Published June 30, 2024 | Version CC-BY-NC-ND 4.0
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Design and Fabrication of a Tractor- Drawn Multi-Crop Planter

  • 1. Oromia Agricultural Research Institute, Fedis Agricultural Research Center P.O. Box 904, Harar, Ethiopia.

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  • 1. Oromia Agricultural Research Institute, Fedis Agricultural Research Center P.O. Box 904, Harar, Ethiopia.

Description

Abstract: The study was undertaken to design, fabricate multi-crop planter capable of planting maize, common bean and sorghum seeds at predetermined spacing and depths. Physical properties of seeds involved in the study were investigated to optimize the design of the planter’s components. The planter, consists of a frame, seed hopper, seed metering devices, seed tube, adjustable furrow opener, adjustable furrow covering device, and drive wheels. The investigation revealed that the sphericity of maize, common bean and sorghum were 64.8, 72.4 and 81%, respectively. Percentages of mechanically seed damaged by the planter were zero for each crops. Germination test was conducted to assess the magnitude and extent of invisible seed damage inflicted by the planter indicated mean percentage seed germination of 98.5, 94.5 and 97.3% for maize, common bean, and sorghum, respectively. The reduction in percentage germination of maize, common bean and sorghum were zero, when compared with that did not passes through the machine for all the seeds tested. Based on the above results, it is concluded that the planter can be efficiently and effectively used by the majority of the farmers and other stakeholders in the study area.

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Additional details

Identifiers

DOI
10.54105/ijae.E4491.04010524
EISSN
2582-9319

Dates

Accepted
2024-05-15
Manuscript received on 01 May 2024 | Revised Manuscript received on 12May 2024 | Manuscript Accepted on 15 May 2024 | Manuscript published on 30 June 2024.

References

  • Abiy Solomon Haile. 2017. Design, Fabrication and Performance Evaluation of Two Wheel Tractor Drawn Six Row Wheat Seed Drill (Doctoral dissertation, Adama Science and Technology University).
  • ASME, 1995. Design of transmit ion shafting. American Society of Mechanical Engineering, New York, USA.
  • Dubey, A.K. 2003. Design of sowing machine. Teaching material for training on computer aided design and design methodology for agricultural machinery. Technical bulletin no CIAE/AMD/2003/296, pp.92-102.
  • El-Raie, A.E., Hendawy, N.A. and Taib, A.Z. 1996. Study of physical and engineering properties for some agricultural products. Misr. Journal of Agricultural Engineering 13(1):211-226.
  • FAO .1994. Testing and evaluation of agricultural machinery and equipment: Principles and practices.
  • Gupta, R. A., Mohnot, P., Satasiya, R. M. and Marvia, R. B. 2004. Development and testing of a seed-cum-fertilizer drilling attachment to tractor-driven cultivator. J. of Agril. Mechanization in Asia, Africa and Latin America
  • Hunt, D. 1995. Farm Power and Machinery Management, 9th- edition, Iowa State University Press, Ames, Iowa50014 .4-6 & 65-75.
  • ITSI-SU, January 26 (2011): Mass, volume and density of regularly and irregularly shaped object. Internet: http://www.pdesas.org/module/content/resources/14756/view.ashx
  • Janke, J. and Erbach D.C. 1985. Seed depth distribution in no till and strip till. ASAE Paper, 85–1013. ASAE, St Joseph, MI.
  • Jayan, P.R. and Kumar, V.J.F. 2004. Planter design in relation to the physical properties of seeds. Journal of Tropical Agriculture, 42.69-71.
  • Jouki, M. and Khazaei, N. 2012. Some physical properties of rice seed (Oryza sativa). Research journal of applied sciences, engineering and technology, 4(13),.1846-1849.
  • Kepner, R.A., Bainer, R., Barger, E.L.1978. Principles of Farm Machinery, 3rd edition .Inc. AVI Publishing Company, Westport, USA.
  • Khurmi, R.S. and Gupta, J.K.2005. A Textbook of Machine Design. Eurasia Publishing House (Pvt.) Ltd., Ram Nagar, New Delhi, India.
  • Kumar, A., S. C. Moses, and K. Khan. 2015. A survey on the design, fabrication and utilization of different types of foods and vegetables dryer. IOSR Journal of Agricultural and Veterinary Science I, 8(4): 2319–2372
  • Kurtz, Gary; Thompson, Laster and Clwar, Paul. 1984. Design of agricultural machinery. John Willey and Sons, Singapore, 245 - 255.
  • Olaoye, J.O. and Bolufawi, S.J., 2001. Design, fabrication and performance of multipurpose row planting machine. J. Sustain. Agric. Environ, 3(1): 7-20.
  • Rangapara, D. and Jaimin, P. 2014. Performance Evaluation of Manually Operated Single Row Cotton Planter. International Journal of Engineering Sciences and Research Technology, 3(9) 40-44.
  • Ryder G.H.1989. Strength of Materials, 3rd ed. Macmillan, Nigeria.
  • Seely, F. B., and Smith, J. O. (1995): Advanced mechanics of materials (IInd Ed.). John Wiley and Sons Inc. London
  • Senger, S.M. 2002. Design and development of animal drawn seeder for rice cum green manure crops for biasi cultivation system. M. Tech. Agril. Engg.) Thesis, Indira Gandhi Agricultural University. Raipur, Chhattisgarh.
  • Sharma, D.N. and Mukesh, S. 2010. Farm machinery design: Principles and problems second edition Jain brothers.
  • Singh, R.C, Singh, G., Saraswat, D.C. 2005. Optimization of design and operational parameters of a pneumatic seed metering device for planting cottonseeds. Biosystems Engineering, 92(4): 429–438. https://doi.org/10.1016/j.biosystemseng.2005.07.002
  • Soyoye, B. O., O. C. Ademosun, and E. O. Olu-Ojo. 2016. Manually operated vertical seed-plate maize planter. CIGR Journal, 18(4): 70-80.
  • Thomas, H. and Brown, J. 2005. Marks Calculation for Machine Design, McGraw-Hill, New York.
  • Waziri, A.N. and Mittal, J.P., 1983. Design related physical properties of selected Agricultural Products. Agri. Mechanization in Asia, Africa and Latin America, 14(4): 59-62.
  • Yasir, H, Q. Liao, J. Yu, and D. He. 2012. Design and test of a pneumatic precision metering device for wheat. CIGR Journal, 14(1): 16-25.
  • Sanodiya, G. (2022). Efficient Solar Air Heater Absorber Plate for Crop Drying Application. In Indian Journal of Agriculture Engineering (Vol. 2, Issue 1, pp. 1–4). https://doi.org/10.54105/ijae.c1507.051322
  • K, S., N, M., & S, P. (2019). Design of Manure Spreader Machine for agricultural farm field. In International Journal of Innovative Technology and Exploring Engineering (Vol. 9, Issue 1, pp. 4280–4284). https://doi.org/10.35940/ijitee.a4877.119119
  • Vorotnikov, I. L., Petrov, K. A., Esin, O. A., Gutuev, M. Sh., & Ermolova, O. V. (2019). Organization for repair technology and maintenance of agricultural machinery. In International Journal of Recent Technology and Engineering (IJRTE) (Vol. 9, Issue 2, pp. 4685–4690). https://doi.org/10.35940/ijrte.b3511.078219
  • N C, C., V U, C. K., G B, M., & M, S. K. (2021). Advanced Solar Operated Multi-Purpose Agricultural Equipment. In International Journal of Engineering and Advanced Technology (Vol. 10, Issue 3s, pp. 40–43). https://doi.org/10.35940/ijeat.c1009.02103s21
  • Agidi, G., Muogbo, C., & Mohammed, G. I. (2021). Field Capacity and Efficiency of a Turmeric Rhizome Planter in Response to Machine Speeds and Some Selected Crop Parameters. In Indian Journal of Design Engineering (Vol. 1, Issue 2, pp. 1–5). https://doi.org/10.54105/ijde.b8002.081221