The K3V112 (2 port) series features an axial piston design, which ensures smooth and precise operation.
It consists of a cylinder block, pistons, a swash plate, a valve plate, and a drive shaft. The axial piston arrangement allows for efficient power transmission and optimal performance across a wide range of operating conditions.
One of the key features of the K3V112 (2 port) series is its high-pressure capabilities. It is capable of delivering high pressure up to 400 bar, making it suitable for demanding applications that require substantial force and power. This series is known for its ability to handle heavy-duty tasks, such as excavators, construction machinery, and other industrial equipment.
The K3V112 (2 port) series also offers excellent efficiency, which contributes to its popularity in the industry. The precise control of the swash plate angle allows for accurate flow regulation, minimizing energy losses and maximizing overall system efficiency. This efficiency translates into reduced fuel consumption, lower operating costs, and increased productivity.
Furthermore, the K3V112 (2 port) series is designed for durability and reliability. The high-quality materials, precise manufacturing, and robust construction ensure long-lasting performance even in challenging environments. The series is engineered to withstand heavy loads, shocks, and vibrations, making it suitable for harsh operating conditions commonly encountered in industries like mining, forestry, and agriculture.
The versatility of the K3V112 (2 port) series is another notable aspect.
It is available in multiple displacements, allowing users to select the pump size that best suits their specific requirements. The series offers a wide range of flow rates and pressure ratings, making it adaptable to various hydraulic systems and applications. It can be easily integrated into different machinery designs, offering flexibility and compatibility.
The K3V112 (2 port) series also features advanced control options. It can be equipped with proportional control valves, pressure compensators, and load-sensing mechanisms, enabling precise and responsive hydraulic system control. These control features enhance the overall performance and efficiency of the system while providing operators with greater control and accuracy.
