Analysis of Test Results for Coffee Peeler Machine with a Capacity of 40 Kg/Hour

Authors

  • Nofan Miranza University of North Sumatra

Keywords:

Analysis , Coffee Skin, Peeling Machine

Abstract

During the long-term development until now, industrial machinery products have shown very rapid progress, both in terms of volume and variety of products produced. The development of this product is not only marked by the fulfillment of the interests of the community, but also leads to the ability to enter exports to increase the country's foreign exchange. reference books, literature complements the theories in this report. (2) The method of consultation, with the final project supervisor, as well as the workshop person where the author completed this design. (3) Conducting field surveys, by viewing and comparing existing appropriate technology machines. The main components of the coffee peeling machine analyzed include: - Motor power - Belt (V-belt) - Shaft - Bearing - Peeler Capacity From several tests that have been carried out, the following conclusions can be drawn: (1) The production speed of the tool is 60 minutes with tool efficiency 93%. (2) The rotational speed used is 478 rpm (3) The planned load capacity is 40 kg (4) The driving motor power Hp. (5) The transmission system used is belt and pulley. There are several factors that cause coffee cherries to not be peeled by the peeler, including: - Young (green) coffee cherries - Irregular shape - Sleeping paring teeth - The distance between the peeler teeth and the bruising plate is far apart. Suggestions in this research are: (1) It is better to take care of the components of this tool because it is easy to corrode. (2) Check the tool before operation.

References

DIRMANSYAH, S. (2020). ANALISIS PENGEMBANGAN KUALITAS SUMBER DAYA MANUSIA PETANI KOPI DALAM MENINGKATKAN HASIL PRODUKSI KOPI DALAM PERSPEKTIF EKONOMI ISLAM (Studi pada Desa Tanjung Raya Kecamatan Pesisir Selatan Kabupaten Pesisir Barat). UIN RADEN INTAN LAMPUNG.

Edy, D. L., & Mindarta, E. K. (2019). PENINGKATAN PRODUKTIVITAS PETANI TANAMAN KOPI PEMANFAATAN TEKNOLOGI MESIN PENGERING KOPI BAHAN BAKAR BRIKET SEBAGAI BAHAN BAKAR ALTERNATIF. Sarwahita, 16(02), 175–182.

Ginting, M. S. (2009). Prosedur dan Pembuatan Mesin Pengupas Kulit dengan Kapasitas 40 kg/jam.

Hariyanto, D. F., Anwar, M. T. S., Agustiawan, R., Sumantri, D., & Lestari, D. M. (2022). Perawatan Mesin Pemisah Biji Kopi di Desa Gunung Karamat. Jurnal Abdi Nusa, 2(2), 70–76.

Hutajulu, S. M., & Supriyanto, S. (2013). Tinjauan Pelaksanaan Pelatihan Dan Pengembangan Karyawan Pada Pt. Inalum Kabupaten Batubara. Jurnal Bis-A: Jurnal Bisnis Administrasi, 2(2), 30–39.

Jani, R., & SUGIONO, S. (2014). Analisis Pengendalian Persediaan Bahan Baku Pakan Ternak Sapi Dalam Rangka Efisiensi Dengan Menggunakan Diagram Pareto, Metode EOQ Dan Diagram Sebab Akibat (Studi Kasus Pada PT. Kariyana Gita Utama). Fakultas Ekonomika dan Bisnis.

Lailida, J. A., Sunartomo, A. F., & Hariyati, Y. (n.d.). MOTIVASI PETANI DAN STRATEGI PENGEMBANGAN USAHATANI KOPI ARABIKA.

Minarni, M., Malik, A., & Fuldiaratman, F. (2019). Pengembangan bahan ajar dalam bentuk media komik dengan 3D page flip pada materi ikatan kimia. Jurnal Inovasi Pendidikan Kimia, 13(1).

Miranza, N. (2009). Analisa Hasil Pengujian Mesin Pengupas Kulit Kopi dengan Kapasitas 40 Kg/Jam.

Mukhyi, M. A., & Mujiyana, M. (2008). PENERAPAN TEKNOLOGI SISTEM INFORMASI DAN TEKNOLOGI TEPAT GUNA PADA USAHA KECIL MENENGAH. Proceeding, Seminar Ilmiah Nasional Komputer Dan Sistem Intelijen (KOMMIT 2008) Auditorium Universitas Gunadarma, Depok, 20-21 Agustus 2008.

Pranata, E., & Mahadi, B. (2019). Proses Teknologi Pembuatan Mesin Pemipih Kolang Kaling Model Drum Rotari Kapasitas 40 Kg/jam. Mekanik, 5(2), 329191.

Prasetyo, E. (2012). Proses pemesinan pada mesin pemarut dan pemeras kelapa menjadi santan dengan menggunakan motor 1 HP.

Sudarman, S., Suwahyo, S., & Sunyoto, S. (2015). PENERAPAN KETEL UAP (STEAM BOILER) PADA INDUSTRI PENGOLAHAN TAHU UNTUK MENINGKATKAN EFISIENSI DAN KUALITAS PRODUK. Sainteknol: Jurnal Sains Dan Teknologi, 13(1).

Wahyu Lestari, T. (2014). Teknik Sambung Stek Bibit Pada Budidaya Tanaman Kopi Arabika (Coffea Arabika Linn) Di Ptpn Xii (Persero) Kebun Kalisat Jampit Afdeling Kampung Baru Bondowoso.

Zulpan, M. (2009). Rancang Bangun Mini Forklift dengan Kapasitas Maksimum 5 kg.

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Published

2022-02-28

How to Cite

Miranza, N. (2022). Analysis of Test Results for Coffee Peeler Machine with a Capacity of 40 Kg/Hour. International Journal of Mechanical Computational and Manufacturing Research, 10(4), 180–187. Retrieved from https://trigin.pelnus.ac.id/index.php/Computational/article/view/14

Issue

Vol. 10 No. 4 (2022): February: Mechanical Computational And Manufacturing Research

Section

Articles

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Copyright (c) 2022 Nofan Miranza

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