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Loncin 764CC Gasoline Engine Features
The Loncin 764CC gasoline engine adjustable blade height by remote control rubber track wireless forestry mulcher is a remarkable machine designed for heavy-duty applications. This innovative equipment is powered by the Loncin brand’s V-type twin-cylinder gasoline engine, model LC2V80FD, which delivers an impressive rated power of 18 kW at 3600 rpm. The robust performance of this engine ensures that it can handle various tasks with ease and efficiency.
One of the standout features of this machine is its ability to adjust blade height remotely. This functionality allows operators to modify the cutting height without having to dismount from the vehicle, enhancing convenience and productivity. The electric hydraulic push rods facilitate this adjustment, making the operation seamless and efficient.
In addition to its powerful engine, the machine incorporates two 48V 1500W servo motors. These motors provide substantial power, ensuring that the mulcher can navigate challenging terrains effortlessly. With the built-in self-locking function, the machine remains stationary unless both power is engaged and throttle is applied, thus significantly improving operational safety during use.
Advanced Technology and Versatility
The Loncin 764CC gasoline engine adjustable blade height by remote control rubber track wireless forestry mulcher is not just about brute strength; it also includes advanced technology to enhance user experience. The intelligent servo controller accurately regulates motor speed while synchronizing the left and right tracks. This feature allows the mower to maintain a straight path without constant adjustments, effectively reducing the operator’s workload and minimizing risks associated with steep slopes.
Furthermore, the machine boasts a high reduction ratio worm gear reducer that amplifies the already formidable torque produced by the servo motors. This results in exceptional output torque, perfect for climbing and maneuvering on inclines. In a power-off state, the mechanical self-locking mechanism between the worm and gear prevents the machine from sliding downhill, ensuring safety even during unexpected power loss.
