The K3V63 DTP pump features a displacement of 2x63mL/r, which refers to the volume of fluid displaced by the pump's pistons in each revolution.
This displacement capacity ensures that the pump can deliver a significant amount of hydraulic fluid, making it suitable for applications that require high flow rates and pressure.
One of the key advantages of the K3V63 DTP pump is its robust construction. It is built to withstand demanding operating conditions and provide long-lasting performance. The pump is made from high-quality materials that are resistant to wear and corrosion, ensuring its durability and reliability even in harsh environments.
The pump's piston design allows for efficient and precise fluid delivery. The pistons move in a reciprocating motion within the pump's cylinder block, creating pressure differentials that force the hydraulic fluid to flow. This design ensures smooth and consistent fluid delivery, minimizing energy loss and optimizing system performance.
The K3V63 DTP pump is equipped with advanced features that enhance its functionality and ease of use.
It includes a built-in pressure compensator that automatically adjusts the pump's output to maintain a constant pressure within the hydraulic system. This feature is particularly useful in applications where the operating conditions may vary, ensuring consistent performance and protecting the system from overloading.
Furthermore, the pump is designed for easy installation and maintenance. It comes with user-friendly mounting options and a simple interface that allows for convenient integration into hydraulic systems. Regular maintenance tasks such as changing the oil and inspecting the pump's components can be performed quickly and easily, minimizing downtime and maximizing productivity.
The K3V63 DTP pump is versatile and can be used in various applications, including construction machinery, industrial equipment, and agricultural machinery. It can effectively power hydraulic cylinders, motors, and other hydraulic components, enabling the efficient operation of these systems.