System and method for liquefying a fluid and storing the liquefied fluid
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F25J-001/00
F17C-013/00
F17C-003/08
F25J-001/02
출원번호
US-0857852
(2015-09-18)
등록번호
US-9841228
(2017-12-12)
발명자
/ 주소
Dickerson, Brian Edward
Blair, Jeremy Webster
Brouqueyre, Laurent
Whitcher, Douglas Adam
출원인 / 주소
KONINKLIJKE PHILIPS N.V.
대리인 / 주소
Haas, Michael W.
인용정보
피인용 횟수 :
0인용 특허 :
7
초록▼
A Dewar system is configured to liquefy a flow of fluid, and to store the liquefied fluid. The Dewar system is disposed within a single, portable housing. Disposing the components of the Dewar system within the single housing enables liquefied fluid to be transferred between a heat exchange assembly
A Dewar system is configured to liquefy a flow of fluid, and to store the liquefied fluid. The Dewar system is disposed within a single, portable housing. Disposing the components of the Dewar system within the single housing enables liquefied fluid to be transferred between a heat exchange assembly configured to liquefy fluid and a storage assembly configured to store liquefied fluid in an enhanced manner. In one embodiment, the flow of fluid liquefied and stored by the Dewar system is oxygen (e.g., purified oxygen), nitrogen, and/or some other fluid.
대표청구항▼
1. A system configured to liquefy a fluid, and to store the liquefied fluid, the system comprising: a housing configured to substantially seal the interior of the housing from atmosphere comprising a first piece and a second piece, wherein the first piece and the second piece are configured to be se
1. A system configured to liquefy a fluid, and to store the liquefied fluid, the system comprising: a housing configured to substantially seal the interior of the housing from atmosphere comprising a first piece and a second piece, wherein the first piece and the second piece are configured to be selectably coupled together to substantially seal the interior of the housing from atmosphere, wherein the second piece of the housing forms a cavity having an opening formed by a rim of the second piece of the housing, and wherein the first piece of the housing is a lid that is selectably coupled to the rim of the second piece of the housing to substantially seal the cavity formed by the first piece of the housing from atmosphere;a heat exchange assembly disposed within the housing, the heat exchange assembly comprising a fluid conduit that passes from inside the housing to outside the housing, the fluid conduit being configured to receive a flow of fluid in a gaseous state from a fluid flow generator located outside the housing, the heat exchange assembly being configured to liquefy the flow of fluid received into the heat exchange assembly via the fluid conduit,a cold head disposed in the heat exchange assembly, the cold head in fluid communication with the fluid conduit, the cold head configured to reduce the temperature of the flow of fluid to liquefy fluid not liquefied by the heat exchange assembly, wherein the heat exchange assembly and the cold head are formed integrally or securely with (i) one another and (ii) the first piece of the housing such that removal of the first piece of the housing causes the heat exchange assembly and the cold head to be removed from the housing, anda fluid storage assembly disposed within the housing, the fluid storage assembly being in fluid communication with the heat exchange assembly, the fluid storage assembly being configured to store fluid that has been liquefied by the heat exchange assembly, and wherein the fluid storage assembly is formed integrally or securely with the second piece of the housing,wherein the heat exchange assembly and the cold head formed integrally or securely with the first piece of the housing and the fluid storage assembly formed integrally or securely with the second piece of the housing are positioned side by side within the housing. 2. The system of claim 1, wherein the storage assembly comprises a reservoir neck that extends from a storage reservoir through the housing to enable liquefied fluid to be released from the storage reservoir, wherein a vacuum space is formed between the housing and the storage assembly, and wherein the heat exchange assembly is disposed in the vacuum space. 3. The system of claim 1, wherein the fluid is oxygen. 4. A method of liquefying a fluid, and storing the liquefied fluid, the method comprising: substantially sealing a cavity from atmosphere;receiving a flow of fluid in a gaseous state into the cavity from outside the cavity through a fluid conduit, wherein the flow of fluid is received into the cavity in a gaseous state;liquefying the flow of fluid received into the cavity via the fluid conduit;reducing the temperature of the flow of fluid to liquefy fluid not previously liquefied;directing the liquefied fluid into a reservoir disposed within the cavity; andstoring the liquefied fluid within the reservoir, wherein: substantially sealing the cavity from atmosphere is performed by a first piece of a housing selectably coupled to a second piece of the housing to substantially seal the cavity, which is formed in the interior of the housing, from atmosphere,a heat exchange assembly that performs the liquefaction of the flow of fluid and a cold head, disposed in the heat exchange assembly and in fluid communication with the fluid conduit, that performs the temperature reduction of the flow of fluid are formed integrally or securely with (i) one another and (ii) the first piece of the housing such that removal of the first piece of the housing causes the heat exchange assembly and the cold head to be removed from the housing,the reservoir is formed integrally or securely with the second piece of the housing,the second piece of the housing forms the cavity such that the cavity has an opening formed by a rim of the second piece of the housing,the first piece of the housing is a lid formed such that selectably coupling the lid to the rim of the second piece of the housing substantially seals the cavity formed by the first piece of the housing from atmosphere; andthe heat exchange assembly and the cold head formed integrally or securely with the first piece of the housing and the fluid storage assembly formed integrally or securely with the second piece of the housing are positioned side by side within the housing. 5. The method of claim 4, wherein a heat exchange assembly that performs the liquefaction of the flow of fluid is disposed within a portion of the cavity this is under vacuum, and is external to the reservoir. 6. The method of claim 4, wherein the fluid is oxygen. 7. A system configured to liquefy a fluid, and to store the liquefied fluid, the system comprising: means for substantially sealing a cavity from atmosphere comprising a first piece and a second piece, the first piece and second piece being selectably coupled to seal the cavity from atmosphere;means for receiving a flow of fluid in a gaseous state into the cavity from outside the cavity, wherein the flow of fluid is received into the cavity by the means for receiving in a gaseous state;means for liquefying the flow of fluid received into the cavity, wherein the means for liquefying the flow of fluid is disposed within the cavity;means for reducing the temperature of the flow of fluid, the means for reducing the temperature of the flow of fluid being configured to liquefy fluid not liquefied by the means for liquefying the flow of fluid, wherein the means for reducing the temperature of the flow of fluid is disposed in the means for liquefying the flow of fluid, wherein the means for reducing the temperature of the flow of fluid is in fluid communication with the means for receiving the flow of fluid, and wherein the means for liquefying the flow of fluid and the means for reducing the temperature of the flow of fluid are formed integrally or securely with (i) one another and (ii) the first piece of the means for substantially sealing such that removal of the first piece of the means for substantially sealing causes the means for liquefying the flow of fluid and the means for reducing the temperature of the flow of fluid to be removed from the means for substantially sealing; andmeans storing the liquefied fluid within the cavity that is formed integrally or securely with the second piece of the means for substantially sealing, wherein the second piece of the means for substantially sealing forms the cavity such that the cavity has an opening formed by a rim of the second piece of the means for substantially sealing, and wherein the first piece of the means for substantially sealing is a lid formed such that selectably coupling the lid to the rim of the second piece of the means for substantially sealing substantially seals the cavity from atmosphere,wherein the means for liquefying and the means for reducing the temperature of the flow of fluid formed integrally or securely with the first piece of the means for substantially sealing and the means for storing formed integrally or securely with the second piece of the means for substantially sealing are positioned side by side within the means for substantially sealing. 8. The system of claim 7, wherein the portion of the cavity that is external to the means for storing is under vacuum, thereby creating a vacuum space, and wherein the means for liquefying is disposed in the vacuum space. 9. The system of claim 7, wherein the fluid is oxygen. 10. The system of claim 1, wherein the cold head comprises a plurality of screen meshes separated by spacers. 11. The system of claim 10, wherein the cold head is in fluid communication with the fluid storage assembly via a siphon conduit, the siphon conduit having a conduit wall thickness greater than the fluid conduit wall thickness. 12. The method of claim 4, wherein the cold head comprises a plurality of screen meshes separated by spacers. 13. The method of claim 12, wherein the cold head is in fluid communication with the fluid storage assembly via a siphon conduit, the siphon conduit having a conduit wall thickness greater than the fluid conduit wall thickness. 14. The system of claim 7, wherein the means for reducing the temperature of the flow of fluid comprises a plurality of screen meshes separated by spacers. 15. The system of claim 14, wherein the means for reducing the temperature of the flow of fluid is in fluid communication with the means storing the liquefied fluid via a siphon conduit, the siphon conduit having a conduit wall thickness greater than the thickness of the means for receiving the flow of fluid.
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이 특허에 인용된 특허 (7)
Leonard Rex D. (Indianapolis IN) Hulstyn Jan (Redondo Beach CA), Cryogenic breathing system.
Honkonen, Scott C.; Hill, Theodore B.; Hill, Charles C.; Walker, Graham; Walker, legal representative, Ann Valentine, Methods and apparatus to generate liquid ambulatory oxygen from an oxygen concentrator.
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