An agriculture machines are subjected to diferent loads conditons. Due to this loads variations there wil be certain deformations and stres which afect the performance of the electric vehicle in adverse maner. The purpose of this paper is to analyze the total deformation and stres of the electric farm vehicle midle frame based on the finite element method. The proposed electric farm vehicle has lifting and dumping capabilty. Therefore, in this research four operational conditon such as normal conditon, dumping conditon, lifting conditon, and lifting-dumping conditon was analyzed. In this research, the design for whole frame structure is elaborated. Acording to the mechanical characteristics of the frame, materials are selected and manufacturabilty requirements are limited. Based on ANSYS 15 software, the finite element model of electric farm vehicle is established to cary out static analysis on ful-loaded conditons. The simulation results shows that the proposed design met the strength requirements and displacement requirements. The maximum deformation 0.5361 mm and maximum stres 30.163 MPa ocured at lifting-dumping conditon.