Worldsoaring uses five-axis linkage CNC machining technology with a machining accuracy of ±0.005mm to ensure the precise matching of robot joints, reducers, servo motors and other core components. Through nano-level surface treatment (Ra≤0.2μm), the friction loss of moving parts is greatly reduced, extending the service life of the robot.

In response to the needs of lightweight and high rigidity of robots, Worldsoaring can process complex components such as bionic structure joints, harmonic reducer gear rings, and six-dimensional force sensor housings. Using topology optimization + five-axis precision machining, it can achieve 30% hollowing weight reduction while maintaining structural strength, helping collaborative robots to improve load ratios.

It has deep processing capabilities for robot-specific materials such as titanium alloy (Ti6Al4V), aluminum alloy (7075-T6), and engineering plastics (PEEK). For example: The surgical arm of the medical robot adopts biocompatible titanium alloy, and ensures cleanliness through oil-free cutting; The end effector of the industrial robot adopts carbon fiber reinforced composite material to achieve high strength and lightweight.

Integrated adaptive processing system, real-time compensation of tool wear, ensuring 10,000+ pieces of mass production CPK≥1.67. Case: Continuously supply 500,000 sets of harmonic reducer housings for a global TOP3 collaborative robot brand, and the size dispersion is controlled within ±0.01mm.

72-hour rapid prototyping: supports rapid iteration in the robot R&D stage; Functional unit packaging: deliver the motor seat + reducer housing as a whole module to reduce customer assembly processes; 48-hour emergency spare parts: ensure zero downtime for production line robot maintenance.

Passed ISO 13849 (Functional Safety) and CR (China Robot Certification), service coverage: Industrial Robots: Supplying RV reducer core components to ABB and FANUC, with cumulative delivery of over 2 million pieces; Service Robots: Mass production of humanoid robot joint modules, with a 40% increase in torque density; Special Robots: Deep-sea robot pressure-resistant cabin processing, with a pressure bearing capacity of 100MPa.