CYCLICAL PRODUCTIVITY AND RESERVES FOR INCREASING THE PRODUCTIVITY OF CONTINUOUS FLOW SPATIAL TECHNOLOGICAL SYSTEMS

Abstract

The article discusses issues related to determining the cycle productivity of production flow technological systems (PFTS) based on rotary and rotary conveyor machines. It is shown that cycle productivity is unambiguously determined by the structure of basic technological actions and the time of a complete kinematic cycle, including main and auxiliary time. Generalized analytical dependencies have been obtained for calculating the cycle productivity of PPTM with a multiplicative and multiplicative-additive composition of basic technological influences for open and closed structures of the additive part. The influence of structural parameters, main and auxiliary time on the level of cycle productivity and the coefficient of utilisation of the complete kinematic cycle is analysed. The main reserves for increasing productivity at the level of structural solutions that ensure the intensification of technological processes in the design of high - and ultra-high-performance PPTS have been identified.