High performance refrigerator having sacrificial evaporator
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F25D-021/00
F25D-021/08
F25B-005/02
F25D-017/04
F25B-005/04
출원번호
US-0652979
(2012-10-16)
등록번호
US-9310121
(2016-04-12)
발명자
/ 주소
Bonet, Jose R.
출원인 / 주소
Thermo Fisher Scientific (Asheville) LLC
대리인 / 주소
Wood, Herron & Evans, LLP
인용정보
피인용 횟수 :
0인용 특허 :
74
초록▼
A high performance refrigerator includes a cabinet with a refrigerated interior and a refrigeration fluid circuit having first and second evaporators located within the cabinet and separated from the refrigerated interior by an insulating cover. The refrigerator also includes a first damper controll
A high performance refrigerator includes a cabinet with a refrigerated interior and a refrigeration fluid circuit having first and second evaporators located within the cabinet and separated from the refrigerated interior by an insulating cover. The refrigerator also includes a first damper controlling flow from the refrigerated interior into the first evaporator, a second damper controlling flow from the first evaporator to the second evaporator, and a third damper controlling flow from the second evaporator to the refrigerated interior. The first evaporator operates with refrigerant at a lower temperature than the second evaporator such that substantially all frost formed on the first and second evaporators is collected on a first evaporator coil in the first evaporator. Thus, the first evaporator acts as a sacrificial evaporator that undergoes defrost more frequently than the second evaporator.
대표청구항▼
1. A refrigerator, comprising: a cabinet having a refrigerated interior;a refrigeration fluid circuit for circulating a refrigerant, the refrigeration fluid circuit including a compressor, a condenser, an expansion device, a first evaporator located within the cabinet, and a second evaporator locate
1. A refrigerator, comprising: a cabinet having a refrigerated interior;a refrigeration fluid circuit for circulating a refrigerant, the refrigeration fluid circuit including a compressor, a condenser, an expansion device, a first evaporator located within the cabinet, and a second evaporator located within the cabinet;the first evaporator including a first evaporator coil and a first evaporator fan producing air flow through the first evaporator coil, the second evaporator including a second evaporator coil and a second evaporator fan producing air flow through the second evaporator coil;an insulating cover separating the refrigerated interior from a first evaporator compartment containing the first evaporator and a second evaporator compartment containing the second evaporator, the first and second evaporator compartments being adjacent to one another and divided from one another by divider wall, and each of the first and second evaporator compartments being divided into an inlet side and an outlet side on opposite sides of the respective first and second evaporator compartments;at least one first damper that opens to permit air circulation from the refrigerated interior into the fist evaporator compartment, the at least one first damper including an inlet first damper between the refrigerated interior and the inlet side of the first evaporator compartment, and an outlet first damper between the refrigerated interior and the outlet side of the first evaporator compartment;a second damper associated with the divider wall that opens to permit air circulation from the outlet side of the first evaporator compartment into the inlet side of the adjacent second evaporator compartment via operation of the second damper so as to permit air flow through the divider wall; andat least one third damper that opens to permit air circulation from the second evaporator compartment into the refrigerated interior, the at least one third damper including an inlet third damper between the refrigerated interior and the inlet side of the second evaporator compartment, and an outlet third damper between the refrigerated interior and the outlet side of the second evaporator compartment,wherein the first evaporator operates with refrigerant at a colder temperature than the second evaporator, and operation of the first and second evaporator fans force warmed air from the refrigerated interior to flow past the first evaporator before flowing past the second evaporator and then back to the refrigerated interior by opening the inlet first damper, the second damper, and the outlet third damper while keeping the outlet first damper and the inlet third damper closed during fan operation, such that the first evaporator collects substantially all frost formed on the first and second evaporator coils during cooling of the refrigerated interior. 2. The refrigerator of claim 1, wherein the first evaporator further includes a first defrost heater, and the refrigerator further comprises: a controller operable to command the refrigerator to perform the following steps when the first evaporator requires defrosting: stop operation of the first evaporator fan;close the inlet first, outlet first and second dampers to isolate the first evaporator compartment from the refrigerated interior; andafter closing the inlet first, outlet first and second dampers, start operation of the first defrost heater. 3. The refrigerator of claim 2, wherein the second evaporator further includes a second defrost heater, and the controller is operable to command the refrigerator to perform the following steps when the first and second evaporators require defrosting: stop operation of the first and second evaporator fans;close the inlet first, outlet first, second, inlet third, and outlet third dampers to isolate the first evaporator compartment and the second evaporator compartment from the refrigerated interior; andafter closing the inlet first, outlet first, second, inlet third, and outlet third dampers, start operation of the first and second defrost heaters. 4. The refrigerator of claim 3, wherein the controller is operable to modify an amount of time between defrost cycles and to modify an amount of time the first or second defrost heater is operating during a defrost cycle based on at least one measurable operating parameter. 5. The refrigerator of claim 1, wherein the expansion device includes at least one of a capillary tube or a valve. 6. The refrigerator of claim 1, wherein the first and second evaporators are coupled in parallel to one another in the refrigeration fluid circuit. 7. The refrigerator of claim 1, wherein the first and second evaporators are coupled in series with one another in the refrigeration fluid circuit. 8. The refrigerator of claim 1, wherein the refrigeration fluid circuit further includes an accumulator operatively connected to the first and second evaporators and the compressor. 9. The refrigerator of claim 1, wherein the refrigeration fluid circuit further includes a dryer operatively connected to the condenser and the expansion device. 10. The refrigerator of claim 2, wherein positioning the inlet third damper in an open position and the outlet third damper in an open position is configured to enable the second evaporator to continue cooling the refrigerated interior while the first evaporator is being defrosted. 11. The refrigerator of claim 2, wherein positioning the inlet first damper in an open position and the outlet first damper in an open position is configured to enable the first evaporator to continue cooling the refrigerated interior while the second evaporator is being defrosted. 12. The refrigerator of claim 1, wherein the insulating cover includes a plurality of insulated panels separating the refrigerated interior from the first and second evaporator compartments. 13. A method of operating a refrigerator including a cabinet having a refrigerated interior; a refrigeration fluid circuit including a compressor, a condenser, a first evaporator located within the cabinet and having a first evaporator fan, and a second evaporator located within the cabinet and having a second evaporator fan, wherein the first and second evaporators are located in adjacent first and second evaporator compartments, each of which is separated from the refrigerated interior by an insulating cover, the first and second evaporator compartments separated by a divider wall; an inlet first damper and an outlet first damper selectively permitting air circulation between the refrigerated interior and the first evaporator compartment; a second damper being associated with the divider wall and selectively permitting air circulation from the first evaporator compartment into the second evaporator compartment; and an inlet third damper and an outlet third damper selectively permitting air circulation between the second evaporator compartment and the refrigerated interior, and the method comprises: opening the inlet first, second, and outlet third dampers while keeping the outlet first damper and the inlet third damper closed, thereby enabling flow of air from the first evaporator compartment to the second evaporator compartment via the second damper;generating air flow with the first and second evaporator fans to cool the refrigerated interior with the first and second evaporators, thereby forcing warmed air from the refrigerated interior with the first and second evaporator fans to flow past the first evaporator before flowing past the second evaporator and then back to the refrigerated interior; andsupplying the first evaporator with refrigerant at a lower temperature than refrigerant supplied to the second evaporator such that the first evaporator collects substantially all frost that forms on the first and second evaporators, thereby reducing a required frequency of defrost cycles for the second evaporator. 14. The method of claim 13, wherein the first evaporator includes a first defrost heater, and the method further comprises: when the first evaporator requires defrosting, stopping the first evaporator fan;closing the inlet first, outlet first and second dampers to thermally isolate the first evaporator from the refrigerated interior; andafter closing the inlet first, outlet first and second dampers, starting operation of the first defrost heater. 15. The method of claim 14, wherein the second evaporator includes a second defrost heater, and the method further comprises: when the second evaporator requires defrosting, stopping the first and second evaporator fans;closing the inlet first, outlet first, second, inlet third, and outlet third dampers to thermally isolate the first and second evaporators from the refrigerated interior; andafter closing the inlet first, outlet first, second, inlet third, and outlet third dampers, starting operation of the first and second defrost heaters. 16. The method of claim 14, wherein when the first evaporator requires defrosting, the method further comprises: opening the inlet third damper to permit warmed air flow from the refrigerated interior to be drawn into the second evaporator by the second evaporator fan;opening the outlet third damper to permit cooled air flow from the second evaporator to flow into the refrigerated interior as forced by the second evaporator fan; andcontinuing to cool the refrigerated interior with the second evaporator while the first evaporator is defrosted. 17. The method of claim 13, wherein the second evaporator includes a second defrost heater, and wherein when the second evaporator requires defrosting, the method further comprises: stopping the second evaporator fan;closing the second, the inlet third, and the outlet third dampers to thermally isolate the second evaporator from the refrigerated interior;after closing the second, the inlet third, and the outlet third dampers, starting operation of the second defrost heater;opening the inlet first damper to permit warmed air flow from the refrigerated interior to be drawn into the first evaporator by the first evaporator fan;opening the outlet first damper to permit cooled air flow from the first evaporator to flow into the refrigerated interior as forced by the first evaporator fan; andcontinuing to cool the refrigerated interior with the first evaporator while the second evaporator is defrosted. 18. The refrigerator of claim 1, wherein the refrigerator includes only a single second damper selectively opening to permit flow directly between the first and second evaporator compartments.
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이 특허에 인용된 특허 (74)
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