Bionic biped robot and stable gait planning method thereof

A biped robot and robot technology, applied in the direction of motor vehicles, power devices, vehicle components, etc., can solve the problems of poor stability, achieve the effect of stable motion form, increase motion speed, and buffer foot-ground collision

Pending Publication Date: 2022-08-09
SHANGHAI NORMAL UNIVERSITY
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0009] Aiming at the deficiencies of the prior art, the present invention provides a bionic biped robot and its stable gait planning method; it makes up for the vacancy of the prior art, and has better power output, faster movement speed, and lighter structure At the same time, the spring inverted pendulum model is used to simulate its motion state to avoid the problem of poor stability; at the same time, based on the Poincaré map and combined with the characteristics of the attraction domain, the "limit cycle walking" periodic walking gait stability evaluation model is designed to ensure Robustness in its motion state

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  • Bionic biped robot and stable gait planning method thereof
  • Bionic biped robot and stable gait planning method thereof
  • Bionic biped robot and stable gait planning method thereof

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[0040] In order to make it easier to understand the technical means, creative features, goals and effects realized by the present invention, the following embodiments describe a bionic biped robot and its stable gait planning method of the present invention in combination with the accompanying drawings. It should be noted that , the description of these embodiments is used to help the understanding of the present invention, but does not constitute a limitation of the present invention.

[0041] It should be noted that when two elements are "fixedly connected" or "swivelly connected", the two elements may be directly connected or an intervening element may also exist. In contrast, when an element is referred to as being "directly on" another element, there are no intervening elements present. The fixed or fixed connection can be screwed or welded or riveted or plugged or connected by a third part.

[0042] Unless otherwise defined, all technical and scientific terms used herei...

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Abstract

The invention provides a bionic biped robot and a stable gait planning method thereof. The robot is composed of an electromechanical control box, two mechanical legs with three degrees of freedom and a joint yaw assembly. The joint yaw assembly controls steering motion of the robot. Each mechanical leg comprises a thigh part, a shank part and a buffer hoof foot; the thigh part adopts a quadrilateral serial mechanism, and a hip joint rolling motor, a hip joint pitching motor and a knee joint pitching motor are arranged at the hip joint; the shank adopts a light carbon fiber structure and is passively controlled; the buffering hoof foot is designed by referring to the characteristics of hoof walking type biological feet. And the robot is simplified into a spring-load inverted pendulum model for kinetic analysis and gait planning, the gait stability is evaluated by adopting a method of combining a Poincare cross section and attraction domain characteristics, the optimal parameters of the stable gait are obtained, and the robustness of the robot in the motion state is ensured. The robot has the characteristics of flexible walking, quick response, high efficiency and energy conservation.

Description

technical field [0001] The invention belongs to the field of bipedal robots, and particularly relates to a bionic bipedal robot and a stable gait planning method thereof. Background technique [0002] All terrestrial higher animals in nature share three main hindlimb walking styles: plantar walking (walking on the soles of the feet), toe walking (walking on the toes), and hoof walking (walking on the toenails). [0003] Plantar walking is walking with the soles of the feet. This way of walking requires the metatarsal bones to touch the ground and become flat soles of the feet. When walking, the phalanges, metatarsal bones, and tarsus will contact the ground in turn. Humans, monkeys, orangutans, bears, rabbits, red pandas, and rodents such as rats and mice all walk in this way. In this way of walking, there are too many parts in the contact part of the foot and the ground, and the load on the distal end of the appendage is too heavy, resulting in a large resistance during wa...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B62D57/032B60K1/00B60K1/02F16F15/02F16F15/04
CPCB62D57/032B60K1/00B60K1/02F16F15/02F16F15/04
Inventor 安康苗田恬徐颖宋亚庆刘翔鹏徐效农
Owner SHANGHAI NORMAL UNIVERSITY
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