Table of Contents
Advanced Features of the CE EPA Euro 5 Gasoline Engine
The CE EPA Euro 5 gasoline engine sharp mowing blades crawler remote control snow brush is powered by a V-type twin-cylinder gasoline engine. Specifically, it utilizes the Loncin brand, model LC2V80FD, which boasts a rated power of 18 kW at 3600 rpm. This 764cc engine provides strong performance, ensuring that users can tackle even the most demanding tasks with ease.
One of the standout features of this engine is its clutch system, which only engages when a predetermined rotation speed is reached. This not only enhances efficiency but also contributes to the longevity of the engine, making it a reliable choice for various applications.
With robust engineering at its core, this machine ensures that operators can rely on its performance during extended use. The powerful engine output allows for seamless operation, whether in mowing grass or clearing snow, showcasing its versatility across different environments.
Enhanced Safety and Versatility
The CE EPA Euro 5 gasoline engine sharp mowing blades crawler remote control snow brush is equipped with two 48V 1500W servo motors that deliver exceptional climbing power. The built-in self-locking function is a crucial safety feature, ensuring that the machine only moves when both power is active and throttle is applied. This design effectively prevents unintended sliding, significantly enhancing operational safety for users.
Furthermore, the machine is designed with a high reduction ratio worm gear reducer, which multiplies the already strong torque from the servo motors. This results in immense output torque that is particularly useful for climbing resistance. Even during power loss, the friction between the worm and gear provides mechanical self-locking, preventing the machine from sliding downhill, ensuring safety in all conditions.
The intelligent servo controller plays a vital role in regulating motor speed and synchronizing the left and right tracks. This advanced feature allows the mower to maintain a straight line without constant remote adjustments, reducing operator workload and minimizing risks associated with overcorrection on steep slopes.
