Manufacturing of Coconut Coir Peeling Machine
DOI:
https://doi.org/10.59890/ijist.v2i12.98Keywords:
Peeling Machine, Coconut, ManufacturingAbstract
An automatic coconut coir peeling machine is a tool designed to make the process of peeling coconut coir easier. In the context of trade, especially in the sale of coconuts, this tool is very helpful for sellers who previously relied on traditional methods, such as cutting coconuts with crowbars, which required considerable time and effort. With the automatic coconut coir peeling machine, this process becomes more efficient and faster.
The process of manufacturing this machine involves several important steps, including material selection, component procurement, and manufacturing the components themselves. The material chosen is ST 37 steel with profile steel specification 1. Machine components are manufactured using lathes and grinding machines.
The test results show that this coconut coir peeling machine makes the stripping process easier and more efficient. This machine has specifications that are quite large and heavy, so it requires sufficient space for operation and placement so as not to interfere with other activities. In addition, moving the machine from one place to another requires additional energy. The time it takes to peel coconut coir with this machine is about eight minutes.
References
Cost, P., & Quality, D. A. N. (2016). Digital Digital Repository Repository University of Jember Jember Digital Digital Repository Repository University of Jember Jember.
Cahyaningtyas, A. S., Aeni, A. N., & Adipura, H. N. (2023). The Influence of Technological Development in the Industrial Revolution Era. Padjajaran University, October, 1–18.
Danuri, R. (2015). Design of a multi-purpose chopper tool of the blade sliding type using the mechanical Ralph Steiner principle. Journal of Mechanical Engineering, 3(1), 24–30.
Efrizal, E., & Sabar, M. (2020). Analysis of Sprocket and Chain Transmission Design in Gasoline Prototype Vehicles Energy Efficient Car Contest (Kmhe) Minister of Research, Technology and Higher Education Umt. Burning Motor : Journal of Mechanical Engineering, 3(1), 1–7. https://doi.org/10.31000/mbjtm.v3i1.3072
Fauzana, N., Pertiwi, A. A., & Ilmiyah, N. (2021). Ethnobotany of Coconut (Cocos nucifera L.) in Sungai Kupang Village, Kandangan District, South Hulu Sungai Regency. Al Kawnu : Science and Local Wisdom Journal, 1(1), 45–56. https://doi.org/10.18592/ak.v1i1.5073
McLean, G. W. (2005). Generators. Newnes Electrical Power Engineer’s Handbook, Second Edition, 11(1), 105–133. https://doi.org/10.1016/B978-075066268-0/50005-6
Pomalingo, N., Rantelinggi, D., & Sirajuddin, Z. (2022). Coconut Economic Potential Through the Utilization of Coconut Derivative Products in Gorontalo Regency. Poltanesa Bulletin, 23(2), 792–798. https://doi.org/10.51967/tanesa.v23i2.1335
Priyotomo, G. (2020). Metal Discharge of Stainless Steel Cookware in Acid and Salt Simulation Solution. Journal of Halal Agroindustry, 6(2), 217–227. https://doi.org/10.30997/jah.v6i2.2680
Rabbani, D. A., & Najicha, F. U. (2023). The Influence of Technological Development on the Life and Social Interaction of Indonesian People. Researchgate.Net, November, 0–13.
Riyadi, A., Hartono, P., & Lesmanah, U. (2021). Planning of Mechanical System Coconut Coir Peeling Equipment. Journal of Mechanical Engineering, 16(3), 8–15.
Riyan, A., Ibnu, H., Study, P. D., Production and Maintenance Machinery of the Bengkalis State Polytechnic Jl Bathin Alam, T., Sungai Alam, D., & Riau, B. (2022). Design of a semi-automatic coconut coir peeling machine with a capacity of 100 pieces/hour. 1.
Wibowo, P. P., & Pramono, A. S. (2018). Modeling and Analysis Based on Experimental Studies on the Effect of Tooth Profile Modification on Dynamic Characteristics in Involute Spur Gear. ITS Engineering Journal, 6(2), 752–755. https://doi.org/10.12962/j23373539.v6i2.27202
Yericsen, P. (2023). Analisa Efisiensi Gearbox Pada Motor Penggerak Listrik Kapal Nelayan= Analysis of Gearbox Efficiency in Fisherman Ship Electric Driving Motors. 2, 26–32. https://doi.org/10.25042/jrt2k.062023.04
