Embodiments of a towed raft 10 for transport, launch and recovery of a marine vessel 12 are shown in
In one embodiment, the receiving area 20 has a longitudinal centerline 22 substantially aligned with the longitudinal axis of the towed raft 10. In other embodiments, the spine and rib assembly 18 comprises a spine 24 upwardly spaced from the floating frame 14 and substantially aligned with the longitudinal centerline 22. In yet other embodiments, the assembly 18 further comprises a plurality of ribs 26 that connect the spine 24 to the frame 14. In yet other embodiments, the ribs 26 extend generally outwardly and downwardly from the spine 24 to the floating frame 14. One or more lifting devices 28 may be secured to the towed raft 10. In one embodiment, each lifting device 28 is adapted to lift, lower and retain a marine vessel 12 relative to the receiving area 20. In other embodiments, the lifting devices 28 are able to retain a marine vessel 12 within the receiving area 20 having an underside clearance from the water level of between about 10 inches and about 30 inches.
As shown in
Each float 30 may have construction as desired suitable for the purposes of the present invention. In one embodiment, each float 30 comprises a pontoon hull float. In other embodiments, each float 30 comprises a catamaran hull float. In yet other embodiments, ea ch float 30 comprises a hull manufactured of aluminum or fiberglass material.
As shown in
Referring now to
Referring now to
A lifting device 28 can be any device suitable for releasably connecting to a marine vessel 12 and launching or recovering and retaining the vessel relative to the receiving area 20. In one embodiment, a lifting device 28 comprises a cable 54 having a hook or other connecting device 56 at a distal end 58 of the cable and a connected end 60 wound about a reel 62. In other embodiments, the reel 60 has operative controls 64 for winding and unwinding the cable 54 about the reel. In yet other embodiments, operative controls 64 comprise a manual winch or a motorized winch. In yet other embodiments, operative controls 64 comprise at least one hydraulic lift cylinder. In yet other embodiments, each lifting device 28 is adapted to raise and lower loads of up to about 7,500 pounds.
A lifting device 28 may be secured to the spine 24 by any suitable means at any suitable position for the purposes of the present invention. In one embodiment, each lifting device 28 is secured to the underside 66 of the spine 24 in spaced relation to each other lifting device, if any. In other embodiments, each lifting device 28 is secured within the spine 24 and the cable 54 extends generally downwardly from the underside 66 of the spine. In yet other embodiments, rigid support elements 68 are secured to the spine 24 generally adjacent the location of each lifting device 28. The support elements 68 may be adapted to provide additional structural support to the spine 24 during launch, recovery, lifting and retention of a marine vessel 12 by the lifting devices 28.
The dimensions of a towed raft 10 according to the embodiments of the present invention are determined according to the towing limitations of a user of the raft and according to the size of the marine vessel 12 used in connection with the towed raft. In one embodiment, the towed raft 10 has a length of between about 25 feet and about 40 feet. In other embodiments, the length is about 33½ feet. In yet other embodiments, the towed raft 10 has a width of between about 8 feet and about 15 feet. In yet other embodiments, the width is about 12½ feet. In yet other embodiments, the towed raft 10 has a dry-dock height of between about 6 feet and about 15 feet. In yet other embodiments, the dry-dock height is about 8 ¾feet.
The marine vessel 12 used in connection with the embodiments of the towed raft 10 may be any vessel having short-range uses for which transport to the location of such uses is desirable. In one embodiment, the marine vessel 12 comprises a swimmer delivery vehicle 70. In other embodiments, the swimmer delivery vehicle 70 has a passenger capacity of between 2 and 10.
As shown in
For lifting devices 28 comprising non-manual operative controls, a power source (not shown) may be provided for powering the lifting device. In one embodiment, the power source comprises a battery-stored power source. In other embodiments, the battery-stored power source has a power storage capacity sufficient for at least two repetitions of a set of lowering and lifting a marine vessel 12 relative to the receiving area 20.
As shown in
The receiving area, 20 defined by the floating frame 14 and the spine and rib assembly 18 is configured to receive a marine vessel 12 therein. In one embodiment, the receiving area 20 has a height at the longitudinal centerline 22 from the bottom of the spine 24 to the level of the water between about 6 feet and about 12 feet. In other embodiments, the receiving area 20 has a width between the floats 30 of between about 8 feet and about 15 feet. In yet other embodiments, the receiving area 20 has a length from the cross brace 32 to the open end 16 between about 15 feet and about 32 feet. In yet other embodiments, the receiving area 20 has dimensions of about 6 feet in height at the longitudinal centerline 22, about 8 feet wide, and about 28 feet long. In yet other embodiments, the receiving area 20 has a volumetric capacity of between about 720 cubic feet and about 5,760 cubic feet. In yet other embodiments, the receiving area 20 has a volumetric capacity of about 1,344 cubic feet.
In operation, a marine vessel 12 is retained within the receiving area 20 with clearance above the water level of about 24 inches. The towed raft 10 is then towed by a tow craft to transport the vessel 12 to a desired location. At that location, launch of the vessel 12 is achieved by generally simultaneously unwinding the cables 54 of each lifting device 28 using the operative controls 64. In one embodiment, a control panel 82 is provided with each lifting device 28 having at least two controllers 84, one for extending (unwinding or lowering) the cable 54, the other for retracting (winding or lifting) the cable 54. The cables 54 are extended until the vessel 12 is substantially buoyantly supported in the water. The hooks, 56 at the distal ends 58 of the cables, 54 are then disconnected from the vessel 12. In one embodiment, launch may occur while the towed raft 10 is being towed by a tow craft at up to about 2 knots. The vessel 12 then navigates clear of the towed raft 10.
Recovery of the vessel 12 is achieved by positioning the vessel such that the lifting device cables 54 and hooks 56 may be reconnected to the vessel. In one embodiment, a recovery line 86 extending from the tow winch 48 secured to the cross brace 32 is connected to a tow bridle (not shown) at the forward end of the vessel 12. The tow winch 48 is operated to position the vessel 12 generally within the U-shaped floating frame 14 so that the cable hooks 56 may be reconnected to the vessel. The vessel 12 is then lifted out of the water by the lifting devices 28. In one embodiment, recovery may occur while the towed raft 10 is being towed by a tow craft at up to about 2 knots.
One or more crew members (not shown) may man the towed raft 10 for achieving appropriate launch and recovery activities as described above. Crew members generally remain on the substantially flat upper surfaces 36 of the floats 30. Railings 42 are provided for preventing unintentional entry into the receiving area 20 or for holding onto by crew members as the towed raft 10 floats on a body of water.
While specific embodiments of the invention have been shown and described herein for purposes of illustration, the protection offered by any patent which may issue upon this application is not strictly limited to the disclosed embodiments; but rather extends to all structures, steps and arrangements which fall fairly within the scope of the claims which are appended hereto:
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Number | Date | Country |
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WO84 02504 | Jul 1984 | WO |