Alat Penggorengan Abon Ikan Berpenggerak Motor Listrik 200 Watt
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Yohanes T. Luluk(1)
Program Studi Teknik Mesin, Fakultas Sains dan Teknik Universitas Nusa Cendana
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Ishak S. Limbong(2*)
Program Studi Teknik Mesin, Fakultas Sains dan Teknik Universitas Nusa Cendana
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Jack C.A. Pah(3)
Program Studi Teknik Mesin, Fakultas Sains dan Teknik Universitas Nusa Cendana
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Murni Pallawagau(4)
3SMK Negeri 7 Kupang, Dinas Pendidikan Propinsi Nusa Tenggara Timur
(*) Corresponding Author
Abstract
Fisheries play a crucial role in the Indonesian economy, particularly for fishermen and coastal communities. However, fishery products such as fish floss have problems in the frying process, which requires continuous human power to stir. This research aims to design and develop a fish floss frying device powered by an electric motor with a driving power of 200 W. This tool is expected to facilitate the fish floss frying process, reduce the energy expended by the fish floss maker, and increase the efficiency of the production process. This research uses data collection methods, tool design, and tool testing. Autodesk Inventor software was used in the design stage to design the tool frame, stirrer, and pan holder. This tool includes an electric motor, gearbox, pulley, V-belt, and frying pan. Then, the tool was made using a hollow iron box, a stainless-steel pipe, and wood. This research yields a fish floss fryer equipped with an electric motor, capable of frying fish floss with a capacity of up to 3 kg. This tool can help ease the work of frying fish floss, save labour, and increase production efficiency. With a driving power of 200 W, this tool can produce good-quality fish floss
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References
[2]. Aliyah, Rizkia, Iwang Gumular, and Ine Maulina. 2015. “Strategi Pengembangan Usaha Pengolahan Abon Ikan (Studi Kasus Rumah Abon Di Kota Bandung) Business Development Strategies Of Processing Fish Floss (Case Study Of Rumah Abon In Bandung).” Jurnal Periknanan Kelautan 2(1): 78–84.
[3]. Anwar, Chairil -. 2018. “Pengaruh Jenis Ikan Dan Metode Pemasakan Terhadap Mutu Abon Ikan.” Jurnal FishtecH 7(2): 138–47.
[4]. Ii, B A B. 2008. “Bab-Ii-Buku-Aboni-Abon-Ikan-Tanjung-Medang.” : 7–20.
[5]. Ismail, Andi Muhammad, and Dhanang Eka Putra. 2017. “Inovasi Pembuatan Abon Ikan Cakalang Dengan Penambahan Jantung Pisang.” Agritech: Jurnal Fakultas Pertanian Universitas Muhammadiyah Purwokerto 19(1): 45–54.
[6]. Kusnandar, M F K. 2017. “Rancang Bangun Dan Analisa Mesin Pengaduk Dodol Semi Otomatis Dengan Kapasitas 30 Kilogram.” https://dspace.uii.ac.id/handle/123456789/27867.
[7]. LIU. 2020. “ARTIKEL ABON IKAN.” : 151–56.
[8]. Parsa, I Nyoman Bagia & I Made. 2018. Motor-motor listrik MOTOR-MOTOR LISTRIK.
[9]. Poros, Pengertian. “MACAM-MACAM POROS Hal-Hal Penting Dalam Perencanaa Poros.” : 1–13.
[10]. Qurohman, M Taufik, Syaefani Arif Romadhon, and M. Mawan Junaidi Usman. 2020. “Analisis Putaran Pulley Pada Mesin Penggiling Jagung.” Nozzle : Journal Mechanical Engineering 9(2): 41–44.
[11]. Sifa, Agus, Tito Endramawan, Indrawan Nurahman, and Ikbal Dwi Pangga. 2020. “Rancang Bangun Mesin Pengaduk Dodol Karangampel.” Universitas Negeri Surabaya: 26–27.
[12]. Sularso Suga, Kiyokatsu. 2004. “Dasar Peracangan Dan Pemilihan Elemen Mesin.” Paper Knowledge . Toward a Media History of Documents: 1–350.
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