Title :
The optimization of fire robot axle in axle size based on dynamic strength and material cost
Author :
Lin Xue ; Shu Fang
Author_Institution :
Dept. of fire-fighting Technol. & Equip., Shanghai Fire Inst. of Minist. of Public Security, Shanghai, China
Abstract :
The axle of robot always afford complex load in a high dynamic vibration, the statics strength cannot take enough safety factor, and a larger safety factor would waste the material cost. In this paper, a new optimization function which takes consideration to the dynamic strength and material cost is derived. The dynamic strength has been discussed, a dynamic simulation modle based on FEA has also been bulid, the simulation results showed the boundary conditions of the optimization, the relationship between dynamic strength and axle size which was highly nonlinear, was simplized as a approximated sine function. The material cost factor is simplified to the mess of the axle. And all the factors in the optimization plently funtion were normalized, and the 3D graphic of the funtion has been draw, the extremum point of the optimization function, which was the most appropriate sizes of the axle, was found by the Matlab.
Keywords :
axles; digital simulation; finite element analysis; fires; mechanical strength; optimisation; robot dynamics; service robots; solid modelling; vibrations; 3D graphic; FEA; Matlab; approximated sine function; axle size; boundary conditions; complex load; dynamic simulation modle; dynamic strength; fire robot axle; high dynamic vibration; material cost; material cost factor; optimization function; Axles; Dynamics; Face; Fires; Materials; Optimization; Stress; Dynamic strength; Fire robot axle; Material cost; Optimization of axle size;
Conference_Titel :
System Science, Engineering Design and Manufacturing Informatization (ICSEM), 2012 3rd International Conference on
Conference_Location :
Chengdu
Print_ISBN :
978-1-4673-0914-1
DOI :
10.1109/ICSSEM.2012.6340714
