One embodiment of a deployable reversible camber sail system, based on a deployable shell (58) contained within a mast-sail assembly (11, 12) and supported and controlled by additional assemblies (13-15), is disclosed. The embodiment may be easily and quickly configured into the furled, feathered, port tack and starboard tack sail forms. In addition, this embodiment represents a highly efficient sail module which may be controlled by a single human operator or automated computer-based control system. Additional embodiments, utilizing assemblages of the first embodiment sail system module, are described.

The present invention relates to a trimaran and, more specifically, to a variable trimaran using natural power, the variable trimaran having an outer hull, which is capable of ensuring stability with respect to a center hull in the middle thereof, can be selectively expanded and contracted in the horizontal and vertical directions thereof, a sail unit, which uses wind power, and a solar power generation unit so as to enable efficient long-term sailing without the use of fossil fuel. To this end, a horizontal adjustment unit and a vertical adjustment unit are provided for adjusting the position of the outer hull, and the solar power generation unit and the wind power sailing unit are used such that the position of the outer hull can be freely adjusted with respect to the center hull and efficient long-term sailing is enabled without the supply of an oil energy source due to the use of sunlight and wind power as power sources.

The present invention relates to a trimaran and, more specifically, to a variable trimaran using natural power, the variable trimaran having an outer hull, which is capable of ensuring stability with respect to a center hull in the middle thereof, can be selectively expanded and contracted in the horizontal and vertical directions thereof, a sail unit, which uses wind power, and a solar power generation unit so as to enable efficient long-term sailing without the use of fossil fuel. To this end, a horizontal adjustment unit and a vertical adjustment unit are provided for adjusting the position of the outer hull, and the solar power generation unit and the wind power sailing unit are used such that the position of the outer hull can be freely adjusted with respect to the center hull and efficient long-term sailing is enabled without the supply of an oil energy source due to the use of sunlight and wind power as power sources.

A wind turbine, which includes a base, a tower, the tower having a cavity therein, which houses a rechargeable battery, and one or more blades, which produce a source of electricity, which is stored in the rechargeable battery housed in the tower of the wind turbine.

Various embodiments of a sailing vessel are disclosed configured to reduce a heeling moment acting on the sailing vessel as a wind acts on a sail of the sailing vessel. Generally, a mast of the sailing vessel is allowed to cant to leeward, thus reducing the heeling moment.

Various embodiments of a sailing vessel are disclosed configured to reduce a heeling moment acting on the sailing vessel as a wind acts on a sail of the sailing vessel. Generally, a mast of the sailing vessel is allowed to cant to leeward, thus reducing the heeling moment.

A pitot tube cover for a pitot tube operable to determine a speed of an aircraft based on an airstream impinging on the pitot tube. The pitot tube cover has a body and a sail extending from the body. The body has a top surface opposite a bottom surface, an elongate cavity and a slot extending from the top surface to the elongate cavity, the elongate cavity sized to receive the pitot tube and the slot having a width narrower than a diameter of the pitot tube to provide a retaining force which retains the body on the pitot tube after the pitot tube is received by the elongate cavity. The sail includes a first substantially planar sail surface and a second substantially planar sail surface extending from the first sail surface distally to the body.

A pitot tube cover for a pitot tube operable to determine a speed of an aircraft based on an airstream impinging on the pitot tube. The pitot tube cover has a body and a sail extending from the body. The body has a top surface opposite a bottom surface, an elongate cavity and a slot extending from the top surface to the elongate cavity, the elongate cavity sized to receive the pitot tube and the slot having a width narrower than a diameter of the pitot tube to provide a retaining force which retains the body on the pitot tube after the pitot tube is received by the elongate cavity. The sail includes a first substantially planar sail surface and a second substantially planar sail surface extending from the first sail surface distally to the body.

Various embodiments of a sailing vessel are disclosed configured to reduce a heeling moment acting on the sailing vessel as a wind acts on a sail of the sailing vessel. Generally, a mast of the sailing vessel is allowed to cant to leeward, thus reducing the heeling moment.

Various embodiments of a sailing vessel are disclosed configured to reduce a heeling moment acting on the sailing vessel as a wind acts on a sail of the sailing vessel. Generally, a mast of the sailing vessel is allowed to cant to leeward, thus reducing the heeling moment.