Flexible pipe carcass for controlling flow induced vibration in a riser

The invention claimed is: 1. A flexible inner pipe carcass of a flexible riser, flow line or jumper comprising: a flexible tubular wall structure comprising a helically wound wall strip, wherein interlocking sections of successive windings of said wall strips form the wall structure; the interlocking sections of adjacent wall strips defining a length and being movable with respect to each other between a first position and a second, extended position for changing said length, the interlocking sections being formed such that a carcass gap is provided between adjacent interlocking sections for accommodating relative movement there between upon flexure of the wall structure; characterized in that an insert profile is located in the carcass gap of the tubular wall structure on an inside of the wall structure to at least partly cover and/or fill the carcass gap, said insert profile comprising a first portion in the form of a protrusion extending outwards into the carcass gap, and a second portion fixed onto the first portion, the second portion being in the form of a protrusion having an extension transverse to the carcass gap, wherein the second portion is resilient or elastic and wherein the pipe carcass is arranged so that in use the second portion is deformed by relative movement between adjacent interlocking sections. 2. A flexible inner pipe carcass of a flexible riser, flow line or jumper according to claim 1 , characterized in that the insert profile is arranged to at least partly cover the carcass gap in both in the first position and in the second position. 3. A flexible inner pipe carcass of a flexible riser, flow line or jumper according to claim 2 , characterized in that the insert profile is formed of a helical strip, thereby providing a helical insert profile, which is aligned with the helical wall strip of the tubular structure. 4. A flexible inner pipe carcass of a flexible riser, flow line or jumper according to claim 3 , characterized in that the insert profile has a length in the direction of helical winding, and a width which is variable along its length. 5. A flexible inner pipe carcass of a flexible riser, flow line or jumper according to claim 4 , characterized in that the insert profile comprises a first portion in the form of a protrusion extending outwards into the carcass gap between each pair of interlocking sections. 6. A flexible inner pipe carcass of a flexible riser, flow line or jumper according to claim 1 , characterized in that the insert profile comprises a protrusion having a T-shaped cross-section, where the cross-bar forms the second portion. 7. A flexible inner pipe carcass of a flexible riser, flow line or jumper according to claim 1 , characterized in that the insert profile comprises a protrusion having a triangular cross-section forming the second portion. 8. A flexible pipe carcass according to claim 1 , characterized in that the insert profile comprises a protrusion having a hollow cross-section forming the second portion, which protrusion has an inner surface at or adjacent the inner surface of the wall structure. 9. A flexible pipe carcass according to claim 1 , characterized in that the insert profile comprises a protrusion having a hollow cross-section comprising multiple cavities forming the second portion, which protrusion has an inner surface at or adjacent the inner surface of the wall structure. 10. A flexible inner pipe carcass of a flexible riser, flow line or jumper according to claim 1 , characterized in that the insert profile has a T-shaped cross-section, including a stem extendable into the carcass gap. 11. A flexible inner pipe carcass of a flexible riser, flow line or jumper according to claim 10 , characterized in that a cross-bar of said stem is in contact with the inside of the wall structure on at least one side of the carcass gap. 12. A flexible inner pipe carcass of a flexible riser, flow line or jumper according to claim 1 , characterized in that the insert profile is attached to one of the adjacent wall strips forming the tubular wall structure. 13. A flexible inner pipe carcass of a flexible riser, flow line or jumper according to claim 12 , characterized in that the insert profile is attached to one of the adjacent wall strips forming the tubular wall structure along at least a majority of its longitudinal extension. 14. A flexible inner pipe carcass of a flexible riser, flow line or jumper according to claim 12 , characterized in that the insert profile is attached by means of welding or soldering. 15. A flexible inner pipe carcass of a flexible riser, flow line or jumper according to claim 12 , characterized in that the insert profile is attached by a locking portion of the insert profile extending axially between the interlocking sections of the helically wound wall strip and cooperating with a groove in one of the adjacent wall strips. 16. A flexible inner pipe carcass of a flexible riser, flow line or jumper according to claim 1 , characterized in that the insert profile forms a coiled spring expanded into contact with the tubular wall structure. 17. A flexible inner pipe carcass of a flexible riser, flow line or jumper according to claim 16 , characterized in that the insert profile is attached to one of the adjacent wall strips forming the tubular wall structure at each of its ends.