The six degree of freedom platform is composed of six electric cylinders that perform telescopic movements driven by servo motors. The six servo electric cylinders are placed in parallel to jointly support and drive the motion platform.

Each servo electric cylinder can independently perform expansion and contraction actions in space. The control system controls six servo electric cylinders to perform different expansion and contraction amounts, allowing the motion platform to complete six degrees of freedom movements in space.

Six degrees of freedom refers to the translational motion of a motion platform in the Cartesian coordinate system along the X, Y, and Z axes, and the rotational motion around these three axes.

Six degrees of freedom is a high-precision device that can simulate various difficult scenarios, such as flight simulation, ship simulation, car driving simulation, train driving simulation, earthquake simulation, etc.

Among them, the six degree of freedom car simulation driving platform adopts advanced technology, with reasonable design, stable structure, strong wear resistance, and can operate for a long time. By using vector resultant intelligent simulation technology, users can experience real-time changes in all directions, including front, back, left, and right, enhancing their immersion. By simulating and reproducing road conditions, drivers can experience the impact of vertical weightlessness or overweight caused by road bumps and undulations, and experience real-time changes in all directions, enhancing immersion.