Hexapod with legs based on Peaucellier–Lipkin mechanisms

Abstract: This article describes the way in which six nontraditional legs collaborate to provide locomotion to a walking machine when it moves along a path. Such legs are based on the one-degree-of-freedom Peaucellier-Lipkin mechanism, which was modified by the addition of four degrees of freedom. Such five-degree-of-freedom legs have the ability to adapt their postures according to the center of rotation around of which the machine walks. The attributes and abilities of the hexapod are expressed by means of a mathemati… Show more

“…Inversor mechanisms are used in applications such as lifting-lowering systems (e.g., [12]), conveyor belts, tool machines, suspension for electric wheels (e.g., [14]), walking machines (with different numbers of legs: two [22], four [16], or six [13], [24] and [32]), climbing robots (e.g., [21]), mechanisms generating curves, gripping arms (e.g., [25], [27] and [33]), and kinetic light art (e.g., [34]).…”

Inverse Curves - Research on Two Quondam Inversor Mechanisms

“…Inversor mechanisms are used in applications such as lifting-lowering systems (e.g., [12]), conveyor belts, tool machines, suspension for electric wheels (e.g., [14]), walking machines (with different numbers of legs: two [22], four [16], or six [13], [24] and [32]), climbing robots (e.g., [21]), mechanisms generating curves, gripping arms (e.g., [25], [27] and [33]), and kinetic light art (e.g., [34]).…”

Inverse Curves - Research on Two Quondam Inversor Mechanisms

Kinematics and Workspace of a Reconfigurable Robotic Leg Based on the Peaucellier-Lipkin Mechanism

Kinematics of a Reconfigurable Robotic Leg based on the inverse Peaucellier-Lipkin mechanism