The diaphragm of the electromagnetic pulse valve divides the valve into two gas chambers, front and rear. When the electromagnetic pulse valve is connected to clean compressed air in the dust cleaning system of a pulse bag dust collector, the compressed air passes through the throttle hole into the rear chamber. At this point, the pressure in the rear chamber presses the diaphragm against the valve's exhaust outlet, keeping the pulse valve closed. The pulse control instrument sends a signal to move the armature, opening the exhaust port of the rear gas chamber. The rear chamber rapidly depressurizes, moving the diaphragm backward. Compressed air is then ejected through the valve's exhaust outlet, and the pulse valve is in the open state, starting the spray. The electrical signal from the pulse control instrument disappears, causing the electromagnetic pilot head armature of the pulse valve to reset. The exhaust port of the rear chamber closes, and the pressure in the chamber rises, pressing the diaphragm against the valve's exhaust outlet again, closing the pulse valve. The duration and volume of the spray are controlled by the control instrument.

DMF-Z-40S Electromagnetic Pulse Valve DC24V Actual Blowing Volume is not solely determined by the connection diameter size; its dust removal function cannot be judged solely based on the interface size. Whether in the steel and metallurgy industry, non-ferrous metal smelting, intelligent automatic control systems, construction cement, chemical industry, dust removal equipment for severe industrial enterprises, industrial boiler power stations, urban garbage incineration, bag dust removal equipment, environmental protection equipment, and other industries, we have left solid and sincere footprints. This expands your selection range, making it an option for your transition from electric to bag systems. The pulse valve handle gets stuck at a certain position (not the sealing position) within the valve seat hole, causing the piston to always be under pressure, and the difference between the input and output media is too large. Therefore, a valve with an appropriate valve diameter should be reselected. It is sensitive and reliable, widely applicable, and commonly used. When the pressure of the steam drum or superheater exceeds the specified value, steam passes through the impulse conduit and valve into the pulse spring safety valve, lifting the valve core, and then through the pulse spring safety valve, steam enters the upper part of the main safety valve piston, causing the piston to move downward, opening the main safety valve, and allowing steam to vent and relieve pressure.