The invention is related to a sail(s) for sailboats, said sail(s) to be controlled in its lowering operation electronically and in raising electronically when safety issues have been satifactorily addressed; utilizing among other devices, a multitude of Tricore controllers, hereinafter described as Tricore (for harsh environments) or other controllers with similar characteristics. The sailing control device has a cleat, a resistance spring, a line having a first end located through the cleat means, and a second end attached to the resistance spring and a sensor adapted to detect the extent to which the line is pulled through the cleat. The present disclosure further relates to a sailing vessel control system having one or more of the sailing vessel control devices, one or more sail actuators, and a control unit.

Magnet-assisted automatic locking mechanisms for use on a sailboat are disclosed herein. One such mechanism includes: a housing having an internal space and configured to receive a slug that moves along a path through the housing, the slug being operably connected to the halyard, the housing including a first housing side and a second housing side coupled to one another; first and second flippers rotatably disposed in the housing, the first and second flippers configured to rotate between at least a cocked position in which the slug is inserted into the housing, a locked position in which a surface of the first and second flippers receive the slug and impede the slug from exiting the housing along the path, wherein the halyard is tensioned in the locked position, and a neutral position in which the first and second flippers allow movement of the slug; and a magnet assembly configured to effect rotation of the first and second flippers.

Embodiments described herein relate generally to a sailing vessel that can substantially obviate the heeling problem experienced by classical sailboats. During navigation, the sailing vessel is driven forward by an aerodynamic force exerted by wind on the sail, and balanced by a hydrodynamic force exerted by water on a float on the stern of the sailing vessel, the aerodynamic force and the hydrodynamic force being parallel or substantially parallel to a longitudinal axis of the sailing vessel.

A flywheel actuated device for tensioning a backstay cable of a sailboat has a flywheel that is connected to a turnbuckle. The turnbuckle is connected to a cable backstay of a sailboat. Rotation of the flywheel rotates the turnbuckle to increase or relax tension on the cable backstay. The diameter of the flywheel and the weight of the flywheel near an outer circumference of the flywheel allow the flywheel to store rotational energy and cause the flywheel to temporarily freewheel while the sailboat is under sail when a sufficient manual force is applied to the flywheel, which turns the frame of the turnbuckle and provides an initial tension to the cable backstay.

A rigging comprises a mast controllably about a longitudinal axis; a flexible sail comprising a starboard and port flexible sail portions; a plurality of elongated battens which extend a luff and a leach of sail portions; each batten is pivotally connected to a respective outermost part of the respective side of the mast. Rotation of the mast causes the battens connected to one of the sail portions to be compressed along their length and causes the battens connected of the other sail portions to be tensioned along their length so as to change the shape of an aerofoil formed by the sail.

A simplified sailing rig is disclosed that is easier to operate and maintain than the conventional Bermuda rig. The entire rig can be rotated under manual or electric control to achieve the optimum angle of attack into the wind.

A frame device (200) for a profiled sail device, the frame device (200) having at least one adjustable frame element (202), the at least one adjustable frame element (202) having longitudinal struts which are spaced apart from one another and are assigned to sail surfaces which are spaced apart from one another, and transverse struts which extend between the longitudinal struts, characterized in that the longitudinal struts and the transverse struts delimit quadrangles which each have two diagonals with varying lengths depending on the adjustment, and the diagonals each have a predetermined maximum length, and a profiled sail device having sail surfaces which are spaced apart from one another and against which the flow can impinge and which form profiled surfaces, a sail front edge and an adjustable skeleton device arranged between the sail surfaces. The skeleton device has at least one frame device (200) of this type.

A frame device (200) for a profiled sail device, the frame device (200) having at least one adjustable frame element (202), the at least one adjustable frame element (202) having longitudinal struts which are spaced apart from one another and are assigned to sail surfaces which are spaced apart from one another, and transverse struts which extend between the longitudinal struts, characterized in that the longitudinal struts and the transverse struts delimit quadrangles which each have two diagonals with varying lengths depending on the adjustment, and the diagonals each have a predetermined maximum length, and a profiled sail device having sail surfaces which are spaced apart from one another and against which the flow can impinge and which form profiled surfaces, a sail front edge and an adjustable skeleton device arranged between the sail surfaces. The skeleton device has at least one frame device (200) of this type.

A marine gangway has a tower adapted for attachment to a marine structure, rotatably about a tower rotational axis extending in a longitudinal direction of the tower. The tower has a tower aperture and at least one tower doorway arranged below and/or above the tower aperture where the tower aperture and the at least one tower doorway is adapted for people and/or goods to pass through. The marine gangway includes a gangway device comprising a gangway platform attached to the tower movably in the longitudinal direction of the tower, and a gangway rotatably attached to the gangway platform. The marine gangway further comprises a lift arranged inside the tower movable in the longitudinal direction of the tower. The lift has a lift doorway adapted to align with the tower aperture and with the at least one tower doorway as the lift moves in the longitudinal direction of the tower.