制造技术与机床
製造技術與機床
제조기술여궤상
MANUFACTURING TECHNOLOGY & MACHINE TOOL
2009年
11期
54-57
,共4页
汽轮机叶片%六轴联动%砂带磨床%结构设计
汽輪機葉片%六軸聯動%砂帶磨床%結構設計
기륜궤협편%륙축련동%사대마상%결구설계
Turbine Vane%Six-axis%Belt Grinding Machine%Structure Design
根据汽轮机叶片型面结构以及砂带磨削特点,对叶片磨削运动进行了分析,确定了机床的控制运动轴,讨论并选择了可行的机床结构配置方案,进行了六轴联动汽轮机叶片数控砂带磨床的整机结构设计,并借助有限元分析软件,对机床关键的基础件进行了力学性能分析和相应的结构参数优化.
根據汽輪機葉片型麵結構以及砂帶磨削特點,對葉片磨削運動進行瞭分析,確定瞭機床的控製運動軸,討論併選擇瞭可行的機床結構配置方案,進行瞭六軸聯動汽輪機葉片數控砂帶磨床的整機結構設計,併藉助有限元分析軟件,對機床關鍵的基礎件進行瞭力學性能分析和相應的結構參數優化.
근거기륜궤협편형면결구이급사대마삭특점,대협편마삭운동진행료분석,학정료궤상적공제운동축,토론병선택료가행적궤상결구배치방안,진행료륙축련동기륜궤협편수공사대마상적정궤결구설계,병차조유한원분석연건,대궤상관건적기출건진행료역학성능분석화상응적결구삼수우화.
Based on the characteristics of the shape and material of the steam turbine blades, and speciality of abrasive belt grinding, we have analyzed the belt grinding motion on blades in detail, and establishes the structural configuration of the machine tool. The whole structure of the six-axis machine tool have been designed. The basic key parts of grinding machine also have been analyzed in mechanics, by using the finite element analysis software-ANSYS.
