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Features of the Loncin 764CC Gasoline Engine Electric Traction Travel Motor Tracked Remote-Driven Lawn Mulcher
The Loncin 764CC gasoline engine electric traction travel motor tracked remote-driven lawn mulcher is engineered for exceptional performance in landscaping and lawn maintenance. It is powered by a robust V-type twin-cylinder gasoline engine, specifically the Loncin brand model LC2V80FD. This engine boasts a rated power of 18 kW at 3600 rpm, ensuring strong performance and reliability for various outdoor tasks.
Equipped with two high-capacity 48V 1500W servo motors, this lawn mulcher exhibits remarkable climbing ability and operational strength. The machine’s built-in self-locking function guarantees that it only moves when both power is engaged and throttle is applied. This safety feature prevents unintended sliding, making it an excellent choice for users looking for both efficiency and enhanced safety during operation.
The innovative worm gear reducer enhances the already impressive torque generated by the servo motors, allowing for significant output torque that is essential for climbing resistance. In the event of a power loss, the mechanical self-locking mechanism ensures that the machine remains stationary, providing peace of mind when operating on slopes or uneven terrains.
Benefits of Using the Loncin 764CC Gasoline Engine Electric Traction Travel Motor Tracked Remote-Driven Lawn Mulcher
One of the standout features of the Loncin 764CC gasoline engine electric traction travel motor tracked remote-driven lawn mulcher is its intelligent servo controller. This advanced technology precisely regulates motor speed while synchronizing the left and right tracks. This capability allows the mower to maintain a straight line without constant adjustments from the operator, significantly reducing workload and minimizing the risks associated with overcorrection on steep slopes.
Additionally, the 48V power configuration of this machine offers numerous advantages compared to standard 24V systems. The higher voltage results in lower current flow and reduced heat generation, which not only prolongs continuous operation but also mitigates the risks of overheating. This stability is crucial for those long mowing tasks, ensuring consistent performance regardless of the conditions.
