Citas bibligráficas
Iparraguirre, G., Maraví, D. (2023). Implementación de un control digital que reduzca las imperfecciones e irregularidades de piezas impresas por la impresora 3d Corexy Upao [Tesis, Universidad Privada Antenor Orrego]. https://hdl.handle.net/20.500.12759/11129
Iparraguirre, G., Maraví, D. Implementación de un control digital que reduzca las imperfecciones e irregularidades de piezas impresas por la impresora 3d Corexy Upao [Tesis]. PE: Universidad Privada Antenor Orrego; 2023. https://hdl.handle.net/20.500.12759/11129
@misc{renati/377677,
title = "Implementación de un control digital que reduzca las imperfecciones e irregularidades de piezas impresas por la impresora 3d Corexy Upao",
author = "Maraví Rojas, Diego Arturo",
publisher = "Universidad Privada Antenor Orrego",
year = "2023"
}
The objective of this research is to implement a digital controller in order to reduce the imperfections and irregularities of objects printed at high speeds by the CoreXY UPAO 3D printer. In the first place, a bibliographic review is realized in order to identify possible causes of faulty impressions in 3D printers in general. Secondly, a bibliographic review is done regarding the state of the art of the use of closed-loop control systems in commercial 3D printers. Third, an external control board is designed, which interprets the drive signals (STEP / DIR / EN) as well as the signals from the motor position sensors (encoders), thus avoiding modifying the 3D printing firmware of the main control board. Fourth, the transfer function of each stepper motor coupled to the CoreXY mechanism is identified, using the MatLab software and during the execution of movements similar to those of a print. Fifth, a digital PID controller is designed, simulated and experimentally validated, thereby achieving proper tuning of its control parameters Kp, Ki and Kd. Sixth and because the research design proposed in this project is experimental, data is collected during the printing of objects on the CoreXY UPAO 3D printer at a speed of 100 mm/s in stages before and after the implementation of digital controller, to compare them and discuss the results. Finally, it is concluded that the controller not only compensates for lost steps and reduces imperfections and irregularities in the printed parts, but also improves printing precision, even at high speeds.
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