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Features of the Strong Power Petrol Engine Rechargeable Battery Crawler Remote Operated Lawn Mulcher
Equipped with a V-type twin-cylinder gasoline engine, the strong power petrol engine rechargeable battery crawler remote operated lawn mulcher stands out in performance. Our model utilizes the Loncin brand’s LC2V80FD engine, which boasts a rated power of 18 kW at 3600 rpm. This robust 764cc engine ensures strong performance, allowing operators to tackle tougher mowing tasks with ease and efficiency. The engine features a clutch mechanism that engages only when the rotation speed reaches a predetermined level, ensuring optimal power delivery while maximizing fuel efficiency. This design not only enhances performance but also contributes to the longevity of the machine, making it a reliable choice for various lawn care applications.
To further enhance the machine’s capabilities, it is outfitted with two powerful 48V 1500W servo motors that provide exceptional climbing ability. The built-in self-locking function ensures that the machine remains stationary when the throttle is not applied, enhancing safety during operation. This feature effectively prevents unintended sliding, allowing users to work confidently on slopes and uneven terrain.
The high reduction ratio of the worm gear reducer multiplies the already impressive torque generated by the servo motors, enabling the mulcher to conquer steep inclines with ease. Even in the event of a power loss, the friction between the worm and gear provides mechanical self-locking, ensuring that the machine does not slide downhill and maintains consistent performance across all terrains.
Versatility and Efficiency of the Lawn Mulcher
The intelligent servo controller integrated into the strong power petrol engine rechargeable battery crawler remote operated lawn mulcher offers precise regulation of motor speed and synchronization of the tracks. This innovative feature allows the mower to move in a straight line without constant adjustments from the operator, significantly reducing their workload. It also minimizes risks associated with overcorrection, especially on steep slopes, ensuring a smoother operation.
