Features of Mini Portable Oxygen Concentrator:
1. Lightweight at 5.4kg
2. Operates with Rechargeable Lithium Battery, AC or DC power
3. Exceptional battery life, can be used for more than 800 times
4. Fashionable carrying case with adjustable shoulder strap
5. Low noise, less than 40db (A)
Mini portable oxygen concentrator:
|Outlet pressure:||0.05~0.07 Mpa|
|Noise :||less than 40Db(A)|
|Dimension:||310(L) x 165(W) x 310(H)mm|
|Battery Duration:||About 1.5 hours|
|Battery life:||800 times recharge|
|Standard Accessories:||1× Oxygen concentrator
1× headset oxygen pipe
1× lithium battery
1× battery charger
1× AC-DC Car Inverter
What Is an Oxygen Concentrator?
An oxygen concentrator (also sometimes called “oxygen generator”) is a medical device used to deliver oxygen to those who require it. People may require it if they have a condition that causes or results in low levels of oxygen in their blood. These oxygen concentrators are normally obtained via prescription and therefore cannot be purchased over the counter. Oxygen concentrators are powered by plugging in to an electrical outlet or by battery. If the concentrator is powered by an electric battery, that battery will need to be charged by plugging into an outlet. Several parts make up a concentrator, including a compressor, sieve bed filter, and circuit boards.
An oxygen concentrator has a compressing element, but it should not be confused with compressed oxygen or an oxygen tank. Whereas a tank has a set amount of oxygen that it dispenses, a concentrator filters in air, compresses it, and delivers air continuously. The air supply will never run out. Instead of refilling compressed air, the concentrator just needs access to power.
How Does an Oxygen Concentrator Work?
An oxygen concentrator works much like a window air conditioning unit: it takes in air, modifies it and delivers it in a new form. An oxygen concentrator takes in air and purifies it for use by people requiring medical oxygen due to low oxygen levels in their blood.
It works by:
- Taking in air from its surroundings
- Compressing air, while the cooling mechanism keeps the concentrator from overheating
- Removing nitrogen from the air via filter and sieve beds
- Adjusting delivery settings with an electronic interface
- Delivering the purified oxygen via a nasal cannula or mask