PM-HF
Pressure/Vacuum Relief Valve Pilot-operated diaphragm valve

Features
Field Test Kit
Field Test and Kit Connection Possible Upon Request
10% Technology
for Minimum Pressure Increase up to Full Lift
Pilot Operated
Controlled by Corrosion-Resistant Control Valve (Pilot Valve)
Extreme Tightness
Resulting in Lowest Possible Product Losses and Reduced Environmental Pollution
Low Emissions
Small Amounts of Tank Substance Is Released Into the Atmosphere When the Valve Is Opened
Flow Capacity
Optimized Flow Capacity
Used in Explosion Hazardous Areas
can Be Used in Explosion Hazardous Areas
High Stability
Stable and Enhanced Valve Construction
Function and Description

Combined Pressure and Vacuum Relief Valve
The PROTEGO® Type PM-HF pilot-controlled diaphragm valve is a highly developed valve for pressure and vacuum relief. Primarily used as a device for outbreathing in tanks, vessels, and process engineering equipment it also offers reliable protection from vacuum and overpressure. It prevents intake of air and unacceptable product vapor loss up to and until the set-to-operate pressure is reached. The valve can be used as an inbreathing device as well. In such an application, the main valve is directly controlled when exposed to a vacuum, i.e. it functions as a weight-loaded diaphragm valve.

Tank Pressure Controls the Pilot Valve
The main valve is controlled by a pilot valve. The latter in turn is controlled by the tank pressure. A small amount fluid stored in the tank released into the atmosphere by the pilot when the valve opens. The set-to-operate pressure is adjusted on the pilot valve by increasing or decreasing (as appropriate) the tension of a spring.

Extreme Tightness
As the working pressure rises, the closing force acting on the main valve increases, i.e. the valve's tight-sealing is enhanced until the set-to-operate pressure is reached, thus preventing leakage. Once the valve has commenced to lift it opens fully within a 10% pressure rise or the opening pressure difference and the nominal volumetric fl ow is discharged through a fully open valve. If and when this level is exceeded the pressure increase will follow the performance curve (Δp/V.curve). From set pressure to full capacity (fully open valve) the pressure increase is 100% in case of vacuum venting/inbreathing function.

Advanced Manufacturing Technology
Due to the sophisticated manufacturing technology, the tank pressure is maintained up to the set-to-operate pressure, with seal-tight requirements far above common standards being met. This feature is achieved through valve seats made of high-grade stainless steel with precisely ground valve pallets. Once the excess pressure is relieved or pressure below atmospheric balanced out, the valve reseats and seals tight again.
Product Data
Dimensions
To select the nominal size (DN), use the flow capacity charts on the following pages
| DN1 | 80 / 3" | 100 / 4" | 150 / 6" | 200 / 8" | 250 / 10" | 300 / 12" | 300 / 12" |
| DN2 | 100 / 4" | 150 / 6" | 200 / 8" | 250 / 10" | 300 / 12" | 350 / 14" | 400 / 16" |
| a | 225 / 8.86 | 250 / 9.87 | 325 / 12.80 | 375 / 14.76 | 450 / 17.72 | 500 / 19.69 | 500 / 19.69 |
| b | 150 / 5.91 | 175 / 6.89 | 225 / 8.86 | 250 / 9.84 | 270 / 10.63 | 300 / 12.81 | 325 / 12.80 |
| c | 275 / 10.83 | 330 / 12.99 | 445 / 17.52 | 550 / 21.65 | 665 / 26.18 | 785 / 30.91 | 785 / 30.91 |
| d | 376 / 14.80 | 429 / 16.89 | 536 / 21.10 | 607 / 23.90 | 678 / 26.69 | 796 / 31.34 | 846 / 33.31 |
| e | 763 / 30.04 | 770 / 30.31 | 923 / 36.34 | 977 / 38.46 | 1052 / 41.42 | 1173 / 46.18 | 1223 / 48.15 |
| f | 35 / 1.38 | 40 / 1.57 | 40 / 1.57 | 50 / 1.97 | 50 / 1.97 | 50 / 1.97 | 50 / 1.97 |
Dimensions in mm / inches
Material selection for housing
| Design | A | B |
| Housing | Aluminium | Stainless Steel |
| Valve seat | Stainless Steel | Stainless Steel |
| Sealing | KL-C-4106 | KL-C-4106 |
| Main diaphragm protection | Stainless Steel | Stainless Steel |
| Pilot lines | Stainless Steel | Stainless Steel |
| Pilot housing | Aluminium | Aluminium / Stainless Steel |
| Pilot diaphragm | FEP | FEP |
Special materials upon request
Coefficient of Discharge
| DN1 | 80 / 3" | 100 / 4" | 150 / 6" | 200 / 8" | 250 / 10" | 300 / 12" | 300 / 12" |
| DN2 | 100 / 4" | 150 / 6" | 200 / 8" | 250 / 10" | 300 / 12" | 350 / 14" | 400 / 16" |
| do | 81 / 3.19 | 107 / 4.21 | 160 / 6.30 | 208 / 8.19 | 260 / 10.24 | 310 / 12.20 | 310 / 12.20 |
| K | 0,68 | 0,68 | 0,63 | 0,59 | 0,58 | 0,54 | 0,61 |
DN1 = Size Inlet
DN2 = Size Outlet
d0 = Orifice Diameter (mm / inches)
K = Coefficient of Discharge
Flange connection type
| EN 1092-1; Form B1 |
| ASME B16.5 CL 150 R.F. |
other types upon request
Flow Capacity Chart


The flow capacity charts have been determined with a calibrated and TÜV certified flow capacity test rig. Volume flow V in (m³/h) and CFH refer to the standard reference conditions of air ISO 6358 (20°C, 1bar). For conversion to other densities and temperatures refer to Sec. 1: “Technical Fundamentals”.
