Table of Contents
Unmatched Performance with the 2 Cylinder 4 Stroke Gasoline Engine
Incorporating advanced technology, the engine is equipped with a clutch that activates only when it reaches a predetermined rotation speed. This feature not only enhances efficiency but also ensures that operators can maximize the potential of the engine without compromising safety. The design reflects Vigorun Tech’s commitment to providing reliable machinery that meets the demands of modern landscaping and maintenance operations.
The self-charging generator component of this mower adds another layer of convenience, allowing for continuous operation without the need for frequent refueling. Operators can focus on their tasks without worrying about running out of power, making it perfect for extensive projects or remote locations.
Exceptional Maneuverability and Safety Features
The 2 cylinder 4 stroke gasoline engine self-charging generator rubber track remote operated slasher mower is built with two 48V 1500W servo motors that provide impressive power for climbing and maneuvering through challenging terrains. The built-in self-locking function ensures that the machine remains stationary when throttle is not applied, preventing unintended sliding and enhancing operational safety significantly.
With a high reduction ratio, the worm gear reducer multiplies the torque generated by the servo motors, delivering immense output torque essential for climbing resistance. This mechanical self-locking feature also prevents the machine from sliding downhill during power loss, ensuring consistent performance and safety even in steep environments.
Furthermore, the intelligent servo controller precisely regulates motor speed and synchronizes both left and right tracks. This capability allows the mower to travel in a straight line without constant adjustments, reducing operator workload and minimizing risks associated with over-correction on slopes.
The 48V power configuration of this innovative mower lowers current flow and heat generation, enabling longer continuous operation. This is particularly advantageous during extended slope mowing tasks, ensuring stable performance while mitigating overheating risks that can compromise functionality.
