Perancangan Mesin Bending untuk Menurunkan Reject Mechanical Packing Kapasitor

Authors

  • Benedikta Anna Haulian Siboro Universitas Riau Kepulauan
  • Vera Methalina Afma Universitas Riau Kepulauan
  • Ardi Pratama Universitas Riau Kepulauan

DOI:

https://doi.org/10.30656/jsmi.v2i1.481

Keywords:

Man Machine System, One-Way T test (Paired T-test), Standard Time

Abstract

In order to increase productivity required synergizing and balancing all components in the work system. The achievement of labor productivity through activity sustainable done at one manufacturing companies who produce capacitor. In the packing process is done manually using bending tools that cause fatigue 90-95% tired on the right foot and right hand, with the average reject 14% and only meet 66% output target. The purpose of this research is make a bending machine to increase the capacity process of packing, so it expected to decrease reject mechanical and indirectly decrease the work load operator. The design of the bending machine is done by testing the T-test statistic (paired T-test) against the mechanical reject by making the machine system semi-automatic with motor and engine control on the machine table design using the average height of the operator seat with the aim that the standard time can be faster, The human workload based on the man machine system may decrease.  The result of bending machine design shows that the standard time after design is increased from 1.52 seconds to 1.02 seconds so the average output increase from 16578 capacitors to 24705 capacitors. The reject mechanical fell significantly from the average total of 2210  to an average total of 446  and the man workload in this study decreased from 25.29 minutes to 6.23 minutes, so the production target could be met.

References

R. Sharma, “Conceptual framework for improving business performance with lean manufacturing and successful human factors interventions–a case study,” Int. J. Qual. Res., vol. 6, no. 3, pp. 259–270, 2012.

S. Wignjosoebroto, Pengantar Teknik dan Manajemen Industri. Surabaya: Guna Widya, 2003.

F. Tayyari and J. L. Smith, Occupational ergonomics: Principles and applications (Manufacturing systems engineering series). United Kingdom: Chapman & Hall London, 1997.

A. F. Hima and M. K. Umami, “Evaluasi Beban Kerja Operator Mesin pada Departemen Log and Veeeneer Preparation di PT. XYZ,” J. Tek. dan Manaj. Ind., vol. 6, no. 2, pp. 106–113, 2011.

T. H. Handoko, Dasar-dasar manajemen produksi dan operasi. Yogyakarta: BPFE, 2010.

E. Nurmianto, Ergonomi. Konsep Dasar dan Aplikasinya. Surabaya: Guna Widya, 2004.

S. Wignjosoebroto, A. Rahman, and D. Pramono, “Perancangan Lingkungan Kerja dan Alat Bantu yang Ergonomis untuk Mengurangi Masalah Back Injury dan Tingkat Kecelakaan Kerja pada Departemen Mesin Bubut,” J. Inst. Teknol. Sepuluh Nop. (ITS). Surabaya, vol. 8, no. 7, pp. 1–11, 2006.

A. Kristanto and R. Manopo, “Perancangan ulang fasilitas kerja pada stasiun cutting yang ergonomis guna memperbaiki posisi kerja operator sebagai upaya peningkatan produktivitas kerja studi kasus di perusahaan anode crome yogyakarta,” J. Inform., vol. 4, no. 2, pp. 467–479, 2010.

A. Kristanto and S. C. Widodo, “Perancangan ulang alat perontok padi yang ergonomis untuk meningkatkan produktivitas dan kualitas kebersihan padi,” J. Ilm. Tek. Ind., vol. 14, no. 1, pp. 78–85, 2015.

N. Nofirza and D. Syahputra, “Perancangan alat pemotong nenas yang ergonomis untuk meningkatkan produktivitas,” J. Ilm. Tek. Ind., vol. 11, no. 1, pp. 41–50, 2012.

T. Rochman, R. D. Astuti, and R. Patriansyah, “Peningkatan produktivitas kerja operator melalui perbaikan alat material handling dengan pendekatan ergonomi,” PERFORMA Media Ilm. Tek. Ind., vol. 9, no. 1, pp. 1–10, 2010.

S. A. Muhidin and M. Abdurahman, Analisis korelasi, regresi, dan jalur dalam penelitian. Bandung: Pustaka Setia, 2007.

A. Fauzy, Statistik Industri. Jakarta: Erlangga, 2008.

J. Supranto, Teknik sampling untuk survei dan eksperimen. Jakarta: Rineka Cipta, 2000.

B. Sugeng, R. M. S. Jusuf, and A. Pusparini, Bunga Rampai Hiperkes dan Keselamatan Kerja. Semarang: Badan Penerbit Universitas Diponegoro, 2003.

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Published

2018-07-27

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Articles

How to Cite

[1]
“Perancangan Mesin Bending untuk Menurunkan Reject Mechanical Packing Kapasitor”, j. sist. manaj. ind., vol. 2, no. 1, pp. 9–16, Jul. 2018, doi: 10.30656/jsmi.v2i1.481.

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