摘要
Abstract
Based on actual production data and engineering practice,this paper constructs a multi-dimensional analysis model of the roller furnace drive system,systematically studies the failure mechanisms of core components such as bevel gear transmission and roller components.By introducing theoretical formulas such as mechanical calculation and material corrosion dynamics,it quantitatively analyzes the inducing factors of typical failures including wear,tooth jumping,deformation,corrosion-induced roller breakage,and uneven discharge from the furnace.A full-life-cycle solution covering design optimization,selection specification,installation and commissioning,and operation and maintenance management is proposed.Through simulation analysis and on-site verification,the effectiveness of the scheme in improving the reliability of the drive system,reducing the failure rate,extending the equipment life,and ensuring product quality is verified,providing technical support and engineering reference for the efficient and stable operation of roller furnace equipment in the lithium-ion battery industry.关键词
辊道炉/驱动系统/故障机理/量化分析/三元材料/设备优化Key words
roller furnace/drive system/failure mechanism/quantitative analysis/ternary materials/equipment optimization
