机械设计与制造工程
機械設計與製造工程
궤계설계여제조공정
MACHINE DESIGN AND MANUFACTURING ENGINEERING
2014年
10期
13-17
,共5页
导针上料机构%齿轮%优化设计
導針上料機構%齒輪%優化設計
도침상료궤구%치륜%우화설계
guided needle feeding mechanism%gear%optimization
导针上料机构中的齿轮是影响铝电解电容器生产质量的关键零件。以齿轮的模数、齿数、齿宽等基本参数为设计变量,根据齿面接触疲劳强度、齿根弯曲疲劳强度、模数、中心矩等约束条件,按照齿轮体积最小和齿轮重合度最大为优化目标,利用多目标优化设计数学模型对其优化设计。齿轮优化后,机构工作平稳性得到提高,加工出的铝电解电容质量得到明显改善。
導針上料機構中的齒輪是影響鋁電解電容器生產質量的關鍵零件。以齒輪的模數、齒數、齒寬等基本參數為設計變量,根據齒麵接觸疲勞彊度、齒根彎麯疲勞彊度、模數、中心矩等約束條件,按照齒輪體積最小和齒輪重閤度最大為優化目標,利用多目標優化設計數學模型對其優化設計。齒輪優化後,機構工作平穩性得到提高,加工齣的鋁電解電容質量得到明顯改善。
도침상료궤구중적치륜시영향려전해전용기생산질량적관건령건。이치륜적모수、치수、치관등기본삼수위설계변량,근거치면접촉피로강도、치근만곡피로강도、모수、중심구등약속조건,안조치륜체적최소화치륜중합도최대위우화목표,이용다목표우화설계수학모형대기우화설계。치륜우화후,궤구공작평은성득도제고,가공출적려전해전용질량득도명현개선。
The gears of guided needle feeding mechanism deeply affect the quality of aluminum electrolytic quali -ty, and are the key parts of automatic pin winding machine .It takes the gear modules , number of teeth and width as design variables , uses the surface contact fatigue strength , tooth root flexural fatigue strength , modulus and central moments as restrictions , and builds the minimum volume of gear and maximum gear ratio as optimal objective .About this multi -objective optimization model , it realizes optimization .The result enhances steady working mechanism , improves the quality of aluminum electrolytic quality .
