Technical Analysis: MY-3A Series Metal Dispensing Valves – Precision, Durability, and Reliable Pressure Control

In precision dispensing processes, valve performance directly determines adhesive consistency, line uniformity, and production stability. The MY-3A Series Metal Dispensing Valve is engineered as a core component for demanding industrial applications. Available in single-sided and double-sided configurations, both feature an all-metal construction. This ensures exceptional durability and corrosion resistance in prolonged, high-intensity production environments, eliminating the wear and aging issues common with plastic valve bodies.

Its core operating pressure is precisely calibrated to 4.6 kg. This pressure range reliably dispenses high-viscosity fluids (such as sealants, lubricants, and instant adhesives) with stable flow while maintaining excellent controllability. It effectively prevents issues like glue spitting, splattering, or internal seepage caused by excessive pressure. Whether performing precise dot dispensing or continuous line tracing, the MY-3A delivers smooth, responsive power output.

In terms of drive mechanism, this valve combines a drive motor with a press principle. The motor drive ensures rapid and precise action with instantaneous start/stop response and zero delay. The press principle delivers smooth, uniform linear pressure, ensuring consistent force on the adhesive during dispensing. This fundamentally guarantees that every drop of adhesive meets the preset standards for volume and shape. This design is particularly suited for automated production lines, seamlessly integrating with PLCs or robotic systems to achieve automated precision dispensing along complex trajectories.

In summary, the MY-3A metal dispensing valve, with its robust metal body, optimized 4.6 kg working pressure, and motor-driven precision pressure control, stands as a reliable choice for industries demanding exceptional quality—including electronics assembly, automotive manufacturing, and medical device encapsulation.