Flexible Spine Link: The Core Component for Humanoid Robot Agility

• Bionic Motion Design: Multi-segment bionic structure supports ±30° lateral bending and ±25° forward/backward pitching, enabling natural movement trajectories similar to the human spine
• Rigid-Flex Composite Structure: Internal high-strength alloy skeleton combined with external flexible polymer ensures both support strength and flexible bending characteristics
• Precision Manufacturing Process: Five-axis CNC precision machining ensures micron-level accuracy (±0.01mm), with anodized surface treatment for improved wear resistance
• Lightweight Design: Topology-optimized structure reduces weight by 30% while maintaining load capacity
• Plug-and-Play Integration: Standardized interface design supports quick installation and replacement, compatible with mainstream humanoid robot architectures
• Built-in Sensor Integration Space: Specifically designed integration slots for torque sensors and position encoders enable precise motion control

• Humanoid Robot Waist Structure: Provides core support and flexible movement capability for bipedal humanoid robots, enabling natural upper body torsion and balance adjustment
• High-Performance Quadruped Robots: Applied in bionic quadruped robot spine structures, enhancing motion stability and crossing capability, improving terrain adaptability
• Industrial Collaborative Robots: Serves as the seventh-axis waist enhancement module, expanding industrial robotic arm workspace and flexibility
• Rehabilitation and Exoskeleton Equipment: Used in waist rehabilitation training equipment, providing safe and controllable support and movement assistance
• Scientific Research and Education Platforms: Provides advanced bionic spine research platforms for robotics research, supporting algorithm development and motion control studies

We provide comprehensive customized solutions to meet specific requirements of different application scenarios:

• Size Customization: Various lengths and diameters of spine links available according to customer requirements, adaptable to various needs from child-sized to industrial-grade humanoid robots
• Material Selection: Multiple material solutions available, including aviation aluminum alloy, titanium alloy, carbon fiber composite materials, and engineering polymer combinations
• Performance Adjustment: Internal structural strength and external flexible material hardness can be adjusted according to load requirements
• Sensor Integration: Supports integration of various sensors, including torque sensors, position encoders, temperature sensors, and strain gauges
• Interface Compatibility: Custom mechanical and electrical interfaces for different robot architectures to ensure seamless integration
• Small-Batch Trial Production: Supports 50-200 piece small-batch trial production services to help customers verify designs and iterate optimization

We provide full-cycle technical support and professional service guarantee for our customers:

• Technical Consultation: Free preliminary technical consultation to help customers select the most suitable product specifications
• Design Assistance: Professional engineer team provides integration design support to ensure perfect matching between spine links and robot systems
• Installation and Debugging: Detailed installation guidelines and video tutorials provided, with on-site installation support for bulk orders
• Training Services: Regular technical training courses covering everything from basic installation to advanced programming
• Warranty Policy: 24-month quality guarantee with lifetime maintenance service
• Rapid Response: Respond to customer inquiries within 24 hours, provide solutions within 72 hours