Quality, Integrity, Knowledge, and Service is what we offer!
Level Sensor Type
NO AIR LOSS DRAIN
Electronically level-controlled condensate drain for compressed air networks. – functions without unnecessary loss of compressed air and with minimal energy input.
B-12
Design Pressure: | 230 PSIG | (15.8 Bar) |
Condensate level: | Non-Visible | |
Electrical: | 110V-1PH-60HZ | |
Dimensions (WxDxH): | 2.5'' x 6.2'' x 5.5'' | 63mm x 157 x 140mm |
Fluid Temp (Min - Max): | 34°F - 140°F | 1°C - 60°C |
Inlet Connection: | 1/2'' NPT | |
Discharge Connection: | 3/8''NPT | |
Weight: | 1.7 lbs. | .771 kg |
Valve type: | Diaphram - Solenoid | |
For flows up to: | 282 SCFM |
Suitable for unattended draining of compressed air dryers, aftercoolers, receivers and other pressure vessels.
FUNCTION GRAPHIC
NO AIR LOSS DRAIN
Electronically level-controlled condensate drain for compressed air networks. – functions without unnecessary loss of compressed air and with minimal energy input.
Empty state: Condensate trickles through the inlet opening (1) and collects in the container (2). The diaphragm valve is closed, since the pilot supply line (3) and the solenoid valve (4) ensure pressure compensation above the valve diaphragm . The larger surface area above the diaphragm (5) results in a high closing force, so that the valve seat is tight and leakproof.
Filled state: When the container (2) has filled with condensate and the capacitive level sensor (6) signals at the maximum point, the solenoid valve is energized and the area above the valve diaphragm is vented. The valve diaphragm lifts off the valve seat (7) , and the pressure in the housing forces the condensate into the discharge pipe (8).
B-13
Design Pressure: | 230 PSIG | (15.8 Bar) |
Condensate level: | Non-Visible | |
Electrical: | 110V-1PH-60HZ | |
Dimensions (WxDxH): | 3.7'' x 8.7'' x 6.5'' | 94mm x 214 x 163 |
Fluid Temp (Min - Max): | 34°F - 140°F | 1°C - 60°C |
Inlet Connection: | 1/2'' NPT | |
Discharge Connection: | 1/2'' NPT | |
Weight: | 4.4 lbs. | .2 kg |
Valve type: | Diaphram - Solenoid | |
For flows up to: | 1236 SCFM |
Suitable for unattended draining of compressed air dryers, aftercoolers, receivers and other pressure vessels.
FUNCTION GRAPHIC
NO AIR LOSS DRAIN
Electronically level-controlled condensate drain for compressed air networks. – functions without unnecessary loss of compressed air and with minimal energy input.
Empty state: Condensate trickles through the inlet opening (1) and collects in the container (2). The diaphragm valve is closed, since the pilot supply line (3) and the solenoid valve (4) ensure pressure compensation above the valve diaphragm . The larger surface area above the diaphragm (5) results in a high closing force, so that the valve seat is tight and leakproof.
Filled state: When the container (2) has filled with condensate and the capacitive level sensor (6) signals at the maximum point, the solenoid valve is energized and the area above the valve diaphragm is vented. The valve diaphragm lifts off the valve seat (7) , and the pressure in the housing forces the condensate into the discharge pipe (8).
B-31
Design Pressure: | 230 PSIG | (15.8 Bar) |
Condensate level: | Non-Visible | |
Electrical: | 110V-1PH-60HZ | |
Dimensions (WxDxH): | 2.7'' x 6.7'' x 4.5'' | 68mm x 170 x 114mm |
Fluid Temp (Min - Max): | 34°F - 140°F | 1°C - 60°C |
Inlet Connection: | 1/2'' NPT | |
Discharge Connection: | 1/4'' NPT | |
Weight: | 1.8 lbs. | .816 kg |
Valve type: | Diaphram - Solenoid | |
For flows up to: | 176 SCFM |
Suitable for unattended draining of compressed air dryers, aftercoolers, receivers and other pressure vessels.
FUNCTION GRAPHIC
NO AIR LOSS DRAIN
Electronically level-controlled condensate drain for compressed air networks. – functions without unnecessary loss of compressed air and with minimal energy input.
Empty state: Condensate trickles through the inlet opening (1) and collects in the container (2). The diaphragm valve is closed, since the pilot supply line (3) and the solenoid valve (4) ensure pressure compensation above the valve diaphragm . The larger surface area above the diaphragm (5) results in a high closing force, so that the valve seat is tight and leakproof.
Filled state: When the container (2) has filled with condensate and the capacitive level sensor (6) signals at the maximum point, the solenoid valve is energized and the area above the valve diaphragm is vented. The valve diaphragm lifts off the valve seat (7) , and the pressure in the housing forces the condensate into the discharge pipe (8).