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Anti-wind method of unmanned helicopter, and unmanned helicopter with anti-wind device

A technology for unmanned helicopters and remote control devices, which is applied in aircraft indicating devices, aircraft parts, transportation and packaging, etc. problem, to achieve the effect of quick and easy to master the operation method, simple structure and low cost

Inactive Publication Date: 2019-06-18
杜也兵
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, in areas where the climate is prone to sudden changes, such as remote mountainous areas or coastal areas or Northwest regions with strong wind and sand, the defect of unmanned helicopters' poor wind resistance makes drones face great challenges as an irreplaceable ideal vehicle for express delivery.
The above defects have seriously restricted the popularization and application of unmanned helicopters, which in turn has affected the rapid development of Internet e-commerce in vast rural areas

Method used

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  • Anti-wind method of unmanned helicopter, and unmanned helicopter with anti-wind device

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0021] Example 1. The first wind-resistant method for unmanned helicopters: the operator controls the flight of the unmanned helicopter through a remote control. The wind direction sensor is arranged at the place where the controller is located. The operator detects the wind parameters of the flying environment of the unmanned helicopter through the wind direction sensor as the flight parameters of the unmanned helicopter. The remote-controlled unmanned helicopter is equipped with a steerable wind resistance device; the operator rotates the wind resistance device to the direction facing the wind direction according to the wind parameters detected by the wind direction sensor, and starts the anti-wind device during the flight of the unmanned helicopter. The wind device outputs the air flow opposite to the wind direction to offset or partially offset the influence of wind force (parameter) on the flight of the unmanned helicopter.

[0022] According to the wind parameters dete...

Embodiment 2

[0023] Example 2. The second wind-resistant method for unmanned helicopters: the remote-controlled unmanned helicopter is equipped with a wind direction sensor and a steerable wind-resistant device; the wind-resistant device rotates by itself according to the wind parameters detected by the wind direction sensor and is placed in the direction facing the wind direction , and during the flight of the unmanned helicopter, the air flow opposite to the wind direction is output to offset or partially offset the influence of the wind force (parameter) on the flight of the unmanned helicopter.

[0024] In another mode of this embodiment, the operator controls the remote controller to control the wind resistance device on the unmanned helicopter to rotate to the direction facing the wind direction according to the wind parameters detected by the wind direction sensor received by the unmanned helicopter, and the output is consistent with the wind direction. Air flow in the opposite dire...

Embodiment 3

[0026] Example 3. On the basis of the method described in embodiments 1 and 2, an unmanned helicopter with a wind resistance device includes a remote control device and a rotor mechanism; the rotor mechanism is a multi-axis rotor mechanism; the remote controller remotely controls the operation of the rotor mechanism. It also includes a wind direction sensor and an impeller-type wind-resistant device with a steering mechanism; the steering mechanism installed next to the remote control is either a mechanical steering mechanism or an electric steering mechanism; the impeller-type wind-resistant device detects the wind direction parameters according to the wind direction sensor, and through the steering mechanism Correspondingly rotate to the position facing the wind direction, and in the process of starting the flight of the unmanned helicopter, start the impeller to rotate and output the air flow opposite to the wind direction.

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Abstract

The invention relates to the helicopter industry, and particularly relates to the anti-wind flight aspect of unmanned helicopters. The invention discloses an anti-wind method of an unmanned helicopter, and the unmanned helicopter with an anti-wind device. A wind direction sensor detects wind power parameters of an environment to serve as flight parameters of the unmanned helicopter, and the remotely-controlled unmanned helicopter is provided with the steerable anti-wind device; and the anti-wind device is steered to the direction facing the wind direction, and the anti-wind device is started to output air flow opposite to the wind direction so as to counteract or partially counteract the influence of the wind power parameters on the flight of the unmanned helicopter. The unmanned helicopter comprises a remote control device and a rotor wing mechanism; and the remote control device remotely and wirelessly controls the rotor wing mechanism to operate. The unmanned helicopter further comprises the wind direction sensor and the impeller type anti-wind device provided with a steering mechanism; the impeller type anti-wind device is used for detecting the wind direction parameters according to the wind direction sensor, and is correspondingly rotated to the position facing the wind direction through the steering mechanism; and in the process of starting the unmanned helicopter to fly, an impeller is started to rotate to output the air flow opposite to the wind direction.

Description

technical field [0001] The invention relates to the helicopter industry, and in particular relates to the wind-resistant flight of unmanned helicopters. Background technique [0002] Usually, sudden natural disasters are often accompanied by harsh weather conditions such as violent storms. The defect of unmanned helicopter's poor wind resistance during flight limits its application in many fields. Rescue sites such as ice surfaces and river bank crossings, as well as specific sites where rescuers urgently need to reach but are difficult to reach or where rescue risks exist, such as sites where landslides or mudslides or avalanches occur. When there is an urgent need to dispatch unmanned helicopters for reconnaissance and rescue, they cannot take off due to strong winds at the rescue site, or crash due to sudden strong winds during the flight. The above-mentioned defect of unmanned helicopter causes to be at a loss what to do when running into above-mentioned sudden disaste...

Claims

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Application Information

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IPC IPC(8): G05D1/08B64D45/00G05D1/10
Inventor 杜也兵冉伊虹
Owner 杜也兵
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