A cable fairing (fairing) (40) for reducing the flow resistance for a cable (45) has a wing formed cross section with a wide, rounded front and a tapered tail, a through-going cable channel (46) for the cable (45) perpendicular to the cross section of the widest part of the cross section. The wing p
A cable fairing (fairing) (40) for reducing the flow resistance for a cable (45) has a wing formed cross section with a wide, rounded front and a tapered tail, a through-going cable channel (46) for the cable (45) perpendicular to the cross section of the widest part of the cross section. The wing profile comprises an elastic material of sufficient stiffness to maintain the shape when it is towed thereby causing flow resistance. The cable fairing (40) has slots (42) cut into the elastic material from the tail towards the cable channel (46), so that the tail comprises slats (41) which can be bent parallel to the cable channel (46) to reduce the cross-section of the cable fairing. By this is low flow resistance, as from a stiff cable jacket, combined with sufficient elastic deformability so the cable (45) with attached cable fairings (40), can be winched and pass through narrow openings in the deployment and retrieval, and wound onto a reel for storage and transport.
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1. A cable fairing for reducing the flow resistance to a cable, said cable fairing has a wing shaped cross section with a broad, rounded front and a tapered tail, a through-going cable channel for the cable perpendicular to the cross section of the widest part of the cross section, where the wing pr
1. A cable fairing for reducing the flow resistance to a cable, said cable fairing has a wing shaped cross section with a broad, rounded front and a tapered tail, a through-going cable channel for the cable perpendicular to the cross section of the widest part of the cross section, where the wing profile comprises an elastic material with sufficient stiffness in order to maintain the shape when it is exposed to a flow resistance, wherein slits are cut through the resilient material from the tail towards the cable channel, so that the tail comprises slats separated by the slits and each slat can be independently bent parallel to the cable channel to reduce the cross-section of the cable fairing. 2. The cable fairing according to claim 1, wherein the cable channel has a larger diameter than a cylindrical envelope around the cable. 3. The cable fairing according to claim 2, wherein the cable channel comprises a cylindrical slide bearing in each end. 4. The cable fairing according to claim 3, wherein the slide bearing is extended axially out of the cable channel. 5. The cable fairing according to claim 1, further comprising a through-going channel extending in the longitudinal direction of the cable fairing parallel to the cable channel. 6. The cable fairing according to claim 1, wherein the distance between the front and the outermost part of the tail is 2 to 6 times the diameter to the cable channel. 7. The cable fairing according to claim 1, wherein the slits extend between 20% and 70% of the cross-sectional longitudinal direction. 8. The cable fairing according to claim 1, wherein the width of the slits is between 0.1 and 0.5 mm. 9. The cable fairing according to claim 1, wherein the width of the slats is between 5 and 40 mm. 10. The cable fairing according to claim 1, wherein the elastic material is chosen from the group comprising heat-curing polyurethane, thermoplastic polyurethane, styrene block-copolymer, polyolefin, elastomeric alloys, thermoplastic copolyester, thermoplastic polyamides, natural rubber, nitrile rubber, hydrogenated nitrile rubber (HNBR), butyl rubber, styrene butadiene rubber and neoprene. 11. The cable fairing according to claim 1, wherein the resilient material is elastic enough to resume an original shape after being deformed. 12. The cable fairing according to claim 11, wherein the resilient material is elastic enough to resume an original shape after being deformed by drawing the cable fairing through an orifice of small cross section or reeling the cable fairing onto a drum together with a cable to which the cable fairing is attached. 13. A method of storing a cable fairing comprising: providing cable fairing having a wing shaped cross section with a rounded front and a tapered tail, a through-going cable channel for the cable perpendicular to the cross section of the widest part of the cross section, where the wing profile comprises an elastic material with sufficient stiffness in order to maintain the shape when it is exposed to a flow resistance, wherein slits are cut through the resilient material from the tail towards the cable channel, so that the tail comprises slats separated by the slits and each slat can be independently bent parallel to the cable channel to reduce the cross-section of the cable fairing;reducing the cross-section of the cable fairing by deforming an original shape of the cable fairing by bending at least one of the slats; andallowing the cable fairing to resume the original shape. 14. The method according to claim 13, further comprising reeling the cable fairing onto a drum together with a cable to which the cable fairing is attached to reduce the cross-section of the cable fairing and unwiding the cable fairing from the drum to allow the cable fairing to resume the original shape.
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