Mechanical design of a Cartesian robot

Szerzők

DOI:

https://doi.org/10.32972/dms.2024.011

Kulcsszavak:

Cartesian robot, 3D printer, Solution selection matrix

Absztrakt

This paper investigates the assembling options of a cartesian type robot, which can be used for material handling or 3D printing purposes. The structure has three ball screw driven linear units, which will be controlled by a microcontroller. The requirements of the structure to use as a 3D printer are defined. The solution selection matrix is constructed in order to choose the appropriate configuration of the system.

Hivatkozások

Civelek, T., & Fuhrmann, A. (2023). Cartesian Robot Controlling with Sense Gloves and Virtual Control Buttons: Development of a 3D Mixed Reality Application. 18th International Joint Conference on Computer Vision, Imaging and Computer Graphics Theory and Applications (VISIGRAPP 2023) - GRAPP (pp. 242-249). Lisbon: SCITEPRESS - Science and Technology Publications. https://doi.org/10.5220/0011787700003417

Gasparetto, A., & Rosati, G. (2002). Design and Implementation of a Cartesian Robot. AMST’02 Advanced Manufacturing Systems and Technology (pp. 539-544). Vienna: Springer Vienna. https://doi.org/10.1007/978-3-7091-2555-7_61

Jakab, E. (2013). Actuators. lecture notes. Miskolc: University of Miskolc.

Spong, M., Hutchinson, S., & Vidyasagar, M. (2006). Robot Modeling and Control. John Wiley & Sons, Inc.

Szabó, K. (2024). Automated production equipment. lecture notes. Miskolc: University of Miskolc.

Wolf, J., Werkle, K., & Möhring, H.-C. (2024). Study on Dynamic Behaviour in FFF 3D-printing with Crossed Gantry Kinematic. In S. Bapat, & J. Karandikar (Ed.), 11th CIRP Global Web Conference. 121, pp. 162-167. Elsevier. https://doi.org/10.1016/j.procir.2023.09.244

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Megjelent

2024-11-30

Hogyan kell idézni

Fekete, D., Rónai, L., & Lénárt, J. (2024). Mechanical design of a Cartesian robot. Design of Machines and Structures, 14(2), 35–42. https://doi.org/10.32972/dms.2024.011