Operational Improvement with Advanced Design of Agri Robot in The Era of Agriculture

Authors

  • Akshay Dilip Anjikar  Ph.D. Scholar, Department of Mechanical Engineering, Kalinga University, Raipur, C.G, India
  • Dr. Vinay Chandra Jha  Professor, Department of Mechanical Engineering, Kalinga University, Raipur, C.G, India.

DOI:

https://doi.org/10.32628/IJSRSET229110

Keywords:

Agricultural robot, Design of robot, Seed box, Feed shaft, Mass flow metering device, Ground wheel ,Furrow opener

Abstract

In the Indian Academy, Agriculture plays a important role. Over the last few decades, Indian agriculture has recorded good growth. Implementing done in this area. The multipurpose farming robot is a fundamental a new ideas in this field is very important, although a lot of work has been major agricultural machine for full yield. A laborious technique is the conventional method of weeding, sowing seeds and spraying pesticides. In India, bullocks, horses, and buffalo are still used by many farmers for agricultural operations. This would not satisfy the need for agricultural energy needs, in comparison to other countries around the world. We assume that human and animal efforts can be replaced from an economic point of view by some advanced mechanism that will be ideal for small-scale farmers. We are therefore designing this prototype and assume that it will fulfil all requirements and problems in real life. India is a country focused on agriculture in which 70% of individuals rely on the results of farming. But if we observe that with population growth the farm is spread among the family and because of this, farmers in India kept only two acres of farm on average. Economically, farmers are still very poor because they are unable to afford tractors and other expensive machinery, so they use conventional farming methods. So, we are designing this machinery that will fulfil all this need and solve the problem of labor. The paper deals with multi-purpose agriculture machine for seed feeding, spraying pesticides, fungicides, and fertilizers and cutting. Thus paving way for a more economical and multi-usable equipment for farmer which is also easy to clean and maintain, easy to handle and do not require fuel, hence cost gets reduced and helping farmers to a great extent in their fields

References

  1. David Gordon Wilson. Technical Reviewers, Understanding Pedal Power. Volunteers in Technical Assistance (VITA), Y. Yorozu, M. Hirano, K. Oka, and Y. Tagawa, “Electron spectroscopy studies on magneto-optical media and plastic substrate interface,” IEEE Trans J. Magn. Japan, vol. 2, pp. 740-741.
  2. Zakiuddin K.S., Modak J.P. 2010. Design and Development of the Human Energized Chaff Cutter. New York Science Journal.
  3. P.B. Khope, J.P. Modak “Development and performance evaluation of a human powered flywheel motor operated forge cutter” ISSN 2277- 8616.
  4. Abdul Shakoor khan and M Salim “Rice harvesting and threshing” PAK J FOOD SCI, 12(1-2): 45-52.
  5. P. Bhargavi, Dr.S. Jyothi.,2011 “Soil Classification Using Data Mining Techniques: A Comparative Study”, Vol:2, ISSN:2231- 5381(IJETT).
  6. B. Shivprasad, M. Ravishankara, B. Shoba.,2010 “Design and Implementation of Seeding and Fertilizing Agriculture Robot”, Volume 1(3)190-213.
  7. R. Joshua, V. Vasu and P. Vincent. (2010) “Solar Sprayer - An Agriculture Implement”, “International Journal of Sustainable Agriculture 2 (1): pp. 16-19, ISSN 2079-2107”
  8. M. A. Miller, B. L. Steward, M. L. Westphalen “Effects of multi−mode four−wheel steering on sprayer machine performance”, American Society of Agricultural Engineers ISSN 0001−2351
  9. R. D. Fox, R. C. Derksen. (2003) “Visual and image system measurement of spray deposits using water–sensitive paper” Applied Engineering in Agriculture Vol. 19(5): pp. 549–552. American Society of Agricultural Engineers ISSN 0883–8542.
  10.  Laukik P. Raut , Smit B. Jaiswal, Nitin Y. Mohite. (2013, Nov.) “Design, development and fabrication of agricultural pesticides sprayer with weeder”,International Journal Of Applied Research and studies(iJARS), pp. 1-8, ISSN: 2278-9480.
  11.  Mohd.Hudzari Haji Razali. (2012, May). “Sprayer Technology for Farm Mechanization Course” ,Technical Journal of Engineering and Applied Science(TJEAS), pp. 107-112, ISSN: 2051-0853
  12. Sandeep H. Poratkar and Dhanraj R. Raut. (2013, Mar.) “Development of Multinozzle Pesticides Sprayer Pump”, International Journal of Modern Engineering Research (IJMER), Vol.3, Issue.2, pp-864-868, ISSN: 2249-6645.
  13. Mahir DURSUN and Semih OZDEN, “Application of Solar Powered Automatic Water Pumping in Turkey”International journal of Computer and Electrical Engineering, Vol.4, No.2, April 2012, Pages 161-164.
  14. B.Eker, “Solar Power Water Pumping System” Trakia Journal of Sciences, Vol 3, No. 7, Pages 7-11.
  15. Hemant Ingale, N.N.Kasat, “Automated Solar based Agriculture Pumping” International journal of Advanced Research in Computer Science and Software Engineering, volume2, Issue 11, November 2012, Pages407-410.
  16. Abhishek Jivrag, Vinayak Chawre, Aditya Bhagwat, “Solar Operated Multiple Granulated Pesticide Duster” Proceedings of the World Congress on Engineering, Vol 3, July 6-8, 2011. London, U.K.
  17. J-K won M, Nam K-H, Kown B-H. Photovoltaic power conditioning system with line conncection. IEEE Ind Appl Mag 2001; 7:16e72.
  18. K.Ganesh, S.Girisha and G. Amirtha Kannan, “Embaded Controller in Farmers Pump by Solar Energy” International journal of Instrumenatation, Control and Automation, Volume 1, Issue 2, 2011, Pages 77-81.
  19. S.Mathana Krishnan, V.Sivagnanam and S.Anish Mathew "Residential solar cooker", International journal of scientific and research publications,Vol 2, Jan 2012,ppl-3
  20. Stobdan, T., Angmo, S., Angchok, D., Paljor, E., Dawa, T., Tsetan, T and Chaurasia, O.P. 2018. Vegetable production scenario in transHimalayan Leh Ladakh region, India. Defence Life Science Journal,3(1): 85- 92.
  21. Tewari, J.C., Pareek, K., Tewari, P and Raghuvanshi, M.S. 2015. Productivity and energetics of crops in farming systems in Ladakh: A case study of a village in Leh. In Sustaining Agricultural Productivity in Arid Ecosystems: Challenges and Opportunities. pp. 31-37.

International Journal of Scientific Research in Science, Engineering and Technology

Downloads

Published

2022-02-28

Issue

Volume 9, Issue 1, January-February-2022

Section

Research Articles

License

Copyright (c) IJSRSET

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

How to Cite

[1]
Akshay Dilip Anjikar, Dr. Vinay Chandra Jha "Operational Improvement with Advanced Design of Agri Robot in The Era of Agriculture" International Journal of Scientific Research in Science, Engineering and Technology (IJSRSET), Print ISSN : 2395-1990, Online ISSN : 2394-4099, Volume 9, Issue 1, pp.23-29, January-February-2022. Available at doi : https://doi.org/10.32628/IJSRSET229110