With a displacement of 160 mL/r (milliliters per revolution), the K5V160 DTP pump delivers substantial fluid flow, making it suitable for heavy-duty hydraulic systems.
It utilizes a piston design, which ensures precise fluid control and consistent performance. The pump is capable of generating high pressure, allowing it to handle demanding tasks in industries such as construction, mining, and manufacturing.
One of the key features of the K5V160 DTP pump is its dual-flow configuration. It can operate in either a single or dual flow mode, offering versatility and adaptability to different system requirements. In the single flow mode, the pump delivers a consistent flow rate, while in the dual flow mode, it provides independent control of two separate hydraulic circuits. This flexibility makes it ideal for applications where multiple hydraulic functions need to be performed simultaneously.
The K5V160 DTP pump incorporates advanced hydraulic technologies to enhance its performance.
It utilizes a variable displacement mechanism, allowing the pump's output to be adjusted according to the system's demand. This feature improves energy efficiency by reducing unnecessary fluid flow and minimizing power consumption. Additionally, the pump is equipped with a pressure compensation system that automatically adjusts the flow rate to maintain a constant pressure, ensuring reliable and stable operation.
Durability is a crucial aspect of hydraulic pumps, and the K5V160 DTP excels in this area. It is constructed with high-quality materials and precision machining, ensuring robustness and resistance to wear and tear. The pump's design includes reinforced piston rods, durable cylinder blocks, and high-pressure seals, all of which contribute to its long service life and reduced maintenance requirements. These features make the K5V160 DTP pump a cost-effective solution for demanding industrial applications.
Furthermore, the K5V160 DTP pump incorporates advanced control and monitoring capabilities. It can be integrated into hydraulic systems with electronic controls, allowing for precise adjustment and monitoring of pump parameters. This enables operators to optimize the pump's performance, diagnose issues, and enhance overall system efficiency.