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Features of the CE EPA Approved Gasoline Engine Brushless DC Motor Rubber Track Wireless Operated Hammer Mulcher
The CE EPA approved gasoline engine brushless DC motor rubber track wireless operated hammer mulcher is an advanced piece of machinery designed to meet a variety of landscaping and maintenance needs. At its core, this machine is powered by a robust V-type twin-cylinder gasoline engine, specifically the Loncin brand, model LC2V80FD. With a rated power of 18 kW at 3600 rpm, this 764cc engine delivers exceptional performance for demanding tasks. Equipped with a sophisticated clutch system, the engine engages only when it reaches a predetermined rotation speed, ensuring efficient operation. The design minimizes energy waste and enhances the overall effectiveness of the machine, making it an ideal choice for professional landscapers and ground maintenance teams. This attention to detail in the engine’s design exemplifies Vigorun Tech’s commitment to quality and performance. The dual 48V 1500W servo motors provide powerful traction, enabling the machine to tackle steep inclines with ease. A built-in self-locking function ensures that the machine remains stationary unless both power is on and throttle is applied. This feature significantly enhances operational safety by preventing unintended movement, which can be especially crucial in challenging terrains.
Versatility and Efficiency of the Hammer Mulcher
The CE EPA approved gasoline engine brushless DC motor rubber track wireless operated hammer mulcher is not just about power; it also excels in versatility. The intelligent servo controller precisely regulates motor speed and synchronizes the left and right tracks, allowing for straight-line travel without the need for constant adjustments. This innovative feature reduces the operator’s workload and minimizes risks associated with overcorrection, particularly on steep slopes.
With a high reduction ratio, the worm gear reducer amplifies the torque generated by the servo motors, delivering substantial output torque for climbing resistance. In a power-off state, the friction between the worm and gear provides mechanical self-locking, which prevents the machine from sliding downhill during power loss. Thus, users can operate confidently in various environments, knowing their equipment will perform reliably.
