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Fire explosion driven rigid-flexible coupling frog-imitating robot

A rigid-flexible coupling and robot technology, applied in motor vehicles, transportation and packaging, etc., can solve problems such as jumping posture, uncontrollable landing direction, and unstable landing, so as to increase bionics, solve unstable landing, and high safety Effect

Active Publication Date: 2021-07-16
HARBIN INST OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] The present invention aims to solve the problems of uncontrollable jumping posture, uncontrollable landing direction and unstable landing of existing soft bouncing robots, and proposes a kind of explosive-driven rigid-flexible coupling imitation frog robot

Method used

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  • Fire explosion driven rigid-flexible coupling frog-imitating robot
  • Fire explosion driven rigid-flexible coupling frog-imitating robot
  • Fire explosion driven rigid-flexible coupling frog-imitating robot

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specific Embodiment approach 1

[0044] Specific implementation mode one: the following combination Figure 1 to Figure 7 This embodiment is described. The rigid-flexible coupled frog-like robot driven by detonation described in this embodiment includes a detonation drive unit, a fuselage shell 2, a forelimb module and a hindlimb module;

[0045] The detonation drive unit is arranged in the fuselage shell 2; the fuselage shell 2 is a structure with openings in both the lower part and the rear part;

[0046] The detonation drive unit utilizes the instantaneous impact force of the gas generated when the gas fuel is detonated to provide power for the hind limb module to jump forward; the forelimb module and the rear module are respectively arranged at the front and rear of the lower side of the fuselage;

[0047] The detonation driving unit includes a gas transmission device 1, a rigid-flexible coupling detonation driver 3, an air pump and a soft airbag 4;

[0048] The rigid-flexible coupling detonation driver ...

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Abstract

The invention discloses a fire blast driven rigid-flexible coupling frog-imitating robot, and belongs to the field of soft jumping robots. The problems that the jumping posture and the landing direction of an existing soft bouncing robot are uncontrollable, and landing is unstable are solved. The explosion energy release principle of hydrogen and oxygen is applied, energy release is achieved in the mode that the soft explosion cavity and rigid piston type constraint are combined, chemical energy can be converted into mechanical energy in a short time, the large instantaneous acceleration of the robot can be achieved, and meanwhile through rigid piston type constraint, the expansion direction of the soft body burning and explosion cavity is controlled, so that the jumping direction and posture of the robot are controlled. The fire blast driven rigid-flexible coupling frog-imitating robot is suitable for the technical field of bionic robots.

Description

technical field [0001] The invention belongs to the field of soft jumping robots. Background technique [0002] Soft jumping robots have broad research prospects in the field of robotics. Compared with traditional rigid robots, soft robots require higher complex environment adaptability, higher bionic potential, higher lightweight potential and higher safety of human-computer interaction. [0003] Existing soft bouncing robots include frog-like underwater soft robot flexible explosion fracturing devices and drilling strings driven by chemical release energy reactions, and a magnetically driven jumping soft robot based on magnetically programmed temperature-sensitive hydrogel. The main disadvantages of these soft robots are low instantaneous acceleration, poor controllability of energy release direction, etc. [0004] The deflagration reaction has the characteristics of extremely fast reaction speed, a large amount of heat release, and a large amount of gas generation, so t...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B62D57/02
CPCB62D57/02
Inventor 樊继壮喻曦高峰马维良赵杰
Owner HARBIN INST OF TECH
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