A Theoretical Substantiation of a Grain Cleaner with a Compound Motion of the Operating Device

APA 6th edition
In-text: (Eskhozhin, Nukeshev, Capov, Baishugulova & Dikhanova, 2016)
Your Bibliography: Eskhozhin, D.Z., Nukeshev, S.O., Capov, S.N., Baishugulova, S.K. & Dikhanova, �.B. (2016). A Theoretical Substantiation of a Grain Cleaner with a Compound Motion of the Operating Device. International Journal of Environmental and Science Education, 11(18), 11385-11392.

Harvard
In-text: (Eskhozhin, Nukeshev, Capov, Baishugulova and Dikhanova, 2016)
Your Bibliography: Eskhozhin, D., Nukeshev, S., Capov, S., Baishugulova, S. and Dikhanova, �. (2016). A Theoretical Substantiation of a Grain Cleaner with a Compound Motion of the Operating Device. International Journal of Environmental and Science Education, 11(18), pp. 11385-11392.

Chicago 16th edition
In-text: (Eskhozhin, Nukeshev, Capov, Baishugulova and Dikhanova 2016)
Your Bibliography: Eskhozhin, Dzhadyger Z., Sayakhat O. Nukeshev, Sultan N. Capov, Shyryn K. Baishugulova and Мeruyert B. Dikhanova (2016). "A Theoretical Substantiation of a Grain Cleaner with a Compound Motion of the Operating Device". International Journal of Environmental and Science Education 11 (18):11385-11392.

Abstract

The agrarian complex is an important part of the economy of a state that provides food to the population. Grain cleaners are an important part of this complex; however, most of them have already exceeded their working life. Necessary quality in grain processing is achieved via multiple passes through the processing line. This situation increases grain loss, causes grain damage, and increases the cost of postharvest handling. The drawback of these machines is that they use a sieve with a crank gear, which reduces the quality of grain cleaning. It is possible to improve the effectiveness of sieves by using a sun and planet gear. The research investigates the characteristics of a grain cleaner with a sun and planet gear, which was designed at the S. Seifullin Kazakh Agrotechnical University Mechanical Engineering Department. A set of complementary methods (including analysis, design, and mathematical modeling) was used to achieve the set goal. A system of first order differential equations and their transformation into logarithmic spiral equations was investigated. The mechanism under consideration significantly increases effectiveness due to the lack of alternating stress, which enables increasing the angular velocity.

Keywords: grain cleaner, alternating motion of sieves, sieve with sun and planet motion, logarithmic spiral equation, seed processing

References

Bayhugulova, Sh.K. Eskhozhin, D. Z., & Capov, S. N. (2015). Improving the quality of the grain cleaning machine by posts working body complex motion. In The Seventh international Conference on Eurasian scientific development. Austria, Vienna.

Bayshugulova, Sh.K. Eskozhin, D. Z. (2015). Substantiation of a new grain cleaner model. Collection of Papers, Proceedings of International Scientific and Practical Conference. H 34 Scientific Discussion: Engineering Science Issues, 30(12), 182.

Bayshugulova, S. K., Eskozhin, D. Z., & Carov, S. N. (2015). To improve the quality of grain cleaners cleaning machines. S. Seifullin Kazakh Agrotechnical University Journal, 87(4), 74–82.

Bilde, M. L. (2015). Combine harvester grain cleaning apparatus : USA patent 8968065 B2.

Bischoff, L. (2015). Sieve for a combine harvester cleaning device : USA patent 9149002.

Capov, S. N., & Shepelev, S. D. (2010a). Improving the effectiveness of grain harvesting and grain cleaning through coordination. Achievements of Science and Technology in the Agro-Industrial Complex, (12), 76–78.

Capov, S. N., & Shepelev, S. D. (2010b). Structural analysis of the grain harvesting technology. Chelyabinsk State Agroengineering Academy Journal, 56, 98–102.

Claerhout, B. S. (2015). Debris screen for combine harvester grain cleaning fan : USA patent application 14/870,983.

Eskhozhin, D. Z., & Bayshugulova, S. K. (2015). A grain cleaner with a compound motion of the operating device. In Collection of Research Papers, Proceedings of the 11th International Scientific and Practical Conference dedicated to the 65th Anniversary of the Agriculture Mechanization Faculty “Relevant Problems of the Scientific and Technological Progress in the Agro (pp. 14–18).

Jing, Z. (2013). Design of New Grain Threshing Cleaning Device. Journal of London University, 1, 17.

Johnson, D. L., Rizzo, M. J., Schmidt, J. R., Stott, B., & Unrau, Z. W. (2015). Combine harvester and associated method for gathering grain : USA patent application 14/656,140.

Liang, Z., Li, Y., Xu, L., & Zhao, Z. (2016). Sensor for monitoring rice grain sieve losses in combine harvesters. Biosystems Engineering, 147, 51–66. http://doi.org/10.1016/j.biosystemseng.2016.03.008

Linenk, A. V., Tuktarov, M. F., & Akruchin, S. V. (2012). Analyzing the performance of the sieve boot driving gear in an experimental grain-cleaning rig with a linear motor. Ulyanovsk State Agricultural Academy Journal, (2), 18.

Matveev, Y. V., Valieva, E. N., Kislov, O. V., & Trubetskaya, A. G. (2016). Globalization and Regionalization: Institution Aspect. IEJME-Mathematics Education, 11(8), 3.

Mingjie, L., Wei, S., & Jianguo, C. (2012). Design of grain combine harvester cleaning overflow fan. Journal of Agricultural Mechanization Research., 8, 90–92.

Sheidler, A. D., Musser, J. W., Finamore, P., & Teijido, J. A. (2014). Grain cleaning system : USA patent 8626400.

Shipachev, V. S. (1990). Higher mathematics. Second Edition.

Stahl, M. S. (2015). Debris screen for combine harvester grain cleaning fan : USA patent application 14/871,308.

Stan, O., & Linde, K. R. (2014). Grain cleaning system for an agricultural combine : USA patent 8821229.