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|Applications:||Chemical, Acid||Port Size:||DN25 To DN1200|
|Drived By:||Bevel Gear||Body Material:||Carbon Steel, Stainless Steel|
|Sleeve Pressure:||Medium And Low Temperature||Sleeve Type:||Handmade Artwork|
Class 150 Slurry Pinch Valve,
Bevel Gear Slurry Pinch Valve,
DN1200 Slurry Pinch Valve
Class 150 High Pressure Full Bore Bevel Gear Slurry Air Pinch Clamping Valve
|Size Range||1" (25mm) to 8" (200mm)|
|Temperature||-10 to 120 degree C|
|Max. Working Pressure||Up to 60psi (4bar)|
|Standard Face-to-Face||Mill Standard|
|Flange Drilling||ANSI 150#, DIN, JIS, AS|
|Tube Material||NR, PGR, EPDM, NBR, IIR, CR, FPM, CSM|
|In-Line Tube Change||Yes|
Method of Control
Pinch valves use a liner motion method of control. The disc is a flexible material liner, similar to a diaphragm. The stem of the pinch valve has a free-moving connection to a moving closure bar, called a compressor, which is located directly above the liner. As the handwheel is turned, the compressor lowers the liner to squeeze the liner against the bottom support to close the valve. The pressure of the media in the valve can help in starting or stopping the flow.
Pinch valves can be used for On/Off, as well as throttling services.
Pinch valves are ideal for on/off services because of their straight through design that allows for uninhibited flow. Straight through designs also have very little pressure drop between the inlet and outlet.
The effective throttling range of a pinch valve is usually between 10% and 95% of the rated flow capacity. The best flow control is at the last 50% of the stroke. This is because the smooth walls and resilience of the liner do not provide a significant pressure drop until at least 50% of the stroke has been achieved. To avoid using the ineffective half of the full stroke some pinch valves are designed for maximum opening at 50%. It is not recommended that media with sharp particles are throttled close to shutoff. The particles can scratch the liner, causing grooves that could potentially tear.
-Full port: the sleeve diameter remains constant from inlet to outlet port.
-Double Wall: This wall gives more protection at cost effective and simple design for highly abrasive applications.
-Cone: design for control applications. By reducing the center section of the valve sleeve, it is possible to achieve the required flow coefficient (Cv, Kv) of the valve.
-Reduced Port: as cone sleeve, the flow coefficient of the valve fits control application.
-Variable orifices: These orifices are designed for high-turndown control application. They also help avoid cavitation.
Contact Person: sales