Complete machine development, design, system integrationHumanoid robot
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Product Description
The full-sized humanoid bionic robot Cyborg-R01 features a 62-degree-of-freedom design equipped with a 16-degree-of-freedom dexterous hand a peak torque of 411 Nm and a dual-arm load capacity of 15 kg. It can adapt to complex indoor and outdoor terrains meeting the needs of industrial manufacturing warehousing and logistics scenarios. The OMCI whole-body collaborative operating system enables efficient high-load operations through distributed weight bearing across multiple body parts including the arms shoulders chest and back. The jointly developed and mass-producible automotive-grade "Bionic Brain" system enhances the robot's task completion stability and response speed. Furthermore Cyborg is also launching derivative products such as wheeled humanoid robots and dexterous hands focusing on transforming cutting-edge technological innovations into mass-producible and truly practical embodied intelligent robots to meet the needs of complex scenarios such as industrial maintenance and operations.
Product Specifications
Full-Size Humanoid Bionic Robot Cyborg-R01 With an advanced 62-degree-of-freedom (DOF) design and integrated 16-DOF dexterous hands this humanoid robot delivers an exceptional peak torque of 411 Nm and a dual-arm payload capacity of 15 kg. Engineered to navigate complex indoor and outdoor terrains it is ideally suited for industrial manufacturing warehouse logistics and diverse operational scenarios. Key Innovation: OMCI Whole-Body Collaborative System for Heavy-Duty Performance 1. The breakthrough OMCI Whole-Body Collaborative System (Cyborg OmniContact Intelligence) mimics human motion patterns enabling the robot to surpass the payload limitations of conventional end-effectors. By dynamically distributing loads across the arms shoulders chest and back it utilizes full-body strength to handle heavy objects dramatically improving both efficiency and stability in high-load applications. 2. Constructed with a full aluminum-magnesium alloy frame and optimized using aerospace-grade topological lightweighting techniques the structure achieves maximum weight reduction without compromising strength or rigidity. This significantly enhances the robot’s payload capacity and real-world operational performance.
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