摘要
In order to reduce the labor intensity,improve the production efficiency and enhance the equipment stability and the branding accuracy of the pattern,we have completed a double-row high-efficiency wooden ice cream stick branding machine structural design.The rigid-flexible coupling dynamics model is established and the movement and stress of the first-stage chain drive are calculated and analyzed.The comparison of the theoretical calculation results shows that the dynamic modeling and the structural design of the equipment are reasonable and the result of dynamic calculation also provides the basis of load data for dynamic strength calculation of structural components.
In order to reduce the labor intensity, improve the production efficiency and enhance the equipment stability and the branding accuracy of the pattern, we have completed a double-row high-efficiency wooden ice cream stick branding machine structural design. The rigid-flexible coupling dynamics model is established and the movement and stress of the first-stage chain drive are calculated and analyzed. The comparison of the theoretical calculation results shows that the dynamic modeling and the structural design of the equipment are reasonable and the result of dynamic calculation also provides the basis of load data for dynamic strength calculation of structural components.
作者
LIU Wenzhi
HUANG Mingjun
LI Weiguo
MA Zhibin
刘文芝;黄明君;李卫国;马智斌(College of Aviation,Inner Mongolia University of Technology,Hohhot 010051,China;College of Mechanical Engineering,Inner Mongolia University of Technology,Hohhot 010051,China;Engineering Training Center,Inner Mongolia University of Technology,Hohhot 010051,China)
基金
Key Scientific Research Project of the Inner Mongolia Autonomous Region University,China(No.NJZZ18075)
Natural Science Fund of Inner Mongolia Autonomous Region,China(No.2018M S05060)
Education Scientific Research 13th Five-Year Plan of Inner Mongolia Autonomous Region,China(No.NGJGH2018066)
