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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Bibliographic Details
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
Description
Summary: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.