Mechanical design for optimization of an experimental type CNC 3D printer
DOI:
https://doi.org/10.29105/mdi.v9i14.268Keywords:
static test, 3D printer, simulationAbstract
We have made the mechanical design of a piece called "Build Plate" for a CNC type 3D printer. For the mechanical design, an improvement in the distribution of the fastening points (triangular type) was proposed. The functionality of the design was carried out 2 tests by simulation. The static tests had the purpose of observing the deformations generated by 2 different bodies that assimilate a functioning under normal conditions, the results were satisfactory since no significant deformations were observed. With the results obtained in the static tests, it is possible to state that the design complies with the attributes to correct the instability in the printer system and assist in the correct operation. The operating history maintains that the plate presented instability in the system due to a resonance effect caused by the vibration of the extrusion motor.
References
IBlázquez Tobías, P. J., Orcos Palma, L., Mainz Salvador, J., & Sáez Benito, D. (Mayo de 2018). Propuesta metodológica para la mejora del aprendizaje de los alumnos a través de la utilización de las impresoras 3D como recurso educativo en el aprendizaje basado en proyectos. Psicología, Conocimiento y Sociedad, 8(1), 162-193.
DASSAULT SYSTEMS. (2018). Help SolidWorks. Obtenido de http://help.solidworks.com/2018/spanish/SolidWorks/cworks/c_Frequency_Analysis.htm?id=5f9dd740ba734907b0e3fcfe6e879915#Pg0
DIVERSIDADTOOLS. (2015). DIVERSIDADTOOLS. Obtenido de http://diversidadtools.blogspot.com.es/2015/05/la-impresion-3d-o-fabricacion-ditiva.html
Evans, B. (2012). Practical 3D Printers The Science and Art of 3D Printing. Tecnology in action. Impresoras 3D. (1 de Enero de 2018). Obtenido de https://www.impresoras3d.com/breve-historia-dela-impresion-3d/# DOI: https://doi.org/10.1007/978-1-4302-4393-9_1
INFORMACIÓN. (23 de Mayo de 2016). Obtenido de https://www.informacion.es/vida-yestilo/salud/2016/05/23/crean-protesis-mano-impresora-3d-6146494.html
Local Motors. (2017). Obtenido de https://localmotors.com/3d-printed-car/.
Mott, R. (2006). Mecánica de Fluidos. México: Pearson.
Muñoz Mesa, L., & Sánchez Trujillo, J. H. (Julio-Diciembre de 2016). El impacto de la impresión 3D en la joyería. Lámpsakos(16), 89-97. doi:10.21501/21450886.196 DOI: https://doi.org/10.21501/21454086.2219
Natural Machines. (2017). Obtenido de https://www.naturalmachines.com/
Pastor, J. (Octubre de 2014). XATACA. Obtenido de https://www.xataka.com/makers/un-corazonimpreso-en-3d-ayuda-a-salvar-la-vida-de-un-bebe-de-dos-semanas
Ponce, R. V. (2016). Impresoras 3D: marco teórico, modelos de desarrollo y campos de aplicación. Recuperado el 14 de 5 de 2021, de https://ruidera.uclm.es/xmlui/handle/10578/10513
Valverde Ponce, R. (2016). IMPRESORAS 3D: Marco teórico, modelos de desarrollo y campos de aplicación. Tesis.
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