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Features of the Rubber Track Remote-Driven Lawn Mulcher
Vigorun Tech is a leading manufacturer of the rubber track remote-driven lawn mulcher, designed to tackle various outdoor tasks with efficiency and precision. The machine is powered by a robust V-type twin-cylinder gasoline engine from the Loncin brand, model LC2V80FD. This engine boasts a rated power of 18 kW at 3600 rpm, ensuring strong performance for demanding lawn care operations.
The innovative design of this mulcher incorporates a clutch that engages only when the engine reaches a predetermined rotation speed. This feature not only enhances the safety of the operation but also optimizes fuel efficiency, allowing for extended use during critical mowing tasks.
Equipped with dual 48V 1500W servo motors, the rubber track remote-driven lawn mulcher demonstrates remarkable climbing capability and power. The self-locking function ensures that the machine remains stationary without throttle input, greatly enhancing operational safety by preventing unintended movement.
Moreover, the high reduction ratio of the worm gear reducer multiplies the torque generated by the servo motors, delivering exceptional output torque for climbing resistance. This mechanical self-locking feature also guarantees that the machine will not slide downhill in case of a power outage, making it reliable on slopes.
Versatile Applications and Performance
The intelligent servo controller integrated into the rubber track remote-driven lawn mulcher plays a crucial role in its functionality. It precisely regulates motor speed and synchronizes the left and right tracks, allowing for smooth travel without the need for constant adjustments from the operator. This significantly reduces the workload and minimizes risks associated with overcorrection, especially on steep terrains.
Vigorun Tech’s commitment to superior performance is evident in the 48V power configuration of the MTSK1000. Compared to many models utilizing lower voltage systems, this design reduces current flow and heat generation, enabling longer continuous operation and lowering the risk of overheating. This ensures stable performance even during extended tasks on slopes.
