A Reconfigurable Variable Stiffness Manipulator by a Sliding Layer Mechanism

D. Li, Zerui Wang, Bo Ouyang, Yunhui Liu
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引用次数: 6

Abstract

Inherent compliance plays an enabling role in soft robots, which rely on it to mechanically conform to the environment. However, it also limits the payload of the robots. Various variable stiffness approaches have been adopted to limit compliance and provide structural stability, but most of them can only achieve stiffening of discrete fixed regions which means compliance cannot be precisely adjusted for different needs. This paper offers an approach to enhance the payload with finely adjusted compliance for different needs. We have developed a manipulator that incorporates a novel variable stiffness mechanism and a sliding layer mechanism. The variable stiffness mechanism can achieve a 6.4 stiffness changing ratio with a miniaturized size (10mm diameter for the testing prototype) through interlocking jamming layers with a honeycomb core. The sliding layer mechanism can actively shift the position of the stiffening regions through sliding of jamming layers. A model to predict the robot shape is derived with verifications via an experiment. The stiffening capacity of the variable stiffness mechanism is also empirically evaluated. A case study of a potential application in laparoscopic surgeries is showcased. The payload of the manipulator is investigated, and the prototype shows up to 57.8 percentage decrease of the vertical deflection due to an external load after reconfigurations.
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基于滑动层机构的可重构变刚度机械臂
在软机器人中,固有顺应性起着赋能作用,软机器人依靠它来机械地顺应环境。然而,这也限制了机器人的有效载荷。各种变刚度方法被用于限制柔度和提供结构稳定性,但大多数方法只能实现离散固定区域的加筋,这意味着无法根据不同的需要精确调整柔度。本文提供了一种增强有效载荷的方法,并根据不同的需求进行微调顺应性。我们开发了一种结合了新型变刚度机构和滑动层机构的机械手。变刚度机构通过蜂窝芯互锁的干扰层,实现了6.4的刚度变化率,且尺寸小型化(试验样机直径为10mm)。滑动层机构可以通过卡层的滑动主动移动加筋区域的位置。建立了机器人形状预测模型,并通过实验进行了验证。对变刚度机构的加筋能力进行了实证评价。一个潜在的应用在腹腔镜手术的案例研究展示。对机械臂的有效载荷进行了研究,结果表明,重构后的机械臂由外载荷引起的垂直挠度降低了57.8%。
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