Please use this identifier to cite or link to this item: https://scidar.kg.ac.rs/handle/123456789/19601
Title: Analysis and Simulation of Stewart Platform Manipulator Behavior Driven by Pneumatic Cylinders Applied in Wood Processing
Authors: Nedić, Novak
Lukić, Ljubomir
Pršić, Dragan
Stojanović, Vladimir
Dubojic, Dusko
Issue Date: 2015
Abstract: Modern development of machine tools includes investigation of advantages of machines based on a parallel kinematic structure with multiple degrees of freedom. Hence, Stewart platform based on a parallel kinematic structure with six degrees of freedom, achieved with six cylinders pivotally connected to the lower fixed plate and the upper moving plate, is gaining in importance. The advantage of this structure is greater stiffness and accuracy, smaller drives, etc., but smaller workspace. The wood processing industry increasingly requires performing complex spatial forms with high accuracy whose forming occurs at high speeds. Since environmental, energy and maintenance requirements become stricter, the pneumatically driven Stewart platform becomes more and more interesting. The problem of air compressibility and achieving complex trajectory of high static and dynamic accuracy as well as repeatability with high speeds becomes an important factor in understanding the development and selection of robotic platforms. These requirements unavoidably look for understanding kinematics and dynamics of new machines including their drives, and then control algorithms. The paper focuses on analysis and simulation of the behavior of these machines, i.e. realization of the exact position of the moving plate as a base for high quality woodworking. Particularly for processing large and complex products. The analysis is based on the formulation of Lagrange equations of the second type, determining the Jacobian matrix for mechanical part and forming models for the pneumatic actuator (cylinder + valve). The simulation is performed using the MATLAB/Simulink software. Input signals of valves are formed on the basis of desired position of the plate for the chosen platform and drives. The machine is characterized by a larger working space, i.e. longer working strokes of pneumatic cylinders. Hence, it will be considered the impact of the complexity of the desired trajectory platforms, stroke lengths, speed, compressibility etc., on the accuracy of achieving the position of the platform.
URI: https://scidar.kg.ac.rs/handle/123456789/19601
Type: conferenceObject
Appears in Collections:Faculty of Mechanical and Civil Engineering, Kraljevo

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