Mechanical design and assessment of a low-cost 7-DOF prosthetic arm for shoulder disarticulation

José Alfredo Leal-Naranjo; Christopher René Torres San Miguel; Marco Ceccarelli; Horacio Rostro-Gonzalez

doi:10.1155/2018/4357602

Mechanical design and assessment of a low-cost 7-DOF prosthetic arm for shoulder disarticulation

José Alfredo Leal-Naranjo, Christopher René Torres San Miguel, Marco Ceccarelli, Horacio Rostro-Gonzalez

Escuela Superior de Ingeniería Mecánica y Eléctrica (ESIME), Unidad Zacatenco

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

7 Scopus citations

Abstract

This work presents the design of a low-cost prosthetic device for shoulder disarticulation. A proper design of the mechanisms has been addressed to obtain a prototype that presents 7 degrees of freedom. Shoulder movement is achieved by means of a spherical parallel manipulator, elbow movement is performed by a six-bar mechanism, and the wrist movement is implemented by a spherical parallel manipulator. A set of dynamic simulations was performed in order to assess the functionality of the design. The prototype was built using 3D printing techniques and implementing low-cost actuators. An experimental evaluation was carried out to characterize this device. The result of this work is a prototype that weighs 1350 g that is able to perform movements related to activities of daily living.

Original language	English
Article number	4357602
Journal	Applied Bionics and Biomechanics
Volume	2018
DOIs	https://doi.org/10.1155/2018/4357602
State	Published - 2018

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abstract = "This work presents the design of a low-cost prosthetic device for shoulder disarticulation. A proper design of the mechanisms has been addressed to obtain a prototype that presents 7 degrees of freedom. Shoulder movement is achieved by means of a spherical parallel manipulator, elbow movement is performed by a six-bar mechanism, and the wrist movement is implemented by a spherical parallel manipulator. A set of dynamic simulations was performed in order to assess the functionality of the design. The prototype was built using 3D printing techniques and implementing low-cost actuators. An experimental evaluation was carried out to characterize this device. The result of this work is a prototype that weighs 1350 g that is able to perform movements related to activities of daily living.",

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AU - Leal-Naranjo, José Alfredo

AU - Miguel, Christopher René Torres San

AU - Ceccarelli, Marco

AU - Rostro-Gonzalez, Horacio

PY - 2018

Y1 - 2018

N2 - This work presents the design of a low-cost prosthetic device for shoulder disarticulation. A proper design of the mechanisms has been addressed to obtain a prototype that presents 7 degrees of freedom. Shoulder movement is achieved by means of a spherical parallel manipulator, elbow movement is performed by a six-bar mechanism, and the wrist movement is implemented by a spherical parallel manipulator. A set of dynamic simulations was performed in order to assess the functionality of the design. The prototype was built using 3D printing techniques and implementing low-cost actuators. An experimental evaluation was carried out to characterize this device. The result of this work is a prototype that weighs 1350 g that is able to perform movements related to activities of daily living.

AB - This work presents the design of a low-cost prosthetic device for shoulder disarticulation. A proper design of the mechanisms has been addressed to obtain a prototype that presents 7 degrees of freedom. Shoulder movement is achieved by means of a spherical parallel manipulator, elbow movement is performed by a six-bar mechanism, and the wrist movement is implemented by a spherical parallel manipulator. A set of dynamic simulations was performed in order to assess the functionality of the design. The prototype was built using 3D printing techniques and implementing low-cost actuators. An experimental evaluation was carried out to characterize this device. The result of this work is a prototype that weighs 1350 g that is able to perform movements related to activities of daily living.

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DO - 10.1155/2018/4357602

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JO - Applied Bionics and Biomechanics

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M1 - 4357602

ER -

Mechanical design and assessment of a low-cost 7-DOF prosthetic arm for shoulder disarticulation

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