Humidifier for breathing gas heating and humidification system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A61M-011/02
A61M-015/00
A61M-016/00
A61M-016/10
H05B-003/00
B01F-003/04
C10K-001/08
B05B-007/26
B05B-007/28
B05B-009/04
F23D-011/10
출원번호
US-0175888
(2008-07-18)
등록번호
US-8677993
(2014-03-25)
발명자
/ 주소
Cortez, Jr., Felino V.
Niland, William F.
McGarrity, George
Buyer, Carl
Miller, Kenneth
Boyd, Peter
출원인 / 주소
Vapotherm, Inc.
대리인 / 주소
RatnerPrestia
인용정보
피인용 횟수 :
1인용 특허 :
58
초록▼
A humidification canister for humidifying a breathing gas, the humidification canister includes a fluid supply configured to supply a fluid and a first gas flow path in fluid communication with the fluid supply. A first gas flow path is configured to humidify the breathing gas with the fluid. A seco
A humidification canister for humidifying a breathing gas, the humidification canister includes a fluid supply configured to supply a fluid and a first gas flow path in fluid communication with the fluid supply. A first gas flow path is configured to humidify the breathing gas with the fluid. A second gas flow path at least partially surrounds the first gas flow path. A method of insulating a breathing gas in a humidification canister using a gas is also disclosed.
대표청구항▼
1. A humidification canister for humidifying a breathing gas, the humidification canister comprising: a fluid supply configured to supply a fluid;a first gas flow path in fluid communication with the fluid supply, the first gas flow path configured to humidify the breathing gas with the fluid; anda
1. A humidification canister for humidifying a breathing gas, the humidification canister comprising: a fluid supply configured to supply a fluid;a first gas flow path in fluid communication with the fluid supply, the first gas flow path configured to humidify the breathing gas with the fluid; anda second gas flow path at least partially surrounding the first gas flow path, the second gas flow path maintained separate from the first gas flow path within the humidification canister;wherein the second gas flow path is coupled to the fluid supply and configured to pressurize the fluid supply with a flow of insulating gas in the second gas flow path. 2. The humidification canister according to claim 1, wherein the first gas flow path includes: a first gas flow inlet; a humidification chamber having a humidification chamber inlet in fluid communication with the first gas flow inlet and a humidification chamber outlet; and a first gas flow outlet in fluid communication with the humidification chamber outlet. 3. The humidification canister according to claim 2, further comprising a heater plate adapted to heat fluid in the humidification chamber. 4. The humidification canister according to claim 2, further comprising a membrane disposed between the humidification chamber and the fluid supply. 5. The humidification canister according to claim 2, wherein the fluid supply generally surrounds the humidification chamber. 6. The humidification canister according to claim 2, wherein the second gas flow path includes: a second gas flow inlet; an insulation chamber having an insulation chamber inlet in fluid communication with the second gas flow inlet and an insulation chamber outlet; and a second gas flow outlet in fluid communication with the insulation chamber outlet. 7. The humidification canister according to claim 6, wherein the first gas flow inlet is generally coaxially aligned with the second gas flow inlet. 8. The humidification canister according to claim 6, wherein the first gas flow outlet is generally coaxially aligned with the second gas flow outlet. 9. The humidification canister according to claim 6, wherein the first gas flow inlet and the second gas flow inlet are configured to coaxially couple to a source of gas. 10. The humidification canister according to claim 6, wherein the first gas flow outlet and the second gas flow outlet are configured to coaxially couple to a delivery tube. 11. The humidification canister according to claim 6, wherein the fluid supply generally surrounds the humidification chamber. 12. The humidification canister according to claim 11, wherein the insulation chamber extends at least partially between the humidification chamber and the fluid supply chamber. 13. The humidification canister according to claim 2, wherein the fluid supply is releasably coupled to the humidification chamber. 14. The humidification canister according to claim 1, wherein the fluid supply has a generally circular cross section having a central opening therein. 15. The humidification canister according to claim 14, wherein the first gas flow path extends through the central opening. 16. The humidification canister according to claim 14, wherein the second gas flow path extends through the central opening. 17. A method of pressurizing a supply of humidification fluid within a humidification canister comprising the steps of: a) receiving a flow of a breathing gas along a first gas flow path defined by the humidification canister;b) receiving a flow of an insulating gas along a second gas flow path defined by the humidification canister, the second gas flow path at least partially surrounding the first gas flow path, the second gas flow path maintained separate from the first gas flow path within the humidification canister;c) providing a supply of a humidification fluid within the humidification canister to humidify the breathing gas; andd) enabling fluid communication between the second gas flow path and the supply of the humidification fluid in order to pressurize the supply of the humidification fluid with the flow of insulating gas. 18. The method according to claim 17, further comprising, after step d), the step of humidifying the breathing gas along the first gas flow path with the humidification fluid. 19. A method of insulating a breathing gas in a humidification canister using a gas, the method comprising the steps of: a) directing a flow of a breathing gas along a first gas flow path defined by the humidification canister, the first gas glow path including a humidification chamber;b) directing a flow of an insulating gas along a second gas flow path defined by the humidification canister, the second gas flow path including an insulating chamber at least partially surrounding the humidification chamber, wherein the insulating gas at least partially insulates the breathing gas, the second gas flow path maintained separate from the first gas flow path within the humidification canister;c) providing a supply of humidification fluid within the humidification canister to humidify the flow of breathing gas; andd) pressurizing the supply of humidification fluid with the flow of insulating gas. 20. The method according to claim 19, further comprising the step of discharging the breathing gas from the humidification chamber into a delivery tube. 21. The method according to claim 19, wherein step a) comprises directing the flow of the breathing gas through a humidification chamber inlet and wherein step b) comprises directing the flow of the insulating gas through an insulating chamber inlet, wherein the insulating chamber inlet surrounds the humidification chamber inlet. 22. The method according to claim 19, wherein step a) comprises directing the flow of the breathing gas through a humidification chamber outlet and wherein step b) comprises directing the flow of the insulating gas through an insulating chamber outlet, wherein the insulating chamber outlet surrounds the humidification chamber outlet.
Virr,Alexander; Smith,Ian Malcolm; Lithgow,Perry David; Jones,Richard Llewelyn; Cheung,Andrew, Air pressure signal monitoring in apparatus for treating sleep disordered breathing.
Hayward John (570 Linnet La. Victoria ; B.C. CAX V8X 3X1) Douwens Robert (2924 Shelbourne St. Victoria ; B.C. CAX V8R 4M6), Method and apparatus for inhalation rewarming.
Blackmer Richard H. (Scotia NY) Hedman Jonathan W. (Burnt Hills NY), Method and apparatus for pulmonary and cardiovascular conditioning of racehorses and competition animals.
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