简要描述：详细介绍 FAT-G系列气液增压泵驱动活塞直径为160mm， 为了保证气液增压泵的寿命，建议使用气压≤8bar。凡是接触液体部分材质根据介质不同选碳钢或不锈钢，泵的全套密封件均为产品，从而保证了泵的性能。 Detailed introduction The diameter of driving piston of fat-g series gas-liquid booster pump is 160mm. In order to ensure the service life of gas-liqu
The diameter of driving piston of fat-g series gas-liquid booster pump is 160mm. In order to ensure the service life of gas-liquid booster pump, it is recommended to use air pressure ≤ 8bar. Carbon steel or stainless steel shall be selected for the materials of the parts contacting the liquid according to the different media, and the complete set of seals of the pump are imported products, so as to ensure the performance of the pump.
When the gas-liquid booster pump works, the single air control two position four-way valve is used to realize the rapid and automatic reciprocating motion of the plunger or piston. With the increase of the output pressure, the reciprocating motion of the pump slows down until it stops. At this time, the output pressure of the pump is constant, the energy consumption is zero, and all components stop moving, The gas drive part of the pump body is made of aluminum alloy and oxidized into black color to ensure the beautiful appearance of the product. The material of the inlet and outlet part is stainless steel, which is suitable for water, oil, emulsion and other media. The full set of seals of the pump are imported high-quality products, so as to ensure the performance of the pump. The maximum driving air pressure is 10bar. In order to ensure the service life of the pump, it is recommended to use air pressure of 3-8bar. The maximum consumption of compressed air is 1.0 m3 / min. compressed air will not be consumed after pressure balance.
The boost ratio is the drive piston area / plunger rod cross-sectional area
The flow in the table is the approximate flow of the pump when the driving air pressure is 6 bar, the outlet pressure is zero and the medium is water. The greater the medium viscosity, the smaller the flow.
The product features are as follows:
High output pressure: the liquid output pressure can be as high as 400MPa.
Applicable: the working medium can be hydraulic oil, water and most chemical corrosive liquids, with high reliability, maintenance free and long service life
Output: for all types of pumps, only a small air pressure can work smoothly. At this time, a small flow can be obtained. Different flows can be obtained after adjusting the air intake.
Flexible application: different types of pumps can obtain different pressure areas.
Easy to adjust: within the pressure range of the pump, adjust the regulating valve to adjust the input air pressure, and the output hydraulic pressure can be adjusted steplessly accordingly
Automatic pressure holding: no matter what causes the pressure drop in the pressure holding circuit, the cester pump will start automatically to supplement the leakage pressure and keep the circuit pressure constant.
Operation safety: gas driven, no arc and spark, can be used in dangerous places.
Simple maintenance: compared with other gas drive pumps, cester pump can complete the same work, but it has fewer parts and seals, making maintenance easier.
Typical applications are as follows:
Provide static and burst tests for valves, fittings, pressure vessels, etc
Automobile braking system and fuel injection nozzle test.
Hydrostatic test of building materials testing machine.
Inject chemical reagent into the pipeline or reactor.
Filling of refrigerant
Power of clamping, forming, drilling, shearing, stamping and other equipment
Overload protection of large press, die buffer and support starting
Power of reinforcement connector
Static and dynamic testing of aerospace accessories
Performance test and calibration of instruments
Water jet of high pressure cleaning and water cutting equipment
Transporting fluids in hazardous areas
Lubrication system oiling of mechanical equipment
Clamping power during valve test
Press in and out power of shaft sleeve and cylinder liner
Control the ground safety valve and underground safety valve. In addition, the booster pump can be used as a pneumatic component, equipped with valves, pipelines and pressure gauges to make a controllable complete system.