选矿机械磨机传动系统结构部件的优化与效率提升  

Optimization and Efficiency Improvement of the Transmission System Structural Components of Mineral Processing Grinding Mill

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作  者:吉海龙 JI Hailong(Zhongjin Lingnan Nonferrous Metals Co.,Ltd.,Shaoguan,Guangdong 512000,China)

机构地区:[1]中金岭南有色金属股份有限公司,广东韶关512000

出  处:《有色金属设计》2024年第4期26-30,共5页Nonferrous Metals Design

摘  要:选矿机械磨机是矿山选矿流程中的关键设备,其传动系统的性能直接影响着选矿效率和经济效益。针对现有选矿磨机传动系统结构部件存在的问题,如齿轮磨损、轴承失效、连接部位松动等,文章提出了优化设计方案,包括优化齿轮齿形及材料、改进轴承结构及润滑方式、优选高强度连接件等。同时,阐述了提高传动系统效率的措施,如降低传动阻力、提高传动刚性、改善工况环境、实施智能化维护等。最后对优化与提升举措的综合效益进行了分析,为提高选矿磨机传动系统的可靠性和经济性提供了理论依据。The mineral processing grinding mill is a key equipment in the mineral processing workflow,and its transmission system’s performance directly affects the efficiency and economic benefits of mineral processing.Addressing issues in the transmission system of the mineral processing grinding mill,such as gear wear,bearing failure,and loosening of connecting parts,this paper presents optimized design solutions.including optimizing gear tooth profile and materials,improving bearing structure and lubrication,and selecting high-strength connectors.Concurrently,the paper elaborates on measures to enhance transmission system efficiency,such as reducing transmission resistance,increasing transmission rigidity,improving the working environment,and implementing intelligent maintenance.Finally,an analysis of the comprehensive benefits from the optimization and enhancement measures is analyzed,providing a theoretical basis for improving the reliability and economic efficiency of the mineral processing grinding mill transmission system.

关 键 词:选矿机械 磨机 传动系统 结构优化 

分 类 号:TD40[矿业工程—矿山机电]

 

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