Method and apparatus for concentrating oxygen

US 4,576,616 A
Filed: 09/04/1984
Issued: 03/18/1986
Est. Priority Date: 07/27/1982
Status: Expired due to Fees

First Claim

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1. Oxygen concentrator apparatus, comprising:

two beds of zeolitic material, each bed being in an enclosed container;

a pump for pumping air into said zeolitic bed, said pump having an internal chamber, an intake port for conducting air into said chamber, an exhaust port for conducting air out of said chamber, and air moving means for moving air from said intake port to said exhaust port, said exhaust port being sufficiently large in relation to said chamber to result in substantially isothermal air flow through said pump;

sequence valve means for directing air from said pump first to one of said zeolitic beds while exhausting the other zeolitic bed to the atmosphere, and alternately, for directing air from said pump to said other zeolitic bed while exhausting said one zeolitic bed to the atmosphere, said valve means having internal ducts and ports therein at least as large in cross-sectional area as said exhaust port on said pump such that there is no restriction to air flow therethrough, andair flow pipes connecting said exhaust port to said sequence valve means and connecting said sequence valve means to said beds, all of said air flow pipes having cross-sectional areas at least as large as the cross-sectional of said exhaust port such that there is no restriction to air flow therethrough.

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Abstract

In addition to oxygen concentrator apparatus utilizing two zeolite beds and alternating, pressure controlled pressurization and exhaust cycles, with a swash plate cylindrical pump having a pressure sensitive idle mode, improved oxygen concentrator apparatus is also disclosed. The improved oxygen concentrator apparatus has an isothermal, high volume, low pressure air flow system with unrestricted air conducting lines and ports throughout for more efficient and effective oxygen production. It includes a unique rotary vane pump designed for essentially isothermal air pumping and has precision collet mounted rotor with centering apparatus, tapered vanes for reduced wear and erosion, and combination cast iron pump chamber liner with external aluminum finned casing to enhance both durability and heat dissipation. It also includes a combination double one-way and balancer valve for controlling the flow of oxygen-enriched air downstream from the zeolite beds.

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21 Claims

1. Oxygen concentrator apparatus, comprising:
- two beds of zeolitic material, each bed being in an enclosed container;
  
  a pump for pumping air into said zeolitic bed, said pump having an internal chamber, an intake port for conducting air into said chamber, an exhaust port for conducting air out of said chamber, and air moving means for moving air from said intake port to said exhaust port, said exhaust port being sufficiently large in relation to said chamber to result in substantially isothermal air flow through said pump;
  
  sequence valve means for directing air from said pump first to one of said zeolitic beds while exhausting the other zeolitic bed to the atmosphere, and alternately, for directing air from said pump to said other zeolitic bed while exhausting said one zeolitic bed to the atmosphere, said valve means having internal ducts and ports therein at least as large in cross-sectional area as said exhaust port on said pump such that there is no restriction to air flow therethrough, andair flow pipes connecting said exhaust port to said sequence valve means and connecting said sequence valve means to said beds, all of said air flow pipes having cross-sectional areas at least as large as the cross-sectional of said exhaust port such that there is no restriction to air flow therethrough.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The oxygen concentrator apparatus of claim 1, including combination flow and balance control valve means connected to both zeolitic beds for allowing oxygen-enriched air from each bed to flow from each bed to oxygen product storage means while said beds are pressurized while preventing back flow of oxygen-enriched air from the product storage means to said beds when said beds are purged and exhausted to the atmosphere, and while also bleeding a portion of the oxygen-enriched air from one bed to the other bed while the one bed is being pressurized and the other bed is being purged and vice versa, said combination flow and balance control valve being comprised of a valve body enclosing an interior chamber, three ports extending through said valve body into said chamber, two of said ports being intake ports, each of said intake ports being connected to opposite ones of said beds, and the remaining one of said ports being an outlet port, two flexible membranes mounted in said chamber, each membrane covering a different one of said intake ports and adapted to move away from the port when there is a higher pressure in the port than in the chamber and to move against and seal the port when there is a lower pressure in the port than in the chamber, and a cross-bleed port extending between and connecting said intake ports.
  - 3. The oxygen concentrator apparatus of claim 2, wherein said bleed port is adjustable to restrict the amount of oxygen-enriched air flowing therethrough to a desired proportion of the quantity of oxygen-enriched air flowing through said intake ports.
  - 4. The oxygen concentrator apparatus of claim 3, wherein said cross-bleed port is a soft metal tube that is easily deformable to reduce the cross-sectional area thereof.
  - 5. The oxygen concentrator apparatus of claim 1, wherein said chamber in said pump is enclosed by a cylindrical liner of circular cross section and said air moving means includes a cylindrical rotatable rotor of smaller diameter than said chamber and mounted eccentrically in said chamber, said rotor having a plurality of slots opening therein from the peripheral surface and a vane slideably positioned in each slot, each of said vanes having a tapered trailing side adjacent the distal end portion to reduce wear and erosion of said vanes at the mouths of said slot openings.
  - 6. The oxygen concentrator apparatus of claim 5, including lateral end containers enclosing the ends of said pump chamber and a casing enclosing said liner and said end containers, said liner and said end containers being fabricated of cast iron for low friction and high wear resistance to said vanes and said casing being fabricated of aluminum for reduced weight and increased heat dissipation capacity to enhance the isothermal flow of air therethrough.
  - 7. The oxygen concentrator apparatus of claim 6, wherein each of said zeolite beds are approximately 480 cubic inches in volume containing about 8 pounds of zeolite material, said air pump moves about 240 to 260 liters per minute of air through the beds where the positive pressure gradient in a cycle of the oxygen concentrator is from 0 psi to about 8.5 to 9.5 psi in about 18 seconds while in the purge cycle at least two-thirds of the pressure in the bed is released within one second.
  - 8. The oxygen concentrator apparatus of claim 7, wherein the ratio of the cross-sectional area of said exhaust port in said pump to the cross-sectional area of the largest part of said chamber between the rotor and the liner is about 1 to 1.

9. In the method of concentrating oxygen, utilizing the steps of pumping air through one zeolitic bed while purging and exhausting air from a second zeolitic bed by venting said second zeolitic bed to the atmosphere from one end and directing a portion of oxygen-enriched air from said first bed into the opposite end of said second bed and vice versa in sequential steps, the improvements comprising the steps of pumping and flowing the air isothermally into said beds through conduits and valves, all of which have no restrictions in cross-sectional area therethrough from the air pump to the beds.
- View Dependent Claims (10)
- - 10. The improvement of claim 9, including the steps of pumping air into the zeolitic beds at a rate of about 240 to 260 liters per minute creating a positive pressure gradient in the charging phase of the cycle of about 0 p.s.i. to the range of about 8.5 to 9.5 p.s.i. in about 18 seconds and a negative pressure gradient in the purge phase of the cycle wherein at least two-thirds of the pressure in the zeolitic bed is lost within one second.

11. Oxygen concentrator apparatus, comprising two zeolitic beds, an air pump for pumping air into said zeolitic beds, valve means for sequencing alternating pressurization and purge cycles in said beds, product storage tank for accummulating oxygen-enriched air for patient consumption, directional control valve means and balance valve means for delivering oxygen-enriched air from the zeolitic beds to the product storage tank while preventing back flow of the oxygen-enriched air from the product storage tank to the beds during the purge phase of the cycle and for directing a portion of the oxygen-enriched air produced in the pressurization phase of one bed to the other bed during the purge cycle therein and vice versa, cannula means for delivering the oxygen-enriched air to a patient, rate flow control and meter means for adjusting the rate of flow of the oxygen-enriched air delivered to the patient, and on/off control means for turning the pump on and off, wherein said oxygen concentrator apparatus includes an enclosure for containing and housing said beds, air pump, and valve means, and a separate patient unit remote and removeable from said enclosure, said cannula means, rate flow control and meter means, and on/off control means being part of said remote patient unit and said remote patient unit also having a housing for enclosing said cannula means, rate flow control, and meter means, which housing is separate, distinct, and removeable from said enclosure for containing and housing said beds, air pump, and valve means.
- View Dependent Claims (12, 13)
- - 12. The oxygen concentrator apparatus of claim 11, including a container and support means in said enclosure for receiving, supporting, and storing said remote patient unit.
  - 13. The oxygen concentrator apparatus of claim 12, wherein said enclosure includes a base portion at the bottom thereof separated a spaced distance from the lateral peripheral surface of said enclosure and platform means on said base portion for supporting the beds, pump, and product tank, the space between the peripheral surface of the enclosure and the platform being an air inlet into the container means.

14. Air pump apparatus for pumping air comprising:
- an internal chamber enclosed by a cylindrical liner of circular cross section, an intake port for conducting air into said chamber, an exhaust port for conducting air out of said chamber, and air moving means for moving air from said intake port to said exhaust port, wherein said air moving means includes a rotatable rotor of smaller diameter than said chamber and mounted eccentrically in said chamber, said rotor having a plurality of slots opening therein from the peripheral surface and a vane slideably positioned in each slot, each of said vanes having a tapered trailing side adjacent the distal end portion to reduce wear and erosion of said vanes at the mouths of said slot openings.
- View Dependent Claims (15)
- - 15. The air pump apparatus of claim 14, wherein said trailing side of said vane is tapered inwardly approximately 2 degrees.

16. Air pump apparatus for moving air, comprising:
- an internal chamber, an intake port for conducting air into said chamber, an exhaust port for conducting air out of said chamber, a rotatable rotor of smaller diameter than said chamber and mounted eccentrically in said chamber, said rotor having a plurality of slots opening therein from the peripheral surface and a vane slideably positioned in each slot, andlateral end containers enclosing the ends of said pump chamber and a casing enclosing the ends of said pump chamber and a casing enclosing said liner and said end containers, said liner and said end containers being fabricated of cast iron for low friction and high wear resistance to said vanes and said casing being fabricated of aluminum for reduced weight and increased heat dissipation capacity to enhance the isothermal flow of air therethrough.
- View Dependent Claims (17, 18)
- - 17. The air pump apparatus of claim 16, wherein said rotor has an axial bore extending therethrough, said bore being flared conically outward at each end, a main shaft extending through said bore, two collets, each of which has an axial bore and a concentric inwardly tapered nose portion that is tapered at a size and angle corresponding to the conical flared ends of said rotor axial bore, and slots extending transversely through said tapered nose portion, said collets being mounted on said main shaft on opposite sides of the rotor with the tapered nose sections inserted into said respective flared ends of said rotor bore, and tightening means for tightening said collets axially onto said rotor.
  - 18. The air pump apparatus of claim 16, including anchor means on said main shaft for prohibiting axial movement of said collets and spacer means between said anchor and the nearest collet to said anchor means for positioning said rotor axially on said main shaft.

19. In oxygen concentrator apparatus having two beds of zeolitic material, a pump for pumping air into each zeolitic bed, sequencing valves for directing air from the pump first to one of the zeolitic beds while exhausing the other zeolotic bed and vice versa, directional control for delivering oxygen enriched air to a product storage tank while preventing back flow of the oxygen enriched air from the product storage tank to the beds, and a balance valve for directing a portion of the oxygen enriched air from one tank to the other, the improvement comprising:
- a combination flow and balance control valve including a unitary valve body enclosing an interior chamber, three ports extending through said valve body into said chamber, two of said ports being intake ports, each of said intake ports being connected to opposite ones of said beds, and the remaining one of said ports being an outlet port, two flexible membranes mounted in said chamber, each membrane covering a different one of said intake ports and adapted to move away from the port when there is a higher pressure in the port than in the chamber and to move against and seal the port when there is a lower pressure in the port than in the chamber, and a cross-bleed port extending between and connecting said intake ports.
- View Dependent Claims (20, 21)
- - 20. The improvement of claim 19, wherein said bleed port is adjustable to restrict the amount of oxygen enriched air flowing therethrough to a desired proportion of the quantity of oxygen-enriched air flowing through said intake ports.
  - 21. The improvement of claim 20, wherein said bleed port is a soft metal tube that is easily deformable to reduce the cross-sectional area thereof.

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Litigation Campaign Assessment

Current Assignee
Proto-Med Incorporated
Original Assignee
Proto-Med Incorporated
Inventors
Fisher, Gene A., Mottram, William R., Feierabend, Louis
Primary Examiner(s)
SPITZER, ROBERT H

Application Number

US06/647,857
Time in Patent Office

560 Days
Field of Search

55/21, 55/68, 55/75, 55/163, 55/179, 55/389, 55/25, 55/26, 55/58, 55/62, 417/269, 418/152, 418/236, 418/238, 128/205.11, 128/205.12, 128/205.24, 128/205.26, 128/205.27, 128/204.18, 137/843, 137/852, 137/855
US Class Current

95/96
CPC Class Codes

B01D 2253/108   Zeolites

B01D 2256/12   Oxygen

B01D 2257/102   Nitrogen

B01D 2259/40003   Methods relating to valve s...

B01D 2259/402   using two beds

B01D 2259/4533   for medical purposes

B01D 2259/455   for transportable use porta...

B01D 53/04   with stationary adsorbents ...

B01D 53/0446   Means for feeding or distri...

B01D 53/053   with storage or buffer vessel

Y10T 137/7891   Flap or reed

Method and apparatus for concentrating oxygen

First Claim

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Abstract

210 Citations

21 Claims

Specification

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Method and apparatus for concentrating oxygen

First Claim

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Accused Products

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Abstract

210 Citations

21 Claims

Specification

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Solutions

Use Cases

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