p.g.t. Ust'-Kinel'skiy, Samara, Russian Federation
p.g.t. Ust'-Kinel'skiy, Samara, Russian Federation
p.g.t. Ust'-Kinel'skiy, Samara, Russian Federation
p.g.t. Ust'-Kinel'skiy, Samara, Russian Federation
The purpose of research is to improve the dosing of mineral fertilizers sowing unit, depending on the physico-mechanical properties of the soil. In modern technologies of precision farming with differentiated application of mineral fertilizers, data from various sensors, results of analyzes of soil samples and aerial photography are mainly used, without taking into account factor such as the depth of the humus horizon, which largely determines the soil fertility. On the basis of the Samara State Agricultural Academy, studies are underway on the effect of the depth of the humus horizon on the fertility of the soil. Several machines have been developed for differentiating mineral fertilizers with spreader and cultivator. Currently, a system of differentiated application of mineral fertilizers is being developed for sowing agricultural crops and it is planned to produce a set of equipment for a standard seeder UCS-8 Vesta. A constructive scheme of the device for determining the traction resistance is presented, which is closely related to the depth of occurrence of the humus layer. The main working element of this device is a deformer in the form of a knife, with a dihedral grinding. The article presents theoretical studies of the effect of forces acting on a deformer. Based on the results of the theoretical justification of the technological process of the proposed scheme for determining the traction resistance, the load dependencies on the strain gauge link were derived depending on the drag resistance of the deformer, which is determined by its basic design and technological parameters and the physical and mechanical properties of the soil. The obtained dependences of the traction resistance of the working organs of the tillage implement will theoretically determine the additional energy costs from the introduction of the deformer in the design stage at the design stage of the machine and outline the directions for their optimization.
resistance, system, soil, strain gauge, deformer
1. Ivanaisky, S. A. Working organ for presowing soil cultivation / S. A. Ivanaysky, O. M. Parfenov // Actual problems of agrarian science and ways of their solution : coll. of sci. papers. – Samara SAA, 2016. – P. 364-366.
2. Kanaev, M. A. Description of the design and operation principle of a disk hardness tester // Bulletin Samara SAA. – 2008. – № 3. – P. 5-8.
3. Kanaev, M. A. Differential fertilization during sowing / M. A. Kanaev, S. V. Mashkov // Rural mechanizer. – 2011. – № 7. – P. 22-23.
4. Kanaev, M. A. Development of a system for automation of differential fertilizer application during sowing / M. A. Kanaev, O. V. Karpov, S. A. Vasiliev, M. R. Fatkhutdinov // Bulletin Samara SAA. – 2017. – № 1. – P. 58-62.
5. Milyutkin, V. A. A new method of differentiated fertilizer application in the sowing of agricultural crops / V. A. Milyutkin, M. A. Kanaev. – Bulletin Samara SAA. – 2010. – № 3. – P. 16-18.
6. Milyutkin, V. A. A system of mechanization of monitoring and management of soil fertility in the ON-LINE mode / V. A. Milyutkin, M. A. Kanaev, M. A. Kuznetsov // Bulletin Samara SAA. – 2013. – № 3. – P. 34-39.
7. Milyutkin, V. A. Development of machines for subsoil application of fertilizers on the basis of agrobiological characteristics of plants / V. A. Milyutkin, M. A. Kanaev // Bulletin Samara SAA. – 2012. – № 3. – P. 9-13.
8. Parfenov, O. M. Use of mechanical oscillatory systems in soil-cultivating machines / O. M. Parfenov, S. A. Ivanaysky, V. V. Pereverzov // Bulletin Samara SAA. – 2009. – № 3. – P. 14-16.
9. Savelyev, Yu. A. Theoretical justification of traction resistance of knife disc batteries / Yu. A. Saveliev, P. A. Ishkin, Yu. M. Dobrynin // Bulletin Samara SAA. – 2011. – № 3. – P. 26-29.
10. Sineokov, G. N. Theory and calculation of soil-cultivating machines / G. N. Sineokov, I. M. Panov – M. : Mashinostroenie, 1977. – 329 p.