机械工程学报
機械工程學報
궤계공정학보
Journal of Mechanical Engineering
2015年
21期
148-155
,共8页
王波%刘献礼%刘晶石%计伟%翟元盛%梁维燕
王波%劉獻禮%劉晶石%計偉%翟元盛%樑維燕
왕파%류헌례%류정석%계위%적원성%량유연
冲击式水轮机%水斗%有限元%结构优化%切削振动%减振刀柄
遲擊式水輪機%水鬥%有限元%結構優化%切削振動%減振刀柄
충격식수륜궤%수두%유한원%결구우화%절삭진동%감진도병
pelton turbine%bucket%finite element%structural optimization%cutting vibration%damping tool holder
水斗高应力区的结构优化和高品质加工是保证冲击式水轮机水力性能的关键.建立了水斗有限元模型,并确定合理的边界条件;根据机组运行特点,确定水斗计算载荷工况,以及应力考核标准.同时在满足水力性能及强度要求的前提下,充分考虑水斗根部的可加工性.研究表明:斗根曲率均匀度、斗根深度和厚度是水斗应力水平的主要影响因素;通过水斗根部结构优化,水斗综合应力降低16%,交变应力幅值降低13.3%,交变应力平均值降低15.5%;通过强度计算验证了根部结构优化的水斗满足应力和疲劳设计要求.通过有限元和试验优化大长径比(20:1)减振刀柄中心孔尺寸,结果表明:当内孔直径为8 mm,振幅最小,通过试验验证和加工产品的实际应用,表明优化后的方案可满足设计结构水力性能及制造精度要求.
水鬥高應力區的結構優化和高品質加工是保證遲擊式水輪機水力性能的關鍵.建立瞭水鬥有限元模型,併確定閤理的邊界條件;根據機組運行特點,確定水鬥計算載荷工況,以及應力攷覈標準.同時在滿足水力性能及彊度要求的前提下,充分攷慮水鬥根部的可加工性.研究錶明:鬥根麯率均勻度、鬥根深度和厚度是水鬥應力水平的主要影響因素;通過水鬥根部結構優化,水鬥綜閤應力降低16%,交變應力幅值降低13.3%,交變應力平均值降低15.5%;通過彊度計算驗證瞭根部結構優化的水鬥滿足應力和疲勞設計要求.通過有限元和試驗優化大長徑比(20:1)減振刀柄中心孔呎吋,結果錶明:噹內孔直徑為8 mm,振幅最小,通過試驗驗證和加工產品的實際應用,錶明優化後的方案可滿足設計結構水力性能及製造精度要求.
수두고응력구적결구우화화고품질가공시보증충격식수륜궤수력성능적관건.건립료수두유한원모형,병학정합리적변계조건;근거궤조운행특점,학정수두계산재하공황,이급응력고핵표준.동시재만족수력성능급강도요구적전제하,충분고필수두근부적가가공성.연구표명:두근곡솔균균도、두근심도화후도시수두응력수평적주요영향인소;통과수두근부결구우화,수두종합응력강저16%,교변응력폭치강저13.3%,교변응력평균치강저15.5%;통과강도계산험증료근부결구우화적수두만족응력화피로설계요구.통과유한원화시험우화대장경비(20:1)감진도병중심공척촌,결과표명:당내공직경위8 mm,진폭최소,통과시험험증화가공산품적실제응용,표명우화후적방안가만족설계결구수력성능급제조정도요구.
Structural optimization and high-steady machining of region of high stress play key roles for hydraulic performance of pelton turbine. Finite element model of bucket is established, and reasonable boundary condition are determined. Based on operation characteristics of pelton turbine, load cases and stress evaluation criteria of bucket are determined. Meanwhile, the manufacturability of the root of pelton is considered fully based on the requirements of the hydraulic performance and strength of pelton. The results of study shows that curvature uniformity of bucket root, depth of bucket root and thickness of bucket root are main factors influencing the stress level of bucket. By the structural optimization of bucket root, the compound stress, amplitude of alternating stress and average value of alternating stress are reduced by 16%, 13.3% and 15.5% respectively. The stress level and fatigue safety factor of the final bucket structure meet the design requirements. The size of inside hole of tool holder with larger aspect ratio (20: 1) is optimized through the finite element model and experiment, of which result demonstrate the lowest amplitude can be obtained when the diameter is 8 mm. The performance and machining accuracy of pelton turbine can be certified through the optimization strategy, which is validated by the experimental machining and the practical application.