Model No.︰KY-6P1.3ATA
Brand Name︰Koxygen
Country of Origin︰China
Unit Price︰CNY ¥ 3312.65 / pc
Minimum Order︰2 pc
| Compressor | 4 (3 for 10L oxygen generators, 1 for pressurization, pressure maintenance & relief) |
| Fresh Air System | (Effective, high - efficiency, UV sterilization, advanced filtration) |
| Five - function integration | (Fresh air, pressurization, pressure relief, DC voltage stabilization, oxygen generation) |
| Max pressurization flow | 600L |
| Purity | 30L, ≥90% (5L O₂ per person) |
| Power | 2800W |
| Dual touch screens | 10 inches |
Materials of Oxygen Source:Double-layer composite metal, dual-control 10-inch touch screen.
Working Principle: Small molecular sieve oxygen generators use the principle of pressure swing adsorption (PSA), where molecular sieves adsorb nitrogen and other gases to increase oxygen concentration. When compressed air is injected into a sealed adsorption tower filled with molecular sieves, the pressure rises, causing the sieves to adsorb nitrogen from the air while oxygen is collected through pipelines (adsorption process). Once the molecular sieves reach adsorption saturation, the tower is depressurized to release nitrogen as exhaust gas (desorption process). To ensure continuous oxygen production, the generator typically uses two (or more) adsorption towers controlled by a rotating separation valve, allowing one tower to adsorb while the other desorbs, alternating to achieve continuous oxygen generation.
Materials of Oxygen Source: Double-layer composite metal, dual-control 10-inch touch screen.
Working Principle: Small molecular sieve oxygen generators use the principle of pressure swing adsorption (PSA), where molecular sieves adsorb nitrogen and other gases to increase oxygen concentration. When compressed air is injected into a sealed adsorption tower filled with molecular sieves, the pressure rises, causing the sieves to adsorb nitrogen from the air while oxygen is collected through pipelines (adsorption process). Once the molecular sieves reach adsorption saturation, the tower is depressurized to release nitrogen as exhaust gas (desorption process). To ensure continuous oxygen production, the generator typically uses two (or more) adsorption towers controlled by a rotating separation valve, allowing one tower to adsorb while the other desorbs, alternating to achieve continuous oxygen generation.
