Equipped with XCMG’s customized heavy-duty engine featuring high power, large displacement, and low-speed, high-torque, it offers fast response, high reliability, strong power, and ample power reserve, making it ideal for heavy-duty mining operations.
Equipped with XCMG’s proprietary fully electronically controlled hydraulic system, a large-displacement main pump, and a large-diameter main valve, the machine reduces pressure drop, enabling fast, efficient operation and excellent energy efficiency.
Equipped with a large, independently temperature-controlled radiator and one-touch reverse and dust removal, it reduces overall noise and energy consumption, making maintenance more convenient.
The operating mode bionic memory function allows for highly customized adjustments for compound motions, responsiveness, and impact resistance, supporting diverse operating habits and quickly identifying heavy-duty conditions for more powerful excavation.
A variety of optional working attachments, including high- and low-platform operation and tool selection, enable multiple operating mode switching to meet diverse working conditions and improve efficiency.
The machine utilizes a mining-reinforced telescopic chassis assembly, paired with a high-torque travel reducer, providing greater traction, smoother operation, and easier transportation.
XCMG’s advanced excavator intelligent management system utilizes CAN bus communication and IoT technology, integrating the main control system, engine ECM, monitoring system, control panel, GPS cloud control system, and on-site diagnostic system. This enables digital sharing of machine information and enhances product intelligence. A convenient mobile app microservice provides real-time monitoring of the excavator’s location, operating conditions, operating hours, fuel consumption, and maintenance intervals. The autonomous controller collects information about the vehicle’s altitude and engine intake pressure, intelligently matching the hydraulic pump with engine power, ensuring pump flow output while further improving operational energy efficiency.
