Main Article Content

Abstract

Workload refers to worker activities that require strength and endurance and physical energy. The
company under study is a manufacturing company engaged in the automotive sector in the painting
department of four-wheeled vehicle production in Karawang. A related challenge is the dominance of
manual processes in some parts of the company. The purpose of the study is to understand the
workload on each shift and see the effect of worker fatigue by calculating the amount of energy
consumption and using the CVL approach. The research results from the morning shift found that the
average %CVL percentage in various production sections was as follows: Mixing 29.08%, Top coat
27.96%, Sanding ED 25.22% and Repair 25.11%. and for the night shift as follows: Mixing 30.12%,
Top coat 29.65%, Sanding ED 25.92% and Repair 22.58%. It can be seen from the results of the study
that the average CVL (%) on each shift does not cause excessive fatigue in workers. Although in
general the phenomenon of fatigue does not occur, according to the calculations of some workers,
especially at the mixing and topcoat stages, there is a higher percentage of %CVL with an average
CVL value of 30% and requires improvement. In addition, the results of energy consumption
calculations show that all parts are classified as work that uses low to very low energy consumption.

Keywords

Workload; Pulse; Energy Consumption

Article Details

References

  1. Ananda, S. R., & Suliantoro, H. (2022). Analisis Beban Kerja Mental Dengan Metode National Aeronautics And Space Administration-Task Load Index (Nasa-Tlx) Pada Pt. Bintang Prima.
  2. Annisa, R. N., & Farihah, T. (2017). Analisa Beban Kerja Fisik sebagai Dasar Penentuan Waktu Istirahat yang Optimal (Studi Kasus di PT. X). Integrated Lab Journal, Vol 5(1), 1–12.
  3. Cahyadi, B., Maryanti, A. S., & Timang, G. A. (2020). Measurement of Physiological and Psychological Workloads of Mechanical Department Operator PT. XYZ. IOP Conference Series: Materials Science and Engineering, 847(1). https://doi.org/10.1088/1757-899X/847/1/012092
  4. Diniaty, D., & Muliyadi, Z. (2016). Analisis Beban Kerja Fisik Dan Mental Karyawan Lantai Produksi Dipt Pesona Laut Kuning. Jurnal Sains, Teknologi, Dan Industri, 13(2), 203–210. http://ejournal.uin-suska.ac.id/index.php/sitekin/article/view/1735
  5. Fithri, P., & Anisa, W. F. (2017). Pengukuran Beban Kerja Psikologis dan Fisiologis Pekerja di Industri Tekstil. Jurnal Optimasi Sistem Industri, 16(2), 120. https://doi.org/10.25077/josi.v16.n2.p120-130.2017
  6. Hasan, H. M., Komara, C. P., Putro, W. G., & Melizsa, M. (2022). Hubungan Antara Beban Kerja Dengan Kelelahan Kerja Pada Pekerja Bagian Produksi Di Pt. Tri
  7. Teguh Manunggal Sejati Kota Tangerang. Journal of Health Research Science, 2(01), 1–8. https://doi.org/10.34305/jhrs.v2i1.478
  8. Herdianti, H., Maryana, T., & Supriatna, S. (2019). Hubungan Beban Kerja dan Peran Ganda dengan Kelelahan Kerja Pengrajin Batik. Jurnal Endurance, 4(3), 563. https://doi.org/10.22216/jen.v4i3.3120
  9. Hidayat, W., Ristyowati, T., & Putro, G. M. (2020). Analisis Beban Kerja Fisiologis sebagai Dasar Penentuan Waktu Istirahat untuk Mengurangi Kelelahan Kerja. OPSI, 13(1), 62. https://doi.org/10.31315/opsi.v13i1.3469
  10. Irlana, S. F. (2020). Analisa Beban Kerja dan Penentuan Tenaga Kerja Optimal dengan Metode Workload Analysis (WLA) di PT. Bintang Mas Glassolutions, Bedali, Lawang, Malang Jawa Timur-Indonesia. Jurnal Mahasiswa Teknik Industri, 3(2), 166–170. https://ejournal.itn.ac.id/index.php/valtech/article/view/2746
  11. Oktavia & Ratih, R. S. (2021). Pengukuran Beban Kerja Fisik Dan Tingkat Kelelahan Karyawan Pt. Xyz Menggunakan Metode Cvl Dan Ifrc.
  12. Purbasari, A., & Purnomo, A. J. (2019). Penilaian Beban Fisik Pada Proses Assembly Manual Menggunakan Metode Fisiologis. Sigma Teknika, 2(1), 123. https://doi.org/10.33373/sigma.v2i1.1957
  13. Putri, N. T., Zadry, H. R., Mahata, M. E., Amrina, E., Yuliandra, B., & Humaida, N. (2020). Ergonomics Evaluation of Manual Material Handling Activities in the Section of Feeding Laying Hens at Poultry Farm. IOP Conference Series: Materials Science and Engineering, 1003(1). https://doi.org/10.1088/1757-899X/1003/1/012074
  14. Rahayu, R. P., & Effendi, L. (2017). Faktor-Faktor yang Berhubungan dengan Kelelahan Kerja di Department Area Produksi Mcd, Plant M, PT “X” Tahun 2017. Environmental Occupational Health and Safety Journal, 1(1), 51–60
  15. Susanti, E., Sugianto, W., & Azharman, Z. (2018). ANALISIS KONSUMSI ENERGI KERJA KARYAWAN KETIKA MELAKUKAN OlAHRAGA TENIS : STUDI KASUS KARYAWAN PT. AKER SOLUTION BATAM (Vol. 3, Issue 2).
  16. Widhiarso, W., & Ernawati, R. (2022). Analisis Beban Kerja Pada Proses Perakitan Timbangan. Industri Inovatif : Jurnal Teknik Industri, 12(2), 109–116. https://doi.org/10.36040/industri.v12i2.4416
  17. Yanto & Ngaliman, B. (2017). ERGONOMI Dasar-Dasar Studi Waktu dan Gerakan Untuk Analisis dan Perbaikan Sistem Kerja. Jakarta: Andi.
  18. Zaky, M., Universitas, M., Nasional, P., Veteran, ", Jawa, ", & Rusindiyanto, T. (n.d.). Analisis Beban Kerja Fisik Dan Mental Terhadap Rider Grab Menggunakan Metode Cardiovascular Load (CVL) Dan Subjective Workload Assesment Technique (SWAT) (Studi Kasus: Rider Grab Domisili Kelurahan Balas Klumprik Kecamatan Wiyung). Jurnal Ilmiah Dan Karya Mahasiswa, 1, 213–228. https://doi.org/10.54066/jikma-itb.v1i3.328