In order to solve the wheel planetary gear transmission mechanism in off-road vehicle chassis layout difficult and poor reliability

a dynamic equilibrium and reliability of power shared optimization method based on the power of genetic algorithm theory is established

under the premise to ensure structural strength rigidity balance and dynamic power shared planetary gear transmission mechanism for solving the smallest target

the last

the optimization calculation method is verified based on the actual product parameter.The results show that after the optimal analysis of dynamic equilibrium of off-road vehicle wheel side planetary gear transmission mechanism

the system imbalanced coefficient fluctuation effects and dynamic load factor decreased significantly

down 33%

40%.The reliability optimize analysis of the off-road vehicle wheel side planetary gear transmission mechanism is carried out

the system rigidity in ensuring the overall strength of the premise

after optimization

the reducer volume levels is decreased

the system transmission ratio also decreased

first-class volume declined 10.23% by volume

the second stage declined 5.76% by volume

the total volume declined 7.95%

the overall optimization effect is more obvious.Through the optimization of power shared dynamic equilibrium and reliability of off-road vehicle wheel side planetary gear transmission mechanism

the overall volume of space systems is reduced

the adaptability of the spatial layout of the device is greatly improved.