The CH700 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.
The CH700 High Pressure Control Valve is made of high-strength alloy materials, which are resistant to high pressure and corrosion, ensuring long-term stable operation. The optimized valve core and flow channel design enable precise flow regulation and rapid response, improving control accuracy. The multiple sealing structures effectively prevent leakage, ensuring system safety. The compact design saves installation space and is convenient for maintenance and repair. It is suitable for various media such as steam, gas, and liquid, and is widely used in various high-pressure industrial systems to meet the reliable control requirements under harsh conditions.
Material: WCB、WCC、LCB、LCC、WC6、WC9、CF8、CF8M、CF3、CF3M
Nominal Size: DN25、DN40、DN50、DN80、DN100、DN150、DN200、DN250、DN300、DN350、DN400、DN450、DN500
Pressure Rate: PN160、PN250、PN400
ASME: CL600, CL900, CL1500, CL2500
Operating temperature: -5 to 566 ℃
Operator: Manual, electric, pneumatic, etc.
Application range: Suitable for the medium flow switching in pipeline systems of water supply, petrochemical, metallurgy, mining, light textile, energy, papermaking, food, steel and other industries, as well as the diversion or mixed flow of the medium.
RAYS C-type Wear-Resistant Ball Valve is a valve designed for harsh working conditions, with many unique design features and advantages. It achieves low friction and high reliability media control through its unique eccentric design and metal-to-metal seal, and is suitable for a variety of harsh industrial application environments. The C-type wear-resistant ball valve adopts an eccentric design, so that the C ball gradually enters the valve seat when the valve is closed, and the C ball instantly leaves the valve seat when the valve is opened, thereby reducing the resistance of the switch action. This design also makes the C ball and the valve seat have no contact after the valve is opened, reducing friction and wear.
The low-temperature gate valve is a type of equipment used for full opening and full closing operations. The opening and closing element of the low-temperature gate valve is a gate plate. The movement direction of the gate plate is perpendicular to the flow direction of the fluid. The gate valve can only be operated in full opening and full closing positions, and cannot be used for regulation or throttling. The gate plate has two sealing surfaces. The most commonly used type of gate valve has two sealing surfaces forming a wedge shape, and the wedge angle varies with the parameters.
Expanding Slab Gate Valve is a type of slide valve that utilizes parallel gate plates as its closing mechanism. These plates are equipped with a spreading mechanism to enhance functionality. The force pressing the plates against the valve seat is regulated by the medium pressure acting on either a floating gate plate or a floating valve seat. In dual gate flat gate valves, the inter-plate spreading mechanism provides additional pressing force. This valve is designed with innovative features including low operating torque, rapid actuation, minimal vibration, extended operational life, and enhanced safety. It is mainly used for the isolation or venting of gases and liquids in pipeline systems.