The working principle of the passive non electric booster pump

The principle of operation of the booster pump is to apply a very low pressure to the large-bore air-driven piston, and when this pressure is applied to a small area of the piston, a high pressure is generated. With a two-position, five-way pneumatic directional valve, the booster pump is able to operate continuously.

A high-pressure plunger controlled by a check valve continuously discharges the liquid. When the pressure between the drive section and the output liquid section reaches equilibrium, the booster pump stops running and no longer consumes air. When the output pressure drops or the air-driven pressure increases, the booster pump will automatically start running until the pressure equilibrium is reached again.

A single pneumatic unbalanced gas distribution valve is used to realize the automatic reciprocating motion of the pump, and the air drive part of the pump body is made of aluminum alloy. The wetted part is made of carbon steel or stainless steel according to the different mediums. Generally, the pump has two ports, inlet and exhaust, and the inlet is in

The working principle of the passive non-electric booster pump is as follows:

1. The booster of the non-electric booster pump needs energy, and the energy of the electric booster pump is the mechanical energy generated by the motor, generally speaking, the motor of the electric booster pump is directly driven, and the size of this mechanical energy is determined by the torque of the rotor of the motor.

2. The passive non-electric booster pump does not use an electric motor to provide energy, but collects the pressure (wastewater pressure) from the water supply pipeline when the wastewater is discharged (about 75% of the wastewater is generated by the pure water machine).

3. The specific boosting process of the passive non-electric booster pump is driven by a large flow of low-pressure and strong water impacting the large turbine (through the torque conversion gear set or directly), and the small turbine pressurizes the water to produce a small flow of high-pressure and strong water (refer to the torque converter).

Boosting requires energy.

The energy of the electric booster pump** is the mechanical energy generated by the motor, generally speaking, the motor of the electric booster pump is directly driven, and the magnitude of this mechanical energy is determined by the torque of the rotor of the motor.

Passive non-electric booster pumps do not use electric motors to provide energy, but collect pressure from the water supply pipe (wastewater pressure) when the wastewater is discharged (about 75% of the wastewater is generated by the water purifier).

In the specific pressurization process, the large flow of high-pressure and high-pressure water impacts the large turbine (through the torque conversion gear set or directly) to drive the small turbine, and the small turbine pressurizes the water to produce a small flow of high-pressure and strong water (refer to the torque converter).

How many types of automatic booster pumps are available on the market, and how do they work? Today is a long time to see.

How many types of automatic booster pumps are available on the market, and how do they work? Today is a long time to see.

Boosting requires energy.

The energy of the electric booster pump is the mechanical energy generated by the motor, generally speaking, the motor of the electric booster pump is directly driven, and the magnitude of this mechanical energy is determined by the torque of the motor rotor.

Passive non-electric booster pumps do not use electric motors to provide energy, but collect pressure from the water supply pipe (wastewater pressure) when the wastewater is discharged (about 75% of the wastewater is generated by the water purifier).

In the specific pressurization process, the large flow of low-pressure and strong water impacts the large turbine (through the torque converter gear set or directly) to drive the small turbine, and the small turbine absorbs the water and disturbs the pressurization, resulting in a small flow of high-pressure and strong water (refer to the hydraulic torque converter).

Boosting requires energy, the energy of the electric booster pump is the mechanical energy generated by the difference motor, generally speaking, the motor of the electric booster pump is directly driven, and the size of the mechanical energy is determined by the torque of the motor rotor.

Passive non-electric booster pumps do not use electric motors to provide energy, but collect the pressure or pressure (wastewater pressure) from the water supply line when the wastewater is discharged (about 75% of the wastewater is generated by the water purifier).

In the specific pressurization process, the large flow of high-pressure and high-pressure water impacts the large turbine (through the torque conversion gear set or directly) to drive the small turbine, and the small turbine pressurizes the water to produce a small flow of high-pressure and strong water (refer to the torque converter).