Bobrovnyy I. Justification of the kinematic parameters of working detals diskators to wrap plant residues, processed Biodestructors

Object of study - the interaction of spherical disks diskators of plant remains, decorated biodestructors and soil. The aim is to improve the efficiency of diskators wrapping with plant residues, processed biodestructors in soil. In theoretical studies used methods of theoretical mechanics and mathematical analysis. In experimental studies used methods for testing tillage machines tenzo, theory of experiment planning of further processing of data using mathematical software Statistica 8, Exel and Maple 9. In field trials of sensor information translated into digital code with the converter-amplifier Spider 8, which used the software Catman Express. The information stored in the format Exel, and basic statistical data processing was performed in the software Statistica 8. The practical significance of the results, the method of calculation of structural parameters of working dyskatoriv to wrap plant residues, processed Biodestructors in the soil; energy dependence and performance quality wrapping of plant residues in the soil, from the corners of installation discs that can be used in the design of disk units. Scientific novelty of the results: first theoretically and experimentally consistent kinematic modes and structural parameters of working dyskatoriv to wrap plant residues in soil treated Biodestructors; Analytical dependences first decomposition of plant residues wheat treated Biodestructors, depending on the depth and length of wrapping plant residues, defining rational terms wrapping stubble in different cultures; first analytical dependences describing the impact angle of attack and the angle of inclination to drive its traction resistance kinematic regime and quality wrapping of plant residues in the soil; were further developed rationale efficiency dyskatora which performs a single pass Biodestructors making the surface stubble and makes wrapping plant residues in soil. Research findings are implemented in CT VF "Ahroremmash" (m. White Church) for specification and development of a prototype for the manufacture of machines for making biologics AHBZ-4,5.