High efficiency refrigerator

The invention claimed is: 1. A cooling system for use within a refrigerator or freezer appliance, the cooling system comprising; a primary cooling loop; a compressor for a refrigerant; a condenser coupled to said compressor; a first evaporator coupled to said condenser; a secondary cooling loop comprising; a bypass valve between the condenser and the first evaporator; a container for holding a liquid thermal mass disposed within a cabinet; a sub-cooler thermally coupled between the bypass valve and the condenser; a second evaporator in communication with the bypass valve and the container; a secondary heat exchanger in thermal communication with said second evaporator; conduits coupling said container in fluid communication with said secondary heat exchanger for the transmission of said liquid thermal mass; a pump coupled to said conduits for circulating said liquid thermal mass from said container to said secondary heat exchanger; and a multi-way valve in communication with the secondary heat exchanger, the pump and the sub-cooler; wherein in one position of the multi-way valve a first circuit is created between the secondary heat exchanger and the container, and in a second position of the multi-way valve a second circuit is created between the container and the sub-cooler; and wherein the container is in direct communication with the sub-cooler through the pump and the multi-way valve. 2. The primary cooling system as defined in claim 1 wherein the multi-way valve, in a third position permits fluid flow through both the first and second circuits at the same time. 3. The primary cooling system as defined in claim 2 wherein said compressor is a linear compressor. 4. The primary cooling system as defined in claim 3 wherein said second evaporator is positioned in a refrigerator compartment of a refrigerator/freezer. 5. The primary cooling system as defined in claim 4 wherein said secondary heat exchanger comprises coils surrounding said second evaporator and coupled to said conduits. 6. The primary cooling system as defined in claim 1 wherein said thermal mass comprises one of water, a water-alcohol mixture, brine, and a Dynalene® heat transfer fluid. 7. A cooling system comprising; a primary cooling loop system comprising; a compressor for a refrigerant; a condenser coupled to said compressor; a first evaporator; a bypass valve coupled between said first evaporator and said condenser; and a secondary cooling system comprising; a sub-cooler thermally coupled between said condenser and said bypass valve; a second evaporator coupled to said bypass valve; a container configured to hold a liquid thermal mass disposed within a cabinet; a secondary heat exchanger in thermal communication with said second evaporator; conduits for coupling said container in fluid communication with said secondary heat exchanger and said sub-cooler for the transmission of said liquid thermal mass; a pump coupled to said conduits for circulating said liquid thermal mass from said container to said sub-cooler and said secondary heat exchanger when said bypass valve is in a position to circulate refrigerant to said second evaporator; and a multi-way valve in communication with the secondary heat exchanger, the pump and the sub-cooler; wherein in one position of the multi-way valve a first circuit is created between the secondary heat exchanger and the container and in a second position of the multi-way valve a second circuit is created between container and the sub-cooler; and wherein the container is in direct communication with the sub-cooler through the pump and the multi-way valve. 8. The primary cooling system as defined in claim 7 wherein said compressor is a linear compressor. 9. The primary cooling system as defined in claim 8 wherein said first evaporator is positioned in a freezer compartment of a refrigerator/freezer and second evaporator is positioned in a refrigerator compartment of a refrigerator/freezer. 10. The primary cooling system as defined in claim 9 wherein said secondary heat exchanger comprises coils surrounding said second evaporator and coupled to said conduits. 11. The primary cooling system as defined in claim 10 wherein said conduits form parallel flow paths including said thermal mass including said container, said secondary heat exchanger, and said sub-cooler; and wherein the multi-way valve permits simultaneous fluid flow through both the first and second circuits. 12. A cooling system for a refrigerator comprising: a linear compressor for a refrigerant; a condenser coupled to said compressor; first evaporator coupled to said condenser; a bypass valve coupled between said first evaporator and said condenser; a sub-cooler thermally coupled between said condenser and said bypass valve; a container for holding a liquid thermal mass disposed within a cabinet; a secondary heat exchanger in thermal communication with said first evaporator; a second evaporator in fluid communication with the bypass valve; conduits for coupling said container in fluid communication with said secondary heat exchanger for the transmission of said liquid thermal mass, wherein said conduits form parallel flow paths including said thermal mass including said container, said secondary heat exchanger, and said sub-cooler; a pump coupled to said conduits for circulating said liquid thermal mass from said container to said secondary heat exchanger; and a multi-way valve in communication with the secondary heat exchanger, the pump and the sub-cooler; wherein in one position of the multi-way valve a first circuit is created between the secondary heat exchanger and the container and in a second position of the multi-way valve a second circuit is created between the container and the sub-cooler; and wherein the container is in direct communication with the sub-cooler through the pump and the multi-way valve. 13. The cooling system as defined in claim 12 , wherein the multi-way valve in a third position permits fluid flow through both the first and second circuits at the same time. 14. The cooling system as defined in claim 13 wherein said second evaporator is positioned in a refrigerator compartment of a refrigerator/freezer and said secondary heat exchanger comprises coils surrounding said second evaporator and coupled to said conduits.