| Along with the rapid development of science and technology, the living standard enhances unceasingly, the people even more emphasize on the physical training, and flying saucer shooting project is favored, therefore the formation technology of flying saucer has the broad prospects. The molding machine is the main equipment to produce the flying saucer, the primary factors that affect the quality of flying saucer including the structure of molding machine, the rack rigidity, the material viscosity etc. Improve the structure and the rack rigidity in the production debugging process is the primary mission of this article. The method of solving several prominent questions: reduce the dish figure to solve the difficulty which brings for the processing and the selections because of the huge structure; install the electrical machinery transmission part in the ground to eliminate the influence when works; replaced the channel steel by double T-iron which has better mechanics performance to increase the rack rigidity, enhances the qualified rate of the flying saucer.At first, the paper established three-dimensional entity models of molding machine and accomplished dummy assembly with Pro/E, Inspected the interference of mechanical device to optimize the molding machine; then, carried on the movement simulation of upper mold and putt, gathered and analyzed the correlation parameter curve to optimize the shaper model; Finally, analyzing the distortion of framework in the process of holding down flying saucer with the help of ANSYS in different conditions, the result proved that the distortion have little effect on the mass of flying saucer, improved the quality of flying saucer.In the paper, the design of structure improvement and the analysis of movement simulation as well as the finite element analysis have laid certain foundation for further study of flying saucer shaper. |
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