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Features of the Loncin 764CC Gasoline Engine
The Loncin 764CC gasoline engine cutting height adjustable tracked remotely controlled forestry mulcher is powered by a V-type twin-cylinder gasoline engine, specifically the Loncin brand model LC2V80FD. This engine boasts a rated power of 18 kW at 3600 rpm, delivering strong performance suitable for various demanding tasks in forestry and land management.
Equipped with a clutch that activates only at a predetermined rotation speed, this engine ensures optimal efficiency and performance. The thoughtful design allows the operator to maintain control over the machine’s capabilities, making it an excellent choice for both professionals and enthusiasts in the field.
The powerful 764cc gasoline engine provides impressive torque, enabling the mulcher to handle challenging terrains with ease. Whether tackling steep slopes or dense vegetation, this machinery is designed to excel, making it an essential tool for forestry operations.
With advanced engineering, the Loncin engine combines reliability with performance, ensuring that users can count on it for consistent operation across various environments. This makes the mulcher an invaluable asset for those involved in land clearing and maintenance.
Versatility and Safety Features
The Loncin 764CC gasoline engine cutting height adjustable tracked remotely controlled forestry mulcher is equipped with two 48V 1500W servo motors that provide robust power for climbing and maneuvering. These motors enhance the machine’s capability, allowing it to navigate uneven terrain confidently.
One of the standout safety features includes a built-in self-locking function, which ensures that the machine remains stationary unless both power is activated and throttle is applied. This feature significantly reduces the risk of unintended movement, giving operators peace of mind during operation.
Additionally, the high reduction ratio worm gear reducer multiplies the torque produced by the servo motors, providing formidable output torque for climbing resistance. This innovation also includes mechanical self-locking during power loss, preventing the machine from sliding downhill, further enhancing operational safety.
The intelligent servo controller plays a crucial role in managing motor speed and synchronizing the left and right tracks, allowing for smooth and straight-line travel without constant adjustments. This efficiency minimizes operator workload and reduces risks associated with over-correction, especially on steep slopes.
