The aim of the research work is to increase the yield of cotton fiber by improving the processing technology of germinated seeds, to improve the quality indicators of seeds and lint. In order to achieve this goal, a mesh surface device was created to sort the seeds into fractions. Sorting technology was developed on this device and operating modes were determined. In addition, the law of surface distribution of the fractions separated from the cotton stream moving along the surface of the net was determined, and based on the results of practical and theoretical research, a mode of sorting of cotton seeds was developed. As a result, differential equations of the law of oscillation of seeds on parallel bases, taking into account the angle of inclination for the movement of cotton seeds on the sorting surface, were constructed and programmed on a computer to construct the trajectory of seeds. On the basis of the laws of motion, the optimal value of the angle of inclination on the horizontal, which gives the state of sorting of seeds, as well as the values of the amplitude and frequency of vibrations, was determined.
References
[1]
Obidov, A., Akhmedhodjaev, K., Sarimsakov, O. and Holikov, Q. Investigation of the Properties of Fibrous Cotton Seeds, for Sorting on a Mesh Surface. Engineering, 10, 572-578. https://doi.org/10.4236/eng.2018.109041
[2]
Obidov, A., Sultonov, M., Muhksinov, I. and Abdullaev, S. (2018) The Theoretical Studies of the Cultivation of Three Cotton Seeds along the Plain. Engineering, 10, 514-520.
[3]
Lascano, R., Baumhardt, R., Goebel, T., Baker, J. and Gitz III, D. (2017) Irrigation Termination Thermal Time and Amount on Cotton Lint Yield and Fiber Quality. Open Journal of Soil Science, 7, 216-234. https://doi.org/10.4236/ojss.2017.79016
[4]
Obidov, A.A. and Sultanov, M.M. (2020) To Research the Method of Separating Fibers Suitable for Spinning on a Needle Drum. International Scientific and Practical Conference Cutting Edge-Science, Shawnee, USA, 29-30 June 2020, 128-131.
[5]
Obidov, A., Mamatqulov, O. and Sultanov, M. (2018) Theoretical Analysis of the Movement of Cotton Piece on the Slope Surface. International Conference Science and Practice: A New Level of Integration in the Modern World, Berlin-Warsawa, Vol. 82, 151-156.
[6]
Axmedxodjayev, K., Umarov, A. and Ortiqova, A. (2019) Investigation of the Ginning Process on ДП Series Saw Gin Stands. Engineering, 11, Article ID: 94702. https://doi.org/10.4236/eng.2019.118036
[7]
Obidov, A.A. (2006) Investigation of the Working Surface of a New Seeding Machine. Journal of Textile Problems, №2, 29-32.
[8]
Obidov, A.A. (2007) Improvement of the Technology of Cleaning and Sorting of Ginned Seeds. Dissertation of Candidate of Technical Sciences. Tashkent: TITLI, 200 p.
[9]
Sultonov, M. and Obidov, A. (2020) Investigation of Working Bodies of the Device for Separation of Fibers Suitable for Spinning from Cotton Waste. Engineering, 12, 893-905. https://doi.org/10.4236/eng.2020.1212063
[10]
Korabayev, Sh.A., Matismailov, S.L., Yuldashev, A.T. and Atanbayev, D.D. (2020) Study of Fiber Movement outside the Crater of Pnevmomechanical Spinning Machine. Solid State Technology, 63, 3460-3466.
[11]
Hamidov, S. and Obidov, А.A. (2020) About Economical Resource Stretching Tool Construction. International Scientific and Practical Conference Cutting Edge-Science, Shawnee, USA, 29-30 June 2020, 142-144.
[12]
Korabayev, Sh.A., Mardonov, B.M., Matismailov, S.L. and Meliboyev, U.X. (2019) Determination of the Law of Motion of the Yarn in the Spin Intensifier. Engineering, 11, 300-306. https://doi.org/10.4236/eng.2019.115021
[13]
Korabayev, Sh.A., Matismailov, S.L. and Salohiddinov, J.Z. (2018) Investigation of the Impact of the Rotation Frequency of the Discretizing Drum on the Physical and Mechanical Properties. Central Asian Problems of Modern Science and Education, 3, Article 9.
[14]
Jahongir, A., Avazbek, О. and Muhiddin, V. (2021) Exploring the Efficiency of Experimental Construction of Sorting Ginned Cotton Seed Machine. Engineering, 13, 18-29. https://doi.org/10.4236/eng.2021.131002
