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The booster pump is first filled with liquid, and then the centrifugal pump is started. The impeller rotates rapidly, and the blades of the impeller drive the liquid to rotate. When the liquid rotates, it flows to the outer edge of the impeller by inertia.
At the same time, the impeller draws the liquid from the suction chamber. In this process, the liquid inside the impeller flows around the blades, and the liquid exerts lift force on the blades during the flow movement. In turn, the force of the blades acting on the liquid is equal to the magnitude of the lift force and in the opposite direction.
This force does act on the liquid, causing the liquid to gain energy and flow out of the impeller.
An air booster pump works similarly to a booster in that it applies a very low pressure to a large diameter pneumatic piston, and when this pressure acts on a small area of piston, it creates a very high pressure. With a two-position, five-pneumatic directional valve, the booster pump can operate continuously. The high-pressure plunger controlled by the check valve continuously discharges the liquid, and the outlet pressure of the booster pump is related to the air drive pressure.
When the pressure of the drive section and the output liquid section reaches equilibrium, the booster pump will stop and no longer consume air. When the output pressure drops or the air-driven pressure increases, the booster pump will automatically start running until the pressure equalization is reached again, and then stop automatically.
Automatic pneumatic fire pressurization.
A single pneumatic unbalanced valve is used to realize the automatic reciprocating motion of the pump, and the gas driving part of the pump body is made of aluminum alloy material. Depending on the medium, the liquid receiving part is made of carbon steel or stainless steel. Generally, a pump has two inlets, air inlet and air outlet, and the air pressure at the air inlet is lower than the atmospheric pressure (that is, atmospheric pressure) is called "negative pressure"; It can generate air pressure higher than normal pressure at the exhaust port, which is called "positive pressure"; For example, a vacuum pump is a negative pressure pump, and a booster pump is a positive pressure pump.
A positive pressure pump is very different from a negative pressure pump. For example, the gas flow direction, the negative pressure pump is the external gas is sucked into the suction nozzle; Positive pressure is ejected from the exhaust nozzle; For example, the level of air pressure.
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First, the booster pump is filled with liquid, and then the centrifugal pump is started, the impeller rotates rapidly, the blades of the impeller drive the liquid to rotate, and the liquid flows to the outer edge of the impeller by inertia when rotating, and the impeller sucks the liquid from the suction chamber at the same time, in this process, the liquid in the impeller flows around the blades, and the liquid acts on the blades in the flow movement, and in turn the blades act on the liquid with a force equal to the size of the lifting force and the opposite direction, and this force does work on the liquid, so that the liquid gets energy and flows out of the impeller. At this time, the kinetic energy and pressure energy of the liquid increase.
The gas-liquid booster pump works similarly to a pressure booster, exerting a very low pressure on a large diameter air-driven piston, and when this pressure is applied to a small area of 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, and the outlet pressure of the booster pump is related to the air drive pressure.
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 air inlet can produce air pressure lower than the atmospheric pressure (that is, atmospheric pressure) called "negative pressure"; The air pressure that can be generated at the exhaust port is higher than the normal pressure, which is called "positive pressure"; For example, the vacuum pump is a negative pressure pump, and the booster pump is a positive pressure pump. A positive pressure pump is very different from a negative pressure pump.
For example, in the direction of gas flow, the negative pressure pump is where the external gas is sucked into the suction nozzle; Positive pressure is ejected from the exhaust nozzle; For example, the level of air pressure, etc.
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The working principle of the booster pump: first fill the booster pump with liquid, and then start the centrifugal pump, the impeller rotates rapidly, the blades of the impeller drive the liquid to rotate, and the liquid flows to the outer edge of the impeller by inertia when rotating, and the impeller sucks the liquid from the suction chamber at the same time.
In this process, the liquid in the impeller flows around the blades, and the liquid acts on the blades in the spring dispersion of the flow movement, and in turn, the blades act on the liquid with a force equal to the size of the lift and the opposite direction, and this force does work on the liquid, so that the liquid gets energy and flows out of the impeller, and the kinetic energy and pressure energy of the liquid are increased.
Booster pump functionNegative pressure pumps and positive pressure pumps are mainly artificially distinguished from their functions and main uses. "Negative pressure pump" is mainly used in occasions where vacuum (negative pressure) is required, such as: gas pumping, gas analysis, gas circulation, gas sampling, vacuum adsorption, indirect water absorption, etc.; The "positive pressure pump" is mainly used for gas transfer, pressurization of closed containers, inflatable pumping, indirect pressurized water, etc., which are often used in medical treatment, scientific research, environmental protection, instruments, control and so on.
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People will also use this kind of booster pump in life, with this booster pump can automatically start or stop the water consumption, this round wheel like you don't have to worry about running water in the house, so what is the principle of the booster pump?
The automatic booster pump refers to a booster equipment that does not need human intervention, automatically starts or stops according to the consumer's water consumption, simply put, after opening the faucet, the pump can run by itself, and reduce or close the faucet according to the setting of water consumption in advance. This booster pump has a flowing water style and is also relatively simple and automatic. The principle of booster pump is to realize the operation of water flow through reciprocating cycles.
The principle of automatic booster pump orange letter, is the use of pressure without human intervention, can automatically increase the pressure of water, if you need constant pressure water supply, choose the frequency conversion mode, this booster pump on the pressure stability requirements are not very high, so with the automatic booster pump effect will be better.
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The working principle of the booster pump: first fill the booster pump with liquid, and then start the centrifugal pump, the impeller rotates rapidly, the blades of the impeller drive the liquid to rotate, the liquid rotates and flows to the outer edge of the impeller by inertia, and the impeller sucks the liquid from the suction chamber at the same time, in this process, the liquid in the impeller surrounds the blades, and the liquid acts on the blades in the flow movement, and the blades act on the liquid with a force equal to the size of the lift and the opposite direction, and this force does work on the liquid. The liquid is made to get energy and flow out of the impeller, and the kinetic energy and pressure energy of the liquid increase.
The gas-liquid booster pump works similarly to a pressure booster, exerting a very low pressure on a large diameter air-driven piston, and when this pressure is applied to a small hand-sized piston, a high pressure is generated. With a two-position, five-way pneumatic directional valve, the booster pump is able to change its position in continuous operation.
A booster pump is a pump used to boost pressure. The main uses of booster pumps are water heater pressurization, low water pressure in high-rise buildings, pressurization such as sauna and bathing, pressurization of insufficient water pressure on the top floor of the apartment, solar automatic pressurization, reverse osmosis water purifier pressurization, etc.
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