Uji Kinerja Prototipe Mesin Panen Padi Indo Combine

Anjar Suprapto, Sulha Pangaribuan, Titin Nuryawati

Sari


Harvesting is a critical stage in rice cultivation. When it was late, the quality and quantity of the rice will be decreased and damaged. Constraints faced in the development of rice harvester in Indonesia are rare harvest labor, easy-to-lose rice crops, and narrow and flabby land. The purpose of this research is to do the  performance test of Indo Combine harvester machine prototype that has been produced by the Indonesian Center of Agricultural Engineering Research and Development. Performance testing is performed to obtain work capacity, field efficiency, and yield loss on soil and crop conditions during harvesting. Testing has been done in Kabupaten Karawang. The test results showed that the working capacity of the machine is 5.59 hours / ha or 0.18 ha / hour and the fuel consumption is 14.91 l / ha with the average value of the working width of 1.2 m and the road speed of 1.98 km / hour. The theoretical capacity is 0.26 ha / hour so that the field work efficiency is 68.84%. The yield losses in the feeder averaged by 2.51%. Ground pressure of the prototype is 0.13kg / cm2, so the prototype of combine harvester can operate even in the rainy season. Based on the test results, it can be said that the prototype of Indo Combine rice harvester has functioned well.

 

Keywords : Indo Combine, performance test, rice harvester.


Teks Lengkap:

Halaman 96-102

Referensi


BPS. (2017). Penduduk 15 Tahun Ke Atas yang Bekerja menurut Lapangan Pekerjaan Utama 1986 - 2017. https://www.bps.go.id/linkTabelStatis/view/id/970 [diakses 31 Agustus 2017].

Chinsuwan, W., Chuan-udom, S., and Phayom, W. 2002. Rice Harvest Losses Assessment. TSAE Journal. 9(1), 14-19.

Chinsuwan, W., Pongjan, N., Chuan-udom, S. and Phayom,W. 2004. Effect of Reel Index on Gathering Loss of Rice Combine Harvester. TSAE Journal. 11(1): 7-9.

Junsiri, C. and Winit Chinsuwan, 2009. Prediction equations for header losses of combine harvesters when harvesting Thai Hom Mali rice. Songklanakarin J. Sci. Technol. 31 (6), 613-620, Nov. - Dec. 2009.

Nugraha, S. (2008). Penentuan umur panen dan sistem panen. Jakarta: Badan Litbang Pertanian.

Pitoyo, J., D.A. Budiman, Arustiarso, K. Soelistiadji, N. Sulistyosari, 2010. Rekayasa dan Pengembangan Mesin Pemanen dan Perontok Padi Walking Type Combine Harvester Kapasitas 10 jam/ha. Laporan Akhir Kegiatan. Balai Besar Pengembangan Mekanisasi Pertanian, Badan Litbang Pertanian.

Quick, G. 1999. The Rice Harvester Reference. RIRDC Rice Research and Development Program. RIRDC Publication No. 99/38.

Setyono, A., S. Nugraha dan A. Hasanuddin, 1996. Usaha pengembangan pemanenan padi dengan sistem beregu. Seminar Apresiasi Hasil Penelitian. Prosiding Seminar Nasional Balai Penelitian tanaman Padi. 23 – 25 Agustus 1995: Sukamandi.

Siebenmorgen, T.J., Andrews, S.B. and Counce, P.A. 1994.Relationship of the Height Rice is Cut to Harvesting Test Parameters. Transactions of the ASAE 37(1), 67-69.

Sulistiadji, K. dan Handaka, 2006. Evaluasi Teknis dan Ekonomis Mesin Panen padi Tipe Sisir (stripper) Merk Candu. Jurnal Enjiniring Pertanian, B.B Mektan. Badan Litbang Pertanian.

Sulistiadji, K., J. Pitoyo, Handaka, Haryono. 2007. Inovasi teknologi mekanisasi budidaya padi/palawija dalam rangka mendukung peningkatan produktivitas dan efisiensi sumberdaya pertanian. Prosiding Seminar Nasional Mekanisasi Pertanian. 28 Agustus 2007: Bogor.




DOI: http://dx.doi.org/10.25181/prosemnas.v0i0.709

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