摘要
根据腕臂加工工艺流程,设计了接触网腕臂管材输送装置。该装置的动力传动机构采用六角棒型材作为传动轴,通过对挠度的校核完成了传动轴的设计,实现了管材的自动上料。管材输送采用三段输送方案,通过输送机构的协同配合,完成了管材的预处理加工。该装置实现了预期功能,满足了智能建造的输送要求。
According to the cantilever processing process,the catenary cantilever tube conveying device is designed.The power transmission mechanism of the device uses hexagonal rod profile as the propeller shaft,and the design of the propeller shaft is completed by checking the deflection,and the automatic feeding of the pipe is realized.The tube conveying adopts a three-stage conveying scheme,and the pretreatment processing of the pipe is completed through the cooperation of the conveying mechanism.The device achieves the expected function and meets the transportation requirements of intelligent construction.
作者
齐光宇
沙杰
吴宗庆
胡森龙
李金洋
QI Guangyu;SHA Jie;WU Zongqing;HU Senlong;LI Jinyang(School of Mechanical and Electrical Engineering,Henan University of Technology,Zhengzhou 450001)
出处
《现代制造技术与装备》
2022年第3期35-37,41,共4页
Modern Manufacturing Technology and Equipment
关键词
腕臂输送
六角棒型材
传动轴
挠度
cantilever delivery
hexagonal rod profile
propeller shaft
deflection
