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Features of China Unmanned Crawler Flail Mower
The China unmanned crawler flail mower is an innovative machine designed for versatility and efficiency in various applications. At the heart of its operation is the powerful Loncin brand V-type twin-cylinder gasoline engine, model LC2V80FD. With a rated power output of 18 kW at 3600 rpm and a robust 764cc capacity, this engine ensures strong performance, allowing the mower to tackle even the toughest terrains with ease.
Safety is a paramount consideration in the design of this mower. The engine is equipped with a clutch that engages only upon reaching a predetermined rotation speed. This feature not only enhances operational safety but also contributes to the overall efficiency of the machine, ensuring that it only operates under optimal conditions.
In addition to the powerful engine, the China unmanned crawler flail mower boasts two 48V 1500W servo motors. This configuration provides impressive power for climbing steep inclines, giving users the confidence to operate seamlessly on varied landscapes. The built-in self-locking function is another notable feature, which prevents unintended movement when throttle input is absent, thereby enhancing safety during operation.
Versatility and Performance
Vigorun Tech has designed the China unmanned crawler flail mower for multi-functional use, making it an invaluable asset for various tasks. The innovative MTSK1000 model features interchangeable front attachments that allow operators to customize the machine for specific needs. Whether equipped with a 1000mm-wide flail mower, hammer flail, forest mulcher, angle snow plow, or snow brush, this mower excels in heavy-duty grass cutting, shrub clearing, vegetation management, and snow removal.
The intelligent servo controller further enhances the performance of the China unmanned crawler flail mower by precisely regulating motor speed and synchronizing the left and right tracks. This eliminates the need for constant remote adjustments, significantly reducing operator workload and minimizing risks associated with overcorrection, especially on steep slopes.
Moreover, the high reduction ratio provided by the worm gear reducer multiplies the torque from the servo motors, delivering immense output torque for climbing resistance. In a power-off state, the friction between the worm and gear creates mechanical self-locking, preventing the machine from sliding downhill during power loss, thus ensuring consistent performance in all conditions.
