The SF2 500 semi-submerged filter is a highly efficient hydraulic machine accessory designed to optimize the performance of hydraulic systems. Engineered for either tank side or bottom mounting, this filter accommodates a high flow rate of up to 800 liters per minute (211 gallons per minute) and features SAE code 61 flanged connections available up to 4 inches. This robust design ensures that it can handle significant hydraulic demands while maintaining system efficiency. One of the standout features of the SF2 500 is its convenient anti-drain valve, which facilitates easy filter element changes without the need to drain the entire tank. This design not only saves time but also minimizes downtime, making it an ideal choice for busy operational environments. Operators can swiftly replace the filter element, ensuring that the hydraulic system remains clean and efficient without extensive maintenance interruptions. Furthermore, the SF2 500 filter includes an optional magnetic column, which plays a crucial role in capturing ferrous particles that may be present in the hydraulic fluid. This added feature enhances the filter’s ability to protect hydraulic components from wear and damage caused by metal debris, ultimately prolonging the lifespan of the entire hydraulic system.

The filter also offers flexibility with multi-port supply options, allowing it to be integrated seamlessly into various hydraulic setups. This adaptability makes the SF2 500 an invaluable accessory for a wide range of hydraulic applications, including construction machinery, agricultural equipment, and industrial hydraulic systems. In summary, the SF2 500 semi-submerged filter is an essential hydraulic machine accessory that combines high flow capacity with user-friendly features. Its efficient design, anti-drain capability, magnetic particle capture, and versatile mounting options make it a critical component for maintaining the performance and longevity of hydraulic systems. By incorporating the SF2 500 filter, operators can ensure optimal fluid cleanliness and system reliability, ultimately enhancing operational efficiency.