The matching clearance between the valve core and the valve seat is the key factor in determining the sealing performance. Insufficient dimensional accuracy means that the gap between the valve core and the valve seat may be too large, which will directly lead to poor sealing effect. In the fluid system, the loss of sealing may lead to leakage, which not only affects the normal operation of the system, but also may cause environmental pollution and safety hazards.

The dimensional accuracy of the valve core is also closely related to its stability and reliability in the fluid system. Insufficient dimensional accuracy may cause the valve core to deflect or deform under the action of high-pressure fluid, thereby affecting its ability to control the fluid. In addition, insufficient dimensional accuracy may also accelerate the wear between the valve core and the valve seat, shortening the service life of the valve core.

The valve core automatic lathe can ensure the dimensional accuracy of the valve core during the processing process through high-precision tools and sensor systems. The geometry of the tool and the cutting parameters are carefully designed and optimized to ensure that the minimum cutting force and thermal deformation can be generated during the processing. The sensor system monitors various parameters in the processing process, such as temperature, pressure and vibration in real time to ensure the stability and controllability of the processing process. This high-precision processing capability enables the dimensional accuracy of the valve core to reach an extremely high level, thus meeting the strict requirements of the fluid system for sealing and stability.

The surface finish of the valve core has an important impact on its fluid resistance and service life. Insufficient surface finish means that there are more microscopic unevenness and roughness on the surface of the valve core. When the fluid passes through the valve core, these microscopic unevenness and roughness will generate eddy currents and resistance, increasing energy consumption. In addition, these unevenness and roughness may also become attachment points for impurities and particles in the fluid, accelerating the wear and corrosion of the valve core.

The surface finish of the valve core is also closely related to its cleanliness and reliability in the fluid system. A valve core with insufficient surface finish is more likely to accumulate impurities and particles in the fluid system, causing system blockage or failure. In addition, a valve core with insufficient surface finish may also leak due to wear and corrosion, affecting the sealing and stability of the system.

The valve core automatic lathe can ensure the surface finish of the valve core during the processing process through high-precision processing technology and high-quality tool materials. The cutting edge of the tool is sharp and stable, which can produce less cutting force and thermal deformation, thereby reducing the micro-unevenness and roughness of the valve core surface. The precision control system of the lathe can monitor and adjust various parameters in the processing process in real time to ensure that the surface finish of the valve core meets the design requirements. This high-precision processing capability enables the surface finish of the valve core to reach an extremely high level, thereby meeting the strict requirements of the fluid system for fluid resistance and service life.

The valve core automatic lathe has many advantages in fine-machining customized copper parts. It can ensure that the dimensional accuracy and surface finish of the valve core reach an extremely high level, thereby meeting the strict requirements of the fluid system for sealing, fluid resistance and service life. The valve core automatic lathe has a high degree of flexibility and customization capabilities, and can quickly adjust the processing program and tool configuration according to the specific needs of customers to adapt to the processing needs of valve cores of different specifications and materials. This flexibility not only improves production efficiency, but also reduces production costs, providing customers with better quality and more efficient services.

In addition, the valve core automatic lathe is also intelligent. By integrating advanced sensor systems and control systems, it can monitor and adjust various parameters in the processing process in real time to ensure the stability and controllability of the processing process. The lathe can also record and analyze data during the processing, providing strong support for optimizing the processing technology and improving product quality.