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Bionic underwater robot propelled by flexible flapping wings

A technology of underwater robots and flexible wings, applied in the direction of non-rotating propulsion elements, etc., can solve the problem of not fully reflecting the advantages of tail fin propulsion in speed and acceleration, imperfect quantitative design and processing of propulsion mechanism, and lack of flexibility Function and other issues, to achieve the effect of low noise, good maneuverability and high swimming efficiency

Inactive Publication Date: 2008-09-10
BEIHANG UNIV
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

But in fact, due to insufficient quantitative research on the propulsion mechanism, imperfect design and processing, etc., the test results of these prototypes still have a large gap with the ideal situation, and the swimming distance per second usually does not exceed 1 times the body length. Fully embodies the advantages of the tail fin propulsion method in terms of speed and acceleration
In addition, the maneuverability of the tail fin propulsion method in the pitch direction is relatively poor, and the inability to quickly float up / dive has become a major problem restricting the application of bionic underwater robots
[0006] 2. Most of the mechanism bodies of the existing robotic fish adopt rigid structures. Although some prototypes use a flexible caudal fin, they are far from being flexible.

Method used

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  • Bionic underwater robot propelled by flexible flapping wings
  • Bionic underwater robot propelled by flexible flapping wings
  • Bionic underwater robot propelled by flexible flapping wings

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Embodiment Construction

[0016] The present invention will be further described in detail below in conjunction with the accompanying drawings.

[0017] Please refer to shown in Fig. 1, the present invention is a kind of bionic underwater robot based on flexible flapping wing propulsion, is made up of housing 1, left flexible wing 2, right flexible wing 3, power unit 4 and control unit 5; (see figure 3, shown in Fig. 4) described power unit 4 comprises reduction motor 401, gear set (driving gear 415, left gear 413, right gear 414), crank rocker mechanism (left transmission link 409, right transmission link 410 , left crank 419, right crank 418, front frame 402, rear frame 403, left rocker 417, right rocker 416); (see Figure 5 As shown) the control unit 5 includes two steering gears, two connecting rods, two elevators and a rudder. The robot mechanism of the present invention is a left-right symmetrical structure design, and the left frame base 405 and the right frame base 406, the left rudder frame 51...

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Abstract

The bionic underwater robot propelled with flexible flapping wings consists of a casing, a right flexible flapping wing, a left flexible flapping wing, a driving unit and a controlling unit. The driving unit includes a reducing motor, a gear train and a crank-rocker mechanism; and the controlling unit includes two steering engines, two link rods, two elevating rudders and one direction rudder. The driving unit and the controlling unit are fixed inside the casing; and each of the right flexible flapping wing and the left flexible flapping wing has front curb girder fixed onto the radical axis and wing surface connect to the casing. The driving unit has crank-rocker mechanism to convert the rotation motion into reciprocation of the wing and can transfer great driving force. The elevating rudders and the direction rudder are controlled separately by the two steering engines with no coupling and simple control.

Description

technical field [0001] The present invention relates to an underwater robot framework, more particularly, refers to a bionic underwater robot based on flexible flapping wing propulsion. Background technique [0002] The high-speed, high-efficiency, and high-mobility movement ability of fish in water has always been the goal pursued by human beings. In the past ten years, many scholars at home and abroad have studied the propulsion mechanism of fish from the aspects of theory and experiment. [0003] Michael Sfakiotakis of Heriot-Watt University in the United Kingdom and others believe that the propulsion of fish swimming in water mainly comes from the swing or fluctuation of caudal or pectoral fins. They analyzed several typical swimming modes and calculated the propulsion generated by various swimming modes. They believed that the swimming mode mainly relying on caudal fin propulsion had higher speed and acceleration, while the swimming mode mainly relying on pectoral fin ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B63H1/36
Inventor 宗光华毕树生徐一村刘聪
Owner BEIHANG UNIV
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