The construction of a class of products may not only affect the application value of such products, but also greatly affect the consumption efficiency and economic benefits. Especially with regard to some equipment which uses less frequency in our life, such as gas booster pump, how should it be installed? How to use it? What should be done after use? What are its tectonic conditions? These are all problems that users have to face.
The structure of gas booster pump mainly includes: high efficiency gas valve, internal muffler, gas booster module, stainless steel, self-smooth seal, Teflon seal, internal one-way valve, etc. With more attention being paid to the application of gas booster pumps nowadays, users will gradually pay attention to the structural characteristics of gas booster pumps, because from these centers, they can get more knowledges and matters needing attention in the application of products.
Gas booster pump is driven by low pressure gas at large piston end to produce high pressure gas at small piston end. When the gas supercharger is restarted automatically, the reciprocating speed of the pump slows down until it stops when the output pressure approaches the set pressure value. And adhere to this pressure, at this time energy consumption is very small, no heat generation, no parts movement. When the pressure balance breaks through, the supercharger automatically starts to work to the next balance.
The cylinder of the gas booster pump is the place where the air is driven to work. The cylinder provides a closed space for driving air, which ensures the validity and reliability of driving air pressure. Moreover, because the hydraulic plunger is connected with the air piston, the interval of the cylinder determines the stroke of the hydraulic plunger.
Hydraulic plunger and hydraulic cylinder are combined to form a variable volume hydraulic chamber. The chamber is required to withstand high pressure and to be compatible with the pressurized liquid. It is the variability of the volume of the cavity that makes it possible to complete the negative suction pressure and positive drainage pressure.
Imported one-way valve literally, the imported one-way valve is for liquid. Not really. If it's for the sake of liquid intake, it will be smoother without one-way valve. The reason for importing one-way valves is to complete the pressurization. When the hydraulic plunger moves down, the volume of the hydraulic chamber decreases and the liquid pressure in the chamber rises. Because of the reverse cut-off effect of the inlet one-way valve, the liquid in the chamber can not be discharged from the inlet, and the pressure is not released, but stored outside the outlet.
In the same way, the outlet one-way valve of gas booster pump is not designed to drain liquid. The reason why the outlet one-way valve is to complete negative pressure suction. When the hydraulic plunger moves up, the volume of the hydraulic chamber becomes larger and the chamber forms negative pressure; due to the reverse cut-off effect of the outlet one-way valve, the liquid outside the outlet cannot enter the chamber from the outlet; and the negative pressure in the chamber makes the steel balls of the import one-way valve open and the liquid enters the chamber from the inlet end.
The structure of each product has no important role, if a product is complex, it may not be suitable for consumption and use; if a product is simple in structure, but still has a high efficiency, then this will certainly become the advantage of this product. As for the gas booster pump, it is also a new type of product, and the research and development of it needs to devote more energy.