Aiming at the problems of existing control algorithms, such as large trajectory control deviation and poor collision avoidance ability, the control process of hexapod robot is studied, and a control scheme based on visual inertial SLAM algorithm is proposed. The D-H model is studied, and the spatial motion process of the hexapod robot is analyzed. The HD camera is used to acquire the images of the job site and realize the coordinate conversion of the HD camera at the same time. The IMU unit is used to improve the stability of the SLAM algorithm model and carry out the calibration of errors and parameters. In the image feature set training, the CNN network model is used to improve the data training ability of SLAM algorithm model, and according to the maximum discount reward value after interacting with the field environment, the gait stability of the robot and the collision avoidance effect of the local area are improved. The experimental results show that the visual inertial SLAM algorithm can achieve the trajectory path optimization in the global scope, the path time is only 35.4s, and the number of collisions with obstacles is 1 in 10 collision avoidance tests, which is far better than other collision avoidance control algorithms. Therefore, the proposed algorithm can better meet the special needs of industry and engineering.