A segmented-foil divertor for marine towed application, such as marine seismic exploration, having a plurality of longitudinally stackable foil segments with an internal conduit extending along the span of each segment to receive a cable passing therethrough.
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1. A collapsible segmented-foil divertor comprising a plurality of longitudinally stackable foil segments arranged in a stack with opposing ends, wherein each foil segment defines a foil cross-section, a leading edge, a trailing edge, a span, and an internal conduit extending along the span position
1. A collapsible segmented-foil divertor comprising a plurality of longitudinally stackable foil segments arranged in a stack with opposing ends, wherein each foil segment defines a foil cross-section, a leading edge, a trailing edge, a span, and an internal conduit extending along the span positioned rearward of the leading edge of the foil segment;a cable passing through the internal conduits of each of the plurality of foil segments and having a respective free end extending outwardly from each opposing end of the stack;a triangular-like bridle having an apex, sides, and a base, wherein: the apex is defined by a connection point between the bridle and rigging trailing behind a towing vessel;the sides are defined by a first bridle line attached between the connection point and one free end of the cable and a second bridle line extending between the connection point and the other free end of the cable; andthe base is defined by the cable; andone or more intermediate bridle lines extending between the connection point and the cable. 2. The collapsible segmented-foil divertor of claim 1, further comprising a float mechanism at one end of the stack defining a top end of the stack. 3. The collapsible segmented-foil divertor of claim 2, wherein the float mechanism is a buoy. 4. The collapsible segmented-foil divertor of claim 2, wherein the float mechanism is buoyant material integral to one or more foil segments at the top end of the stack. 5. The collapsible segmented-foil divertor of claim 2, further comprising a ballast at the other end of the stack defining a bottom end of the stack. 6. The collapsible segmented-foil divertor of claim 5, wherein the ballast is integral to one or more foil segments at the bottom end of the stack. 7. The collapsible segmented-foil divertor of claim 2, wherein the stack is longitudinally aligned, the sides of the bridle are of equal length, and the lengths of the one or more intermediate bridle lines are sized accordingly. 8. The collapsible segmented-foil divertor of claim 2, wherein the stack is longitudinally aligned, the sides of the bridle are of unequal length, and the lengths of the one or more intermediate bridle lines are sized accordingly. 9. The collapsible segmented-foil divertor of claim 2, further comprising a second internal conduit in each foil segment extending along the span positioned forward of the trailing edge of the foil segment to receive a second cable passing therethrough; anda second cable passing through the second internal conduits of each of the plurality of foil segments and having a free end extending outwardly from each end of the stack and secured to prevent egress therefrom. 10. The collapsible segmented-foil divertor of claim 9, wherein each foil segment has opposing sides which converge rearwardly from the leading edge to give each foil segment a trapezoidal-like shape with a divergent angle between the sides of adjacent foil segments. 11. The collapsible segmented-foil divertor of claim 10, further comprising an adjustment mechanism to vary the length of the second cable passing through the second internal conduits of the plurality of foil segments and resultantly vary the size of the divergent angle between a maximum and a minimum. 12. The collapsible segmented-foil divertor of claim 10, wherein the stack is curved, the sides of the bridle are of equal length, and the lengths of the one or more intermediate bridle lines are sized accordingly. 13. The collapsible segmented-foil divertor of claim 10, wherein the stack is curved, the sides of the bridle are of unequal length, and the lengths of the one or more intermediate bridle lines are sized accordingly. 14. The collapsible segmented-foil divertor of claim 2, wherein the cross-section of each of the plurality of foil segments is identical. 15. The collapsible segmented-foil divertor of claim 2, wherein one or more foil segments have a first cross-section and another one or more foil segments have a second cross-section. 16. The collapsible segmented-foil divertor of claim 2, wherein one or more foil segments comprises one or more foil structures selected from the group consisting of: a leading edge slat, a slot, and a trailing edge flap. 17. The collapsible segmented-foil divertor of claim 16, wherein one or more foil segments comprise a trailing edge flap and a flap actuator mounted within the cross-section of the one or more foil segments to selectively adjust the bend angle of the trailing edge flap. 18. The collapsible segmented-foil divertor of claim 2, wherein the connection point of the bridle is a master link having an aperture therethrough and wherein the first bridle line is attached to the master link and the second bridle line and one or more intermediate bridle lines pass through the aperture in the master link and are attached to the rigging further upstream from the master link. 19. A method of positioning towed equipment behind a towing vessel, comprising: passing a cable through an internal conduit in each of a plurality of longitudinally stackable foil segments each having a foil cross-section, a leading edge, a trailing edge, a span, and an internal conduit extending along the span positioned rearward of the leading edge of the foil segment to receive a cable passing therethrough;attaching a triangular-like bridle having an apex, sides, and a base, wherein: the apex is defined by a connection point between the bridle and rigging on the towing vessel;the sides are defined by a first bridle line attached between the connection point and one free end of the cable and a second bridle line extending between the connection point and the other free end of the cable; andthe base is defined by the cable and one or more intermediate bridle lines extending between the connection point and the cable; andtowing the plurality of foil segments through the water behind the towing vessel. 20. A method of launching a collapsible segmented-foil divertor-according to claim 18, the method comprising: providing the collapsible segmented foil diverter;connecting the master link to the rigging;connecting the second bridle line and one or more intermediate bridle lines to one or more winches on the towing vessel;adjusting the length of the second bridle line and one or more intermediate bridle lines, by way of the one or more winches, so as to provide slack during the launching operation;launching the collapsible segmented-foil divertor into the water from the towing vessel;paying out the rigging until the collapsible segmented-foil divertor is located a desired distance from the towing vessel;shortening the length of the second bridle line and one or more intermediate bridle lines, by way of the one or more winches, so as to achieve the desired angle and alignment of the collapsible segmented-foil divertor;disconnecting the second bridle line and one or more intermediate bridle lines from the one or more winches; andconnecting the second bridle line and one or more intermediate bridle lines to the rigging. 21. A method of recovering a collapsible segmented-foil divertor according to claim 18, the method comprising reeling in the rigging until the second bridle line and one or more intermediate bridle lines are accessible at a stern of the towing vessel;disconnecting the second bridle line and one or more intermediate bridle lines from the rigging;connecting the second bridle line and one or more intermediate bridle lines to one or more winches on the towing vessel;lengthening a length of the second bridle line and lengths of one or more intermediate bridle lines, by way of the one or more winches on the towing vessel, so as to provide slack;reeling in the rigging to bring the segmented-foil divertor on or near the stern of the towing vessel. 22. A collapsible segmented-foil divertor comprising a plurality of longitudinally stackable foil segments arranged in a stack with opposing ends, wherein each foil segment defines a foil cross-section, a leading edge, a trailing edge, a span, and an internal conduit extending along the span positioned rearward of the leading edge of the foil segment;a cable passing through the internal conduits of each of the plurality of foil segments and having a respective free end extending outwardly from each opposing end of the stack;a plurality of bridle lines attached at first ends to the cable adjacent to foil segments in the stack and having second ends configured for attachment to rigging extending from a towing vessel. 23. The collapsible segmented-foil divertor of claim 22, wherein two of the plurality of bridle lines attach to the cable adjacent to a top end of the stack and adjacent to a bottom end of the stack, respectively. 24. The collapsible segmented-foil divertor of claim 22, wherein each of the plurality of bridle lines attaches to the cable between adjacent foil segments in the stack. 25. The collapsible segmented-foil divertor of claim 22, wherein the second ends of each of the plurality of bridle lines attaches to another of the plurality of bridle lines. 26. The collapsible segmented-foil divertor of claim 22, wherein the second ends of some of the plurality of bridle lines attach to a connection point that is configured to attach to the rigging.
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이 특허에 인용된 특허 (19)
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