Design of Construction and Controlling of Automation Technics in Order to Improve Skills of Students

• Autorzy: Hrušková Erika , Matúšová Miriam , Václav Václav

Identyfikatory

DOI

10.2478/mape-2021-0011

• Języki publikacji: EN

Abstrakty

EN

The article summarizes the experience, skills of the students of technical subjects teaching methodologies using a number of software products. Solve specific assigned tasks described in this paper. Task is about the problems of automation and mechanization in the industry. That helps to improve the skills of praxis, through the design of construction and of controlling. Specifically it focuses on introducing automation in the wood industry. Article describes the design of the automation process for marking wooden hammers. Similar problems are solved by students in Computer Aided (CA) systems. The control process of automation is realized through the electro-pneumatic circuits. These circuits are creating in software FluidSIM 4 that is used as a simulation tool. FluidSIM 4 is comprehensive software for creation, simulation, instruction and study of electro-pneumatic, electro-hydraulic and digital circuits.

Słowa kluczowe

EN

CA system; education; simulation; subject; construction

• Wydawca: STE GROUP ; De Gruyter
• Czasopismo: Multidisciplinary Aspects of Production Engineering
• Rocznik: 2021
• Tom: Vol. 4, Iss. 1
• Strony: 120--131
• Opis fizyczny: Bibliogr. 26 poz., fig., tab.

Twórcy

autor

Hrušková Erika

• Slovak University of Technology, Slovak Republic

• https://orcid.org/0000-0003-4852-7824

autor

Matúšová Miriam

• Slovak University of Technology, Slovak Republic

• https://orcid.org/0000-0002-2128-3041

autor

Václav Václav

• Slovak University of Technology, Slovak Republic

• https://orcid.org/0000-0003-3266-3645

Bibliografia

• 1. Demeč, P., Svetlík, J., (2016). Production machines. Košice, Publisher: Technical University in Košice, p. 167
• 2. Gasimov, H., (2020). „Modelling support systems for selecting professions for applicants in the content of personalization of education.“ In EUREKA, Physics and Engineering 2020, p. 83-97
• 3. Giraldo, J., Duque, J., Forero, J. D., (2019). „Development of a tool for automatic generation of GRAFCET control code using arduino IDE.“ In International Review of Automatic Control, pp. 210-218
• 4. Harčarufka, R., Harčarufkova, K., Perdukova, D., (2018). “Principles for the preparation of educational process“ Internet http://www.tuke.sk/ anta/zasady.html, [Mar. 15, 2018]
• 5. Hlavanda, P., (2015). “The design of automation process for marking wooden hammers.” Graduate Theses, Slovak University of Technology Bratislava. Faculty of Materials Science and Technology in Trnava; Department of Production Systems and Applied Mechanics. Trnava, p. 67
• 6. Javorová, A., Kusá, M., (2014). “Robotic system design with CA system support.” In Applied Mechanics and Materials: 13th International conference on Industrial, Service and Humanoid Robotics, ROBTEP 2014, Štrbské Pleso, Slovakia, pp. 208-213
• 7. Javorova, A., Oravcova, J., Velisek, K., (2012). “Assemblies system design with modularity and CA support using”, In. Proc. Applied Mechanics and Materials, pp. 114-118
• 8. Labašová, E., Labaš, V., (2018). “The size of the friction coefficient of the sliding pair depending on the lubricant used.” In Novel Trends in Production Devices and Systems IV (NTPDS IV): Special topic volume with invited peer reviewed papers only. Trans Tech Publications, pp. 327-334
• 9. Michal, D., Lecký, Š., Košťál, P., Václav, Š., (2019). „Welding workstation planning with use of CAD software and simulation. “ In Advances in Manufacturing II: Volume 2 - Production Engineering and Management. Cham, Switzerland : Springer Nature Switzerland AG, pp. 97-105
• 10. Oravcová, J., Labašová, E., (2020). “Modification of the Sliding Joint in Equipment Tribotestor M`89. “ In VELÍŠEK, Karol. Novel Trends in Production Devices and Systems VI. NTPDS VI. Zürich : Trans Tech Publications, p. 296-303
• 11. Patil, A., Chinchanikar, S., (2015). „Design and analysis of concrete pipe suspender jaw system using FEA.“ In International Engineering Research Journal, pp. 2002-2005
• 12. Patil, R., Ambole, N., Awati, S., Shaikh, A., (2018). „A review on lifting and assembly of rotary kiln tyre with shell by flexible gripper.“ In Journal for Research. pp. 38-40
• 13. Pauliček, R., Haluška, T., Važan, P., (2012). “The simulation of the assembling production process”. In Proc. Advances in Intelligent Systems and Computing: Proceedings of the Second International Conference on Advances in Computing and Information Technology (ACITY 2012), pp. 273-278
• 14. Pawar D., Taware, O., (2018). „Modeling of concrete pipe auto gripping jaw for pipe handling. “ In IOSR Journal of Mechanical and Civil Engineering. NCRIME, pp. 62-69
• 15. Rahul, P., Shinde, B. M., (2016). „Design and analysis of rotary kiln tyre rigging system using FEA. “International Enginnering Research Journal. MECH PGCON, pp. 768-775
• 16. Ruiz, P. V., Fontanini, P. S. P., Correa, F. R., (2019). „Materials flow investigation: An aluminum frames supply chain simulation.“ In International Review on Modelling and Simulations, pp. 30-36
• 17. Saravanan, B., Jeevanandham, M. R., Nirmal, S., (2015). „Design of twin rod assembly using inventor. “In International journal of scientific progress and research, pp. 43-47
• 18. Shansevani, R., Reitelshofer, S., Bodaghi, M. A., Franke, J., (2019). „Development of new extensible components for enabling a more flexible usage of jamming-gripper.“In IEEE International conference on robotics and bioimimetics - Robio 2019. Piscataway: IEEE, pp. 196-202
• 19. Singla, R., Kumar, S., (2015). „An intelligent clamping system for drilling operation – a review. “ In SSRG International Journal of Mechanical Engineering, p. 39-42
• 20. Świder, J., (2015). Control and automation of technological processes and mechatronic systems. Pneumatics and electropneumatic systems with logic control (PLC).Wydawnictwo Politechniki Ślaskiej, Gliwice
• 21. Tarakhovskiy, A., Bukach, B., Tabakaev, D., (2017). „Mechanical Device for Sealing Ring Mounting into Internal Groove and its Opening Technical and Economic Justification. In International Cnference on Industrial Engineering (ICIE 2017), vol. 206, pp. 1438-1442
• 22. Tvrdon, L., Juraskova, K., (2015). „Teaching simulation in logistics by using Witness and Captivate software.“ In: International konference on new horizons in education, INTE 2014, Paris, pp. 4083-4089
• 23. Václav, Š., Jurko, J., Lecký, Š., (2017). “Allowance treatment static designed couple and repeatable precision in assembly”. In MATEC Web of Conferences. Vol. 137, Modern Technologies in Manufacturing (MTeM 2017 - AMaTUC), Cluj-Napoca
• 24. Václav, Š., Košťál, P., Lecký, Michal, D., Bako, B., (2018). „Assembly system planning in automotive industry with use of discrete event simulation.“ In Vehicle and Automotive Engineering 2: proceedings of the 2nd VAE 2018, Miškolc, Hungary. 1. vyd. Cham: Springer, pp. 503-515
• 25. Václav, Š., Košťál, P., Lecký, Š., Michal, D., (2017). “Influence of selected attributes in assembly systems planning with use of simulation software. In Industry 4.0, In. Proc. International Scientific Conference, 1. eddition: Scientific-technical Union of Mechanical Engineering Industry 4.0, 13-16.12.2017, Borovets, Bulgaria, pp. 15-67
• 26. Frankovský, P., Pástor, M., Dominik, L., Kicko, M., Trebuňa, P., Hroncová, D., Kelemen, M. (2018, May). Wheeled mobile robot in structured environment. In 2018 ELEKTRO (pp. 1-5). IEEE

Uwagi

This contribution was prepared within the framework of the project KEGA 006STU-4/2021: „Progressive form of interdisciplinary education and support for the development of the study of vocational subjects in the university environment“.

Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).