Journal of Researches in Mechanics of Agricultural Machinery

Journal of Researches in Mechanics of Agricultural Machinery

Design and construction of a Special Head for collecting raisins and investigating the physical damage to the product during collection

Document Type : Research Paper

Authors
Hamed Ramezani 1
Mohammad Hadi Khoshtaghaza 2
Saeed Minaee 1
Gholamreza Akbarizadeh 3
1 Biosystems Engineering Department, Faculty of Agriculture, Tarbiat Modares University
2 Biosystems Engineering Dept., Tarbiat Modares University,
3 Department of Electrical Engineering, Faculty of Engineering, Shahid Chamran University of Ahvaz
10.22034/jrmam.2023.13979.604
Abstract
Iran is one of the world's largest and most important raisin-producing countries. Considering the amount and value of raisin exports in Iran, mechanizing this product's collection and maintaining its mechanical quality is one of the most necessary tasks in this field. Therefore, the main purpose of this study is to design and construct a collection head in a Rover for collecting raisin products from the ground and then evaluate the mechanical damage of raisin crops during collection from the ground by the collecting head. After performing the software design, the necessary calculations were performed to select different device parts. The rover was evaluated on raisins spread on the ground at three forward speeds of the rover (1, 2 and 3 km/h) and three heights of the head (2, 5 and 10 mm) from the ground surface. The constructed head with a length of 80 cm was mounted on a rover with dimensions of approximately 70 × 50 cm. The working capacity of this machine at the rotational speed of 25 rpm of the collecting brush is equal to 3.3 kg/min, and it is able to fill the 80 kg container every 15 minutes. The evaluation results showed that the effect of forward speed and head height on mechanical damage was significant (p <0.01), but their interaction was not significant. Also, the lowest mechanical damage (11%) was related to the height of 2 mm from the ground. Mechanical damage of the product was reduced by 8% at the forward speed of 1 km/h compared to the other two speeds.
Keywords
Automatic machine
Collecting Brush
Sunny raisins
Motor selection
Power transmission
Subjects
Ahangarnejad, N., Alimardani, R. & Chegini, G. R. 2010. Potato harvesting machine design - Part 3: Evaluation of weighing and packaging mechanism. Paper presented at the Sixth National Congress of Agricultural Machinery and Mechanization Engineering, Tehran.(In Persian).
 
Anonymous. 1999. Understanding D. C. Motor Characteristics, from http://lancet.mit.edu/motors/motors3.html#speed .
 
Anonymous. 2018. Specification and methods of test for raisin: Institute of Standards and Industrial Research of Iran. (Vol. 17: pp. 31). (In Persian)
 
Azadbakht, M., Kiapey, A. & Jafari, A. 2014. Design and fabrication of a tractor powered leaves collector machine equipped with suction-blower system. Agricultural Engineering International: CIGR Journal, 16: 77-86.
 
Bayat, F. & Mahjoub, M. (Eds.). 2009. Harvesting, drying and storing walnuts. Hamedan: Agricultural Extension Coordination Management Publications.
 
Brijesh, K.J., Karthik, P., Adarsh, S. B., Githin, V. & Kevin, X. 2019. Design and Fabrication of Waste Collecting Machine. International Research Journal of Engineering and Technology (IRJET), 6: 2092-2098.
 
Budynas, R. G. & Nisbett, J. K. 2015. Shigley's mechanical engineering design (9th edition): Mc Graw Hill.
 
Chakra Kumar, V. S., Sinha, A., Mallya, P. P. & Nath, N. 2017. An approach towards automated navigation of vehicles using overhead cameras. Paper presented at the Conf. Comput. Intell. Comput. Res. (ICCIC).
 
Feng, Q., Zou, W., Fan, P., Zhang, C. & Wang, X. 2018. Design and test of robotic harvesting system for cherry tomato. International Journal of Agricultural and Biological Engineering, 11: 96-100.
 
Ghaffari, A., Abdollahpour, S. & Ahmadi Moghadam, P. 2016. Static design and analysis of chassis and container of leaf collector for garden tractors for optimization. Paper presented at the The 2nd National Conference on Agricultural Mechanization and New Technologies, Khuzestan. (In Persian).
 
Huang, M., Jiang, X., He, L., Choi, D., Pecchia, J. and Li, Y. 2021. Development of a Robotic Harvesting Mechanism for Button Mushrooms. Transactions of the ASABE, 64: 565-575.
 
Khatabi, A. 2013. Raisins. Tehran: Jihad Keshavarzi Publications. (In Persian).
 
Nejatian, M. A. 2018. New sanitary production raisins. Tehran: Publications of the Scientific-Applied and Skilled Higher Education Institute of Jihad Keshavarzi. (In Persian).
 
Radcliffe, J., Cox, J. & Bulanon, D. M. 2018. Machine vision for orchard navigation. Computers in Industry, 98: 165-171.
 
Ramezani, H., ZakiDizaji, H., Masoudi, H. & Akbarizadeh, G. 2016. A new DSWTS algorithm for real-time pedestrian detection in autonomous agricultural tractors as a computer vision system. Measurement, 93, 126-134.
 
Rasooli Harouni, S. 2013. Design and manufacture of automatic fodder collection machine. Paper presented at the 8th National Congress of Agricultural Machinery Engineering (Biosystems) and Mechanization of Iran, Mashhad. (In Persian).
 
Rostami, H., Shamsabadi, H. & Nowruzieh, S. 2017. Evaluation of semi-mechanized cotton harvesting machine. Iranian Cotton Research Journal, 4: 103-118.
 
Sultanzadeh, B. 2010. Raisins, production and consumption in Iran and market regulation strategies. Tehran: Nasaq Publications. (In Persian).
 
Xiong, Y., Peng, C., Grimstad, L., From, P. J. & Isler, V. 2019. Development and field evaluation of a strawberry harvesting robot with a cable-driven gripper. Computers and electronics in agriculture, 157: 392-402.
 
Yamamoto, S., Hayashi, S., Yoshida, H. & Kobayashi, K. 2014. Development of a stationary robotic strawberry harvester with a picking mechanism that approaches the target fruit from below. Japan Agricultural Research Quarterly: JARQ, 48: 261-269.