组合机床与自动化加工技术
組閤機床與自動化加工技術
조합궤상여자동화가공기술
MODULAR MACHINE TOOL & AUTOMATIC MANUFACTURING TECHNIQUE
2014年
11期
35-38
,共4页
电主轴%多场耦合%气隙%动态性能
電主軸%多場耦閤%氣隙%動態性能
전주축%다장우합%기극%동태성능
motorized spindle%multi-physical coupled model%air gap%dynamic performance
建立了一种新型的高速电主轴多场耦合动力学模型,讨论了轴承模型、电机磁路模型、温度场模型及结构模型之间的耦合关系,设计出多场耦合动力学模型的计算流程,分析耦合因素对高速电主轴结构状态的影响,提出电主轴气隙热膨胀影响其磁场分布及动态性能。以150 MD24 Z7.5型高速电主轴为研究对象,计算结果表明,电主轴温升形变对振动幅值影响较大,其中由气隙变化引起的电磁力幅值增加12.1%。实验结果表明:考虑耦合因素时的高速电主轴动态性能与实验结果的吻合度较高。
建立瞭一種新型的高速電主軸多場耦閤動力學模型,討論瞭軸承模型、電機磁路模型、溫度場模型及結構模型之間的耦閤關繫,設計齣多場耦閤動力學模型的計算流程,分析耦閤因素對高速電主軸結構狀態的影響,提齣電主軸氣隙熱膨脹影響其磁場分佈及動態性能。以150 MD24 Z7.5型高速電主軸為研究對象,計算結果錶明,電主軸溫升形變對振動幅值影響較大,其中由氣隙變化引起的電磁力幅值增加12.1%。實驗結果錶明:攷慮耦閤因素時的高速電主軸動態性能與實驗結果的吻閤度較高。
건립료일충신형적고속전주축다장우합동역학모형,토론료축승모형、전궤자로모형、온도장모형급결구모형지간적우합관계,설계출다장우합동역학모형적계산류정,분석우합인소대고속전주축결구상태적영향,제출전주축기극열팽창영향기자장분포급동태성능。이150 MD24 Z7.5형고속전주축위연구대상,계산결과표명,전주축온승형변대진동폭치영향교대,기중유기극변화인기적전자력폭치증가12.1%。실험결과표명:고필우합인소시적고속전주축동태성능여실험결과적문합도교고。
A multi-physical coupled dynamic model of high speed motorized spindle is established in the pa-per. The relationship among the bearing model, thermal model, electromagnetic model and spindle dynamic model is discussed. The calculation procedures of the multi-physical coupled dynamic model is designed. the effects of the coupled factors on the structure of the motorized spindle is analyzed. This paper proposes that change of the air gap from thermal expansion effect the magnetic field distribution and dynamic performance of the motorized spindle. Finally,an overall experiments and calculations on the 150MD24Z7. 5 motorized spindle are carried. Calculation results show that thermal deformation influences greater on vibration ampli-tude, electromagnetic force amplitude increases by 12. 1% caused by the change of air-gap. With the model coupled multi-physics can predict the vibration amplitude for motorized spindle and the prediction error is 10. 2%. The good agreement between the theoretical results and theexperimental data indicates that the multi-physical coupled dynamic model is capable of accurately predicting the dynamic behavior of motorized spin-dle.