Xiaomi Unveils Updated CyberOne Robot with ‘Sweating’ Cooling System
Xiaomi CyberOne Robot – Xiaomi has introduced an upgraded version of its humanoid robot, the Xiaomi CyberOne, featuring major improvements in design, precision, and thermal management. The new model is specifically developed for long-duration industrial tasks and enhanced human-like performance.
More Human-Like Bionic Arm
The updated CyberOne comes with a redesigned bionic arm and hand, making it closer to human anatomy.
Key upgrades include:
- 60% reduction in hand volume
- 83% increase in degrees of freedom
- Based on a 1.73-meter human model
Additionally, Xiaomi has integrated a full tactile sensing surface of around 8,200 mm², enabling better grip precision and object handling.
Innovative ‘Sweating’ Cooling System
One of the most advanced features is its liquid cooling mechanism, inspired by how humans sweat.
- Uses 3D-printed metal channels inside the arm
- Effectively dissipates heat from motors
- Allows longer operation without overheating
This system ensures the robot maintains consistent performance during extended use, especially in industrial environments.
Strong Performance in Testing
The upgraded CyberOne has delivered impressive results in real-world simulations:
- 90.2% success rate in tightening nuts and bolts
- Completed tasks within a 76-second factory cycle
- Tested continuously for 3 hours
Durability has also seen a massive improvement:
- Survived 150,000+ gripping cycles
- Compared to an industry average of around 10,000 cycles
Designed for Industrial Applications
With improved precision, durability, and cooling efficiency, the new CyberOne is ideal for:
- Assembly line work
- Precision manufacturing
- Repetitive industrial tasks
Its human-like movement and enhanced endurance make it a strong contender in the next-generation robotics space.
Conclusion
Xiaomi’s updated CyberOne robot showcases how biomimicry and advanced engineering can redefine robotics. With features like a sweat-inspired cooling system and improved dexterity, it represents a major step forward in making humanoid robots more efficient and practical for real-world applications.
