A refrigerator and a control method for the same are disclosed. Precise temperature control for plural cooling compartments can be achieved so that the cooling compartments can be respectively cooled down in various temperature zones, the temperature in the cooling compartments can be efficiently co
A refrigerator and a control method for the same are disclosed. Precise temperature control for plural cooling compartments can be achieved so that the cooling compartments can be respectively cooled down in various temperature zones, the temperature in the cooling compartments can be efficiently controlled, and a refrigerant does not remain in the system. Accordingly, the overall performance of the system is enhanced.
대표청구항▼
1. A control method for a refrigerator, the control method comprising: sensing a temperature in each of a plurality of cooling compartments;determining an operating mode by determining whether the temperature in each of the plurality of cooling compartments is within a respective preset temperature
1. A control method for a refrigerator, the control method comprising: sensing a temperature in each of a plurality of cooling compartments;determining an operating mode by determining whether the temperature in each of the plurality of cooling compartments is within a respective preset temperature zone; andcontrolling a refrigeration cycle device according to the determined operating mode to make the temperature in each of the plurality of cooling compartments within the respective preset temperature zone, wherein the plurality of cooling compartments includes a first refrigerating compartment, a second refrigerating compartment and a freezing compartment, wherein a first cold air generator includes a first refrigerant passage, a first evaporator mounted along the first refrigerant passage and a first fan, which are mounted in the first refrigerating compartment, a first expansion device, and a second evaporator mounted along the first refrigerant passage and a second fan, which are mounted in the second refrigerating compartment, wherein a second cold air generator includes a second refrigerant passage, a third evaporator mounted along the second refrigerant passage and a third fan, which are mounted in the freezing compartment, and a second expansion device, and a connecting device that connects the second refrigerant passage and the first refrigerant passage selectively so that the refrigerant can flow selectively therethrough, thereby decreasing a pressure difference between the refrigerant flowing through the first evaporator and the refrigerant flowing through the second refrigerant passage and controlling a degree of superheat of the refrigerant passing through the first evaporator, wherein the first expansion device has a length shorter than a length of the second expansion device, wherein the connecting device comprises a connecting pipe that connects a downstream side of the second evaporator along the first refrigerant passage and an upstream side of the third evaporator along the second refrigerant passage, and a control valve mounted in the connecting pipe that controls a flow of the refrigerant, and wherein the controlling of the refrigeration cycle device comprises flowing a refrigerant through the first and second expansion devices to cool down the plurality of cooling compartments, respectively. 2. The control method according to claim 1, wherein when a first operating mode for cooling down the first refrigerating compartment, the second refrigerating compartment, and the freezing compartment is determined in the determining the operating mode, the controlling the refrigeration cycle device includes: operating a compressor;fully opening a distribution device; andoperating the first fan, the second fan, and the third fan. 3. The control method according to claim 1, wherein when a second operating mode for cooling down the first refrigerating compartment and the freezing compartment is determined in the determining the operating mode, the controlling the refrigeration cycle device includes: operating a compressor;fully opening a distribution device; andoperating the first fan and the third fan and stopping operation of the second fan. 4. The control method according to claim 1, wherein when a third operating mode for cooling down the second refrigerating compartment and the freezing compartment is determined in the determining the operating mode, the controlling the refrigeration cycle device includes: operating a compressor;fully opening a distribution device; andoperating the second fan and the third fan and stopping operation of the first fan. 5. The control method according to claim 1, wherein when a fourth operating mode for cooling down the freezing compartment is determined in the determining the operating mode, the controlling the refrigeration cycle device includes: operating a compressor;opening an F side of a distribution device and closing an R side of the distribution device; andoperating the third fan and stopping operation of the first fan and the second fan. 6. The control method according to claim 1, wherein when a fifth operating mode for cooling down the first refrigerating compartment and the second refrigerating compartment is determined in the determining the operating mode, the controlling the refrigeration cycle device includes: operating a compressor;closing an F side of a distribution device and opening an R side of the distribution device; andoperating the first fan and the second fan and stopping operation of the third fan. 7. The control method according to claim 1, wherein when a sixth operating mode for cooling down the first refrigerating compartment is determined in the determining the operating mode, the controlling the refrigeration cycle device includes: operating a compressor;closing an F side of a distribution device and opening an R side of the distribution device; andoperating the first fan and stopping operation of the second fan and the third fan. 8. The control method according to claim 1, wherein when a seventh operating mode for cooling down the second refrigerating compartment is determined in the determining the operating mode, the controlling the refrigeration cycle device includes: operating a compressor;closing an F side of a distribution device and opening an R side of the distribution device; andoperating the second fan and stopping operation of the first fan and the third fan. 9. The control method according to claim 1, wherein when it is determined that the temperature in the first refrigerating compartment, the second refrigerating compartment, and the freezing compartment is equal to or less than a maximum value in each respective preset temperature zone, and an eighth operating mode is determined in the determining the operating mode, the controlling the refrigeration cycle device includes stopping operation of a compressor, the first fan, the second fan, and the third fan. 10. The control method according to claim 9, further comprising: determining whether at least one of the first refrigerating compartment or the second refrigerating compartment is subcooled and the temperature in the subcooled cooling compartment is lower than a minimum value in the respective preset temperature zone; andwhen it is determined that at least one of the first refrigerating compartment or the second refrigerating compartment is subcooled, operating one of the respective first fan or the second fan in the subcooled cooling compartment while stopping operation of the compressor until the temperature in the subcooled cooling compartment is within the preset temperature zone. 11. The control method according to claim 9, further comprising: determining whether at least one of the first refrigerating compartment or the second refrigerating compartment is subcooled and the temperature in the subcooled cooling compartment is lower than a minimum value in the respective preset temperature zone; andwhen it is determined that at least one of the first refrigerating compartment or the second refrigerating compartment is subcooled, operating one of the respective first fan or the second fan in the subcooled cooling compartment for a preset time while stopping operation of the compressor. 12. The control method according to claim 2, further comprising: opening the control valve to connect the first and second evaporators and the third evaporator in a series form, through which the refrigerant flows, wherein a pressure difference between the first and second evaporators and the third evaporator is removed such that the refrigerant returns into the compressor. 13. The control method according to claim 3, further comprising: when the temperature in the first refrigerating compartment, the second refrigerating compartment, and the freezing compartment is within each respective preset temperature zone as a result of the second operating mode, collecting a residual refrigerant in the refrigeration cycle device by operating the compressor for a preset time while stopping operation of the first fan, the second fan, and the third fan, and fully closing the distribution device. 14. The control method according to claim 4, further comprising: when the temperature in the first refrigerating compartment, the second refrigerating compartment, and the freezing compartment is within each respective preset temperature zone as a result of the third operating mode, collecting a residual refrigerant in the refrigeration cycle device by operating the compressor for a preset time while stopping operation of the first fan, the second fan, and the third fan, and fully closing the distribution device. 15. The control method according to claim 6, further comprising: when the temperature in the first refrigerating compartment, the second refrigerating compartment, and the freezing compartment is within each respective preset temperature zone as a result of the fifth operating mode, collecting a residual refrigerant in the refrigeration cycle device by operating the compressor for a preset time while stopping operation of the first fan, the second fan, and the third fan, and fully closing the distribution device. 16. The control method according to claim 7, further comprising: when the temperature in the first refrigerating compartment, the second refrigerating compartment, and the freezing compartment is within each respective preset temperature zone as a result of the sixth operating mode, collecting a residual refrigerant in the refrigeration cycle device by operating the compressor for a preset time while stopping operation of the first fan, the second fan, and the third fan, and fully closing the distribution device. 17. The control method according to claim 8, further comprising: when the temperature in the first refrigerating compartment, the second refrigerating compartment, and the freezing compartment is within each respective preset temperature zone as a result of the seventh operating mode, collecting a residual refrigerant in the refrigeration cycle device by operating the compressor for a preset time while stopping operation of the first fan, the second fan, and the third fan, and fully closing the distribution device. 18. A refrigerator, comprising: a main body provided with a plurality of cooling compartments;a compressor that compresses a refrigerant and discharges the refrigerant;a condenser that condenses the refrigerant discharged from the compressor;a distribution device that distributes the refrigerant condensed by the condenser;a first cold air generator that includes a plurality of evaporators connected to each other in a series that generates cold air in a part of the plurality of cooling compartments through the refrigerant distributed to a first refrigerant passage from the distribution device, and a plurality of fans that blows the cold air generated from the respective plurality of evaporators;a second cold air generator that includes at least one evaporator connected to the first cold air generator in parallel that generates cold air in the other part of the plurality of cooling compartments through the refrigerant distributed to a second refrigerant passage from the distribution device, at least one fan that blows the cold air generated from the at least one evaporator, and a connecting device that connects the second refrigerant passage and the first refrigerant passage selectively so that the refrigerant flows selectively therethrough, thereby decreasing a pressure difference between the refrigerant flowing through a first evaporator of the plurality of evaporators and the refrigerant flowing through the second refrigerant passage and controlling a degree of superheat of the refrigerant passing through the first evaporator;a sensor that senses a temperature in each of the plurality of cooling compartments; anda controller that controls a temperature in each of the plurality of cooling compartments according to the temperature sensed by the sensor, wherein the connecting device comprises a connecting pipe that connects a downstream side of the second evaporator in the first refrigerant passage and an upstream side of the at least one evaporator in the second refrigerant passage, and a control valve mounted in the connecting pipe that controls a flow of the refrigerant. 19. The refrigerator according to claim 18, wherein the plurality of cooling compartments includes a first refrigerating compartment, a second refrigerating compartment, and a freezing compartment, wherein the first cold air generator includes a first evaporator and a first fan, which are mounted in the first refrigerating compartment, and a second evaporator and a second fan, which are mounted in the second refrigerating compartment, and wherein the second cold air generator includes a third evaporator and a third fan, which are mounted in the freezing compartment.
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