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Quay crane structure detection system based on quadrotor unmanned aerial vehicle

A technology of four-rotor unmanned aerial vehicle and shore bridge crane, which is applied in radio wave measurement system, machine/structural component testing, satellite radio beacon positioning system, etc. The metal structure of the bridge crane, the hidden dangers of port safety production, and the existence of visual blind spots have achieved the effect of simple structure, low cost and wide application

Inactive Publication Date: 2017-04-26
WUHAN UNIV OF TECH
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Many quay cranes with structural damage are still in service. This practical problem has posed a safety hazard to the safe production of the port.
The existing detection methods mostly use artificial telescopes to observe the metal structure of the crane. The limitation of this method is that the detection distance is relatively long, and there is a visual blind spot, and it cannot observe the metal structure of the quay crane at close range, from multiple angles, and accurately.

Method used

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  • Quay crane structure detection system based on quadrotor unmanned aerial vehicle
  • Quay crane structure detection system based on quadrotor unmanned aerial vehicle
  • Quay crane structure detection system based on quadrotor unmanned aerial vehicle

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Embodiment Construction

[0021] In order to further describe the present invention, the present invention will be further described in detail below in conjunction with the accompanying drawings.

[0022] The present invention provides an infrared detection system for the structure of a quay crane based on a four-rotor UAV, including a UAV subsystem, a task pod subsystem, and a ground command, measurement and control subsystem, such as figure 1 shown.

[0023] The UAV subsystem adopts a four-rotor UAV platform, and its lift is obtained by the reaction of four rotors through relative motion with the air. The four rotors are symmetrically distributed on the fuselage frame and protected by guardrails. The quadrotor UAV platform is equipped with a flight control computer, a flight navigation module, an obstacle avoidance module, and a power drive device. The flight control computer completes the flight tasks such as the stability and control of the UAV's attitude and heading, speed control, take-off and l...

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Abstract

The present invention discloses a quay crane structure detection system based on a quadrotor unmanned aerial vehicle. The system comprises an unmanned aerial vehicle subsystem, a task pod subsystem and a ground control measurement and control subsystem. The unmanned aerial vehicle subsystem employs a quadrotor unmanned aerial vehicle platform, and comprises a quadrotor unmanned aerial vehicle, and a flight control computer, a flight navigation module, an obstacle avoidance module and a power driving device which are built by the quadrotor unmanned aerial vehicle; the task pod subsystem includes a holder carrying a visual light high-definition camera and a signal transceiver; and the ground control measurement and control subsystem includes a ground controller and a ground computer. The quay crane structure detection system based on the quadrotor unmanned aerial vehicle is simple in structure, convenient to use and is limited by the limitation of the time and the space. The unmanned aerial vehicle can perform near-distance, multi-angle and omnibearing high-definition camera of the quay crane, can be hovered in air for long-term camera of a certain point, can transmit the image to a ground computer to timely and accurately discover the metal structure problem of the crane and solve the potential safety hazard to ensure the safety operation work of the crane.

Description

technical field [0001] The invention relates to a detection system, in particular to a structure detection system of a quay crane based on a four-rotor unmanned aerial vehicle platform, and belongs to the technical field of detection of crane structure damage. Background technique [0002] Large cranes are widely used in logistics, metallurgy, manufacturing, construction and other fields, and their safe operation is related to the lifeline of enterprises. Its main metal structure is manufactured by welding, and defects such as cuts, undercuts, and microscopic cracks are likely to form fatigue sources for cracks, and structural components have defects during the metallurgical manufacturing process. In addition, the crane operates in a harsh environment all the year round. In addition to bearing fixed loads and working loads, the metal structure also often bears additional loads such as impact loads and wind loads. Expand until the security of the whole machine is destroyed. ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G05D1/10B66C15/00G01M11/00G01S19/14
CPCB66C15/00G01M11/00G01S19/14G05D1/101
Inventor 王国贤随何虎
Owner WUHAN UNIV OF TECH
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