Robotic

Protective Mechanisms for Intelligent Robots and Automated Vehicles: Enhancing the Dynamic Response and Structural Toughness of Electromechanical Systems

Reducing the weight of distal motion joints significantly lowers the system's rotational inertia. This, in turn, improves battery life, enhances dynamic response speed, and ensures safety in human-robot collaboration. Our company's external carbon fiber protective shells for robots possess high impact resistance and corrosion resistance. For robotic arm mechanisms, we produce lightweight carbon fiber links with extremely low inertia to reduce the operational load on servo motors. This improves the positioning accuracy and high-frequency operation efficiency of the robotic arm.