Rancang Bangun dan Uji Kinerja Mesin Bead Roller untuk Perbaikan Bodi Kendaraan

Andika Wisnujati, Mirza Yusuf

Abstract

In developing the 4.0 industrial revolution era, vehicle body repair manufacturing companies are required to carry out technological innovations to support effective and efficient performance. One way is in the metal forming process, namely by changing the metal's shape into a variety of products by the company to increase the selling value of the material. The method of forming metal or these materials uses a bead roller machine with a compressive force to carry out the forming process on sheet metal plates according to the size of the tools' geometry and shape. The design of this bead roller machine is operated by using an electric motor with a power of 0.5 HP, using an Alternating Current (AC) voltage, the thickness of the iron frame dimensions of 1.2 cm, and using a reducer with a ratio of 1: 100. Selection of engine parts such as shafts, bearings, tools, and sprockets using materials that are economical and easy to obtain. The design uses Autocad 2014 Software, starting with designing a bead roller machine design paying attention to the strength of the materials used, then assembling the components and the machine's electrical system. The result of this design will be displayed by performing the bead roller machine performance. This bead roller can increase work productivity efficiently and effectively concerning sheet metal media for vehicle body repair compared to manual roll bending tools.

Keywords

metal forming; bead roller; electric motor; body repair

References

Aldrianto, A. (2015). Mesin Pengupas Dan Pemotong Kentang Semi Otomatis. Jurnal Rekayasa Mesin, 3(01).

Dullah, M. J., Suyuti, M. A., Sudarman, M., Mariam, M., & Arham, M. A. (2020). Desain dan Analisis Alat Bending V Sistem Hidro Pneumatik. Jurnal Teknik Mesin Sinergi, 17(2), 168-178.

Firmansyah, M. R., Yulfitra, Y., & Basyir, A. (2017). Analisa Variasi Putaran Pada Mesin Roll Pembentuk Plat Profil Terhadap Hasil Pengerolan Plat 1 Mm. MEKANIK: Jurnal Ilmiah Teknik Mesin, 3(1).

Maimun, M., Yusuf, I., & Dailami, D. (2018). Pembuatan Mesin Bending Pipa. Jurnal Mesin Sains Terapan, 2(2), 105-109.

Marisi, E. U. T., & Sufiyanto, S. (2012). Analisa proses pengerolan pipa dengan menggunakan mesin roll. Jurnal Teknik Mesin Transmisi, 8(2), 837-846.

Maryanti, B., Pasau, F. J., & Heriyanto, H. (2020). Perancangan Alat Pengerol Pipa 1 ¼ Inchi Dengan Pengoperasian Manual Dan Sistem Hidrolik. PROTON, 11(2), 62-71.

Muhammad, A. S., & Tri, A. S. (2016). Rancang Bangun Mesin Rol Besi Pejal Untuk Pembuatan komponen Alat Pertanian. SINERGI, 14(1), 1-9.

Novandra, D. R., Tiyasmihadi, T., & Hamzah, F. (2017). Rancang Bangun Roll Bending Machine With Hydraulic Assist. Paper presented at the Proceedings Conference on Design Manufacture Engineering and its Application.

Nurcahyo, Y. E., & Ellianto, M. S. D. (2018). Rancang Bangun Mesin Roll Bending Portable. Teknika: Engineering and Sains Journal, 2(2), 109-114.

Pammu, I., & Israkwaty, I. (2018). Rancang Bangun Alat Bending Pelat Manual. Prosiding, 4(1).

Rohim, M. C. (2015). Rancang Bangun Mesin Pengerol Plat Bergelombang. Jurnal Rekayasa Mesin, 2(02).

Rusnandi, R., Intang, A., Angkasa, A., & Santosa, R. B. (2020). Perancangan Mesin Bending Untuk Pipa Berdiameter Satu Inch Menggunakan Metode Roll Bending. TEKNIKA: Jurnal Teknik, 7(1), 49-56.

Sufiyanto, S. (2020). Analisis Proses Pengerolan Pipa dengan Roll Bending. TRANSMISI, 7(1), 639-648.

Suprihadi, A., Akhmadi, A. N., & Qurohman, M. T. (2018). Rancang Bangun Rasio Gear Terhadap Kecepatan Pengerolan Pipa. Jurnal Infotekmesin Vol, 9(1).

Suryanto, H., Aminnudin, A., Aminnudin, S., Pradana, Y. R., Dharmabintara, R. A., Muhajir, M., & Muslim, F. (2018). Penerapan Mesin Rol Pipa Hidrolis Pada Bengkel Modifikasi Konstruksi Motor Trail. Jurnal KARINOV, 1(3).

Wibowo, T. A., Raharjo, W. P., & Kusharjanta, B. (2014). Perancangan dan analisis kekuatan konstruksi mesin tekuk plat hidrolik. Mekanika, 12(2).

DOI

https://doi.org/10.21107/rekayasa.v14i1.10092

Metrics

Refbacks

  • There are currently no refbacks.


Copyright (c) 2021 Andika Wisnujati, Mirza Yusuf

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