The K3VL112 hydraulic pump is a compact and high-performance unit that offers exceptional efficiency and reliability.
It features a displacement of 112 cm³/rev, which indicates the volume of fluid it can deliver per revolution. This pump is designed to operate at pressures up to 280 bar, making it suitable for demanding hydraulic systems. It is equipped with a through-drive capability, allowing multiple pumps to be mounted in tandem for increased flow capacity.
Moving on to the K3VL140 hydraulic pump, it provides a slightly larger displacement of 140 cm³/rev. This means it can deliver a higher volume of fluid per revolution compared to the K3VL112. The K3VL140 pump is also capable of operating at pressures up to 280 bar, ensuring its suitability for heavy-duty applications. It shares the through-drive capability with the K3VL112, enabling flexible configuration in multi-pump setups.
Lastly, we have the K3VL200 hydraulic pump, which offers the largest displacement among the three models at 200 cm³/rev. With this higher displacement, it can deliver even greater fluid volume per revolution. The K3VL200 is designed to handle pressures up to 320 bar, making it ideal for applications requiring substantial force. Similar to the other two models, it supports through-drive installation, facilitating the integration of multiple pumps to meet specific system requirements.
All three pumps feature a robust design and utilize precision-machined components to ensure longevity and durability.
They employ a swash plate mechanism that converts rotational motion into linear fluid displacement, providing smooth and efficient operation. The pumps are driven by a hydraulic motor or an engine, delivering power to various hydraulic actuators and systems.
These Kawasaki hydraulic pumps are known for their high efficiency, which contributes to energy savings and reduced operating costs. They incorporate advanced technologies such as load-sensing control, which adjusts pump output based on system demand, optimizing efficiency and minimizing energy waste. Additionally, these pumps exhibit low noise and vibration levels, enhancing operator comfort and reducing noise pollution in industrial environments.