Table of Contents
Versatile Power and Performance
Our agriculture gasoline powered all terrain rubber track unmanned brush mulcher is engineered with a robust V-type twin-cylinder gasoline engine, specifically the Loncin brand model LC2V80FD. This powerful engine boasts a rated power of 18 kW at 3600 rpm, providing exceptional performance with its 764cc capacity. The design includes a clutch that engages only when the engine reaches a predetermined rotation speed, ensuring efficient operation and energy use.
The machine is equipped with two 48V 1500W servo motors that deliver impressive power and climbing capability. This strength is further enhanced by the built-in self-locking function, which ensures that the machine remains stationary until both power is activated and throttle is applied. This safety feature significantly reduces the risk of unintended movement, making it a reliable choice for various agricultural tasks.
In addition, the high reduction ratio of the worm gear reducer amplifies the already formidable torque of the servo motors. This allows the agriculture gasoline powered all terrain rubber track unmanned brush mulcher to tackle steep inclines confidently. In the event of a power loss, the friction between the worm and gear provides mechanical self-locking to prevent accidental downhill sliding, maintaining safety and efficiency during operation.
Intelligent Control and Multi-Functionality
The intelligent servo controller integrated into our agriculture gasoline powered all terrain rubber track unmanned brush mulcher precisely manages motor speed and synchronizes the left and right tracks. This advanced technology allows the machine to move in a straight line without the need for constant adjustments from the operator. Consequently, this reduces the workload on the user and minimizes the risks associated with over-correction on steep slopes.
Unlike many competitors that operate on 24V systems, our MTSK1000 model utilizes a superior 48V power configuration. This higher voltage lowers both current flow and heat generation, allowing for longer continuous operation while mitigating overheating risks. As a result, the machine maintains stable performance even during extended mowing tasks on challenging terrains.
