A refrigerator that includes a compressor configured to compress a refrigerant; a condenser configured to condense the refrigerant; a first evaporator that is configured to evaporate the refrigerant, the evaporated refrigerant being configured to cool a refrigerating compartment; a second evaporator
A refrigerator that includes a compressor configured to compress a refrigerant; a condenser configured to condense the refrigerant; a first evaporator that is configured to evaporate the refrigerant, the evaporated refrigerant being configured to cool a refrigerating compartment; a second evaporator that is configured to evaporate the refrigerant, the evaporated refrigerant being configured to cool a freezing compartment; a first heat exchanger; a refrigerating-compartment expansion device that is coupled to the first heat exchanger and that is configured to expand the refrigerant and provide the expanded refrigerant to the first heat exchanger; a second heat exchanger coupled to the second evaporator; and a freezing-compartment expansion device that is coupled to the second heat exchanger and that is configured to expand the refrigerant and provide the expanded refrigerant to the second heat exchanger, wherein the first heat exchanger is configured to cool the second heat exchanger is disclosed.
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1. A refrigerator comprising: a compressor configured to compress a refrigerant:a condenser configured to condense the refrigerant;a first evaporator that is configured to evaporate the refrigerant condensed by the condenser, the evaporated refrigerant being configured to cool a refrigerating compar
1. A refrigerator comprising: a compressor configured to compress a refrigerant:a condenser configured to condense the refrigerant;a first evaporator that is configured to evaporate the refrigerant condensed by the condenser, the evaporated refrigerant being configured to cool a refrigerating compartment;a second evaporator that is configured to evaporate the refrigerant condensed by the condenser, the evaporated refrigerant being configured to cool a freezing compartment;a first heat exchanger coupled to the first evaporator;a refrigerating-compartment expansion device that is coupled to the first heat exchanger and that is configured to expand the refrigerant and provide the expanded refrigerant to the first heat exchanger;a second heat exchanger coupled to the second evaporator; anda freezing-compartment expansion device that is coupled to the second heat exchanger and that includes (i) a first expansion device coupled to an inlet side of the second heat exchanger and (ii) a second expansion device coupled to an outlet side of the second heat exchanger,wherein the compressor includes (i) a first compressor that is configured to compress the refrigerant evaporated by the first evaporator and (ii) a second compressor that is configured to compress the refrigerant evaporated by the second evaporator,wherein the refrigerant expanded by the refrigerating-compartment expansion device passes through the first heat exchanger, the refrigerant expanded by the first expansion device of the freezing-compartment expansion device passes through the second heat exchanger, and the first heat exchanger is configured to cool the second heat exchanger, andwherein (i) the refrigerant passing through the first heat exchanger flows into the first evaporator and (ii) the refrigerant passing through the second heat exchanger is expanded by the second expansion device of the freezing-compartment expansion device and flows into the second evaporator. 2. The refrigerator of claim 1, further comprising: a suction pipe that is configured to couple the second evaporator to the compressor,wherein the first expansion device, the second expansion device, and the suction pipe exchange heat with each other. 3. The refrigerator of claim 1, wherein a first surface of the first heat exchanger and a first surface of the second heat exchanger are coupled together. 4. The refrigerator of claim 1, further comprising: a valve device that couples the condenser to the second heat exchanger and that is configured to control an amount of the refrigerant provided from the condenser to the second heat exchanger. 5. The refrigerator of claim 4, wherein the first expansion device is coupled to a first outlet side of the valve device and is configured to expand the refrigerant that is provided to the second heat exchanger, andwherein the second expansion device is coupled to an outlet side of the second heat exchanger and is configured to expand the refrigerant that is output from the second heat exchanger. 6. The refrigerator of claim 5, further comprising: a third expansion device that is coupled to a second outlet side of the valve device and that is configured to expand the refrigerant that bypasses the second heat exchanger. 7. The refrigerator of claim 6, wherein each of the first expansion device, the second expansion device, and the third expansion devices includes a respective capillary tube, and wherein a diameter of the capillary tube of the third expansion device is greater than a diameter of the capillary tube of the first expansion device or a diameter of the capillary tube of the second expansion device. 8. The refrigerator of claim 6, wherein the valve device includes a first valve including a first inlet, a first outlet, and a second outlet, and wherein the first valve is coupled to:a first flow channel that extends from the first outlet of the first valve and that is coupled to the first expansion device, the second expansion device, and the second heat exchanger; anda second flow channel that extends from the second outlet of the first valve and that is coupled to the third expansion device. 9. The refrigerator of claim 8, further comprising: a coupler that couples the first flow channel to the second flow channel,wherein the coupler is coupled to an inlet side of the second evaporator. 10. The refrigerator of claim 1, further comprising a second valve that includes a first inlet, a first outlet, a second outlet, and a third outlet, wherein the second valve is coupled to:a first flow channel that extends from the first outlet of the second valve to the first heat exchanger;a second flow channel that extends from the second outlet of the second valve to the second heat exchanger; anda third flow channel that extends from the third outlet of the second valve to the second evaporator. 11. The refrigerator of claim 10, further comprising: a refrigerating-compartment expansion device that is provided in the first flow channel and that is coupled to the first heat exchanger;a first expansion device that is provided in the second flow channel and that is coupled to the second heat exchanger; anda second expansion device that is provided in the second flow channel and that is coupled to the second heat exchanger. 12. The refrigerator of claim 11, further comprising: a third expansion device provided in the third flow channel. 13. A method of controlling a refrigerator including (i) a first compressor, a first condenser, a first heat exchanger, and a first evaporator for a refrigerating-compartment cycle and (ii) a second compressor, a second condenser, a second heat exchanger, a freezing-compartment expansion device, and a second evaporator for a freezing-compartment cycle, wherein the first heat exchanger is configured to cool the second heat exchanger, the method comprising: sensing a temperature of an indoor space of the refrigerator;sensing cooling capacity of the second compressor; andcontrolling an amount of a refrigerant provided to the second heat exchanger based on the temperature of the indoor space or the cooling capacity of the second compressor. 14. The method of claim 13, further comprising: determining that the cooling capacity of the second compressor satisfies a threshold cooling capacity;providing the refrigerant to the second heat exchanger based on the determination that the cooling capacity of the second compressor satisfies the threshold cooling capacity; andproviding the refrigerant to the second evaporator based on the determination that the cooling capacity of the second compressor satisfies the threshold cooling capacity. 15. The method of claim 14, further comprising: decompressing the refrigerant that is provided to the second heat exchanger; anddecompressing the refrigerant that is provided to the second evaporator. 16. The method of claim 15, further comprising: exchanging heat among (i) a suction pipe that extends from the second evaporator to the second compressor and (ii) one or more expansion devices of the freezing-compartment expansion device. 17. The method of claim 14, further comprising: providing the refrigerant into two different channels using a three-way valve. 18. A refrigerator comprising: a compressor configured to compress a refrigerant;a condenser configured to condense the refrigerant;a first evaporator that is configured to evaporate the refrigerant condensed by the condenser, the evaporated refrigerant being configured to cool a refrigerating compartment;a second evaporator that is configured to evaporate the refrigerant condensed by the condenser, the evaporated refrigerant being configured to cool a freezing compartment;a first heat exchanger coupled to the first evaporator;a refrigerating-compartment expansion device that is coupled to the first heat exchanger and that is configured to expand the refrigerant and provide the expanded refrigerant to the first heat exchanger;a second heat exchanger coupled to the second evaporator;a freezing-compartment expansion device that is coupled to the second heat exchanger and that is configured to expand the refrigerant and provide the expanded refrigerant to the second heat exchanger;a valve device that couples the condenser to the second heat exchanger and that is configured to control an amount of the refrigerant provided from the condenser to the second heat exchanger;a first expansion device that is coupled to a first outlet side of the valve device and that is configured to expand the refrigerant that is provided to the second heat exchanger;a second expansion device that is coupled to an outlet side of the second heat exchanger and that is configured to expand the refrigerant that is output from the second heat exchanger; anda third expansion device that is coupled to a second outlet side of the valve device and that is configured to expand the refrigerant that bypasses the second heat exchanger. 19. The refrigerator of claim 18, wherein each of the first expansion device, the second expansion device, and the third expansion devices includes a respective capillary tube, and wherein a diameter of the capillary tube of the third expansion device is greater than a diameter of the capillary tube of the first expansion device or a diameter of the capillary tube of the second expansion device. 20. The refrigerator of claim 18, wherein the valve device includes a first valve including a first inlet, a first outlet, and a second outlet, and wherein the first valve is coupled to: a first flow channel that extends from the first outlet of the first valve and that is coupled to the first expansion device, the second expansion device, and the second heat exchanger; anda second flow channel that extends from the second outlet of the first valve and that is coupled to the third expansion device. 21. The refrigerator of claim 20, further comprising: a coupler that couples the first flow channel to the second flow channel,wherein the coupler is coupled to an inlet side of the second evaporator. 22. A refrigerator comprising: a compressor configured to compress a refrigerant;a condenser configured to condense the refrigerant;a first evaporator that is configured to evaporate the refrigerant condensed by the condenser, the evaporated refrigerant being configured to cool a refrigerating compartment;a second evaporator that is configured to evaporate the refrigerant condensed by the condenser, the evaporated refrigerant being configured to cool a freezing compartment;a first heat exchanger coupled to the first evaporator;a refrigerating-compartment expansion device that is coupled to the first heat exchanger and that is configured to expand the refrigerant and provide the expanded refrigerant to the first heat exchanger;a second heat exchanger coupled to the second evaporator;a freezing-compartment expansion device that is coupled to the second heat exchanger and that is configured to expand the refrigerant and provide the expanded refrigerant to the second heat exchanger; anda valve that includes a first inlet, a first outlet, a second outlet, and a third outlet,wherein the compressor includes a first compressor, and a second compressor configured to draw second refrigerant of the refrigerant and compress the second refrigerant, andwherein the first compressor is configured to (i) draw first refrigerant of the refrigerant, the first refrigerant being evaporated by the first evaporator and (ii) compress the first refrigerant and the second refrigerant, andwherein the valve is coupled to: a first flow channel that extends from the first outlet of the valve to the first heat exchanger;a second flow channel that extends from the second outlet of the valve to the second heat exchanger; anda third flow channel that extends from the third outlet of the valve to the second evaporator. 23. The refrigerator of claim 22, further comprising: a refrigerating-compartment expansion device that is provided in the first flow channel and that is coupled to the first heat exchanger;a first expansion device that is provided in the second flow channel and that is coupled to the second heat exchanger; anda second expansion device that is provided in the second flow channel and that is coupled to the second heat exchanger. 24. The refrigerator of claim 23, further comprising: a third expansion device provided in the third flow channel.
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이 특허에 인용된 특허 (9)
Jaster Heinz (Schenectady NY) Bessler Warren F. (Schenectady NY), Apparatus for controlling a dual evaporator, dual fan refrigerator with independent temperature controls.
Cur Nihat O. (Royalton Township ; Berrien County MI) Kuehl Steven J. (Lincoln Township ; Berrien County MI) Sunshine Richard A. (City of Granger IN), Energy efficient insulation system for refrigerator/freezer.
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