Loncin 764CC gasoline engine adjustable mowing height versatile remote handling flail mower

Features of the Loncin 764CC Gasoline Engine

The Loncin 764CC gasoline engine adjustable mowing height versatile remote handling flail mower is powered by a robust V-type twin-cylinder gasoline engine. This model, known as LC2V80FD, has a rated power output of 18 kW at 3600 rpm, making it exceptionally reliable for various outdoor tasks. The engine’s design ensures that it delivers strong performance and efficiency, allowing users to tackle demanding mowing jobs with ease. One notable feature of this engine is its clutch mechanism, which engages only when the engine reaches a predetermined rotation speed. This enhancement not only improves the overall performance but also contributes to the longevity of the engine by preventing unnecessary wear during idle periods. Users can experience smooth operation without compromising on safety or efficiency.

The machine’s engineering includes a high reduction ratio worm gear reducer that amplifies the already impressive torque provided by the servo motors. This design ensures that the mower can handle steep terrains and challenging landscapes effectively. In fact, even in a power-off state, the friction between the worm and gear offers mechanical self-locking, which prevents unintended sliding, thereby enhancing operational safety significantly.

Versatility and Remote Handling Capabilities

The Loncin 764CC gasoline engine adjustable mowing height versatile remote handling flail mower stands out with its innovative remote handling capability. Equipped with two powerful 48V 1500W servo motors, it provides strong performance, especially when climbing slopes. The built-in self-locking function ensures the machine remains stationary unless both power is engaged and throttle is applied, reducing the risk of accidents. With an intelligent servo controller, the mower precisely regulates motor speed and synchronizes the left and right tracks. This technology allows the mower to travel in a straight line effortlessly, minimizing the need for constant remote adjustments. As a result, operators can focus more on the task at hand rather than continuously correcting their course, which is particularly beneficial when working on steep slopes.