Toolbox Redesign for Flight Engineer

Beti Rahmadani, Moch Junaidi Hidayat


Toolbox is a tool rack made with the aim that service tools are arranged according to the tools that are often used by technicians and the tools are safer when not in use by Flight Engineers. Flight Engineer is part of aviation safety which is closely related to the physical plane and aspects of maintenance so that Flight Engineering requirements are met. When carrying out their work, Flight Engineers need a container or facility as a place to put Flight Engineer equipment that can contain a lot of work equipment, is efficient, easy to carry and move. The toolbox redesign process is carried out to make changes and add functions from the existing toolbox design and use at that time. This study uses a mixed method with qualitative and quantitative approaches. Qualitative data obtained from interviews and photo documentation obtained from Flight Engineer sources. Quantitative data obtained by observing the measurement of toolbox dimensions at the Juanda Navy Aviation Center and Biak Air Base. The design concept applied to the design of the equipment box is functional. The results of this research are work equipment icon designs, equipment placement layouts in the toolbox, 10 initial toolbox design sketch designs, five alternative toolbox designs, and one selected toolbox design. The two selected toolbox designs will be developed into a final product design.


Flight Engineer; Redesign; Product Design; Toolbox

Full Text:



Ahmad, S. and Unang, A. (2015). Sistem informasi e-commerce pemasaran hasil pertanian Desa Kluwan berbasis web. Jurnal Ilmiah Ekonomi dan Bisnis, 8(1), 42–56.

Candra, A., and Japri, M. (2021). Pertanggungjawaban maskapai penerbangan terhadap kehilangan barang bawaan (bagasi) berdasarkan Undang-Undang nomor 1 tahun 2009 tentang penerbangan. Collegium Studiosum Journal, 4(2), 71-78.

Degner, M., Moser, S., and Lewalter, D. (2022). Digital media in institutional informal learning places: A systematic literature review. Computers and Education Open, 3, 1-11.

Harvey, S., Cushion, C. J., Wegis, H. M., and Massa-Gonzalez, A. N. (2010). Teaching games for understanding in American high-school soccer: A quantitative data analysis using the game performance assessment instrument. Physical Education and Sport Pedagogy, 15(1), 29-54.

Jatmiko, E., and Joestiono, K. T. (2020). Penerapan unsur-unsur nirmana dwimatra dalam toolbox perangkat lunak desain coreldraw. DeKaVe, 13(2), 38-53.

Koley, S. (2011). A study of anthropometric profile of Indian inter-university male cricketers. Journal of Human Sport and Exercise, 6(2), 427-435.

Lin, S., Döngül, E. S., Uygun, S. V., Öztürk, M. B., Huy, D. T. N., and Tuan, P. V. (2022). Exploring the relationship between abusive management, self-efficacy and organizational performance in the context of human–machine interaction technology and artificial intelligence with the effect of ergonomics. Sustainability, 14(4), 1-22.

Sihombing, M. (2021). Monopoly legal aspects of violations in determining flight transportation. Journal of Multidisciplinary Academic, 5(3), 296–300.

Wardani, L.K. (2003). Evaluasi ergonomi dalam perancangan desain. Dimensi Interior, 1(1), 61–73.



  • There are currently no refbacks.

Copyright (c) 2023 Universitas Pendidikan Indonesia (UPI)

Creative Commons License
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

Creative Commons License

This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
Journal of Industrial Product Design Research and Studies is published by Universitas Pendidikan Indonesia
View My Stats