TY - GEN
T1 - A numerical simulation of the mechanical structure of an ankle exoskeleton oriented to elderly people
AU - Rojas, Ammir
AU - Vinces, Leonardo
AU - Ronceros, Julio
N1 - Publisher Copyright:
© 2022 IEEE.
PY - 2022
Y1 - 2022
N2 - This paper presents the numerical simulation of a 3D mechanical design of an ankle exoskeleton for elderly users. The ankle is one of the most injury-prone joints due to its irregular - sphere shape and elderly people are more prone to this damage (approximately 80% of patients with a history of ankle sprain undergo surgery for post-traumatic ankle osteoarthritis [1]). This problem generates a decrease in muscular resistance on the legs, loss of motor skills, loss of mobile autonomy, etc. The simulation of this exoskeleton is intended to reduce these problems by means of this low-cost mechanism, since similar options exist, but they are not within the economic reach of all. For this reason, anatomical measurements of an elderly user were taken to obtain an ergonomic and easy-to-use mechanical design. Biomechanical calculations were also performed on the ankle to define its displacement and rotation angles. Finally, the designed parts were assembled to validate the mobility of the system and numerical simulations were performed to determine safety coefficients, Von Misses stress, and deformations within the Autodesk Inventor 3D CAD software.
AB - This paper presents the numerical simulation of a 3D mechanical design of an ankle exoskeleton for elderly users. The ankle is one of the most injury-prone joints due to its irregular - sphere shape and elderly people are more prone to this damage (approximately 80% of patients with a history of ankle sprain undergo surgery for post-traumatic ankle osteoarthritis [1]). This problem generates a decrease in muscular resistance on the legs, loss of motor skills, loss of mobile autonomy, etc. The simulation of this exoskeleton is intended to reduce these problems by means of this low-cost mechanism, since similar options exist, but they are not within the economic reach of all. For this reason, anatomical measurements of an elderly user were taken to obtain an ergonomic and easy-to-use mechanical design. Biomechanical calculations were also performed on the ankle to define its displacement and rotation angles. Finally, the designed parts were assembled to validate the mobility of the system and numerical simulations were performed to determine safety coefficients, Von Misses stress, and deformations within the Autodesk Inventor 3D CAD software.
KW - 3D print
KW - Autodesk Inventor 2021
KW - Exoskeleton
KW - ankle
KW - carbon fiber
KW - stress analysis
UR - https://www.scopus.com/pages/publications/85146435715
U2 - 10.1109/ANDESCON56260.2022.9989639
DO - 10.1109/ANDESCON56260.2022.9989639
M3 - Contribución a la conferencia
AN - SCOPUS:85146435715
T3 - 2022 IEEE ANDESCON: Technology and Innovation for Andean Industry, ANDESCON 2022
BT - 2022 IEEE ANDESCON
A2 - Lozada, Mariela Cerrada
A2 - Mendoza, Paul Sanmartiin
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 11th IEEE Conference of the Andean Council, ANDESCON 2022
Y2 - 16 November 2022 through 19 November 2022
ER -