A SHAPE MEMORY ALLOY DRIVEN CRAWLING ROBOT UTILIZING A BISTABLE MECHANISM

机译：利用双稳态机制的形状记忆合金驱动的爬行机器人

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Shape memory alloys (SMA) can generate displacement and force via phase change and have been widely used as actuators in robotics due to their light weight and ease of control. This paper proposes a SMA-driven crawling robot which activates antagonistic SMA springs alternately through a mechanical on-off logic switching system. By introducing a cam based bistable mechanism, elastic energy is stored and released to regulate the reciprocating motion of a slider in the robot. Meanwhile, the robot feet with anisotropic friction surface are employed to convert the reciprocating motion of the slider to unidirectional locomotion of the robot. The static model of the SMA and control logic of the robot are analyzed and validated through experiments.

机译：形状记忆合金（SMA）可以通过相变产生位移和作用力，并且由于其重量轻且易于控制而被广泛用作机器人的执行器。本文提出了一种SMA驱动的爬行机器人，该机器人通过机械开关逻辑切换系统交替激活对抗性SMA弹簧。通过引入基于凸轮的双稳态机构，弹性能量得以存储和释放，以调节机器人中滑块的往复运动。同时，具有各向异性摩擦表面的机器人脚被用于将滑块的往复运动转换为机器人的单向运动。通过实验分析并验证了SMA的静态模型和机器人的控制逻辑。

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《ASME International Design Engineering Technical Conferences;Computers and Information in Engineering Conference;Mechanisms and Robotics Conference》|2019年|V05BT07A012.1-V05BT07A012.8|共8页
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Lingda Meng; Rongjie Kang; Dongming Gan; Guimin Chen; Jian S Dai;
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1. Shape memory alloy-based small crawling robots inspired by C. elegans [J] . Yuk H., Kim D., Lee H., Bioinspiration & biomimetics . 2011,第4期

机译：受线虫启发的基于形状记忆合金的小型爬行机器人
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机译：一种基于自适应差摩擦和增强抗动构型的形状记忆合金驱动软爬行机器人
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机译：利用嵌入在聚甲基丙烯酸甲酯层中的SnO_2纳米颗粒制造的有机双稳态器件的电双稳态和记忆机理
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5. Untethered Soft Robots With Shape Memory Alloy for Dynamic Locomotion [D] . Huang, Xiaonan. 2020

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6. New Design of a Soft Robotics Wearable Elbow Exoskeleton Based on Shape Memory Alloy Wire Actuators [O] . Dorin Copaci, Enrique Cano, Luis Moreno, 2017

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7. Workspace analysis of 3-DOF U-shape base planar parallel robotic motion stage using shape memory alloy restoration technique (SMART) linear actuators [O] . Deep Singh, Rutupurna Choudhury, Yogesh Singh, 2021

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A SHAPE MEMORY ALLOY DRIVEN CRAWLING ROBOT UTILIZING A BISTABLE MECHANISM

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