Dynamic modeling of spatial parallel mechanism with multi-spherical joint clearances

The parallel mechanism has advantages of the high speed, high precision, strong carrying capacity, and high structural rigidity. Most of the previous studies concerning the dynamic modeling focused on planar mechanisms with revolute clearance joints or spatial mechanisms with one spherical joint cle...

Full description

Bibliographic Details
Main Authors: Xiulong Chen, Chenghao Sun
Format: Article
Language:English
Published: SAGE Publishing 2019-09-01
Series:International Journal of Advanced Robotic Systems
Online Access:https://doi.org/10.1177/1729881419875910
id doaj-fc73623f74ad45b5bdf43ccbac368170
record_format Article
spelling doaj-fc73623f74ad45b5bdf43ccbac3681702020-11-25T04:03:35ZengSAGE PublishingInternational Journal of Advanced Robotic Systems1729-88142019-09-011610.1177/1729881419875910Dynamic modeling of spatial parallel mechanism with multi-spherical joint clearancesXiulong ChenChenghao SunThe parallel mechanism has advantages of the high speed, high precision, strong carrying capacity, and high structural rigidity. Most of the previous studies concerning the dynamic modeling focused on planar mechanisms with revolute clearance joints or spatial mechanisms with one spherical joint clearance, while few studies focused on spatial parallel mechanisms with multi-spherical joint clearances. In this article, a general dynamic modeling method for spatial parallel mechanism with multi-spherical joint clearances based on Lagrange multiplier method is proposed. Taking 4universal joint-prismatic joint-spherical joint/universal joint-prismatic joint- universal joint (4UPS-UPU) spatial parallel mechanism as an example, the constraint equations of common kinematic pairs in spatial parallel mechanism, such as universal joint, spherical joint, and prismatic joint, are derived in detail. The dynamic model of the parallel mechanism with two spherical joint clearances combining the Flores contact force model and the LuGre friction model is established. The correctness of model has also been verified by comparing the analysis results of MATLAB with those of ADAMS. It can be seen that dynamic model of spatial parallel mechanism with multi-spherical joint clearances could be easily established by this method, which provides a theoretical reference to establish the dynamic model of other parallel mechanism with multi-clearance in the future.https://doi.org/10.1177/1729881419875910
collection DOAJ
language English
format Article
sources DOAJ
author Xiulong Chen
Chenghao Sun
spellingShingle Xiulong Chen
Chenghao Sun
Dynamic modeling of spatial parallel mechanism with multi-spherical joint clearances
International Journal of Advanced Robotic Systems
author_facet Xiulong Chen
Chenghao Sun
author_sort Xiulong Chen
title Dynamic modeling of spatial parallel mechanism with multi-spherical joint clearances
title_short Dynamic modeling of spatial parallel mechanism with multi-spherical joint clearances
title_full Dynamic modeling of spatial parallel mechanism with multi-spherical joint clearances
title_fullStr Dynamic modeling of spatial parallel mechanism with multi-spherical joint clearances
title_full_unstemmed Dynamic modeling of spatial parallel mechanism with multi-spherical joint clearances
title_sort dynamic modeling of spatial parallel mechanism with multi-spherical joint clearances
publisher SAGE Publishing
series International Journal of Advanced Robotic Systems
issn 1729-8814
publishDate 2019-09-01
description The parallel mechanism has advantages of the high speed, high precision, strong carrying capacity, and high structural rigidity. Most of the previous studies concerning the dynamic modeling focused on planar mechanisms with revolute clearance joints or spatial mechanisms with one spherical joint clearance, while few studies focused on spatial parallel mechanisms with multi-spherical joint clearances. In this article, a general dynamic modeling method for spatial parallel mechanism with multi-spherical joint clearances based on Lagrange multiplier method is proposed. Taking 4universal joint-prismatic joint-spherical joint/universal joint-prismatic joint- universal joint (4UPS-UPU) spatial parallel mechanism as an example, the constraint equations of common kinematic pairs in spatial parallel mechanism, such as universal joint, spherical joint, and prismatic joint, are derived in detail. The dynamic model of the parallel mechanism with two spherical joint clearances combining the Flores contact force model and the LuGre friction model is established. The correctness of model has also been verified by comparing the analysis results of MATLAB with those of ADAMS. It can be seen that dynamic model of spatial parallel mechanism with multi-spherical joint clearances could be easily established by this method, which provides a theoretical reference to establish the dynamic model of other parallel mechanism with multi-clearance in the future.
url https://doi.org/10.1177/1729881419875910
work_keys_str_mv AT xiulongchen dynamicmodelingofspatialparallelmechanismwithmultisphericaljointclearances
AT chenghaosun dynamicmodelingofspatialparallelmechanismwithmultisphericaljointclearances
_version_ 1724439496547631104