Gas booster pump structure
The main structure of the gas booster pump includes: high efficiency gas valve, internal muffler, gas booster module, stainless steel, self-lubricating seal, Teflon seal, internal check valve and so on. As the use of gas booster pumps has gained more attention today, users are gradually becoming more interested in the structural features of gas booster pumps, where they can get more product usage tips and precautions. Gas booster pumps utilize a large area of ​​piston-side low-pressure gas to drive a high-pressure gas at a small area of ​​the piston end. Automatic restart work, the gas booster work quickly back and forth, as the output pressure close to the set pressure value of the pump reciprocating slows down until stopped. And to maintain this pressure, then the energy consumption is very small, no heat, no parts movement. When the pressure balance is broken, the supercharger automatically starts working to the next balance. Gas booster pump cylinder is driven air work place. Cylinder provides a sealed space for the driving air to ensure the effectiveness and reliability of the driving air pressure. Moreover, since the hydraulic ram is attached to the pneumatic piston, the distance of the cylinder determines the stroke of the hydraulic ram. Hydraulic plunger and hydraulic cylinder with the formation of a variable volume hydraulic chamber. This cavity is required to withstand high pressures and to adapt to pressurized fluids. It is the volume of the variability of the chamber, in order to achieve suction negative pressure and drainage positive pressure. Imported check valve literally, the import check valve is to enter the liquid. Actually not. If it is to enter the liquid, then do not want the one-way valve into the liquid will be more smooth. The reason to import check valve, is to achieve supercharging. When the hydraulic plunger down, the volume of the hydraulic chamber becomes smaller, the liquid pressure within the chamber rises; due to the reverse of the inlet check valve, the liquid in the chamber can not be discharged from the inlet, the pressure is not released but stored Outside the exit. Gas booster pump outlet check valve the same token, the outlet check valve is not to drain. The reason to export check valve, is to achieve negative pressure liquid absorption. When the hydraulic plunger moves upwards, the volume of the hydraulic chamber becomes larger and a negative pressure is formed in the chamber. Due to the reverse-blocking effect of the outlet one-way valve, the liquid outside the outlet can not enter the chamber from the outlet. The negative pressure in the chamber, The ball of the inlet check valve is opened, and the liquid enters the cavity from the inlet end. Structure for each product has a pivotal role, if a certain product structure is complex, may not be suitable for production and use; if a product structure is simple, but also maintain a high efficiency, then it will inevitably become the product The advantages. For the gas booster pump, it is still a relatively new product, for its research and development also need to invest more energy.
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