Underwater bionic flexible flapping wing propelling device

A propulsion device and flexible technology, applied in the field of underwater bionic flexible flapping wing propulsion devices, can solve the problems of limited deformation of shape memory alloys, inability to swing fins in large scales, and large volume and inertia of gas actuators, achieving structural Simple and lightweight, large swing range, strong anti-disturbance effect

Active Publication Date: 2018-10-09
NORTHWESTERN POLYTECHNICAL UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, these materials still have certain limitations. Due to the limited degree of deformation of the shape memory alloy, the fin surface driven by it cannot swing greatly. Although the pneumatic actuator can achieve a relatively large deformation, the size of the air actuator and large inertia, making it more difficult in practical applications

Method used

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  • Underwater bionic flexible flapping wing propelling device
  • Underwater bionic flexible flapping wing propelling device
  • Underwater bionic flexible flapping wing propelling device

Examples

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Embodiment Construction

[0030] This embodiment is an underwater bionic flexible flapping wing propulsion device.

[0031] refer to Figure 1 to Figure 8 , the underwater bionic flexible flapping wing propulsion device of this embodiment is composed of a skin 1, a motor 2, a coupling 3, a transmission gear set 4, a wire pulley set 5 and a fin ray mechanism; wherein, the fin ray mechanism includes a vertical Rods, intermediate rods, V-shaped cable bearings and cables. The fin mechanism is a tension frame structure, which consists of the first vertical rod 18, the second vertical rod 20, the third vertical rod 22, the fourth vertical rod 24, the fifth vertical rod 26 and the first intermediate rod 19 , the second intermediate rod 21, the third intermediate rod 23, the fourth intermediate rod 25, and the fifth intermediate rod 27 are sequentially connected and assembled along the axial direction, and the adjacent corresponding two vertical rods and two intermediate rods are respectively connected horizo...

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Abstract

The invention discloses an underwater bionic flexible flapping wing propelling device. The device is composed of a motor, a transmission gear, a bracing wire wheel set, a fin ray mechanism, an outer framework and a skin. The outer framework is installed on pressed rods of the fin ray mechanism and covered with the skin. The fin ray mechanism is composed of the multiple pressed rods and inhaul cables to flap and is high in rigidity and capable of transmitting large power and bringing the performance of materials into full play. The structure of the flexible flapping wing propelling device is simple and light and quick and convenient to use, and the motor drives the transmission gear through a coupling to rotate. The moment is transmitted to the bracing wire wheel set through a reduction gear, the bracing wire wheel set rotates to pull the multiple inhaul cables, so that the fin ray mechanism is pulled to swing up and down, the outer framework fixed to the fin ray mechanism and the skincovering the outer framework move and deform along with the swing of fin rays, and streams are pushed to generate stable periodical thrust. The flexible flapping wing propelling device has the beneficial effects of being simple in control, large in deformation range, small in noise and high in stability.

Description

technical field [0001] The invention relates to an underwater propulsion device, in particular to an underwater bionic flexible flapping wing propulsion device. Background technique [0002] The efficient swimming method of fish has always been the goal pursued by human beings. With the continuous deepening of the research on underwater propulsion devices, more and more researchers have begun to study underwater bionic propulsion devices. Compared with the traditional propeller propulsion method, the fish swimming process has the advantages of low noise, high maneuverability and high efficiency, which can meet the requirements of underwater vehicles to cope with complex sea conditions. Therefore, underwater bionic propulsion technology has become an important research direction of underwater propulsion technology. [0003] According to the different thrusting parts of fish, the propulsion mode of fish swimming can be divided into body and tail fin propulsion mode and centra...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B63H1/36
CPCB63H1/36
Inventor 潘光曹永辉孟俊男郭力铭黎针岑
Owner NORTHWESTERN POLYTECHNICAL UNIV
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