| Customization: | Available |
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| Temperature: | Ordinary Temperature |
| Certification: | GS, CE, ISO9001 |
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1. Experience the ease and efficiency of pressure setting directly on the pilot. This feature is not only convenient and swift but also labor-saving and time-efficient, allowing for seamless, continuous adjustment during ongoing operations. With an impressive level of control accuracy, it is perfect for applications demanding precision at the highest standards.
2. Enjoy an expansive adjustment range that surpasses that of standard self-operated valves, offering unmatched flexibility for the same valve.
3. Discover unparalleled sensitivity with this valve, capable of detecting the most minute pressures, such as an astonishingly low pressure of 50 mm H2O, or even minimal pressure alterations.
4. Benefit from an extraordinarily large pressure reduction ratio. For instance, with an upstream pressure of 0.8 MPa and a downstream pressure as low as 50 mm H2O, the pressure differential ratio achieves an impressive 1600, showcasing its exceptional capability.
For further inquiries on other innovative products such as the self-operated micro-pressure regulator valve, differential pressure regulator valve, temperature regulator valve, flow regulator valve, and liquid level regulator valve, please reach out to the knowledgeable SNT Technical Department.
| Nominal diameter(DN) | 20 | 25 | 32 | 40 | 50 | 65 | 80 | 100 | 125 | 150 | 200 | 250 | 300 | |||||||
| Length of the receiver tube (B) | 383 | 512 | 603 | 862 | 1023 | 1380 | 1800 | 2000 | 2200 | |||||||||||
| Flange face distance L(PN16,25,40) | 150 | 160 | 180 | 200 | 230 | 290 | 310 | 350 | 400 | 480 | 600 | 730 | 850 | |||||||
| Flange face distance L(PN64) | 230 | 260 | 300 | 340 | 380 | 430 | 500 | 550 | 650 | 775 | 900 | |||||||||
Pressure adjustment range KPa |
15~140 | H | 475 | 520 | 540 | 710 | 780 | 840 | 880 | 940 | 950 | |||||||||
| A | 280 | 308 | ||||||||||||||||||
| 120~300 | H | 455 | 500 | 520 | 690 | 760 | 800 | 870 | 900 | 950 | ||||||||||
| A | 230 | |||||||||||||||||||
| 280~500 | H | 450 | 490 | 510 | 680 | 750 | 790 | 860 | 890 | 940 | ||||||||||
| A | 176 | 194 | 280 | |||||||||||||||||
| 480~1000 | H | 445 | 480 | 670 | 740 | 780 | 780 | 850 | 880 | 930 | ||||||||||
| A | 176 | 194 | 280 | |||||||||||||||||
PN16 Weight (Kg) PN16 as an example |
26 | 37 | 42 | 72 | 90 | 112 | 130 | 169 | 285 | 495 | 675 | |||||||||
| Part name | Materials |
Valve body |
A216 WCB,A351 CF8/CF3/CF8M/CF3M,ZG230-450,ZG0Cr18Ni9Ti,ZG0Cr18Ni12Mo2Ti |
Spool |
304SS,316SS,304LSS,316LSS,1Cr18Ni9, 0Cr18Ni12Mo2Ti (Stellite Clad welding Stellite) PTFE |
Valve seat |
304SS,316SS,304LSS,316LSS,1Cr18Ni9,0Cr18Ni12Mo2Ti (Stellite Clad welding Stellite) |
| Stem | 304SS,316SS,304LSS,316LSS,1Cr18Ni9,1Cr18Ni9,0Cr18Ni12Mo2Ti |
| Rubber diaphragm | Nitrile,ethylene,fluoro,oil resistant rubber ,0Cr18Ni9Ti |
| Membrane cover | Q235,Q235 Painting PTFE |
Packing |
Polytetrafluoroethylene,flexible graphite |
| Trouble shooting | Causes of production | Exclusion methods |
| Unstable post-valve pressure with | 1,Spool stuck by foreign objects 2,Valve stem, push rod jammed 3,Fluid inlet pipe blocked |
1,Reinstallation to exclude foreign objects 2,Re-adjustment 3,unclogging |
| ,pressure changes in front of the valve | 1,Set spring stiffness is too large 2,The valve bore is too large 3,The pressure before the valve is too high, the pressure reduction ratio is too large |
1,Replacement of springs 2,Replace the smaller diameter 3,The pressure before the valve and the pressure after the valve exceed 20, should be 2 levels of pressure reduction |
| Pressure behind the valve does not drop, always above the demand value | 1,Set spring stiffness is too small 2,The valve bore is too small 3,The pressure reduction ratio is too small |
1,Replacement of springs 2,Replace the larger diameter 3,Pressure before the valve: the pressure after the valve is lower than 1.25, the pressure before the valve should be increased |
| Pressure behind the valve does not rise, always below the demand value | 1. Set spring stiffness is too small 2,The spool is stuck by a foreign object 3,Valve stem, push rod jammed 4,The spool and seat are damaged, the leakage is too large 5,The valve bore is too large |
1,Replacement of springs 2,Reinstallation 3,Re-adjustment 4,Re-grind, or replace 5,Replace smaller diameter |
| Pressure behind the valve does not rise and always moves below the demand value | 1 Set spring stiffness is too large 2,The valve bore is too small 3,The spool, stem, push rod, etc. are stuck |
1,Replacement of springs 2,Replace larger diameter 3,Exclude the cause of jamming and readjust |
| Pre-valve pressure does not drop, always moves above the demand value | 1,The valve bore is too large 2,Actuator membrane chamber capacity is too small |
1 Select the proper valve diameter 2,Add a damper in the inlet pipeline |
Instructions for Ordering
| Valve type | Valve name | ||
| Nominal diameter (mm) | √ | Nominal pressure (Mpa) | √ |
| Pressure adjustment range (Mpa) | Control valve before or after | √ | |
| Pressure setting value (Mpa) | √ | Name of medium | √ |
| Actuator type | Medium working temperature | √ | |
| Rated flow coefficient | Medium state | √ | |
| Max. pressure before valve Minimum pressure before valve Normal pressure before the valve(Mpa) |
√ | Max. pressure after valve Min. pressure after valve Normal pressure after valve (Mpa) |
√ |
| Maximum flow rate Minimum flow rate Normal flow rate |
Viscosity of liquids Liquid density Gas density |
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| Material:Valve body Valve internals |
Leakage level requirements (GB/T4213-92) |
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| Process piping dimensions | √ | Corrosion resistance requirements | |
| Flange face distance (mm) L | Flange execution standards | ||
| Supplied with accessories | Condenser, receiver, mating flange, fasteners, regulator bar, pressure take-off tube, pressure take-off fitting | ||
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