Flying wing type sea surface glider system driven by wave energy and implementation method

Abstract

The invention provides a flying wing type sea surface glider system driven by wave energy and an implementation method. The flying wing type sea surface glider system comprises a water surface floating body part and an underwater glider wing part which are linked through a rigid chain. The water surface floating body part comprises a hull, a rudder, a waterproof control cabin, a navigation module, an energy system and a communication module. The underwater glider wing part comprises a glider wing, a flap and a flap control device. The flying wing type sea surface glider system driven by the wave energy has the beneficial effects that the driving force is produced through the wave energy; meanwhile, the energy system converts solar energy into electric energy through a solar cell panel to provide electric power for the flying wing type sea surface glider system, and the ultra-long cruising ability of the flying wing type sea surface glider system is achieved; and in addition, the effect that the flying wing type sea surface glider system converts the wave energy into kinetic energy more effectively is ensured by designing the underwater glider wing, so that the maneuvering ability of a sea surface glider is improved.

Description

technical field [0001] The present invention relates to a wave-energy-driven flying-wing sea glider system and its implementation method, in particular to a flying-wing sea glider system that utilizes ocean wave energy to move on the sea surface, and can maintain long-term operation. Monitoring and detection of the marine environment. Background technique [0002] The 21st century is the century in which mankind marches to the ocean. As a treasure land and high-tech field developed by human beings, the ocean has become an important strategic goal of various countries, and it is also one of the focuses of international competition in recent years. [0003] A complete ocean monitoring equipment includes an observation platform and specific sensors. The observation platform determines the way and method of observation and is the basis of the entire system. Typical observation platforms include: marine survey ships, various submersible buoys, buoys, various skimming aircraft, ...

AI Technical Summary

Problems solved by technology

Remote sensing satellites and aircraft have the advantage of a wide observation area, and the observation accuracy and capabilities have been greatly improved with technological progress, but as non-contact platforms, the types of observable information are still relatively small, and the application is limited; marine survey ships, submarine buoys, buoys Traditional contact-based sea-based observation platforms can be equipped with various sensors to obtain multi-category information, which is the main way of oceanographic measurement at present. However, buoys and submersible buoys are fixed-point measurements, and the observation area is extremely limited. Oceanographic survey ships need to be manned. Reduced usability and limited viewing area

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