CHM703 High Pressure Control Valve is a high-precision fluid control device specially designed for harsh industrial environments. It is suitable for high-pressure pipeline systems in industries such as petroleum, chemical engineering, power, and metallurgy. This product uses high-quality materials and advanced manufacturing techniques to ensure stable operation even under extreme conditions such as high pressure, high temperature, and strong corrosion. Its compact structure and reliable sealing enable precise regulation of flow and pressure, meeting the strict requirements of complex industrial processes. The high-pressure regulating valve has excellent shock resistance and vibration resistance, and is suitable for frequent opening and closing and high-load operation environments. It is also easy to maintain, effectively reducing long-term usage costs, making it an ideal choice in the field of industrial fluid control.
● Anti-vibration, anti-boiling, anti-corrosion, anti-corrosion erosion
● Suitable for fluid containing particles
● No vibration, low noise; stable operation
● Good regulating performance, tight shut-off
● Easy installation, few wear parts, simple maintenance
● Various valve body connection forms to meet different working conditions
● Can be equipped with any type of drive device and accessories
Material: WCB, WCC, LCB, LCC, WC6, WC9, CF8, CF8M, CF3, CF3M, Forged 20, 304, 316, 304L, 316L, and others
Nominal Size:
Multi-stage Valve Trim:DN25, DN40, DN50, DN80, DN100
Multi-layer Valve Cage:DN50, DN80, DN100, DN200, DN250, DN300, DN350, DN400, DN450
Pressure Rate: ASME:CL600、CL900、CL1500、CL2500
ASME: CL600, CL900, CL1500, CL2500
Operating temperature:
Standard Temperature Type: P: -5°C to +230°C
High-Temperature Type: EI: +230°C to +566°C
Special Custom Type: TII: Exceeds +566°C (Please contact our technical department for details)
Operator: Pneumatic, Electric, etc
Application range: Suitable for high-pressure differential fluid applications in petroleum, metallurgy, chemical, and power generation equipment pipelines where highly destructive cavitation, flashing, vibration, and high noise occur
The Axial Flow Check Valve has a unique axial flow design, and its spool is aligned with the flow direction, significantly reducing the resistance loss when the fluid passes through. The spool is driven by spring or fluid pressure for quick opening and closing. When the fluid is flowing forward, the spool is pushed open and the fluid passes smoothly. When the fluid flows in reverse, the spool is quickly closed, effectively preventing backflow, and ensuring the stability and safety of the system operation.
RAYS Through Conduit (T.C.) Slab Gate Valves are manufactured with a full bore port, rising stem OS&Y and with floating seats and gate, pressure energized, for a bubble tight shut off upstream and downstream under both low and high differential pressure. Double block and bleed capability and automatic relief of excess body pressure are a standard feature of this seat design. The smooth, continuous bore minimizes turbulence within the valve and when in the open position it produces a pressure drop equivalent to a portion of pipe of the same length and diameter. The seat faces are outside the flow stream and therefore protected from the erosive action of the flow. Pigs and scrapers can be run through the valve without damage.
The Throttle Stop Valve is mainly composed of valve body, valve cover, valve flap, and valve stem. The handwheel applies a certain torque at the upper end of the valve stem. The valve stem is passed to the valve petals to move it up and down along the valve stem axis to realize the full-opening, full-closed movements and regulating traffic functions. The force applied by the hand wheel can be obsessed with the valve seat to reach the sealing state; Location, change the cross-sectional area between the valve petals and the cover of the valve seat, and achieve the purpose of regulating media flow. At the same time, the throttle stop valve does not rub with the valve seat before turning off, thereby reducing the wear of the cover and effectively extending the life of the valve.