Take-off and landing system for unmanned ship-borne unmanned aerial vehicle

A technology of unmanned ships and unmanned aerial vehicles, which is applied to aircraft parts, parking devices, launching/dragging transmissions, etc., can solve problems such as no effective solutions, and achieve stable and reliable take-off and landing effects

Active Publication Date: 2015-11-18
ZHUHAI YUNZHOU INTELLIGENCE TECH COMPANY
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] Aiming at the problem of safe take-off and landing of drones on...

Method used

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  • Take-off and landing system for unmanned ship-borne unmanned aerial vehicle
  • Take-off and landing system for unmanned ship-borne unmanned aerial vehicle
  • Take-off and landing system for unmanned ship-borne unmanned aerial vehicle

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Embodiment Construction

[0023] The present invention will be further described below in a specific manner.

[0024] The present invention includes a take-off and landing fixing device arranged on the unmanned ship 1 and a take-off and landing mounting device arranged on the UAV 2, and also includes a take-off and landing control device, and the UAV 2 passes through the take-off and landing control device Control the cooperation between the lifting and landing fixing device and the lifting and landing mounting device to take off and land on the unmanned ship 1, and the take-off and landing control device includes a real-time monitoring system for obtaining the real-time situation of the water area where the unmanned ship is located. Monitoring camera during take-off and landing; weather monitoring module for monitoring real-time weather conditions and uploading real-time weather data to the remote control terminal; hull attitude for monitoring unmanned ship hull motion inertia and uploading hull attitu...

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Abstract

The invention provides a take-off and landing system for an unmanned ship-borne unmanned aerial vehicle, which exerts good stability and can effectively solve a problem that the unmanned aerial vehicle cannot safely take off and land on a bumpy unmanned ship. The take-off and landing system for the unmanned ship-borne unmanned aerial vehicle, provided by the invention, comprises a take-off and landing fixing device, a take-off and landing hanging device and a take-off and landing control device, wherein the take-off and landing fixing device is arranged on the unmanned ship; the take-off and landing hanging device is arranged on the unmanned aerial vehicle; the unmanned aerial vehicle takes off from and lands on the unmanned ship through use of the take-off and landing control device to control coordination between the take-off and landing fixing device and the take-off and landing hanging device; and the take-off and landing control device comprises a take-off and landing process monitoring camera, a meteorological monitoring module, a ship body posture monitoring module, a wireless communication module and a remote control terminal. The take-off and landing system for the unmanned ship-borne unmanned aerial vehicle, provided by the invention, can be applied to the technical field of safety of water area operation equipment.

Description

technical field [0001] The invention relates to a take-off and landing device for a ship-borne aircraft, in particular to an unmanned take-off and landing system for a ship-borne unmanned aerial vehicle. Background technique [0002] In environmental survey, patrol detection, emergency response and other operations, unmanned ships and drones have their own advantages and disadvantages. UAVs have the advantages of good maneuverability, quick movement response, large viewing angle at high altitude, and the detection area can be from the sea to the land. However, unmanned ships have the advantages of large load capacity, more equipment that can be mounted, and long continuous operation time. Therefore, the joint operation of UAVs and unmanned ships can realize the complementary functions of the two. In order to realize the joint operation of the two, it is first necessary to solve the problem of how the UAV can take off and land safely on the turbulent unmanned ship deck. [...

Claims

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Application Information

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IPC IPC(8): B64D47/00B64F1/02B64F1/04
Inventor 赵智聪刘陈利张云飞成亮邹雪松
Owner ZHUHAI YUNZHOU INTELLIGENCE TECH COMPANY
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