Positioning system applied to the 3D printing technique: modeling by fused deposition

Positioning system applied to the 3D printing technique: modeling by fused deposition

This paper presents the design and construction of a mechanical positioning system, which is part of a mechatronic prototype that integrates the areas of electronics, mechanics, control and computing, forming a synergy leading to create an automated machine that meets the technical requirements and...

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Main Authors: Barahona, Edgar Absalón Torres, Medina, Jersson Xavier León, Díaz, Edwin Torres
Format: Online
Language:spa
Published: Universidad Pedagógica y Tecnológica de Colombia 2012
Subjects:
motion control
3D printing
rapid prototyping
mechanical system.
Control de movimiento
impresión 3D
prototipado rápido
sistema mecánico
Online Access:https://revistas.uptc.edu.co/index.php/investigacion_duitama/article/view/2135
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author Barahona, Edgar Absalón Torres
Medina, Jersson Xavier León
Díaz, Edwin Torres
author_facet Barahona, Edgar Absalón Torres
Medina, Jersson Xavier León
Díaz, Edwin Torres
author_sort Barahona, Edgar Absalón Torres
collection OJS
description This paper presents the design and construction of a mechanical positioning system, which is part of a mechatronic prototype that integrates the areas of electronics, mechanics, control and computing, forming a synergy leading to create an automated machine that meets the technical requirements and requirements for a 3D printer, using a rapid prototyping technology (Fused Deposition Modeling: FDM), to produce a part designed on a CAD software, through the positioning and the action of a plastic extruder tool in three dimensions.The proposed methodology provides, step by step, the design and construction of the mechanical system of three-dimensional Cartesian positioning, which takes into account the variables and processes necessary for optimal response of the machine, with regard to surface finishing, printing time, emergency stops, and so forth.
format Online
id oai:oai.revistas.uptc.edu.co:article-2135
institution Revista de Investigación, Desarrollo e Innovación (RIDI)
language spa
publishDate 2012
publisher Universidad Pedagógica y Tecnológica de Colombia
record_format ojs
spelling oai:oai.revistas.uptc.edu.co:article-21352018-07-10T20:20:46Z Positioning system applied to the 3D printing technique: modeling by fused deposition Sistema de posicionamiento aplicado a la técnica de impresión 3D modelado por deposición fundida Barahona, Edgar Absalón Torres Medina, Jersson Xavier León Díaz, Edwin Torres motion control 3D printing rapid prototyping mechanical system. Control de movimiento impresión 3D prototipado rápido sistema mecánico This paper presents the design and construction of a mechanical positioning system, which is part of a mechatronic prototype that integrates the areas of electronics, mechanics, control and computing, forming a synergy leading to create an automated machine that meets the technical requirements and requirements for a 3D printer, using a rapid prototyping technology (Fused Deposition Modeling: FDM), to produce a part designed on a CAD software, through the positioning and the action of a plastic extruder tool in three dimensions.The proposed methodology provides, step by step, the design and construction of the mechanical system of three-dimensional Cartesian positioning, which takes into account the variables and processes necessary for optimal response of the machine, with regard to surface finishing, printing time, emergency stops, and so forth. Este artículo presenta el diseño y construcción de un sistema mecánico de posicionamiento, el cual hace parte de un prototipo mecatrónico que  integra las áreas de electrónica, mecánica, control e informática, formando una sinergia conducente a crear una máquina automatizada que responde a las necesidades técnicas y requerimientos de una impresora 3D, aplicando la técnica de prototipado rápido modelado por deposición fundida (FDM), para fabricar una pieza diseñada en un software CAD, a través del posicionamiento y la acción de una herramienta extrusora de plástico en tres dimensiones.  La metodología planteada explica paso a paso el diseño y construcción del sistema mecánico de posicionamiento cartesiano tridimensional, en el cual se tienen en cuenta  las variables y procesos necesarios para la óptima respuesta de la máquina, en lo concerniente al acabado superficial de la pieza, tiempo de impresión, paradas de emergencia, entre otras. Universidad Pedagógica y Tecnológica de Colombia 2012-08-15 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion application/pdf https://revistas.uptc.edu.co/index.php/investigacion_duitama/article/view/2135 Revista de Investigación, Desarrollo e Innovación; Vol. 3 No. 1 (2012): July-December; 25-32 Revista de Investigación, Desarrollo e Innovación; Vol. 3 Núm. 1 (2012): Julio-Diciembre; 25-32 2389-9417 2027-8306 spa https://revistas.uptc.edu.co/index.php/investigacion_duitama/article/view/2135/2091 Derechos de autor 2012 REVISTA DE INVESTIGACIÓN DESARROLLO E INNOVACIÓN
spellingShingle motion control
3D printing
rapid prototyping
mechanical system.
Control de movimiento
impresión 3D
prototipado rápido
sistema mecánico
Barahona, Edgar Absalón Torres
Medina, Jersson Xavier León
Díaz, Edwin Torres
Positioning system applied to the 3D printing technique: modeling by fused deposition
title Positioning system applied to the 3D printing technique: modeling by fused deposition
title_alt Sistema de posicionamiento aplicado a la técnica de impresión 3D modelado por deposición fundida
title_full Positioning system applied to the 3D printing technique: modeling by fused deposition
title_fullStr Positioning system applied to the 3D printing technique: modeling by fused deposition
title_full_unstemmed Positioning system applied to the 3D printing technique: modeling by fused deposition
title_short Positioning system applied to the 3D printing technique: modeling by fused deposition
title_sort positioning system applied to the 3d printing technique modeling by fused deposition
topic motion control
3D printing
rapid prototyping
mechanical system.
Control de movimiento
impresión 3D
prototipado rápido
sistema mecánico
topic_facet motion control
3D printing
rapid prototyping
mechanical system.
Control de movimiento
impresión 3D
prototipado rápido
sistema mecánico
url https://revistas.uptc.edu.co/index.php/investigacion_duitama/article/view/2135
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