Surgery – Respiratory method or device – Combined with or convertible to a nonrespiratory device – or...
Reexamination Certificate
2000-06-13
2003-02-04
Lewis, Aaron J. (Department: 3761)
Surgery
Respiratory method or device
Combined with or convertible to a nonrespiratory device, or...
C128S205220
Reexamination Certificate
active
06513522
ABSTRACT:
FIELD OF THE INVENTION
The present invention is directed to a wearable container system for pressurized fluids that is lightweight and more resistant to explosive rupturing than prior art containers and thus can be adapted into embodiments that are portable to provide ambulatory supplies of fluid under pressure.
BACKGROUND OF THE INVENTION
There are many applications for a portable supply of fluid under pressure. For example, SCUBA divers and firefighters use portable, pressurized oxygen supplies. Commercial aircraft employ emergency oxygen delivery systems that are used during sudden and unexpected cabin depressurization. Military aircraft typically require supplemental oxygen supply systems as well. Such systems are supplied by portable pressurized canisters. In the medical field, gas delivery systems are provided to administer medicinal gas, such as oxygen, to a patient undergoing respiratory therapy. Supplemental oxygen delivery systems are used by patients that benefit from receiving and breathing oxygen from an oxygen supply source to supplement atmospheric oxygen breathed by the patient. For such uses, a compact, portable supplemental oxygen delivery system is useful in a wide variety of contexts, including hospital, home care, and ambulatory settings.
High-pressure supplemental oxygen delivery systems typically include a cylinder or tank containing oxygen gas at a pressure of up to 3,000 psi. A pressure regulator is used in a high-pressure oxygen delivery system to “step down” the pressure of oxygen gas to a lower pressure (e.g., 20 to 50 psi) suitable for use in an oxygen delivery apparatus used by a person breathing the supplemental oxygen.
In supplemental oxygen delivery systems, and in other applications employing portable supplies of pressurized gas, containers used for the storage and use of compressed fluids, and particularly gases, generally take the form of cylindrical metal bottles that may be wound with reinforcing materials to withstand high fluid pressures. Such storage containers are expensive to manufacture, inherently heavy, bulky, inflexible, and prone to violent and explosive fragmentation upon rupture.
Container systems made from lightweight synthetic materials have been proposed. Scholley, in U.S. Pat. Nos. 4,932,403; 5,036,845; and 5,127,399, describes a flexible and portable container for compressed gases which comprises a series of elongated, substantially cylindrical chambers arranged in a parallel configuration and interconnected by narrow, bent conduits and attached to the back of a vest that can be worn by a person. The container includes a liner, which may be formed of a synthetic material such as nylon, polyethylene, polypropylene, polyurethane, tetrafluoroethylene, or polyester. The liner is covered with a high-strength reinforcing fiber, such as a high-strength braid or winding of a reinforcing material such as Kevlar® aramid fiber, and a protective coating of a material, such as polyurethane, covers the reinforcing fiber. The design described in the Scholley patents suffers a number of shortcomings which makes it impractical for use as a container for fluids stored at the pressure levels typically seen in portable fluid delivery systems such as SCUBA gear, firefighter's oxygen systems, emergency oxygen systems, and medicinal oxygen systems. The elongated, generally cylindrical shape of the separate storage chambers does not provide an effective structure for containing highly-pressurized fluids. Moreover, the relatively large volume of the storage sections creates an unsafe system subject to possible violent rupture due to the kinetic energy of the relatively large volume of pressurized fluid stored in each chamber.
Accordingly, there is a need for improved ambulatory storage systems made of light weight polymeric material and which are robust and less susceptible to violent rupture.
SUMMARY OF THE INVENTION
In accordance with aspects of the present invention, a storage system for pressurized fluids is provide which is robust, light weight, ambulatory, and less susceptible to violent rupture. The storage system comprises a pressure vessel which includes a plurality of ellipsoidal or spherical hollow chambers formed from a polymeric material and interconnected by polymeric conduit sections positioned between adjacent ones of the hollow chambers, the conduit sections are internally narrower than the hollow chambers. A reinforcing filament is wrapped around the hollow chambers and conduit sections. A fluid transfer control system is attached to the pressure vessel to control flow of fluid into and out of the pressure vessel, and a gas delivery mechanism connected to the fluid transfer control system delivers gas stored in the pressure vessel to a patient in a controlled manner. A wearable carrier garment is adapted to be worn on a portion of the body of a patient, and the pressure vessel and said fluid transfer control system are incorporated into the garment to provide an ambulatory supply of gas for the patient.
The present invention also includes a storage system for pressurized fluids comprising a pressure vessel comprising a plurality of hollow chambers formed from a polymeric material interconnected by polymeric conduit sections disposed between consecutive ones of said hollow chambers and a wearable carrier garment adapted to be worn on a portion of the body of a patient and for carrying the pressure vessel and the fluid transfer control system on the body of the patient to provide an ambulatory supply of gas for the patient. The wearable carrier garment comprising a belt adapted to be worn on a portion of the torso of a patient and including a housing including front and back pads which encase the pressure vessel and one or more straps connected to the housing to be secured around the torso of the patient.
REFERENCES:
patent: 601591 (1898-03-01), Sherman
patent: 724129 (1903-03-01), Schrader
patent: 771801 (1904-10-01), Andrew
patent: 1288857 (1918-12-01), Farr
patent: 1348708 (1920-08-01), Garland
patent: 1410405 (1922-03-01), Johnson
patent: 1588606 (1926-06-01), Oden
patent: 1745785 (1930-02-01), Deming
patent: 1778244 (1930-10-01), Cadden
patent: 1786489 (1930-12-01), Hopkins
patent: 1901088 (1933-03-01), Dick
patent: 2319024 (1943-05-01), Wehringer
patent: 2376353 (1945-05-01), Grant, Jr. et al.
patent: 2380372 (1945-07-01), Alderfer
patent: 2430921 (1947-11-01), Edelmann
patent: 2524052 (1950-10-01), Grant, Jr.
patent: 2531700 (1950-11-01), Porter
patent: 2540113 (1951-02-01), Hartley et al.
patent: 2764430 (1956-09-01), Roberts
patent: 2771069 (1956-11-01), Baron
patent: 2814291 (1957-11-01), Holmes
patent: 2829671 (1958-04-01), Ernst et al.
patent: 2861569 (1958-11-01), Emerson
patent: 3185500 (1965-05-01), Luther
patent: 3338238 (1967-08-01), Warncke
patent: 3432060 (1969-03-01), Cowley
patent: 3491752 (1970-01-01), Cowley
patent: 3729002 (1973-04-01), Miller
patent: 4060079 (1977-11-01), Reinhold, Jr.
patent: 4090509 (1978-05-01), Smith
patent: 4181993 (1980-01-01), McDaniel
patent: 4253454 (1981-03-01), Warncke
patent: 4584996 (1986-04-01), Blum
patent: 4612928 (1986-09-01), Tiep et al.
patent: 4665943 (1987-05-01), Medvick et al.
patent: 4736969 (1988-04-01), Fouts
patent: 4739913 (1988-04-01), Moore
patent: 4744356 (1988-05-01), Greenwood
patent: 4800923 (1989-01-01), Bartos
patent: 4932403 (1990-06-01), Scholley
patent: 4964404 (1990-10-01), Stone
patent: 4964405 (1990-10-01), Arnoth
patent: 4989599 (1991-02-01), Carter
patent: 4991876 (1991-02-01), Mulvey
patent: 5036845 (1991-08-01), Scholley
patent: 5099836 (1992-03-01), Rowland et al.
patent: 5127399 (1992-07-01), Scholley
patent: 5323953 (1994-06-01), Adderley et al.
patent: 5370113 (1994-12-01), Parsons
patent: 5400934 (1995-03-01), Ducros
patent: 5435305 (1995-07-01), Rankin, Sr.
patent: 5494469 (1996-02-01), Heath et al.
patent: 5503143 (1996-04-01), Marion et al.
patent: 5517984 (1996-05-01), Sanders
patent: 5529061 (1996-06-01), Sanders
patent: 5529096 (1996-06-01), Rowe, Jr. et al.
patent: 5582164 (1996-12-01), Sanders
patent: 5632268 (1997-05-01), E
Izuchukwu John I.
Remes Richard Scott
Sanders Stan A.
Lewis Aaron J.
Mallinckrodt Inc.
Rothwell Figg Ernst & Manbeck
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