期刊名称:Eastern-European Journal of Enterprise Technologies
印刷版ISSN:1729-3774
电子版ISSN:1729-4061
出版年度:2017
卷号:5
期号:7
页码:38-44
DOI:10.15587/1729-4061.2017.111552
语种:English
出版社:PC Technology Center
摘要:An analysis of operation of hoisting and lowering mechanisms of package-forming machines and synthesis of the structure of a hydromechanical drive were performed. Operation mode of a hydromechanical drive with a hydro-gas battery was theoretically explored. Objective function of minimizing energy consumption at step-by-step battery filling was formulated. The possibility of accumulation of potential energy is determined by the technology of packing. This is a specific feature of hoisting and lowering mechanisms of package-forming and package-disassembling machines. The need for research in this area is caused by the necessity to further process the data on the influence of the structure and elements of a drive on operation of hoisting and lowering mechanisms and to find ways of minimizing energy consumption at step-by-step drive loading.It was experimentally proved that gas compression in the battery of a hoisting and lowering mechanism is described by an adiabat. A hypothetical polytrope index was determined at the level of 1.25. The authors determined parameters of a hydraulic drive, which will provide the minimum of objective function of minimizing energy consumption: loading at level Fymax=26 kN, Fymin=5.7 kN, coefficient of pressure losses of 0.05, piston stroke 0.5 m, at preset speeds of platform motion: Vmin=0.03 m/s, Vmax=0.38 m/s.Accumulation of potential energy at step-by-step loading of a hoisting and lowering mechanism is provided due to throttling of fluid motion from the hydro cylinder to the battery. The authors explored operation modes of a hydro-gas battery as a part of a hoisting and lowering mechanism in its alternating step-by-step loading, which provides analysis of the future design of a drive of a package-forming machine.
关键词:hoisting and lowering mechanism;hydromechanical drive;battery;package-forming;potential energy
