Patent ID: 8485186

Claim:
A method for automatic delivery of appropriate flow rate of oxygen from a portable personal oxygen bottle through a breathing apparatus to a person flying in a pressurized aircraft cabin, comprising: presetting a first aneroid valve that is responsive to differential gas pressure in a first altitude range to close at a oxygen starting altitude point based on a priori lung capacity test; initiating a flow of oxygen from the portable personal oxygen bottle using a quarter turn switching regulator connected to the portable personal oxygen bottle via a minimum flow area of a main valve to output a mixture of the flow of oxygen and aircraft cabin air into a mixing chamber; gradually closing the first aneroid valve in response to increasing aircraft cabin pressure altitude to stop a pilot flow of oxygen during the first altitude range; opening a main valve upon closing the first aneroid valve to flow pressurized oxygen into the mixing chamber, wherein the aircraft cabin air is outputted into the mixing chamber such that the pressurized oxygen and the outputted aircraft cabin air are having substantially same pressure, and wherein the mixture of aircraft cabin air and pressurized oxygen in the mixing chamber is outputted into the breathing apparatus via a breathing outlet presetting a second aneroid valve, that is responsive to differential gas pressure in a second altitude range to close at a predefined aircraft cabin airflow stopping altitude point, substantially simultaneously upon presetting the first aneroid valve to the oxygen starting altitude point, wherein in the predefined aircraft cabin airflow stopping altitude point is substantially above the oxygen starting altitude point, and wherein the second altitude range is higher than the first altitude range; gradually closing the second aneroid valve in response to increasing aircraft cabin pressure altitude to stop the aircraft cabin air flowing into the mixing chamber during the second altitude range; and outputting approximately 100% pressurized oxygen into the breathing apparatus via the breathing outlet upon substantially closing the second aneroid valve and upon reaching the predefined aircraft cabin airflow stopping altitude point.