摘要
上悬式离心机是在生产工艺流程中的后处理设备,广泛应用于化工、医药、轻工、食品等行业,特别适用于制糖行业。转鼓是上悬式离心机的关键部件,其结构、形状和工艺性能不仅会上悬式离心机的生产成本和使用成本,而且很大程度上决定了离心机的使用寿命。如何在保证强度和安全的前提下,降低转鼓重量,成为研究的关键点。为了解决这一问题,通过深入分析转鼓在满负荷工况下的应力强度、位移大小。并使用Ansys对转鼓的壁厚进行优化,降低转鼓壁厚,达到节能减排效果。
Top suspension centrifuge is the after processing equipment in the production process, being widely used in chemical industry, medicine, light industry, food industry, particularly applicable to sugar industry. Suspended centrifuge drum is the key component, and its structure, shape and process performance will not only be top suspension centrifuge production cost and use cost, but largely determines the working life of the centrifuge. How to guarantee the strength and safety, reduce drum weight, has become the key point in the study. In order to solve this problem, in depth analysis has been carried on of drum in the full load condition, and the magnitude of displacement stress intensity. And it uses the ANSYS to sieves the basket wall thickness optimization, reduces the drum wall thickness, and achieves the effect af energy savin~ and emission reduction.
出处
《机械设计与制造》
北大核心
2013年第9期178-180,共3页
Machinery Design & Manufacture
基金
南宁市科学研究与技术开发计划(201102091G)
南宁市科学研究与技术开发计划(201107025G)
广西大学实验室建设与实验教学改革项目(20120107)
广西大学大学生创新创业训练计划(1301020)
