The present invention relates to the field of cables joint and more precisely an armouring joint, an armoured cable joint and a method for jointing armouring of two armoured cables.
An armoured cable typically comprises:
For jointing of two armoured cables, it is known to use a joint box for the whole, including strain termination for armouring steel wires and, if required, a chamber for coiling excess fiber length.
The joint box has a larger diameter than the entire cables it is used to joint; thereby this joint box is expensive, complex to install and time consuming.
The invention aims at providing a cable with one armouring joint contributing to the reduction of the diameter of the total cable joint and preferably ensuring enhanced mechanical properties of cables in the joint area.
To this purpose, the invention provides a cable comprising first and second armoured cables respectively comprising N first armouring stranded wires and N second armouring stranded wires and an armouring joint between said first and second armoured cables,
The armouring common zone forms an extension of the two armourings which maintains the same diameter in the joint area and is easy to make.
The invention is applicable to any armoured cable such as optical fiber cable, power cable, composite cable and is of great interest in large cable such as umbilical.
Advantageously, in order to reinforce the mechanical properties of the joint, the armouring joint can comprise a layer of preformed steel wires over at least said armouring common zone and an substantially equal length on each side of said armouring common zone, in order to grip both cable ends, and preferably with steel wires of larger total cross-sectional area than armouring wires.
The layer of preformed steel wires should combined be able to take more tension than armouring wires combined.
In one embodiment of the invention, said longer first wires are not adjacent and preferably are regularly spaced from each other. Identically, said longer second wires are not adjacent and preferably are regularly spaced from each other.
Preferably, said number K can be equal to entire part of N/2, by way of example, there is an alternance of longer first (or second) and shorter first (or second) wires.
In an advantageous embodiment of the invention, said armouring common zone has a so-called common length equal to at least one pitch length, and preferably with said pitch length substantially equal to the pitch length of the armouring from any of said first of second armoured cables.
By way of example, the common zone can be greater or equal to 0.5 m.
According the invention, the armoured cable joint comprises two abutting positions separated by a length substantially equal to said common length.
Doing this way, all shorter first (and second) wires have the same length.
According the invention, armouring wires can be made of steel.
In a preferred embodiment of the invention, each of said armoured cables comprising optical fibers within a first steel tube, said cable further comprises spliced optical fibers and a first steel tube joint under said armouring joint.
Said steel tube joint can preferably comprise:
Each of said armoured cables comprising inner and outer sheaths, said cable can comprise under said armouring joint, a heat shrunk hose welded by a polyethylene tape to inner sheaths at both the ends of said inner sheaths and, said cable can comprise, over said armouring joint, a heat shrunk hose welded by a polyethylene tape to the outer sheaths oat both ends of said outer sheaths.
Therefore, each polyethylene tape is not applied over the entire length of the joint, but merely at the transition between heat shrink hose and inner or outer sheaths. Heat is then applied to this area in order to weld inner or outer sheaths to heat shrink hose.
The above described joint is substantially as small as the diameter of the cables.
The invention also proposes a method for making or repairing a cable comprising first and second armoured cables respectively comprising N first armouring stranded wires and N second armouring stranded wires and an armouring joint between said first and second armoured cables characterized in that it comprises the successive following steps:
The overlapping length could be the same for each couple of first and second wires to joint or could be chosen individually for each of those couples.
Lay back can preferably be done with approximately the same pitch length as said armoured cables.
The method for making or repairing a cable can comprise a step of securing said common armouring zone with straps or a tape.
The method for making or repairing a cable can also comprise a step of directly applying a number of preformed steel wires over at least said armouring common zone.
Further characteristics and advantages of the invention will become clear on reading the following description of embodiments of the invention, given by way of examples only, and made with reference to the accompanying drawings in which:
Elements performing the same functions are symbolized with the same references in the two embodiments.
Starting from the core till the periphery, each optical fiber umbilical (partially shown) of the cable 1000 comprises:
In a variant (not shown), cable elements such as insulated copper conductors for power or signal transmission and/or hydraulic steel tubes could be added or replaced the optical fiber element.
The outer sheaths 50A, 50B of extruded polyethylene are removed from each cables end, along a certain distance greater than that required for armouring jointing such as 3 m, leaving each armouring 1A to 10B or 1′A to 10′B stripped, thereby giving a finished jointing length of approximately 5 m about 1 m of armouring wires is cut away during assembly.
Ten of first armouring wires 1B to 8B, called shorter first wires, are shorter than ten first armouring wires 1A to 10A called longer first wires. Shorter first wires 1B to 10B are preferably chosen not adjacent and regularly spaced from each other.
Ten of second armouring wires 3′B to 10′B, called shorter second wires, are shorter than ten second armouring wires 1′A to 10′A called longer second wires. Shorter first wires 1B to 8B are chosen preferably not adjacent and regularly spaced from each other.
Each shorter first wire 1B to 8B is respectively abutting, i.e. welded end to end, with a longer second wire 1′A to 10′A—or in a variant not shown nearly abutting, i.e without welding—. Each longer first wire .1A to 10A is respectively abutting or nearly abutting with shorter second armouring wires 3′B to 10′B,
Therefore, an armouring common zone 11 with second and first wires is formed on a certain common length L.
In this first embodiment, the armouring common zone 11 comprises an alternance between longer first wires 1A to 10A and longer second wires 1′A to 10′A.
The common length L is equal to at least one pitch length. In a variant (not shown) it could be up to two pitch lengths or even more. Preferably, the pitch length in the common armouring zone 11 is substantially equal to the armouring pitch length in both umbilicals.
Two abutting positions d1, d2 are referenced in a longitudinal axis d of the joint starting from one prepared first umbilical end (on the left). For example d1 is equal to two meters and d2 is equal to 2.5 meters.
In a first variant (not shown), there are more than two lengths of first (and second) wires, thereby more than two abutting positions.
In a second variant (not shown), there are more longer first (and second shorter) wires than shorter first ( and longer second) wires.
For instance the end of the cut second umbilical is at a distance d5 equal to 5 m from the end of the cut first umbilical.
To make (or to repair) the cable 1000 with the armouring jointing 10, at first, all steel wires 1A to 10′B and the inner sheath have been preferably cleaned properly. At second, all steel wires are cut so that first steel wires 1A to 10A overlap in a given overlapping length, here equal to 50 cm, with the second steel wires 1′A to 10′A. At third, ten wires 1B to 8B, 3′B to 10′B which are not adjacent are cut 50 cm shorter on each cables end.
At fourth, all wires 1A to 11′B are laid back with approximately the same pitch length. Therefore the ten shorter first wires 1B to 8B and the ten shorter second wires 3′B to 10′B are respectively abutting with the ten longer second wires 1′A to 10′A and the ten longer first wires 1A to 10A. The laid back wires could be secured with straps or tape.
Preferably, a layer of preformed steel wires is applied over at least the armouring common zone 11 and an substantially equal length on each side of this armouring common zone 11.
For instance the ends of the layer are at d3 and d4 respectively equal to 0.75 m and 3.75 m. Tape and/or straps are removed as the layer is applied. The steel wires of the layer present a larger diameter than the one of the armouring steel wires.
The armouring joint 10 should preferably be over the individual splices 20 of the optical fibers FO of the cable 1000 and a cabled steel tube joint 30 of the cable 1000 which are shown in
The cabled steel tube joint 30 comprises:
The first steel tube 32 is covered at a first end 343 by a first end of the overlaid steel tube 31 and at a second end 344 by the end of the first central steel tube 33 of the first umbilical.
The second steel tube 32′ is covered at a first end 342 by the second end of the overlaid steel tube 31 and, at a second end 341, by the end of the second central steel tube 33 of the second umbilical.
The ends 341 to 344 of those steel tubes 31 to 33′ are crimped.
More precisely, the armouring joint 10 is not in contact with the cabled steel tube joint 30, the latter being covered directly by a heat shrink hose (see
Starting from the core till the periphery, the total joint 100 comprises:
The armoured cable joint is exempt from external joint closure or coil chamber, has a small total diameter and good mechanical properties.
Of course to make the armoured cable joint 100, all elements are cut in a sufficient distance on each side. Prior to tube jointing, the heat shrink hoses are pulled over inner/outer sheaths. Heat shrink hose and outer sheaths could be prepared to be end conical toward the tube joint, in a complementary way.
Number | Date | Country | Kind |
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2003 5596 | Dec 2003 | NO | national |