Evaluation of static loads for manual warehouse work using computer simulation – case study

Ignac-Nowicka, Jolanta

doi:10.17402/529

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Tytuł artykułu

Evaluation of static loads for manual warehouse work using computer simulation – case study

Autorzy

Ignac-Nowicka Jolanta

Treść / Zawartość

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DOI

10.17402/529

Warianty tytułu

Języki publikacji

Abstrakty

This article presents an analysis of the static loads on the human body during selected manual unloading tasks carried out by warehouse workers in a logistics company. The aim of the presented analyses is to minimize static loads in the work process and thus make the employees’ work more comfortable. A tool in the form of 3D SSPP software for ergonomic workload assessment was used to carry out static load analyses. For the two selected activities, the values of the developed forces of statically working muscles and the forces acting on the vertebrae of the spine were determined. For the values of static loads identified, based on the simulation of the 3D SSPP program, modifications in work posture and a change in the manner of performing the tested activities were devised. Moreover, the proposed reorganization of the tasks examined was verified by the reassessment of the static loads on the muscles using the 3D SSPP tool. The analyses carried out after the reorganization of work confirmed the reduction in static loads and the improvement in work comfort for the analyzed manual tasks.

Słowa kluczowe

static loads of the employee ergonomic load assessment load simulation methods static loads on the spine forced working postures manual work manual handling

Wydawca

Wydawnictwo Naukowe Akademii Morskiej w Szczecinie

Czasopismo

Zeszyty Naukowe Akademii Morskiej w Szczecinie

Rocznik

2022

Tom

nr 72 (144)

Strony

17--24

Opis fizyczny

Bibliogr. 26 poz., rys.

Twórcy

autor

Ignac-Nowicka Jolanta

Jolanta.Ignac-Nowicka@polsl.pl

Silesian University of Technology, Faculty of Organization and Management 26-28 Roosevelt St., 41-800 Zabrze, Poland

https://orcid.org/0000-0002-8164-6326

Bibliografia

1. Ben-Daya, M., Kumar, U. & Murthy, D.N.P. (2016) Introduction to maintenance engineering: modelling, optimization and management. John Wiley & Sons.
2. Bernard, F., Bazzaro, F., Sagot, J.-C. & Paquin, R. (2017) Consideration of human factor in aeronautical maintainability. Proceedings of the Reliability and Maintainability Symposium (RAMS), 23–26 January 2017, Orlando, FL, USA, IEEE.
3. Bernard, F., Zare, M., Sagot, J.-C. & Paquin, R. (2018) Virtual reality simulation and ergonomics assessment in aviation maintainability. Proceedings of the 20th Congress of the International Ergonomics Association (IEA 2018), pp. 141–154, Springer.
4. Galar, D. & Kumar, U. (2016) Maintenance audits handbook: A performance measurement framework. CRC Press.
5. Gembalska-Kwiecień, A. & Ignac-Nowicka, J. (2014) Analiza obciążeń statycznych na stanowiskach pracy biurowej. In: Systemy wspomagania w inżynierii produkcji. Jakość i bezpieczeństwo. Monografia. Red. Jacek Sitko, J. & Szczęśniak, B. Gliwice: Wyd. P.A. NOVA.
6. Gembalska-Kwiecień, A. (2018) Advancement of tools supporting improvement of work safety in selected industrial company. Management Systems in Production Engineering 26, 1, pp. 31–34.
7. Gomes, W., Maurice, P., Dalin, E., Mouret, J.B. & Ivaldi, S. (2021) Improving Ergonomics at Work with Personalized Multi-Objective Optimization of Human Movements. Proceedings of the 12th International Conference on Applied Human Factors and Ergonomics, New York, NY, USA. 24–28 July 2021.
8. Ignac-Nowicka, J. & Gembalska-Kwiecień, A. (2008) Bezpieczeństwo pracy na stanowiskach pracy biurowej – obciążenia statyczne. Praca Zdrowie Bezpieczeństwo 2, pp. 26–30.
9. Ignac-Nowicka, J. (2012) Wykorzystanie listy kontrolnej do badania uciążliwości pracy na stanowisku biurowym. Zeszyty Naukowe Politechniki Śląskiej. Organizacja i Zarządzanie 63a, pp. 101–110.
10. Ignac-Nowicka, J. (2017) Ergonomia i higiena przemysłowa. Wykłady. Gliwice: Wyd. Politechniki Śląskiej.
11. Janiga, J. (2014) Ergonomia i fizjologia pracy. Legnica: Wyd. Stowarzyszenie “Wspólnota Akademicka”.
12. Kabiesz, P. & Bartnicka, J. (2018) Ergonomic and workflow study of sausage production process in the context of manual transport tasks. Proceedings of the XV International Conference Multidisciplinary Aspects of Production Engineering – MAPE, 05–08 September 2018, Zawiercie, Poland. Vol. 1, iss. 1, pp. 695–701, doi: 10.2478/mape-2018- 0088.
13. Kabiesz, P. & Bartnicka, J. (2020) Ergonomics and efficiency in a new attempt to model work processes. In: Multidisciplinary aspects of production engineering. Monograph. Social Sciences. Pt. 2. Ed. Midor K., Warszawa: Sciendo, pp. 645–656, doi: 10.2478/mape-2020-0054.
14. Konarska, M., Liu, D. & Kurkus-Rozowska, B. (2002) Obciążenie wysiłkiem fizycznym. Warszawa: Wyd. CIOP.
15. Maurice, P., Padois, V., Measson, Y. & Bidaud, P. (2019) Assessing and improving human movements using sensitivity analysis and digital human simulation. International Journal of Computer Integrated Manufacturing 32(6), pp. 546–558.
16. Nowak, E. (2000) Atlas antropometryczny populacji polskiej – dane do projektowania. Warszawa: IWP.
17. Plinta, D. (2010) Doskonalenie stanowisk pracy z wykorzystaniem narzędzi komputerowych wspomagających modelowanie stanowisk i analizy obciążenia pracowników. Bielsko-Biała: Wyd. ATH.
18. Stack, T., Ostrom, L. & Wilhelmsen, C. (2016) How to Conduct an Ergonomic Assessment and Ergonomic Assessment Tools. In: Occupational Ergonomics: Practical Approach, A. Ed. Stack T., Ostrom L., Wilhelmsen C., John Wiley & Sons, pp. 327–362, doi: 0.1002/9781118814239. ch14.
19. Tanaka, Y., Nishikawa, K., Yamada, N. & Tsuji, T. (2014) Analysis of operational comfort in manual tasks using human force manipulability measure. IEEE Transaction on Haptics 8(1), pp. 8–19.
20. Teymourian, K., Seneviratne, D. & Galar, D. (2017) Ergonomics Contribution in Maintainability. Management Systems in Production Engineering 25(3), pp. 217–223.
21. Teymourian, K., Seneviratne, D. & Galar, D. (2019) Integrating Ergonomics in Maintanability: A Case Study from Manufacturing Industry. Journal of Industrial Engineering and Management Science 1, pp. 131–150.
22. Teymourian, K., Tretten, P., Seneviratne, D. & Galar, D. (2021) Ergonomics evaluation in designed maintainability: case study using 3D SSPP, Management Systems in Production Engineering 29, 4, pp. 309–319.
23. University of Michigan software (2022) [Online]. Available from: https://c4e.engin.umich.edu/tools-services/3dssppsoftware/ [Accessed: March 30, 2022].
24. Vianello, L., Gomes, W., Stulp, F., Aubry, A., Maurice, P. & Ivaldi, S. (2022) Latent Ergonomics Maps: Real-Time Visualization of Estimated Ergonomics of Human Movements, Sensors 22, doi: 10.3390/s22113981.
25. Winkler, T. (2005) Komputerowo wspomagane projektowanie systemów antropometrycznych. Warszawa: Wyd. Naukowo-Techniczne.
26. Zywert, A. & Czernecka, W. (2011) Porównanie Programów do Projektowania Ergonomicznych Systemów Antropotechnicznych. Poznań: Wyd. Politechniki Poznańskie

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).

Typ dokumentu

Bibliografia

Identyfikator YADDA

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