High reliability multi-tube thermal exchange structure
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F25B-039/02
F28F-001/32
F28F-001/10
F28F-009/02
출원번호
US-0734509
(2003-12-12)
발명자
/ 주소
Dain, John F.
대리인 / 주소
McTaggart J. E.
인용정보
피인용 횟수 :
11인용 특허 :
12
초록▼
For high reliability through redundancy, in a thermal chamber, heat exchange tubes are configured in multiple parallel runs. Typically three tubes are attached side-by-side in a strip which is formed into folded-back horizontal rows to be built into or attached to the walls of the chamber. In a free
For high reliability through redundancy, in a thermal chamber, heat exchange tubes are configured in multiple parallel runs. Typically three tubes are attached side-by-side in a strip which is formed into folded-back horizontal rows to be built into or attached to the walls of the chamber. In a freezer, each tube can serve independently as an evaporator when connected to a compressor/condenser source. Versatile source interfacing is provided by two valve-manifold routing units, one at each end of the multi-tube strip, enabling easy tube substitution in case of failure, as well as facilitating source-swapping, networking, defrosting and refrigerant operations such as purging, flushing, replenishing, changing or replacement, all without interrupting the required cooling process or affecting the chamber temperature. The multi-tube strip and valve-manifolds enhance the reliability of thermal systems such as ultra-low temperature biomedical freezers entrusted with critical at-risk payloads, and assist owner-operators in maintaining such systems fully operational with minimal need for outside repair expertise.
대표청구항▼
1. A high reliability heat-exchange structure for a thermal chamber comprising:multi-tube cluster including at least three adjacent parallel tubes configured from a continuous length of each tube formed in a grill-like array pattern of end-folded generally horizontal rows located in at least one pla
1. A high reliability heat-exchange structure for a thermal chamber comprising:multi-tube cluster including at least three adjacent parallel tubes configured from a continuous length of each tube formed in a grill-like array pattern of end-folded generally horizontal rows located in at least one plane approximating a wall location in the thermal chamber, each tube being made readily user-selectable for and capable of deployment in performance of a designated heat exchange process in the chamber, independent of the other tubes, involving flow-through of a fluid selected from a group including a liquid, a gas and a transitional combination thereof. 2. The high reliability heat-exchange structure as defined in claim 1 wherein each tube of the structure is made and arranged to be capable of operation as a refrigeration evaporator for refrigerating the chamber, independent of the other tubes, in consequence of flow-through of a refrigerant fluid supplied as input to the tube in pressurized liquid state, evaporating within the tube so as to create and maintain a lowered temperature in the chamber, and exiting the tube in a gaseous state. 3. The high reliability heat-exchange structure as defined in claim 1 wherein, in cross-sectional shape, the tubes in the multi-tube cluster are attached together side-by-side so as to form a flat multi-tube strip, and wherein each tube extends continuously from a first end of the multi-tube strip to a second end thereof. 4. The high reliability heat-exchange structure as defined in claim 3 wherein the multi-tube strip is shaped to form an array of adjacent rows disposed in at least one vertical plane parallel to a corresponding wall of the chamber and contained within a predetermined outline, each row being shaped at ends thereof to fold back in marginal regions of the outline in a manner to form the array of adjacent rows. 5. The high reliability thermal-exchange structure as defined in claim 3 further comprising:a first valve-manifold comprising a plurality of tube ports, one for each tube in the multi-tube strip, located at the first end of the multi-tube strip, each tube port being connected in fluid communication with a first end of a corresponding tube;a second valve-manifold comprising a plurality of tube ports, one for each tube in the multi-tube strip, located at the second end of the multi-tube strip, each tube port being connected in fluid communication with a second end of a corresponding tube;said first and second valve-manifolds each comprising at least one source port and a plurality of on/off valves in a predetermined fluid communication pattern with the tube ports and the source port(s) such as to enable a designated selection of fluid communication links between the tube ports and the source port(s) via corresponding combinations of settings of the on/off valves. 6. The high reliability thermal-exchange structure as defined in claim 3 wherein the multi-tube strip comprises three parallel tubes. 7. The high reliability thermal-exchange structure as defined in claim 5 wherein:said multi-tube strip comprises three parallel tubes; and,said first and second valve-manifolds each comprise three tube ports and two source ports. 8. The high reliability thermal-exchange structure as defined in claim 7 wherein said first and second valve-manifolds each further comprise six on-off valves arranged and connected to provide interruptable fluid communication between each of the three tube ports and each of the two source ports. 9. The high reliability thermal-exchange structure as defined in claim 2 wherein at least one of the tubes is connected in fluid communication with a refrigeration source including a condenser receiving refrigerant fluid from a compressor, a first end of the tube(s) being connected to the condenser via a high pressure line, and a second and opposite end of the tube(s) being connected to the compressor via a low pressure/suction line, so as to form in combination a refrige ration system with loop circulation capable of creating and maintaining a lowered temperature in the chamber. 10. The high reliability thermal-exchange structure as defined in claim 5 wherein said first and second valve-manifolds are connected in fluid communication with a refrigeration source including a condenser receiving refrigerant fluid from a compressor, the first valve-manifold receiving liquid refrigerant via a source port thereof through a high pressure line from the condenser, and the second valve-manifold receiving sending gaseous refrigerant via a source port thereof through a low pressure/suction line to the compressor, the on/off valves being set so as to operatively connect two opposite ends of a designated tube to the two source ports respectively, thus forming a refrigeration system with loop circulation capable of creating and maintaining a lowered temperature in the chamber due to evaporation in the tube.
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