Offshore wind power intelligent inspection system

Abstract

The invention discloses an offshore wind power intelligent inspection system which comprises a buoy and an unmanned aerial vehicle take-off and landing recovery platform. The side surface of the buoyis fixedly provided with a water jet propulsion device, and the water jet propulsion device is composed of a water jet propeller and a protective cover; the two sides of the upper surface of the buoyare connected with a deck through a front damping device and a rear damping device correspondingly, an underwater inspection device is fixedly installed on the lower surface of the deck, and the unmanned aerial vehicle take-off and landing recovery platform is fixedly installed in the middle of the upper surface of the deck; and an intelligent unmanned aerial vehicle is correspondingly arranged atthe upper end of the unmanned aerial vehicle take-off and landing recovery platform. According to the offshore wind power intelligent inspection system, a novel structural design is adopted so that the device can enable an intelligent unmanned aerial vehicle and an unmanned ship to work cooperatively, the detection range of equipment is expanded, the unmanned ship operates autonomously through awater jet propulsion structure, and the cruising efficiency is improved; and an anti-wave structure is arranged in the device, and the relative stability of the unmanned ship in the cruising process is improved.

Description

technical field [0001] The invention relates to the technical field of ships, in particular to an intelligent inspection system for offshore wind power. Background technique [0002] Wind energy is a green renewable energy. Offshore wind energy has great potential and rich resources, and has broad development prospects. However, most of the high-quality wind resources are located in areas with harsh environments and complicated sea conditions and climates. Therefore, the monitoring and maintenance of operating status has become offshore wind power. An important issue in the industry. Compared with onshore wind power, the overall operation and maintenance costs of offshore wind power are higher. At present, offshore wind power inspections mainly rely on manually driven ships. [0003] With the continuous inspection and use of offshore wind turbine inspection ships, the following problems were found during use: [0004] 1. Some existing offshore wind turbine inspection ships ...

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Problems solved by technology

[0008] The purpose of the present invention is to provide an offshore wind power intelligent inspection system to solve the problem that some existing offshore wind turbine inspection ships mainly rely on manual driving, and the inspection cost is high and the efficiency is low. The scope of offshore wind field inspection needs, and relying solely on offshore wind turbine inspection ships to detect offshore wind energy, the scope of inspection is limited, the overall inspection effect is poor, and the sea is relatively windy and waves. The mechanism is affected by the wind and waves to produce large shaking, and the collision between the equipment affects the stability of its use.

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