An integrated Kiteboarding canopy self-launching and landing safety system is presented. The system includes a base. The system also includes an attachment mechanism configured to attach to the base, wherein the attachment mechanism is structured to capture a kiteboarding canopy. The system additionally includes a release mechanism positionable on the base, wherein the release mechanism is arranged to be able to release a kiteboarding canopy upon actuation. Further, the system includes a securing mechanism configured to connect with the base, wherein the securing mechanism is configured to secure a kiteboarding canopy upon landing. And, the system also includes a manual and automatic device to control both landing and launching evolutions.

A traction kite anchoring device for attachment to a harness worn by a user to transfer force from a traction kite to the user. The traction kite anchoring device comprising a first member at an end of at least one line connected to a said kite and a chicken loop for attachment to a said harness and releasably connected to said first member, wherein the chicken loop has a first end comprising an anchor able to be received and secured at an anchor receiver of the first member in a releasable and tool-less manner.

An engine-generator set with a single-cylinder diesel engine and an electrical generator with a rotor secured to the engine crankshaft. The rotor is cantilevered on an end of the crankshaft. The engine has an electrically activatable fuel injector connected to a continuously pressurized fuel supply, such as in a common rail injection system. The engine exhaust passes through a catalyst bed. In a marine version, the catalyst bed is disposed within an injection elbow.

An engine-generator set with a single-cylinder diesel engine and an electrical generator with a rotor secured to the engine crankshaft. The rotor is cantilevered on an end of the crankshaft. The engine has an electrically activatable fuel injector connected to a continuously pressurized fuel supply, such as in a common rail injection system. The engine exhaust passes through a catalyst bed. In a marine version, the catalyst bed is disposed within an injection elbow.

The invention relates to a winding device (30) for winding up and unwinding lines (50) of a stunt kite, paraglider or parachute (60) with at least three reels (11) for receiving at least one line (50) of the stunt kite, paraglider or parachute (60). According to the invention, at least two reels (11) have their own reel drive (14) for winding up and unwinding the line (50) taken up on the reel (11).

An engine-generator set with a single-cylinder diesel engine and an electrical generator with a rotor secured to the engine crankshaft. The rotor is cantilevered on an end of the crankshaft. The engine has an electrically activatable fuel injector connected to a continuously pressurized fuel supply, such as in a common rail injection system. The engine exhaust passes through a catalyst bed. In a marine version, the catalyst bed is disposed within an injection elbow.

An integrated Kiteboarding canopy self-launching and landing safety system is presented. The system includes a base. The system also includes an attachment mechanism configured to attach to the base, wherein the attachment mechanism is structured to capture a kiteboarding canopy. The system additionally includes a release mechanism positionable on the base, wherein the release mechanism is arranged to be able to release a kiteboarding canopy upon actuation. Further, the system includes a securing mechanism configured to connect with the base, wherein the securing mechanism is configured to secure a kiteboarding canopy upon landing. And, the system also includes a manual and automatic device to control both landing and launching evolutions.

This invention concerns a line reeling device for reeling front and back lines of a kite. The device includes a reeling mechanism comprising a first reel and a second reel which are located in an enclosure and on which the front and back lines are, in use, wound respectively. The reels are arranged so that their rotation in one direction retracts the lines and their rotation in the other direction deploys the lines. The reeling mechanism further includes reel connecting means which is operable to cause the reels to rotate in harmony in one configuration and rotate independently in another configuration. The reeling mechanism also has a braking mechanism for controlling rotation of the reels and a control mechanism which is in connection with the braking mechanism. The control mechanism is operable between a first, locked position wherein rotation of the reels is obstructed and a second, released position wherein rotation of the reels is allowed.

A traction kite anchoring device for attachment to a harness worn by a user to transfer force from a traction kite to the user. The traction kite anchoring device comprising a first member at an end of at least one line connected to a said kite and a chicken loop for attachment to a said harness and releasably connected to said first member, wherein the chicken loop has a first end comprising an anchor able to be received and secured at an anchor receiver of the first member in a releasable and tool-less manner.

An illumination system for a kiteboarding kite that senses the position and orientation of the kite with respect to a rider and directs a beam of light at the rider's path. The illumination system is battery powered and mounted to a kiteboarding kite with an inflated leading edge. A processor executed program analyzes data from several sensors, such as accelerometers, gyroscopes and magnetometers, in order to quickly adjust the direction of a spotlight and avoid shining light into the rider's eyes. In addition, the illumination system may also illuminate the rider directly or areas of the kite.