The article reveals the analysis of calculation results for dynamic spatial cardan drive, which is applied at various technical equipment, such as rolling mills, locomotive engines, automobiles, mining engineering and oil production equipment. Mathematical model of a drive is presented as a system of non-linear differential equations, composed with the use of d'Alembert method. Kinematic features of a hinged system are considered. The calculations are introduced in a computer program, composed by the authors in the programming language C++. With the help of dynamic factors the influence of periodical technological pressures on the system's work is examined. The influence of separate factors of a system and their combinations on dynamic pressures in parts of cardan drive is demonstrated. Changing these parameters and using dynamic factors for the analysis of calculation results, it is possible to design hinged systems with efficient modes of operation.
|Título traducido de la contribución||THE INFLUENCE OF DYNAMIC PARAMETERS ON PRESSURES IN PARTS OF MECHANICAL SPATIAL HINGED SYSTEM|
|Número de páginas||4|
|Publicación||Известия высших учебных заведений. Горный журнал|
|Estado||Published - 2015|
Level of Research Output
- VAK List