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HSIN550 Gas Charging System
Description
HSIN550 Gas Supercharging System is a newly developed, modular high-pressure gas supercharging device by our company. It comprises a drive control system and a supercharging system. The system integrates imported sealing and control components, utilizing German sealing technology and refined through various advanced processing techniques.
Features
1. The system's output pressure is boosted via a gas-driven booster pump, with the boost rate and pressure manually controlled to ensure system stability and safety.
2. Pressure gauges are installed at the air source, driving gas, and each station for easy observation.
3. The driving gas pressure is supplied from the air source and regulated through an inlet pressure-reducing valve, ensuring stable and reliable driving pressure, which in turn guarantees consistent output pressure from the gas-driven pump.
4. A high-ratio booster pump is used to meet system pressure requirements, featuring single-stage series configuration.
5. System joints and pipelines are constructed using ultra-high-pressure stainless steel fittings and high-pressure seamless stainless steel pipes, ensuring system safety without welding.
6. A safety valve is added to enhance system security in case of abnormal conditions.
7. High-quality gas-driven pumps and imported high-pressure control valves ensure long-term trouble-free operation of the equipment.
System security protection
1. An overpressure safety valve is installed to ensure safe system operation.
2. Reliability: All components are sourced from high-quality suppliers, with core components being imported. Equipment undergoes strict testing and acceptance before leaving the factory to ensure reliable operation.
3. Technical feasibility: Similar equipment has been successfully designed and produced by ZWH, demonstrating mature design capabilities and detailed engineering.
Maintenance considerations:
1. Inspection areas are easily accessible.
2. Repairable parts are designed for easy access by hand or tools.
3. Standard parts are preferred to minimize unnecessary delays.
4. Part replacements are designed to require minimal changes.
5. Visible parts of the equipment are kept clean.
6. The area around the equipment can be easily cleaned and swept.
7. Supporting components are of high quality and rarely need repair. Pipelines use threaded connections without welding, facilitating easy disassembly and maintenance. Removable doors are designed for convenient equipment maintenance.
Technical parameters
Note
L*W*H
| system | Item | technical parameters |
| monitor | test bench size(about) | According to actual requirements |
| Operating environment | Air source Operating condition |
≤15MPa Compressed nitrogen Suitable for clean indoor conditions, ambient temperature RT |
| system parameters |
1.Working medium compressed nitrogen
2.Pressurized gas drive gas booster pump
3.Voltage control mode Manual voltage regulation
4.Output pressure:
0~160MPa;0~100MPa
0~60MPa;0~40MPa
0~20MPa
Note: Users choose different range segments according to their needs
5.Test bench outlet:NPT thread interface output/ test bench outlet
6.Distribution table configuration:
(1)Station output buffer stabilized gas cylinder
(2)Drive gas stabilized cylinder
7.Import and export filter precision: ≤7um |
|
The outlet of the booster pump is equipped with a pressure storage vessel to stabilize the output pressure. Manual switch pressure supply valves and pressure relief valves are set up at the high-pressure station and decompression station, ensuring simple operation and reliable performance. Each station is fitted with a panel-mounted mechanical pressure gauge for real-time observation of system pressure and ease of reading.