storage unit is also rotatable around a rotation axis parallel to the cylinder longitudinal axis in a reeling direction in which the cable is reeled in from the source. This allows reeling in the cable more efficiently.
The second storage unit comprises cable seizing means configured to at least temporarily seize or hold the cable in the second storage unit to facilitate simultaneously reeling in a part of the cable originating from the source and another part of the cable originating from the first storage unit when the second storage unit is set in rotation in the reeling direction.
An embodiment of the invention provides a second storage unit, the cable seizing means of which comprise a cylindrical core provided with a passage for the cable extending in a cross-direction of the core. A cable that is carried from the source to the second storage unit is passed through the passage from one side of the core to another (opposite) side of the core, and then carried further to the first storage unit. A rotation of the second storage unit will wind the cable around the (centrally) disposed core from opposite sides of the core. The core thus acts as a seizing means for the cable.
In another embodiment of the device, the cylindrical core may not be provided with a passage and the cable originating from the source is seized by looping it around the cylindrical core of the second storage unit.
In the above disclosed embodiments of the invention, the cable will experience some bending along a radius that may be close or equal to the radius of the cylindrical core.
Care should be taken not to make this radius too small to avoid bending the cable over a radius that is smaller than the minimum bending radius (MBR) of the cable. The MBR is provided by the manufacturer of the cable. The radius of the cylindrical core is preferably equal to or larger than the MBR of the cable.
The device according to the invention comprises at least two storage units. Other embodiments however comprise more than two storage units arranged such that a storage unit n+1 when rotating in the reeling direction can simultaneously reel in a part of the cable originating from the source and another part of the cable originating from a storage unit n. The total length of stored cable may thus be increased.
The size of the storage units may be the same but an embodiment comprising storage units of different size, more preferably different circumferential size, is preferred. Such embodiment has shown to yield a higher efficiency.
The storage units may be of any known type, and suitable embodiments of the device provide first and/or second storage units comprising a reel, a carousel, a turntable or a static tank, or a combination of these.
The invention in another aspect comprises a floating structure that is provided with a device as described herein, which is preferably provided with a deck and at least two of the storage units are arranged below the deck. This allows saving deck space and a larger part of the deck can be used for other purposes, such as the storage of machines or other materials such as stones to cover the cable after laying, or protective sleeves for the cable. The device according to the invention is particularly suitable for installation on a vessel for laying cables on or in a sea bed.
In yet another aspect, the invention concerns a method for reeling in a cable from a source and temporarily storing the cable, the method comprising providing a first and a second storage unit, each comprising a cylindrical body for arranging the cable; carrying the cable on support means from a source to cable seizing means of the second storage unit and further to the first storage unit; reeling in the cable on the first storage unit to a first filling degree; rotating the second storage unit around a rotation axis parallel to the cylinder longitudinal axis in a reeling direction to simultaneously reel in a part of the seized cable originating from the source and another part of the seized cable originating from the first storage unit until a second filling degree of the second storage unit is reached.
The invented method allows to additionally storing some 50% or more of uninterrupted cable length, as compared to one storage unit only.
Preferred embodiments of the invention provide a method wherein a cylinder longitudinal axis of the first storage unit does not coincide with the rotation axis of the second storage unit; wherein the first and the second filling degree comprises a substantially 100% filling; wherein the first storage unit rotates around a rotation axis parallel to the cylinder longitudinal axis in a reeling direction to reel in the cable;
wherein the cable originating from the source is seized by passing it through a passage for the cable extending in a cross-direction of a cylindrical core of the second storage unit; wherein the cable originating from the source is seized by looping it around a cylindrical core of the second storage unit; wherein the method comprises more than two storage units arranged such that rotating a storage unit n+1 in a reeling direction simultaneously reels in a part of the seized cable originating from the source and another part of the seized cable originating from a storage unit n; comprising storage units of different circumferential size; and/or wherein the first and/or the second storage unit comprise a reel, a carousel, a turntable or a static tank, or a combination of these.
The method is preferably carried out on a floating structure, which floating structure in a more preferred embodiment has a deck and at least two of the storage units are arranged below the deck, and wherein the floating structure even more preferably comprises a vessel for laying cables on or in a sea bed.
In another aspect of the invention therefore, a method for laying a cable on or in a sea bed is provided, wherein a vessel for laying a cable on or in a sea bed is provided with a quantity of stored cable in accordance with the herein described method, the vessel sails on water and stored cable is unreeled from the first and second storage unit, brought overboard and laid on or in the sea bed.
It is explicitly mentioned that the embodiments disclosed in the present application may be combined in any possible combination of these embodiments, and that each separate embodiment may be the subject of a divisional application.
The invention will now be described in more detail by reference to the attached figures, without however being limited thereto. In the figures:
Referring to
As further shown in
The second storage unit 20 is rotatable around a rotation axis parallel to the cylinder longitudinal axis 22 in a reeling direction 23, in which the cable 3 is reeled in from the source. Likewise, the first storage unit 30 is rotatable around a rotation axis parallel to the cylinder longitudinal axis 32 in a reeling direction 33 in which the cable 3 is reeled in from the source.
The second storage unit 20 is further provided with cable seizing means that in the embodiment shown comprises a cylindrical core 24 provided with a passage 24a for the cable 3. The passage 24a extends in a cross-direction 24b of the cylindrical core 24. The first storage unit 30 may also be provided with a cylindrical core 34.
The principle of operation of the invented device can best be understood with reference to
When unreeling the stored cable 3, for instance in order to bring it overboard in a cable laying operation, the sequence of steps (A) to (D) is reversed and carried out in the sequence (D) to (A), as shown by the top arrows in
The above sequence can be carried out in any type of storage unit (20, 30).
Step (B) of the method shown in
The storage units may comprise any structure suitable for temporarily storing a length of cable. As shown in
Suitable definitions in the context of the invention are the following:
Efficiency: the efficiency of cable loading is defined as the actual total uninterrupted cable length spooled onto the total number of storage devices considered divided by the sum of the capacities of each individual storage device considered. When considering two storage units where one is completely full and one is half full, the efficiency is (50%+100%)/(100%+100%)=75%.
The carousel (20, 30) shown in
Preferably some form of back tension is applied for decent spooling (loss of back-tension may cause an entire wrap or layer to drop down). A carousel is typically filled wrap by wrap, from core to outer diameter.
The reel (20, 30) shown in
The turntable, or alternatively static tank (20, 30), shown in
Although storage units are preferably cylindrical, they may adopt other shapes, such as oval shapes. They may be provided with specific storage unit properties, such as partitions and core extenders for instance.
The device according to the invention may comprise more than two storage units arranged such that a storage unit n+1 when rotating in the reeling direction can simultaneously reel in a part of the cable originating from the source and another part of the cable originating from a storage unit n.
The device according to the invention may also comprise storage units of different circumferential size, for instance diameter.
A further efficiency increase may be obtained when at least two top-loading storage devices are used, such as turntables or static tanks. In such a configuration, cable is spooled from a first storage device to a second storage device near the core of said second storage device, while cable is also spooled from a source to the second storage device near the outside diameter of said second storage device. This configuration may yield an increased efficiency of 80% (relative to 75%). The efficiency gain may be attributed to the fact that a wrap or layer near the core of a storage device holds less cable length than a wrap or layer near the outer diameter of the storage device.
Number | Date | Country | Kind |
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2018179 | Jan 2017 | NL | national |
Filing Document | Filing Date | Country | Kind |
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PCT/NL2018/050030 | 1/16/2018 | WO | 00 |