Journal of Technology and Information Education 2022, 14(1):34-48 | DOI: 10.5507/jtie.2022.008

CROSS-CURRICULAR INTEGRATION OF TEACHING TECHNICAL DOCUMENTATION AND WORK IN 3D CAD SYSTEM

Anna ŠMERINGAIOVÁ
Technická univerzita v Košiciach, Slovensko

The article describes the design and process of preparing revised curricula, study materials and technical provision of teaching subjects focused on the processing of technical documentation, which belong to the initial subjects of technical education. The goal is to effectively prepare first-year students at a technical university for their further studies and work experience in the field of engineering. Today, modern construction is carried out exclusively using 3D CAD systems. In order to achieve the desired goal - creating conditions for making drawings corresponding to real practice, the intrasubject integration of the teaching of the theory of technical documentation and the basic principles of work in the 3D CAD system is therefore key. The starting point of the curricular revision was a comprehensive analysis of the current state of teaching technical documentation. The idea of cross-curricular integration was also supported by the students' opinions on the implementation of the CAD system in the teaching of technical documentation. The research tool for data collection was an online questionnaire. Teaching according to the revised curricula will be applied in the 2022/2023 school year and then subjected to an evaluation of the expected results.

Keywords: cross-curricular integration, 3D CAD system, modern design.

Received: May 31, 2022; Revised: August 10, 2022; Accepted: May 31, 2022; Published: October 6, 2022  Show citation

ACS AIP APA ASA Harvard Chicago Chicago Notes IEEE ISO690 MLA NLM Turabian Vancouver
ŠMERINGAIOVÁ, A. (2022). CROSS-CURRICULAR INTEGRATION OF TEACHING TECHNICAL DOCUMENTATION AND WORK IN 3D CAD SYSTEM. Journal of Technology and Information Education14(1), 34-48. doi: 10.5507/jtie.2022.008
Share...
Download citation
  • BibTeX (.bib)
  • Bookends (.ris)
  • EasyBib (.ris)
  • EndNote (.enw)
  • EndNote 8 (.xml)
  • ISI WoS (.isi)
  • Medlars (.medlars)
  • Mendeley (.ris)
  • MODS (.xml)
  • Papers (.ris)
  • RefWorks (.txt)
  • RefManager (.ris)
  • RIS (.ris)
  • MS Word (.xml)
  • Zotero (.ris)
    • Open full article

    References

    1. Bajtoš, J. (2013) Didaktika vysokej školy. Bratislava: Iura Edition, 2013.
    2. Beisetzer, P. (2020). Technické myslenie a geometrická predstavivosť. Trendy ve vzdělávání. Roč. 13. s. 21-30. DOI: 10.5507/tvv.2020.017. Go to original source...
    3. Beňo, P., Turis, J. & Václav, Š. (2018). Technické kreslenie a základy konštruovania. Zvolen: TU vo Zvolene.
    4. Bronček, J., Poljak, S. & Bašťovanský, R. (2018). Konštruovanie 1. Návody na cvičenia. Žilina: EDIS.
    5. Dostál, J., & Prachagool, V. (2016). Technické vzdělávání na křižovatce - historie, současnost a perspektivy. Journal of Technology and Information Education. 8(2). s. 5-24. DOI: 10.5507/jtie.2016.006. Go to original source...
    6. Huľová, Z., & Tokoš, P. (2021). Technické vzdelávanie v kontexte dištančnej výučby. Trends in education, 14(1), 35-44. DOI: 10.5507/tvv.2021.005. Go to original source...
    7. Chráska, M. (2016). Metody pedagogického výzkumu: základy kvantitativního výzkumu. Praha: Grada.
    8. Karakolis et al., (2020). Qualichain Curriculum Designer - providing intelligent recommendations for curriculum restructuring based on labour market needs. ICERI2020 Proceedings, s. 7932-7939. Go to original source...
    9. Klement, M., Bryndová, L., Dragon, T., Šaloun, P., & Kubíček, R. (2021). Vybrané nástroje edukační robotiky z pohledu žáků základních škol. Journal of technology and information education, 13(2), 205-223. doi: 10.5507/jtie.2022.002. Go to original source...
    10. Kožuchová, M. et al. (2011). Učebnica didaktiky technickej výchovy. (online). Bratislava: Univerzita Komenského. Dostupné na: http//utv.ki.ku.sk/.
    11. Krajčová, N., & Daňková, A. (2001). Všeobecná didaktika. Prešov: ManaCon, 2001.
    12. Krenický, T., & Olejárová, Š. (2017). Manufacturing technologies: materials, operation and application. Zurich: Trans Tech Publications. Go to original source...
    13. Kucina, S. (2020). Why teachers' positive attitude is important for e-learning implementation into educational process? ICERI2020 Proceedings, s. 3586. Go to original source...
    14. Liparová, L., Pondelíková, R., & Vostinár, P. (2020). E-learning course as a space of a virtual atelier. ICETA2020 Proceedings, s. 394-400. Go to original source...
    15. Majerník, J. et al. (2019). Technologie a technika lití kovů pod tlakem. Brno: Tribun EU.
    16. Mareš, J. (1998) Styly učení žáků a studentů. Praha: Portál.
    17. Maščeník, J. (2015). Navrhovanie častí a mechanizmov strojov. Košice: TUKE.
    18. Pavelka, J. (1999). Vyučovacie prostriedky v technickej výchove. Prešov: FHPV PU v Prešove.
    19. Pavlenko, S., & Maščeník, J. (2014) Vzdelávanie učiteľov stredných škôl v implementácii európskych normatívov v technicky orientovaných predmetoch. Prešov: FVT TU.
    20. Petr, K. (2020). Strojírenské konstruování. Tvorba výkresové dokumentace dle ISO norem. Praha: ČVUT.
    21. Průcha, J., Walterová, E., & Mareš, J. (2013). Pedagogický slovník. Praha: Portál.
    22. Průcha, J. (1997). Moderní pedagogika. Praha: Portál.
    23. Serafín, C. (2020). Digital Educational Resources in Technical Education. INTED 2020 Proceedings. s. 388-395. DOI: 10.21125/inted.2020.0165. Go to original source...
    24. Šmeringaiová, A. (2021). Experience for Curriculum Design and Innovation for Technical Subjects with regard to Distance Learning. ICETA 2021 Proceedings. s. 345-350. Go to original source...
    25. Turek, I. (2014). Didaktika. Wolters Kluwer.
    26. Vančíková, K. (2020). University teacher as a motivator-the aspect of expertise. ICERI2020 Proceedings, s. 3053-3060. DOI: 10.21125/iceri.2020.0703. Go to original source...
    27. Vasilko, K., & Murčinková, Z. (2015). Teórie a metodiky výrobných technológií. Prešov: TU v Košiciach.

    Return to the content