Dynamic Analysis and Control Research of a 3-DOF Hydraulic Driven Parallel Mechanism

Zhang, Fangfang; Jiang, Saike; Jiang, Ziliang; Li, Jian Dong; Zhou, Kehong; Liu, Feng; Srinu, Bhoomandla; Phani, Raja Kanuparthy; Rambabu, G.; Ramana, Reddy Bobbala; Sepideh, Masoumifar; Haghdadi, Mina; Hassan, Ghasemnejad Bosra

doi:10.2174/2212797613666200210113800

MENG

2020

DOI: 10.2174/2212797613666200210113800

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Dynamic Analysis and Control Research of a 3-DOF Hydraulic Driven Parallel Mechanism

Fangfang Zhang

Saike Jiang

Ziliang Jiang

et al.

Abstract: Background: The parallel mechanism is widely used in motion simulators, parallel machine tools, medical equipment and other fields. It has advantages of high rigidity, stable structure and high carrying capacity. However, the control strategy and control method are difficult to study because of the complexity of the parallel mechanism system. Objective: The purpose of this paper was to verify the dynamic model of a hydraulic driven 3-DOF parallel mechanism and propose a compound control strategy to broaden t… Show more

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Design and Analysis of an Inverted XY-3RPS Hybrid Mechanism for Polishing of Complex Surface

Song

Wang

et al. 2022

MENG

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Aims: An inverted XY-3-RPS hybrid mechanism was designed for applying ultraviolet-induced nano-particle colloid jet machining to polish complex surface. Background: The hybrid mechanism has been widely used in ultraprecision polishing field for in-stalling different polishing tools on the moving platform to meet different machining requirements because of its wide working space, good dynamic performance and large bearing capacity. Objective: The main objective of this study is to establish an inverted XY-3-RPS hybrid mechanism for UV-induced nanoparticle colloid jet machining, to realize the ultra precision polishing of complex surfaces by UV-induced nanoparticle colloid jet machining. Methods: The three-dimensional model of the inverted XY-3-RPS hybrid mechanism was established, and the kinematics and dynamics were analyzed. The velocity Jacobian matrix of the inverted XY-3-RPS hybrid mechanism is derived by vector construction method and differential method, and the dexterity index under different proportional parameters is optimized and simulated. The output Jacobian matrix and stiffness matrix are obtained by using the virtual work principle, and their static analysis is carried out. Based on Lagrange dynamics theory, the dynamic mathematical model of inverted XY-3-RPS hybrid mechanism is established, and its kinematics is verified by software joint simulation. Through dynamic simulation, the variation curves of motion, force and kinetic energy of the mechanism are obtained, which provides a theoretical basis for the application of the hybrid mechanism in complex curved surface polishing. Results: The analysis results show that it has the best dexterity index when the ratio of moving and fixed platform is 2:1. The kinematic simulation results show that the hybrid mechanism moves reliably under the given trajectory. The dynamic simulation results show that the force analysis of each kinematic pair and the kinetic energy change curve of each part change smoothly and the dynamic performance is stable under different trajectories. Conclusion: The parameter design and structural design of the inverted XY-3-RPS hybrid mechanism meets the requirements of ultra precision polishing of complex surfaces

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Design and Analysis of an Inverted XY-3RPS Hybrid Mechanism for Polishing of Complex Surface

Song

Wang

et al. 2022

MENG

View full text Add to dashboard Cite

show abstract

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Dynamic Analysis and Control Research of a 3-DOF Hydraulic Driven Parallel Mechanism

Cited by 1 publication

References 28 publications

Design and Analysis of an Inverted XY-3RPS Hybrid Mechanism for Polishing of Complex Surface

Design and Analysis of an Inverted XY-3RPS Hybrid Mechanism for Polishing of Complex Surface

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