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Wings and transmission mechanism of ornithopter

A transmission mechanism and flapping-wing aircraft technology, applied in the field of general aviation, can solve the problems of incomplete understanding of the nature of flapping-wing flight, inability to reflect the aerodynamic advantages of flapping-wing flight, and the inability to reflect the advantages of flapping-wing flight, etc., to achieve concealment Good effect, reduced flight resistance, wide application prospects

Active Publication Date: 2015-08-19
许允夫 +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] Nowadays, the world pays more attention to the development of orthopter. Many countries have developed various orthopeds, some of which imitate the flying methods of insects, and some imitate the flying methods of birds. However, due to various reasons, only Being able to imitate some of the functions and movements of the original creature does not fully reflect the advantages of flapping-wing flight. The main reason is that the essence of flapping-wing flight is not well understood, and it only imitates part of the original creature's movements one-sidedly. , like the robot bird developed by some institutions, it can only show that when the wings are raised, the outer wing section is bent downward. Although the flapping flight has been realized, it still cannot reflect the aerodynamic advantages of the flapping flight

Method used

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  • Wings and transmission mechanism of ornithopter
  • Wings and transmission mechanism of ornithopter
  • Wings and transmission mechanism of ornithopter

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Embodiment Construction

[0013] The wing and the transmission mechanism of the orthopter are composed of a motor, a crankshaft, a connecting rod, a stator, an inner wing section skeleton, a middle wing section skeleton and an outer wing section. In the figure, the motor is connected to the crankshaft, and the crankshaft is connected to the connecting rod. There is a gap in the middle of the connecting rod. One end of the stator is fixed on the fuselage, and the other end passes through the gap in the middle of the connecting rod. One end inside the fuselage, the rear frame of the inner wing section passes through the fuselage outwards, and a point connected to the fuselage is used as a fulcrum, and the outer end of the rear frame of the inner wing section is connected to the inner side of the variable diamond-shaped rectangular frame of the middle wing section The apex of the lower end, the inner side of the front frame of the inner wing section is connected to the fuselage, and the outer end is connec...

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Abstract

The invention discloses wings and a transmission mechanism of an ornithopter. Each of the wings of the ornithopter is divided into an inner wing panel, a middle wing panel and an outer wing panel; the transmission mechanism drives a crankshaft through a motor; the crankshaft drives a linkage; one end of a stator passes through a gap at the middle of the linkage, and the other end of the stator is fixed onto a body; the front end of the linkage is connected with certain ends of inner sides of inner wing panel rear skeletons respectively; the inner wing panel rear skeletons pass through the body outwards and take the body as a pivot; the certain ends of outer sides of the inner wing panel rear skeletons are connected with lower end vertexes of inner sides of rectangular skeletons, which can be changed into rhombuses, of the middle wing panels; certain ends of inner wing panel front skeletons are fixed on the body, and the other ends of the inner wing panel front skeletons are connected with upper end vertexes of the inner sides of the rectangular skeletons, which can be changed into the rhombuses, of the middle wing panels, and under the combined action of the inner wing panel front skeletons and the inner wing panel rear skeletons, forms can be changed continuously; outer wing panel shape-preserving wings are connected with the outer sides of the middle wing panel through hinges, and angle limitation devices on the hinges of the outer wing panel are used for limiting the oversize lifting angle of the outer wing panel; through adoption of the way, the movement of the ornithopter can present the states of birds in a flying process.

Description

technical field [0001] The invention belongs to the field of general aviation and relates to a wing and a transmission mechanism of an orthopter. Background technique [0002] Nowadays, the world pays more attention to the development of orthopter. Many countries have developed various orthopeds, some of which imitate the flying methods of insects, and some imitate the flying methods of birds. However, due to various reasons, only Being able to imitate some of the functions and movements of the original creature does not fully reflect the advantages of flapping-wing flight. The main reason is that the essence of flapping-wing flight is not well understood, and it only imitates part of the original creature's movements one-sidedly. , Like the robotic bird developed by some institutions, it can only show that when the wings are raised, the outer wing section is bent downward. Although flapping flight has been achieved, it still cannot reflect the aerodynamic advantages of flap...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B64C33/02
CPCB64C33/02
Inventor 许允夫张沄松
Owner 许允夫
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