Refrigeration appliance with two evaporators in different compartments
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F25B-007/00
F25D-011/02
F25B-040/02
F25D-011/00
출원번호
US-0010601
(2013-08-27)
등록번호
US-9677789
(2017-06-13)
우선권정보
EP-12182353 (2012-08-30)
발명자
/ 주소
Joppolo, Cesare Maria
Molinaroli, Luca
Visek, Matej
출원인 / 주소
Whirlpool Corporation
인용정보
피인용 횟수 :
0인용 특허 :
12
초록▼
A refrigerator having a refrigerating circuit with a compressor, a condenser and two evaporators placed in different compartments of the appliance comprises valve means for alternatively directing refrigerant flow towards one of the evaporators. One of the evaporators is in heat exchange relationshi
A refrigerator having a refrigerating circuit with a compressor, a condenser and two evaporators placed in different compartments of the appliance comprises valve means for alternatively directing refrigerant flow towards one of the evaporators. One of the evaporators is in heat exchange relationship with a phase change material.
대표청구항▼
1. A refrigeration circuit for a refrigeration appliance comprising: a compressor;a condenser;a first evaporator associated with a first refrigeration compartment of the refrigeration appliance;a second evaporator associated with a second refrigeration compartment of the refrigeration appliance;a ph
1. A refrigeration circuit for a refrigeration appliance comprising: a compressor;a condenser;a first evaporator associated with a first refrigeration compartment of the refrigeration appliance;a second evaporator associated with a second refrigeration compartment of the refrigeration appliance;a phase change material reservoir in heat exchange relationship with the first evaporator;a first flow directing valve in fluid contact with the first evaporator, a second flow directing valve, and the condenser, the first flow directing valve having a first position and a second position;the first flow directing valve directs refrigerant flow from the condenser, towards the first evaporator, and blocks flow towards the second flow directing valve when the first flow directing valve is in the first position;the first flow directing valve directs refrigerant flow from the condenser, towards the second flow directing valve, and blocks flow towards the first evaporator when the first flow directing valve is in the second position;the second flow directing valve in fluid contact with the first flow directing valve, the second evaporator, and a sub-cooling loop, the second flow directing valve having a bypass position and a non-bypass position;the second flow directing valve directs refrigerant flow towards the sub-cooling loop and blocks flow through the second flow directing valve towards the second evaporator when the second flow directing valve is in the bypass position;the second flow directing valve directs refrigerant flow towards the second evaporator and blocks flow towards the sub-cooling loop when the second flow directing valve is in the non-bypass position;the sub-cooling loop passes refrigerant flow through a portion of the phase change material reservoir prior to passing the refrigerant flow into the second evaporator without passing the refrigerant flow through the first evaporator, andwherein a portion of the sub-cooling loop is in heat exchange relationship with the phase change material reservoir to sub-cool the refrigerant prior to entering the second evaporator. 2. The refrigeration circuit of claim 1, wherein the sub-cooling loop comprises an expansion device upstream from the second evaporator and downstream from the phase change material reservoir. 3. The refrigeration circuit of claim 1 wherein the phase change material reservoir is in a refrigeration compartment. 4. The refrigeration circuit of claim 1 wherein the first evaporator is in a refrigeration compartment. 5. The refrigeration circuit of claim 1, wherein the first flow directing valve comprises a three-way electrically operated valve. 6. The refrigeration circuit of claim 1, wherein the second flow directing valve comprises an electrically operated valve. 7. The refrigeration circuit of claim 1, wherein the second flow directing valve comprises a three-way electrically operated valve. 8. The refrigeration circuit of claim 1, wherein the sub-cooling loop further comprises an expansion device downstream of the phase change material reservoir and upstream of the second evaporator. 9. The refrigeration circuit of claim 1, wherein the sub-cooling loop further comprises an expansion device upstream of the phase change material reservoir. 10. A refrigeration circuit for a refrigeration appliance comprising: a compressor;a condenser;a first evaporator positioned in a first refrigeration compartment of the refrigeration appliance;a phase change material reservoir positioned adjacent and in thermal contact with the first evaporator;a second evaporator positioned in a second refrigeration compartment of the refrigeration appliance;a first valve fluidically connected to the compressor, the first evaporator, and a second valve, the first valve having a first position and a second position;the first valve directs flow of refrigerant from the compressor, towards the first evaporator, and blocks flow towards the second valve when the first valve is in the first position;the first valve directs flow of refrigerant from the compressor, towards the second valve and blocks flow of refrigerant towards the first evaporator when the first valve is in the second position;the second valve fluidically connected to the first valve, a sub-cooling loop, and a capillary tube upstream from the second evaporator, the second valve having a bypass position and a non-bypass position;the second valve configured to divert flow of refrigerant towards the sub-cooling loop and blocks flow of refrigerant through the second valve towards the second evaporator when the second valve is in the bypass position;the second valve directs flow of refrigerant towards the second evaporator and blocks flow towards the sub-cooling loop when the second valve is in the non-bypass position;a portion of the sub-cooling loop positioned in the first refrigeration compartment and being in thermal contact with the phase change material reservoir;the sub-cooling loop being fluidically connected to the second evaporator; andwherein the sub-cooling loop sub-cools the refrigerant prior to entering the second evaporator. 11. The refrigeration circuit of claim 10, wherein an expansion device is fluidically connected upstream of the first evaporator and downstream from the first valve. 12. The refrigeration circuit of claim 10, wherein the sub-cooling loop further comprises an expansion device downstream of the phase change material reservoir and upstream of the second evaporator. 13. The refrigeration circuit of claim 10, wherein the sub-cooling loop further comprises an expansion device upstream of the phase change material reservoir. 14. A refrigeration circuit for a refrigeration appliance comprising: a compressor;a condenser;a refrigeration evaporator in a refrigeration compartment of the refrigeration appliance, the refrigeration evaporator in thermal contact with a phase change material reservoir;a freezer evaporator in a freezer compartment of the refrigeration appliance;a first valve in a refrigerant flow path of between the compressor, a second valve, and the refrigeration evaporator, the first valve having a first position and a second position;the first valve directs flow of refrigerant from the compressor towards the refrigeration evaporator and blocks flow towards the second valve when the first valve is in the first position;the first valve directs flow of refrigerant from the compressor towards the second valve and blocks flow of refrigerant towards the refrigeration evaporator when the first valve is in the second position;the second valve in the refrigerant flow path between the first valve, the freezer evaporator, and a sub-cooling loop, the second valve having a bypass position and a non-bypass position;the second valve is configured to divert refrigerant flow towards the sub-cooling loop prior to directing the refrigerant flow into the freezer evaporator when the second valve is in the bypass position;the second valve is configured to direct refrigerant flow towards the freezer evaporator and to block refrigerant flow toward the sub-cooling loop when the second valve is in the non-bypass position; andwherein the sub-cooling loop is fluidically connected between the second valve and the freezer evaporator and in thermal contact with the phase change material reservoir to sub-cool the refrigerant prior to entering the freezer evaporator. 15. The refrigeration circuit of claim 14, wherein the first valve is a three-way electrically operated valve. 16. The refrigeration circuit of claim 15, wherein the second valve is a three-way electrically operated valve. 17. The refrigeration circuit of claim 14, wherein the second valve is a three-way electrically operated valve. 18. The refrigeration circuit of claim 14, wherein the sub-cooling loop further comprises an expansion device downstream of the phase change material reservoir and upstream of the freezer evaporator. 19. The refrigeration circuit of claim 14, wherein the sub-cooling loop further comprises an expansion device upstream of the phase change material reservoir.
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