The booster pump uses compression as the power to pressurize the compression. The pressurization ratio is 2:1 and 5:1 (i.e. pressurizing the pressurized medium twice or five times). The booster pump is a booster unit connected in series in the pressurized pipeline. It has the characteristics of fast pressurization speed, long service life, stable pressure, large flow, simple operation, convenient maintenance and use. The following gas-liquid booster pump manufacturers will introduce relevant matters to you.
The booster pump is characterized by filling the booster chambers a and B all the way; The other way inflates the drive chamber B and exhausts the drive chamber a. The large piston moves to the left, the pressurization chamber B is pressurized, the small piston moves to the end, the reversing valve is switched, the drive chamber a is intake, the drive chamber B is exhaust, the large piston moves in the reverse direction, and the pressurization chamber a is pressurized.
The booster pump uses compression to drive the large area end piston, and the small area end gets high-pressure liquid output. It is suitable for pressurization of most inert gases such as compression, oxygen, hydrogen, argon, natural gas, helium, nitrogen and methane.
Then, how much can the booster pump pressurize? How much the booster pump can boost depends on the driving air pressure PA (1 ~ 8bar) and the boosting times (2 times, 5 times, 10 times, 25 times, 40 times, 60 times and 100 times). The formula for calculating the outlet pressure of the booster pump = boosting times * driving air pressure. The driving air pressure is 8, two times of the booster pump is 16 kg of overpressure, and five times of the booster pump is 40 kg of overpressure. and so on.
The outlet pressure of the bulk booster pump is related to the driving air pressure, and the output pressure can be calculated according to the corresponding calculation formula of the booster pump. When the pressure of the gas part and the driving part is balanced, the booster pump no longer moves and is no longer consumed. When the output pressure drops or the driving air pressure is pressurized, the booster pump will start automatically until the pressure is balanced.
The output pressure is adjusted by adjusting the driving air pressure driving the pump. The output pressure is in a multiple relationship with the driving. The various types of booster pumps are generally different in the boost ratio. The appropriate pressure can be obtained through the booster pumps with different boost ratios. That is, adjust the driving air pressure and then adjust the output pressure, so that the gas can be infinitely adjustable. For more information, please visit our website http://www.allarabandroid.com Consult and understand.