Spare Parts
Aerospace-grade precision machining, providing physical foundations for maglev algorithms.
Core Spare Parts & Precision Customization Services
As a leading manufacturer of maglev compressors and chillers, we provide not only premium integrated systems but also comprehensive original spare parts support, backed by our robust in-house machining capabilities. Utilizing advanced 5-axis CNC machining, high-precision inspection equipment, and a rigorous quality control system, we ensure every component meets original factory standards. With our flexible production scheduling, we offer rapid delivery for standard parts and tailored customization services to meet your specific requirements—minimizing downtime and keeping your operations at peak performance.
High-Efficiency Ternary Impeller
Crafted from aerospace-grade, high-strength aluminum or titanium alloy, it is integrally milled using advanced 5-axis simultaneous CNC technology. The complex curved surface design has been optimized through CFD fluid dynamics simulation to ensure optimal aerodynamic efficiency under ultra-high-speed rotation.
Volute & Diffuser
As the critical chamber for fluid flow, the geometry of its internal cavity directly impacts energy conversion efficiency. Through a combination of precision casting and subsequent CNC finishing, we ensure an ultra-high surface finish for the internal flow channels.
Bearing Housing
The bearing housing serves as the mounting datum for the magnetic bearing stator; the precision of its inner bore directly impacts the uniformity of the magnetic gap. We utilize high-strength alloy materials that undergo multiple aging treatments to eliminate internal stresses, thereby ensuring that no minute deformation occurs during prolonged high-speed operation.
Motor Stator Housing
The motor housing features an integrated cooling channel design that must simultaneously satisfy requirements for both precision machining and airtightness. Our 5-axis machining centers enable the fabrication of complex cooling channels and the milling of precision mating surfaces, thereby ensuring efficient heat dissipation during high-power-density motor operation.
