Agustín de Betancourt’s Double-Acting Steam Engine: Geometric Modeling and Virtual Reconstruction
Fecha
2018-08-20
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Editor
Multidisciplinary Digital Publishing Institute (MDPI)
Resumen
In this paper, the geometric modeling and virtual reconstruction of the double-acting
steam engine designed by Agustín de Betancourt in 1789 are shown. For this, the software
Autodesk Inventor Professional is used, which has allowed us to obtain its geometric documentation.
The material for the research is available on the website of the Betancourt Project of the Canary
Orotava Foundation for the History of Science. Almost all parts of the steam engine are drawn on the
sheets, but due to the absence of scale and space, it is insufficient to obtain an accurate and reliable 3D
CAD (Computer-Aided Design) model. For this reason a graphic scale has been adopted so that the
dimensions of the elements are coherent. Also, it has been necessary to make some dimensional and
geometric hypotheses, as well as restrictions of movement (degrees of freedom). Geometric modeling
has made it possible to know that the system is balanced with the geometric center of the rocker arm
shaft, and presents an energetic symmetry whose axis is the support of the parallelogram where the
shaft rests: calorific energy to the left and mechanical energy to the right, with the rocker arm acting
as a transforming element from one to the other
Descripción
Palabras clave
Agustín de Betancourt, double-acting steam engine, geometric modeling, virtual reconstruction, energetic symmetry
Citación
Rojas-Sola, J.I.; Galán-Moral, B.; De la Morena-De la Fuente, E. Agustín de Betancourt’s Double-Acting Steam Engine: Geometric Modeling and Virtual Reconstruction. Symmetry 2018, 10, 351. https://doi.org/10.3390/sym10080351