1. The working principle of the gas-liquid supercharger cylinder is to separate an oil cylinder from the supercharger in one body, and to work by applying the ratio of the size of the supercharger to the area of different compression sections and Pascal's energy conservation principle.
Because the pressure does not change, when the pressure area changes from large to small, the pressure will also change with the size of the principle, so as to achieve the pressure effect of increasing the pressure pressure to tens of times. Take the pre-pressurized cylinder as an example: when the working pressure is on the surface of the hydraulic oil (or piston), the hydraulic oil will compress the air and flow to the pre-pressurized travel chamber, and then the hydraulic oil will rapidly advance the components. For displacement, when the working displacement meets resistance greater than the pressure, the cylinder stops working. At this time, the booster chamber of the booster cylinder starts to boost because of the action of electric signal (or pneumatic signal) so as to achieve the purpose of forming the product.
2. The working principle of gas-liquid booster pump:
Gas-liquid booster pump is a reciprocating piston pump with gas as its power source. The low-pressure gas driving surface of large area piston end is used to convert into high-pressure liquid of small area piston end. The boost ratio determines the maximum output pressure of the pump.
When the piston is driven backward, the liquid is sucked into the pump. At this time, the one-way valve at the inlet opens and the one-way valve at the outlet closes. When the piston is running forward, a certain pressure will be formed on the liquid side. The pressure will close the one-way valve at the inlet and turn the one-way valve at the outlet, and the high-pressure liquid will flow out from the outlet.
The pneumatic-hydraulic booster pump can complete the automatic cycle. When the outlet pressure rises, the pump will slow down and produce certain resistance to the piston. When the force equalizes, the pump will automatically stop running. At this time, the pressure and hydraulic pressure of the high-pressure piston end reach equilibrium, and the piston is still. At this time, the energy consumption is the lowest, there is no disturbance of oil temperature, and the components stop working. When the outlet pressure decreases or the gas driving pressure increases, the pump will start automatically.