CAD / CAM Application for the Development of Submerged Pump Maintenance Tools

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Jorge Fernando Rodrigues Valente
Giliane Corrêa Pereira
David Barbosa de Alencar
Carlos Alberto Oliveira de Freitas
Antônio Estanislau Sanches


The design and implementation of maintenance tools is used in CAD / CAM tools, in order to make the necessary improvements in the whole process of disassembly of the equipment in question, and mainly to reduce the process time and eliminate the risk. breaking the most fragile parts of the equipment. The objective of the work is to elaborate the toolkit, to reduce the disassembly time and to eliminate damage to the equipment and its respective trajectories, with which the machine performs the machining of the designed drawing, were applied to the resources through a CNC language. (Computer Numeric Command) on a CNC lathe and a machining center. The elaboration of this project based on a CAD system, in this case Solid Works. The average time for disassembly of the equipment was around 2h, now with the proper use of tools, the same process had a time drop to 40 minutes, seen as a great time saving in the disassembly process.


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Fernando Rodrigues Valente, J., Corrêa Pereira, G., Barbosa de Alencar, D., Oliveira de Freitas, C. A., & Estanislau Sanches, A. (2019). CAD / CAM Application for the Development of Submerged Pump Maintenance Tools. International Journal for Innovation Education and Research, 7(11), 817–828.


[1] COSTA, A. P. R.; FERREIRA, R. C.; LEAL, F. Mapeamento de processos em uma unidade hospitalar: Proposta de Melhorias baseadas em conceitos Lean In, Fortaleza-Ceara, 2015.
[2] BIDER, I.; JALALI, A. Agile business process development: why, how and when— applying Nonaka’s theory of knowledge transformation to business process development. v. 14, p. 693-731, 2016.
[3] Capote, G. (2011) “Guia para Formação de Analistas de Processos – BPM”, 1ª edição, Rio de Janeiro, 2011, 328p.
[4] KLUSKA, R. A.; LIMA, E. P.; COSTA, S. E. G. Uma proposta de estrutura e utilização do Gerenciamento de Processos de Negócio (BPM). Revista Produção Online, v. 15, n. 3, p. 886-913, 2015.
[5] Cruz, T. (2011) “Sistemas, Métodos e Processos: Administrando Organizações por meio de Processos de Negócios”, 2°. edição. – São Paulo: Atlas, 2011.
[6] MARTINS, P. V.; ZACARIAS, M. An Agile Business Process Improvement Methodology. Procedia Computer Science, v. 121, p. 129–136, 2017.
[7] ENSSLIN, L.; et al. BPM governance: a literature analysis of performance evaluation. Business Process Management Journal, v. 23, n. 1, pp. 71-86, 2017.
[8] MIYAZAKI, T. et al. A review of dental CAD/CAM: current status and future perspectives from 20 years of experience. Dental materials journal. Japan, p. 1-13, 2009.
[9] Rinke S, Fornefett D, Gersdorff N, Lange K, Roediger M. Multifactorial analysis of the impact of different manufacturing processes on the marginal fit of zirconia copings. Dent Mater J. 2012;31 (4):601 -9.
[10] BISCARO, L. et al. An In Vivo Evaluation of Fit of Zirconium-Oxide Based Ceramic Single Crowns, Generated with Two CAD/CAM Systems, in Comparison to Metal Ceramic Single Crowns. Journal of Prosthodontics, v. 22 , 2013.
[11] VANLIOGLU, B. A. et al. Internal and marginal adaptation of pressable and computer-aided design/computer-assisted manufacture onlay restorations. International Journal of Prosthodontics, v. 25, n. 3, 2012.

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