The gas-liquid booster pump is a pump product driven by compressed air and based on the principle of area difference, which makes the hydraulic oil continuously output at a fixed pressure ratio and is used to drive the hydraulic actuator to work. How does gas-liquid booster pump compare with ordinary hydraulic station?
Compared with ordinary hydraulic station, gas-liquid booster pump:
1. Because it can maintain pressure for a long time without additional energy consumption, it can save energy.
2 There is no oil temperature rise, so it is suitable for use in summer and in hot and ventilated places.
3. The gas-liquid booster pump does not need power supply, so it is suitable for occasions without power supply.
4. It is small in size and flexible in configuration. It can be equipped with oil tank or installed on the machine tool. It can use the space of the bed to save production area.
5. No pollution to the environment.
Compared with booster cylinder, gas-liquid booster pump:
Since the pneumatic-hydraulic booster pump can supply oil automatically and continuously, there is no problem that the stroke of the booster cylinder limits the oil outlet.
The gas-liquid pump automatically circulates. At the initial stage of connecting compressed air, it is used as a common liquid delivery pump. At this time, the circulation speed is fast and the output liquid flow is large. With the gradual increase of the output pressure, the resistance of the piston is also increasing, and the circulation speed of the pump is also becoming slower and slower.
When the reaction force of the output pressure is balanced with the pneumatic driving force, the pump will stop automatically. At this time, the pump is in the pressure maintaining state without consuming any energy, so it provides an economic power source.
When the output pressure decreases due to leakage or other reasons, or when the air supply pressure increases, the pump will start immediately, which is due to the low friction resistance of the pump itself and ensures the reliability of the output pressure. Come to our website for more relevant content http://www.allarabandroid.com consulting service