1'' CA25T Goyen Replacement Pulse Jet Valves
CA25T Goyen Replacement Pulse Jet Valves Dust Detection:
1. Connect the clean air with the nominal pressure to the air inlet
of the electromagnetic pulse valve. Input 85% of the nominal
voltage and 0.03s of the electrical signal on the Solenoid Valve to see if the electromagnetic pulse valve is open. .
2. Connect the clean air with a pressure of 0.1 MPa at the inlet of
the electromagnetic pulse valve, input the electrical signal of the
closed valve, and check whether the electromagnetic pulse valve is
securely closed.
3. Connect the clean air of the air source pressure to 0.8MPa at
the air inlet of the electromagnetic pulse valve for 60 minutes to
check the leakage of the sealed parts on the electromagnetic pulse
valve.
Main dimension of 1'' CA25T Dust Collector Pulse Jet Valve:
Spare part details of CA25T 1 Inch Dust Collector Solenoid Valve:
Technical parameters of Goyen Type T Series Diaphragm Valves:
Model No | | | | | | | | |
Nonimal size | | | | | | | | |
Port Size | | | | | | | | |
Working pressure | |
Temp. range | |
Relative humidity | |
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Service life | |
Voltages | DC24V, AC24V, AC110V, AC220V |
Working principle of right angle type pulse jet valves:
The right angle pulse jet valve is characterized by a 90 degree
right angle of the valve inlet and outlet tubes. The diaphragm in
the valve divides the pulse valve into two front and rear air
chambers, and the high pressure gas is connected from the air inlet
to the lower air chamber. When the pulse valve is not energized,
the gas passes through the constant pressure pipelines of the upper
and lower housings and The orifice enters the decompression
chamber. Since the spool blocks the pressure relief hole under the
action of the spring, the gas will not be discharged, so that the
pressure of the decompression chamber and the lower chamber are the
same, and under the action of the spring, the diaphragm will The
blow port is blocked and the gas will not rush out.
When the pulse valve is energized, the valve core is lifted up by
the electromagnetic force, the pressure relief hole is opened, and
the gas is ejected. Due to the action of the constant pressure pipe
orifice, the outflow speed of the pressure relief hole is greater
than the constant pressure pipe of the decompression chamber. The
inflow velocity of the gas causes the pressure in the decompression
chamber to be lower than the pressure in the lower chamber, and the
gas in the lower chamber lifts up the diaphragm to open the nozzle.