Compact and efficient pressure swing oxygen concentrator
First Claim
1. A gas separator comprising:
- five sieve beds, each sieve bed having a bottom end and a top end, said sieve beds arranged in a generally pentagonal relationship around a centerline of said separator;
a product gas reservoir;
a product gas outlet leading from each of said sieve beds to said product gas reservoir;
a gas control valve, said gas control valve comprising;
a housing;
a gas inlet leading to an interior of said housing;
a stator having a top and a bottom, an exhaust gas passage leading from said top through said stator to said bottom and five gas delivery passages leading from said top through said stator to said bottom, said stator located in said housing; and
a rotor located in said housing adjacent said stator, said rotor mounted for rotation relative to said stator, said rotor having a first cut-away portion which, when aligned with at least one of said five gas delivery passages in said stator, allows gas to flow between said chamber and said at least one gas delivery passage in said stator, at least a second portion which when aligned with at least one of said five gas delivery passages in said stator blocks the flow of gas through said at least one gas delivery passage, and at least a third portion which when aligned with at least one of said five gas delivery passages in said stator allows gas to flow through said at least one gas delivery passage to said exhaust passage through said stator.
1 Assignment
0 Petitions
Accused Products
Abstract
A gas separator works on a pressure swing principle. The separator includes multiple sieve beds, preferably five arranged in pentagonal fashion about a centerline, and a control valve. The control valve includes a rotor and a stator. The rotor is mounted for rotation relative to the stator. One part of the rotor allows pressurized gas to flow to the stator and thereon to one or more, and preferably two, of the sieve beds for separation. Another part of the rotor blocks flow of gas through the stator to or from one or more of the sieve beds, and yet another part of the rotor allows waste gas to flow from one or more of the sieve beds back through the stator to an exhaust. The separator may be used as part of a system. In a method of use, sieve beds are cycled between adsorption, de-pressurization, purging, and pre-pressurization phases.
23 Citations
17 Claims
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1. A gas separator comprising:
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five sieve beds, each sieve bed having a bottom end and a top end, said sieve beds arranged in a generally pentagonal relationship around a centerline of said separator; a product gas reservoir; a product gas outlet leading from each of said sieve beds to said product gas reservoir; a gas control valve, said gas control valve comprising; a housing; a gas inlet leading to an interior of said housing; a stator having a top and a bottom, an exhaust gas passage leading from said top through said stator to said bottom and five gas delivery passages leading from said top through said stator to said bottom, said stator located in said housing; and a rotor located in said housing adjacent said stator, said rotor mounted for rotation relative to said stator, said rotor having a first cut-away portion which, when aligned with at least one of said five gas delivery passages in said stator, allows gas to flow between said chamber and said at least one gas delivery passage in said stator, at least a second portion which when aligned with at least one of said five gas delivery passages in said stator blocks the flow of gas through said at least one gas delivery passage, and at least a third portion which when aligned with at least one of said five gas delivery passages in said stator allows gas to flow through said at least one gas delivery passage to said exhaust passage through said stator. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A gas separator comprising:
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five gas separating sieve beds, said sieve beds having a bottom end and a top end, said sieve beds arranged in a pentagonal relationship around a centerline; a control valve comprising a upper housing having a top and a bottom and a lower housing having a top and bottom, said bottom of said upper housing positioned adjacent said top of said lower housing, said top of said lower housing defining an inset, a stator mounted at least partially in said inset, said stator defining five air flow passages leading there through to five delivery passages leading through said lower housing and a single exhaust passage leading there through to a single exhaust passage leading through said lower housing, said upper housing defining an inset at least bottom, said inset forming a generally enclosed chamber when said upper housing is positioned adjacent said lower housing, a rotor rotatably mounted in said chamber, at least a portion of said rotor positioned against said stator, said rotor having a first solid portion configured to obscure one or more of said air flow passages leading through said stator, a second peripheral cut-away portion which does not obscure one or more air flow passages through said stator when aligned therewith, and a third inset portion configured to connect at least one of said air flow passages through said stator with said single exhaust passage when aligned therewith, a gas inlet leading through said upper housing to said chamber, and a motor having a drive shaft extending through said upper housing into engagement with said rotor to rotate said rotor; a flow path leading from each of said five delivery passages through said lower housing to said bottom end of each of said sieve beds; a product reservoir located at said top ends of said sieve beds; and a product delivery passage leading from said top end of each sieve bed to said product reservoir. - View Dependent Claims (13, 14, 15)
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16. A method of generating a gas product of at least a product gas from a gas stream including said product gas and at least one additional gas comprising:
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providing a gas separator including at least three sieve beds and a control valve; delivering said gas stream under pressure to said control valve; controlling a position of a rotor of said control valve so that a first position of said rotor allows said gas stream to be applied to at least two sieve beds in an adsorption phase, to at the same time prevent said gas stream from being applied to at least one sieve bed and prevent waste gas from flowing from said at least one sieve bed, and at the same time to allow waste gas to flow from at least one sieve bed; and delivering product gas from said at least three sieve beds to a product reservoir. - View Dependent Claims (17)
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Specification