Dynamic simulation of rope traction platform based on MATLAB
HUANG Zhen-xin;YUE Sui-lu;LI Chu-lei;DANG Wen-jun;LONG Xin-tao;School of Mechanical Engineering,University of Shanghai for Science and Technology;School of Mechanical Engineering,Luoyang Institute of Science and Technology;
The working movement of a rope traction platform is mainly studied. For the rod group of the eight bar mechanism,the form of MATLAB programming is mainly used. The design,calculation analysis and motion simulation of the size parameters are carried out. The optimum rod length of the eight bar linkage is obtained through the solving condition of the swing angle of the above eight bar. It is concluded that with the increase of the length of the EF bar,the maximum turning angle of the box is also gradually increased,but the increase speed is gradually slowing down. As the EF rod is easy to disassemble,the length of the EF can be changed in the appropriate range,so that the upper box board has a suitable maximum swing angle. Combined with the stroke of the hydraulic cylinder,the optimum length of EF is 0. 55 m.
【CateGory Index】： TH112