New Variable Stiffness Joint (VSJ): Study and Simulation

M. G. Contreras-Calderón; M. A. Laribi; E. Castillo-Castañeda

doi:10.1007/978-3-030-75271-2_30

New Variable Stiffness Joint (VSJ): Study and Simulation

M. G. Contreras-Calderón, M. A. Laribi, E. Castillo-Castañeda

Centro de Investigación en Ciencia Aplicada y Tecnología Avanzada (CICATA), Unidad Querétaro

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

Variable stiffness joints are devices that allow changing the joint stiffness of a mechanism. The development of this joint has increased, and various applications have emerged, most to improve human-robot interaction. This paper presents a proposal design of a new variable stiffness joint (VSJ). The working principle consists of antagonist extension springs with a rack and pinion mechanism. The springs are attached to a set of racks that allow varying the spring length, the main factor in varying the stiffness. The racks engage with a set of gears; one has a motor attached, which is responsible for varying the joint stiffness. Its mathematical model describes the joint behavior to maintain a constant force at the end of a link. Its simulation is performed with a constant force placed at the end of the link to evaluate the joint’s performance in a rotational situation.

Original language	English
Pages (from-to)	284-293
Number of pages	10
Journal	Mechanisms and Machine Science
Volume	103
DOIs	https://doi.org/10.1007/978-3-030-75271-2_30
State	Published - 2021

Keywords

Antagonist springs
Compliant joint
Human-robot interaction
Variable stiffness joint

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10.1007/978-3-030-75271-2_30

Cite this

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title = "New Variable Stiffness Joint (VSJ): Study and Simulation",

abstract = "Variable stiffness joints are devices that allow changing the joint stiffness of a mechanism. The development of this joint has increased, and various applications have emerged, most to improve human-robot interaction. This paper presents a proposal design of a new variable stiffness joint (VSJ). The working principle consists of antagonist extension springs with a rack and pinion mechanism. The springs are attached to a set of racks that allow varying the spring length, the main factor in varying the stiffness. The racks engage with a set of gears; one has a motor attached, which is responsible for varying the joint stiffness. Its mathematical model describes the joint behavior to maintain a constant force at the end of a link. Its simulation is performed with a constant force placed at the end of the link to evaluate the joint{\textquoteright}s performance in a rotational situation.",

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author = "Contreras-Calder{\'o}n, {M. G.} and Laribi, {M. A.} and E. Castillo-Casta{\~n}eda",

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AU - Contreras-Calderón, M. G.

AU - Laribi, M. A.

AU - Castillo-Castañeda, E.

PY - 2021

Y1 - 2021

N2 - Variable stiffness joints are devices that allow changing the joint stiffness of a mechanism. The development of this joint has increased, and various applications have emerged, most to improve human-robot interaction. This paper presents a proposal design of a new variable stiffness joint (VSJ). The working principle consists of antagonist extension springs with a rack and pinion mechanism. The springs are attached to a set of racks that allow varying the spring length, the main factor in varying the stiffness. The racks engage with a set of gears; one has a motor attached, which is responsible for varying the joint stiffness. Its mathematical model describes the joint behavior to maintain a constant force at the end of a link. Its simulation is performed with a constant force placed at the end of the link to evaluate the joint’s performance in a rotational situation.

AB - Variable stiffness joints are devices that allow changing the joint stiffness of a mechanism. The development of this joint has increased, and various applications have emerged, most to improve human-robot interaction. This paper presents a proposal design of a new variable stiffness joint (VSJ). The working principle consists of antagonist extension springs with a rack and pinion mechanism. The springs are attached to a set of racks that allow varying the spring length, the main factor in varying the stiffness. The racks engage with a set of gears; one has a motor attached, which is responsible for varying the joint stiffness. Its mathematical model describes the joint behavior to maintain a constant force at the end of a link. Its simulation is performed with a constant force placed at the end of the link to evaluate the joint’s performance in a rotational situation.

KW - Antagonist springs

KW - Compliant joint

KW - Human-robot interaction

KW - Variable stiffness joint

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U2 - 10.1007/978-3-030-75271-2_30

DO - 10.1007/978-3-030-75271-2_30

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JO - Mechanisms and Machine Science

JF - Mechanisms and Machine Science

ER -

New Variable Stiffness Joint (VSJ): Study and Simulation

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Keywords

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