Geometric analysis as a design base for implementing joints assisted for the displacement of components in tilting furnaces

Abstract

Various devices in productive chains implement parts that move through pneumatic, hydraulic, electrical systems, or some combination. Articulation-assisted displacement systems implemented by hydraulic systems are of particular interest, specifically, those used to lower bodies concerning support points with a structure of degrees of freedom of movement. An application in the metallurgical industry establish since processes at high temperatures and elements of great mass make human manipulation impossible. However, introducing these automation operations makes standardizing and controlling processing times possible. In this work, the procedure for the mathematical approach through principles of analytical geometry and trigonometry, to be develop as a contribution to the domain of knowledge for the design of articulated systems. The above applied to the displacement requirements in a melting furnace of metal alloys allowed selection of the characteristics of hydraulic components to implement in the consolidation of industrial equipment.