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Exceptional Performance of Agricultural Robotic Gasoline 360 Degree Rotation Crawler Radio Controlled Slasher Mower
The agricultural robotic gasoline 360 degree rotation crawler radio controlled slasher mower is an innovative solution for modern agricultural needs. This machine is powered by a V-type twin-cylinder gasoline engine that boasts a rated power of 18 kW at 3600 rpm. With its robust performance and a displacement of 764cc, this mower stands out in the market due to its reliability and efficiency.
Equipped with the Loncin brand model LC2V80FD engine, the mower features a clutch that engages only when a predetermined rotation speed is reached. This design enhances operational safety, ensuring that users have full control over the machine’s functionality. The precise engineering behind this feature allows for smooth operation, making it suitable for various terrains.
Additionally, the machine is designed with two powerful 48V 1500W servo motors that provide strong climbing capabilities. The built-in self-locking function ensures that the mower remains stationary until both power is activated and throttle input is given. This safety feature is crucial when operating on slopes or uneven ground, minimizing the risk of unintended movement.
Versatile and Multifunctional Attachments for Diverse Tasks
One of the standout features of the agricultural robotic gasoline 360 degree rotation crawler radio controlled slasher mower is its versatility. It can be fitted with a range of interchangeable front attachments, such as a 1000mm-wide flail mower, hammer flail, forest mulcher, angle snow plow, or snow brush. This adaptability makes it ideal for a variety of tasks, from heavy-duty grass cutting to vegetation management and snow removal.
The intelligent servo controller plays a vital role in enhancing the performance of this mower. It precisely regulates motor speed and synchronizes the left and right tracks, allowing the machine to travel in a straight line without requiring constant adjustments from the operator. This feature significantly reduces the workload and minimizes risks associated with overcorrection on steep slopes.
