Hydraulic booster pump is a device commonly used to increase fluid pressure and plays an important role in various scenarios. Here are some typical application scenarios:
- Home water supply system
In high-rise residential buildings, insufficient water pressure due to gravity can be solved by hydraulic booster pumps, ensuring that household water needs are met.
- Industrial production
In the industrial production process, hydraulic booster pumps are widely used in cooling, cleaning, spraying and other process flows to improve production efficiency and quality.
- Agricultural irrigation
Hydraulic booster pumps can improve irrigation efficiency, save water resources, and promote the development of agricultural production.
- Municipal construction
In municipal construction projects such as urban water supply and sewage treatment, hydraulic booster pumps ensure the normal operation of municipal facilities.
- Construction machinery
Hydraulic booster pumps have a wide range of applications in the field of construction machinery, such as excavators, loaders, and other large mechanical equipment that often use hydraulic booster systems to improve work efficiency and load-bearing capacity.
- Aerospace
In the aerospace field, hydraulic boosting technology also plays an important role. The landing gear, rudder control, braking system, etc. of the aircraft are all equipped with hydraulic boosting systems.
- Automotive industry
The automotive industry is also one of the application areas of hydraulic boosting technology. For example, the suspension system of luxury cars often adopts hydraulic boosting technology, which can adjust the height and hardness of the body according to road conditions and driving needs, providing a more comfortable and stable driving experience.
- Other fields
Hydraulic boosting technology has also been applied in the metallurgical industry, injection molding machinery industry, petroleum industry and other fields.
The selection and use of hydraulic booster pumps need to consider factors such as actual needs, pipeline diameter, flow and pressure parameters, as well as installation location and usage environment. With the development of technology, the application fields of hydraulic booster pumps will continue to expand, while also paying more attention to the development trends of energy efficiency, environmental protection, and intelligence.
Product Name | YBS90/150-85 |
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Inlet filter filtration accuracy | >80 mesh |
Maximum water resistance temperature | 70 ℃ |
Maximum outlet pressure | 9MPa |
Maximum outflow rate | 150L/min |
Maximum output power | 22kW |
Maximum suction head | 3m |
Inlet water supply pressure range | -0.03~1 MPa |
Drainage outlet diameter | G3/4 "-14 |
Drain hose diameter (recommended) | G 3/4 " |
Suction port diameter | G1 "-11 |
Suction port hose diameter (recommended) | G 3/2 " |
Oil system filter aperture | <25 μ m |
Oil requirements | viscosity 10-200 mm2/s (optimal 25-35 mm2/s) |
Oil temperature | 20-70 ℃ |
Recommended heat dissipation power | 4kW |
Maximum hydraulic flow rate | 85L/min |
Work pressure | 18MPa |
Maximum withstand voltage | 21Mpa |
No load pressure | 1Mpa |
Inlet diameter | G3/4 "-14 |
Return port diameter | G3/4 "-14 |