期刊
ENERGIES
卷 16, 期 2, 页码 -出版社
MDPI
DOI: 10.3390/en16020959
关键词
linear inductive motor (LIM); linear electric motor hammer; mining; raw materials; crushing
Electric hydraulic breaking hammers provide an energy-saving and eco-friendly solution for crushing oversized materials and demolishing concrete structures in industry. This paper reviews the global market analysis and potential applications of linear electric motor (LEM) hammers, discussing implementation aspects such as design optimization, dynamics simulation, machine control, and performance estimation. The preliminary measurements on an electric hammer demonstrate the need for online hammer control to achieve optimal parameters for different cases.
Standard hydraulic breaking hammers are widely used for crushing oversized blasted materials and concrete structures demolition in industry. These hammers, installed in on-surface working excavators or stationary manipulators at the dumping points of underground conveyors, provide the required limited sizes of bulk materials and enable the safe operation of other equipment (screens, crushers). In parallel, hydraulic hammers have an alternative-fully electric hammers. This paper aims to review existing linear electric motor (LEM) hammers as an energy-saving and eco-friendly solution in industry. Global market analysis is presented with potential branches of LEM hammers. Several aspects for implementation-design optimization, dynamics simulation, machine control, and performance estimation-are considered. Different case studies for LEM-hammer application are given. The preliminary measurements are demonstrated on the electric hammer of Lekatech Company, which is intended for the mining industry and construction demolition. Experiments showed that depending on the impact frequency, type of rock, and shape of the crushing tool, the time to fracture varies significantly. Optimal parameters exist for every case, for which adjusting requires online hammer control.
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