Implements or apparatus for applying pushing or pulling force – Apparatus for hauling or hoisting load – including driven... – Device includes rotatably driven – cable contacting drum
Reexamination Certificate
2002-10-23
2004-06-22
Marcelo, Emmanuel (Department: 3654)
Implements or apparatus for applying pushing or pulling force
Apparatus for hauling or hoisting load, including driven...
Device includes rotatably driven, cable contacting drum
C191S01220R, C242S406000, C414S918000
Reexamination Certificate
active
06752384
ABSTRACT:
The present invention relates to an apparatus and a method for handling cables. More specifically, the invention relates to apparatus and a method, which are useful for deploying and retrieving equipment in subsea and subsurface locations using cables.
All underwater remotely operated vehicles (ROVs) rely on an umbilical for power and signals transmission to and from the surface support vessel. The umbilical must also be capable of supporting the mass of the ROV during launch and recovery operations (dynamic factors can result in a five fold increase in mass). As the operating depth increases the umbilical design has to take account of the weight of the cable deployed and launch mass problems become less of an issue.
For this reason, traditional ROV armoured umbilicals have been constructed as a composite of copper wires wrapped in an outer steel wire braid with a fibre optic core. The ‘braid’ provides the umbilical with enough strength to withstand the high loads placed on the umbilical.
There are a number of problems associated with this approach. The umbilical is stiff and hard to deflect. It has a fixed internal configuration, which cannot be altered. The steel strength members corrode with time. The delicate fibre optic cores become damaged with use rendering the entire umbilical useless. Furthermore, the minimum bend diameter is large, requiring large sheave wheels, winches etc.
However, the most significant drawback is weight. This may not be so much of a problem in shallower waters but as depth increases the weight of cable deployed becomes more significant until a point is reached where the cable can no longer support the deployed load and its own weight. For this reason it is generally recognised that 3000 metres is the practical limit for this type of umbilical.
In EP-0805776 there is described an alternative approach which does not rely on the use of a steel armoured umbilical. This specification discloses an apparatus in which a conventional underwater service cable is wrapped around a load-bearing rope during deployment. The service line is subsequently unwrapped when the rope is recovered. This apparatus requires that the winch for the service cable must rotate around the load-bearing rope, and this results in a complicated structure.
We have now found a way to avoid the problems in the prior art, which involves wrapping a further line around a support line and a service line. In accordance with the invention we provide an apparatus and method for achieving this.
Thus, according to one aspect of the invention we provide apparatus for handling cables, comprising means to pay out a service cable and support cable so that the service cable and the support cable are adjacent, and means to wrap a further cable around the service and support cables.
The means for paying out the support cable may comprise a winch, and usually also includes a sheave. Similarly, the means for paying out the service cable may comprise a winch, and usually also includes a sheave. The arrangement is preferably such that the sheaves guide the service and support cables so that they extend substantially vertically, in juxtaposition with one another, so that the further cable can be wrapped around them. As the service and support cables are paid out they will move axially while the further cable is being wrapped around them.
The winch for the service cable may relatively light duty (compared with the support cable winch). The cables can each be wrapped around their respective winches to facilitate storage. Appropriate slip rings may be fitted to facilitate continuity during deployment and recovery.
The means for wrapping the further cable may comprise a tubular member through which the service and support cables extend in juxtaposition, and a winch secured to the tubular member for paying out the further cable. The winch and the tubular member are preferably rotatable about the service and support cables so that the further cable is wrapped around the service and support cables during rotation of said winch and tubular member. Drive means can be provided to drive the winch and the tubular member around the service and support cables. The winch and tubular member may be rotated in one direction to wrap the further cable around the service and support cables (for deployment), and may be rotatable in an opposition direction to unwrap the further cable from the service and support cables (for retrieval).
Preferably there is more than one of said further cables wrapped around the service and support cables, and most preferably two of said further cables are used. Each further cable may be provided with its own tubular member, winch and drive means. However, if desired, a common drive means can be provided for rotating the winch and tubular member of the first and second further cables (and any other further cable).
Preferably one of the further cables is wrapped around the service and support cables in one direction, and another of the further cables is wrapped around the service and support cables in an opposite direction, so as to braid the service and support cables with the further cables.
Preferably, the winches of the first and second tubular members are geared so that they rotate around the service and support cables in synchrony.
Preferably means is provided for increasing or decreasing the speed of rotation of the or each further cable.
Preferably means is provided to adjust the tension of the or each further cable as it is wrapped around the service and support cables.
The service cable may be designed to carry power and/or data, for example, to a subsea or subsurface location. Usually the power and/or data will be carried to subsea or subsurface equipment, such as an underwater ROV. The service cable may be entirely conventional and may include one or more electrical, fibre optic, hydraulic and/or pneumatic lines. More than one service cable may be used, in which case the further cable is preferably wrapped around all the service cables—in this embodiment, each service cable would usually be provided with its own winch and sheave. The service cable may be of the type of cable known in the art as an “umbilical”.
The support cable may be a load bearing cable adapted to support its own weight and the weight of the service cable(s). It is particularly preferred that the support cable is specially adapted for use in lifting operations. The support cable may be a metallic material, such as steel, or may be a plastics material. Preferably, the support cable is a synthetic fibre rope such as ultra high molecular weight polyethylene. The support cable may be KEVLAR (registered trade mark). The support cable may be provided with reinforcement. The support cable may be often the type known in the art as a “lift” cable.
The or each further cable may be the same as the support cable. Typically, however, the or each support cable would be of lighter duty than the support cable. Thus, the or each further cable may be a metallic material, such as steel, or may be a plastics material. The or each further cable may be a synthetic fibre rope such as ultra high molecular weight polyethylene. The or each further cable may be KEVLAR (registered trade mark).
According to another aspect of the invention we provide a method for handling cables, comprising paying out a service cable and a support cable so that the service cable and the support cable are adjacent, and wrapping a further cable around the service and support cables.
Preferably two of said further cables are wrapped around the service and support cables, one of the further cables being wrapped around the service and support cables in one direction and the other of the further cables being wrapped around the service and support cables in an opposite direction, so as to braid the service and support cables with the further cables.
The present invention facilitates the deployment of a subsea ‘package’ with multiple service lines which are dynamically ‘braided’ to the main support line as the package is deployed or recovered.
During recovery operations,
Haynes and Boone LLP
Marcelo Emmanuel
Rockwater Limited
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