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Features of the EPA Approved Gasoline Engine Self-Powered Dynamo Versatile Remote Slasher Mower
The EPA approved gasoline engine self-powered dynamo versatile remote slasher mower boasts an impressive V-type twin-cylinder gasoline engine. Our remote multitaskers are equipped with the Loncin brand, model LC2V80FD, which delivers a rated power of 18 kW at 3600 rpm. This powerful 764cc gasoline engine ensures robust performance, making it a reliable choice for various outdoor tasks.
Equipped with a clutch that engages only when it reaches a predetermined rotation speed, the mower enhances operational safety significantly. This feature allows the user to operate the machine effectively without worrying about unintended starts, ensuring a smoother and safer mowing experience. The design reflects our commitment to providing high-quality, efficient equipment for our customers.
In addition to its powerful engine, the mower is designed with two 48V 1500W servo motors that provide exceptional climbing capabilities. The built-in self-locking function ensures that the machine remains stationary unless both power is on and throttle is applied. This innovative feature greatly enhances safety by preventing unintended movement, making it suitable for various terrains.
Versatility and Performance of the Mower
The EPA approved gasoline engine self-powered dynamo versatile remote slasher mower stands out for its versatility, featuring a high reduction ratio worm gear reducer. This component multiplies the already strong servo motor torque, resulting in immense output torque necessary for climbing resistance. In the event of a power outage, the friction between the worm and gear provides mechanical self-locking, preventing the machine from sliding downhill, thereby ensuring consistent performance even on slopes.
The intelligent servo controller plays a crucial role in optimizing the mower’s performance. It precisely regulates motor speed and synchronizes the left and right tracks, allowing the mower to travel in a straight line without constant adjustments from the operator. This feature reduces the workload for users and minimizes the risks associated with overcorrection, especially on steep inclines.
