The booster pump has a characteristic, when the pipeline water can not keep up with the pump flow or exceed the pump flow, the pressurization effect will not be obvious.
So the purchase of booster pump to determine the model according to the specific situation, such as pressure type electric water heater because of its special device, it needs a larger flow of water pump, otherwise it is difficult to play the effect.
Booster pump: how to use household booster pump?
The household booster pump should be connected with the water pipe and water heater pipe first, and then plug it into the normal use. Need to use raw tape, wrench. The specific operation method is as follows:
1. Wrap the raw material belt around the water inlet, install the adapter worn, and tighten it with a wrench.
2. For the steps like the water outlet, install the automatic water control, wrap the raw material belt, and then tighten it with a wrench.
3. Then connect the connecting line of the water control switch with the bengti equipment. , the QQ tight means the connection is successful.
4. Then connect the water pump inlet with the tap water pipe with a hose and tighten it with a wrench.
5, the water outlet is connected with the water heater hose, tighten with a wrench.
6, finally to use the water pump plug in the power can be used, the water pump back to the sixth floor.
Booster pump: booster pump work?
You determine whether your pump is directly connected to the pipeline or installed in the pump room, the use of self-priming or self-filling, these two ways must ensure that the pump head filled with water, in order to water
Booster pump: what is the working principle of the booster pump?
Will be filled with liquid booster pump first, and then start the centrifugal pump, the impeller rapid rotation, the impeller blades driven liquid, liquid to rely on the rotation inertia to the flow of the impeller outer edge and at the same time from the suction chamber impeller sucked into liquid, in the process, of fluid flow in the impeller blade, in the flow around liquid a lift to the blade, Conversely, the blade is applied to the liquid with a force equal to and opposite to the lifting force. This force works on the liquid and makes the liquid get energy and flow out of the impeller. At this time, the kinetic energy and pressure energy of the liquid both increase.
The working principle of the gas-liquid booster pump is similar to that of the pressure supercharger, which imposes a very low pressure on the large-diameter air-driven piston. When the pressure acts on a small area of the piston, a high pressure is generated. Through a two five ventilation control valve, the booster pump can achieve continuous operation. The high pressure plunger controlled by the one-way valve continuously discharge the liquid, the size of the outlet pressure of the booster pump and the air drive pressure. When the pressure between the driving part and the liquid output part reaches an equilibrium, the booster pump will stop running and no longer consume air. When the output pressure drops or the air drive pressure increases, the booster pump will automatically start running until it reaches the pressure balance again and automatically stops.
Fully automatic pneumatic fire pressurization
The automatic reciprocating motion of the pump is realized by using single gas controlled non-equilibrium gas distribution valve. The gas drive part of the pump body is made of aluminum alloy. The liquid receiving part is made of carbon steel or stainless steel according to different media. The general pump has two inlet and exhaust ports, in the inlet can produce lower than atmospheric pressure (that is, atmospheric pressure) pressure is called "negative pressure"; In the exhaust can produce higher than atmospheric pressure pressure is called "positive pressure"; For example, vacuum pump is often said to be negative pressure pump, booster pump is positive pressure pump. Positive pressure pump is very different from negative pressure pump. For example, the flow of gas, negative pressure pump is external gas is sucked into the exhaust nozzle; Positive pressure is sprayed from the exhaust nozzle; For example, the level of air pressure.