What is the main purpose of the Gear pump straight through hydraulic square flange fitting?

The Gear pump straight through hydraulic square flange fitting is an indispensable connection component in the hydraulic system. It is designed to achieve a stable and effective connection between the output end of the gear pump and other key components in the hydraulic system (such as hydraulic cylinders, hydraulic valves, etc.). This connection is the basis for the normal operation of the hydraulic system, because it ensures that the hydraulic energy generated by the gear pump can be smoothly transmitted to the entire hydraulic system, thereby driving various mechanical devices to complete the expected actions.
The design of the square flange not only enhances the structural strength of the joint, enabling it to withstand various forces and stresses in the hydraulic system, but also improves the stability and reliability of the connection. This design enables the joint to maintain excellent performance under harsh working conditions such as high pressure, high speed, and high load, ensuring the stability and durability of the hydraulic system.
The sealing performance of the Gear pump straight through hydraulic square flange fitting is another important feature. The built-in O-ring sealing structure of the joint, with its good elasticity and corrosion resistance, can maintain excellent sealing effect under high pressure and harsh environments. This sealing performance not only prevents the leakage of hydraulic oil, ensures the stability of the pressure and flow of the hydraulic system, but also avoids environmental pollution and safety hazards caused by leakage. The design of the O-ring sealing structure also takes into account the need for easy replacement and maintenance. When the sealing performance of the O-ring decreases due to aging, wear and other reasons, the user can easily replace it with a new O-ring to restore the sealing performance of the joint and extend its service life.
The Gear pump straight through hydraulic square flange fitting can withstand pressures up to 350 bar, which makes it suitable for various high-pressure hydraulic systems. Under high-pressure environments, the joint can maintain structural integrity and sealing performance to ensure the efficiency and stability of hydraulic transmission. This pressure-bearing capacity makes the joint widely used in industrial fields such as lifting, transportation, mining, metallurgy, oil fields, and chemicals. In these fields, hydraulic systems usually need to withstand large loads and stresses, and also need to work under harsh environmental conditions. With its excellent pressure-bearing capacity and sealing performance, the Gear pump straight through hydraulic square flange fitting has become an indispensable hydraulic connection component in these industrial fields.
In addition to the connection function, sealing performance and pressure-bearing capacity, the Gear pump straight through hydraulic square flange fitting also has excellent adaptability and flexibility. Its 24° tapered internal thread design enables it to be formed to the pipe end and tightly connected with different types of pipes such as welded pipes and ferrules. This design not only increases the scope of application of the connector, but also enables it to cope with various complex hydraulic system connection requirements. For example, when pipes of different diameters or materials need to be connected, users can meet the needs by selecting the appropriate connector model and specification. In addition, the connector can also be customized as needed to meet the special requirements of specific application scenarios.
In lifting machinery, it connects the gear pump and hydraulic cylinder to achieve the lifting and moving of heavy objects; in transport vehicles, it connects the hydraulic system and steering mechanism to ensure the flexibility and stability of the vehicle; in the mining and metallurgical industry, it connects equipment such as hydraulic crushers and excavators to achieve the mining and processing of ore; in the oil field and chemical industry, it connects various hydraulic control valves and pipeline systems to ensure the continuity and safety of the production process.