Refrigeration – Automatic control – Refrigeration producer
Reexamination Certificate
2002-07-15
2004-01-06
Norman, Marc (Department: 3744)
Refrigeration
Automatic control
Refrigeration producer
C062S228300
Reexamination Certificate
active
06672090
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to refrigeration systems, compressor control systems and refrigerant regulating valve control systems. More particularly, the invention relates to liquid-side and vapor-side flow control strategies.
BACKGROUND OF THE INVENTION
Traditional refrigeration systems include a compressor, a condenser, an expansion valve, and an evaporator, all interconnected for establishing series fluid communication therebetween. Cooling is accomplished through evaporation of a liquid refrigerant under reduced temperature and pressure. Initially, vapor refrigerant is drawn into the compressor for compression therein. Compression of the vapor refrigerant results in a higher temperature and pressure thereof. From the compressor, the vapor refrigerant flows into the condenser. The condenser acts as a heat exchanger and is in heat exchange relationship with ambient. Heat is transferred from the vapor refrigerant to ambient, whereby the temperature is lowered. In this manner, a state change occurs, whereby the vapor refrigerant condenses to a liquid.
The liquid refrigerant exits an outlet of the condenser and flows into the expansion valve. As the liquid refrigerant flows through the expansion valve, its pressure is reduced prior to entering the evaporator. The evaporator acts as a heat exchanger, similar to the condenser, and is in heat exchange relationship with a cooled area (e.g., an interior of a refrigeration case). Heat is transferred from the cooled area to the liquid refrigerant, thereby increasing the temperature of the liquid refrigerant and resulting in boiling thereof. In this manner, a state change occurs, whereby the liquid refrigerant becomes a vapor. The vapor refrigerant then flows from the evaporators, back to the compressor.
The cooling capacity of the refrigeration system is generally achieved by varying the capacity of the compressor. One method of achieving capacity variation is continuously switching the compressor between on- and off-cycles using a pulse-width modulated signal. In this manner, a desired percent duty cycle for the compressor can be achieved. During the off-cycles, liquid refrigerant experiences “freewheel” flow, whereby the liquid refrigerant migrates into the evaporator. As the refrigerant migrates into the evaporator during the off-cycle, it is boiled therein, and becomes a vapor. This is detrimental to the performance of the refrigeration system in two ways: a significant reduction in the on-cycle evaporator temperature, and a decrease in flow recovery once switched back to the on-cycle.
Further, significant losses occur with traditional refrigeration systems when recently compressed vapor reverse migrates through the compressor, back toward the evaporator, during the off-cycle. These losses are compounded by reverse migration of liquid refrigerant back into the condenser during the off-cycle.
Therefore, it is desirable in the industry to provide a refrigeration system and flow control strategy for alleviating the deficiencies associated with traditional refrigeration systems. In particular, the refrigeration system should prohibit migration of liquid refrigerant into the evaporator during the off-cycle, prohibit reverse migration of vapor refrigerant through the compressor during the off-cycle, and prohibit reverse migration of liquid refrigerant through the condenser during the off-cycle.
SUMMARY OF THE INVENTION
Accordingly, the present invention provides a refrigeration system and control method thereof, for alleviating the deficiencies associated with traditional refrigeration systems. More particularly, the refrigeration system includes an evaporator, a variable capacity compressor coupled in fluid communication with the evaporator, a condenser coupled in fluid communication between the compressor and the evaporator, an expansion valve disposed intermediate the condenser and the evaporator, and an isolation valve disposed intermediate the condenser and the expansion valve. The isolation valve is in communication with the compressor for respectively synchronizing opening and closing thereof with on- and off-cycles of the compressor to prohibit migration of liquid refrigerant. In this manner, respective temperatures of the condenser and evaporator are better maintained during the off-cycle.
In accordance with an alternative embodiment, first and second check valves are respectively associated with the compressor and the condenser for prohibiting reverse migration of refrigerant during the off-cycle. In this manner, respective pressures of the refrigerant associated with the condenser and evaporator are decreased over a traditional refrigeration system.
The present invention further provides a method for controlling a refrigeration system having a compressor, a condenser and an evaporator connected in series flow communication. The method includes the steps of varying the compressor between on- and off-cycles to provide a percent duty cycle thereof, and synchronizing opening and closing of an isolation valve, respectively with the on- and off-cycles of the compressor, to prohibit migration of liquid refrigerant into the evaporator during the off-cycle.
In accordance with an alternative embodiment, the method further includes the steps of prohibiting reverse migration of the liquid refrigerant into the condenser, and prohibiting reverse migration of vapor refrigerant through the compressor, during the off-cycle.
Further areas of applicability of the present invention will become apparent from the detailed description provided hereinafter. It should be understood that the detailed description and specific examples, while indicating the preferred embodiment of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.
REFERENCES:
patent: 6047557 (2000-04-01), Pham et al.
patent: 6213731 (2001-04-01), Doepker et al.
patent: 6499305 (2002-12-01), Pham et al.
Healy John Joseph
Ng Mark Lai Yuen
Pham Hung M.
Wu Man Wai
Copeland Corporation
Harness & Dickey & Pierce P.L.C.
Norman Marc
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