Refrigerator

What is claimed is: 1. A refrigerator comprising: a main body defining a storage space; a cryogenic compartment defining an insulation space configured to maintain a compartment temperature independent of a temperature in the storage space; an evaporator located inside of the storage space and configured to cool the storage space, the evaporator comprising an evaporator input tube and an evaporator output tube; a thermoelectric module assembly that is located at a side of the evaporator adjacent to distal ends of the evaporator input tube and the evaporator output tube, that is located at the cryogenic compartment, and that is configured to cool the cryogenic compartment to the compartment temperature that is less than the temperature of the storage space; and a tube assembly that is disposed on a rear wall of the main body and that connects the thermoelectric module assembly and the evaporator to each other, wherein the thermoelectric module assembly comprises: a thermoelectric module that has a plate shape, the thermoelectric module comprising a heat absorption surface and a heat generation surface, a cold sink located in the cryogenic compartment and configured to contact the heat absorption surface of the thermoelectric module, a heat sink that is in contact with the heat generation surface of the thermoelectric module, a refrigerant inflow tube that is connected to the heat sink, that is bent in a direction toward the evaporator input tube and the evaporator output tube, and that is configured to receive refrigerant to cool the heat sink, the refrigerant inflow tube being configured to supply the refrigerant to the evaporator through the heat sink, and a refrigerant outflow tube that is connected to the heat sink, that is bent in the direction toward the evaporator input tube and the evaporator output tube, and that is configured to discharge the refrigerant to the evaporator input tube, and wherein the tube assembly comprises: a compressor connection part connected to a compressor, a capillary tube connected to the refrigerant inflow tube and configured to supply the refrigerant to the evaporator input tube through the heat sink, and an output connection part connected to the evaporator output tube. 2. The refrigerator according to claim 1 , further comprising a refrigerant flow path that connects the evaporator to an expansion device configured to constitute a portion of a refrigeration cycle with the evaporator, the expansion device comprising a capillary tube, wherein the heat sink is located in the refrigerant flow path. 3. The refrigerator according to claim 1 , wherein the heat sink defines an inflow hole configured to receive the refrigerant inflow tube, and an outflow hole configured to receive the refrigerant outflow tube, and wherein each of the inflow hole and the outflow hole comprises a seating part that extends radially outward and that is configured to receive a welding ring configured to bulge. 4. The refrigerator according to claim 1 , wherein the heat sink comprises: a sink body comprising an accommodation part that defines a refrigerant space configured to allow flow of refrigerant; a cover plate that covers an open surface of the sink body and that is configured to contact the heat generation surface; and a heat exchange fin located inside the accommodation part and configured to guide flow of refrigerant. 5. The refrigerator according to claim 4 , wherein the accommodation part penetrates the sink body, and includes a front open surface and a rear open surface, and wherein the cover plate comprises: a front plate that covers the front open surface of the accommodation part and that is configured to contact the heat generation surface, and a rear plate that covers the rear open surface of the accommodation part. 6. The refrigerator according to claim 4 , wherein the accommodation part comprises a recess that is recessed from a front surface of the sink body and that defines a front open surface of the accommodation part, and wherein the cover plate covers the front open surface of the accommodation part. 7. The refrigerator according to claim 4 , wherein the cover plate comprises a restriction part that is located at an outer end of the cover plate and that is bent toward the sink body, and wherein the sink body comprises a restriction groove that is defined in a circumference of the sink body and that is configured to receive the restriction part based on the cover plate coupling to the sink body. 8. The refrigerator according to claim 4 , wherein the accommodation part comprises a barrier that partitions an interior of the accommodation part into a first space to which refrigerant is introduced, and a second space from which refrigerant is discharged, and wherein the heat exchange fin is located in each of the first space and the second space. 9. The refrigerator according to claim 4 , wherein the accommodation part comprises a fin fixing part configured to fix the heat exchange fin at a position that is spaced apart from an inner surface of the accommodation part. 10. The refrigerator according to claim 4 , wherein the heat exchange fin has a plate shape that includes a plurality of bent portions, and defines a passage configured to guide the flow of refrigerant. 11. The refrigerator according to claim 10 , wherein the heat exchange fin comprises: a plurality of contact parts configured to contact the cover plate and to exchange heat with a surface of the cover plate; and a fin connection part that is bent from an end of each of the plurality of contact parts and that connects the plurality of contact parts to each other, and wherein the plurality of contact parts and the fin connection part are arranged in a width direction of the heat exchange fin. 12. The refrigerator according to claim 10 , wherein the heat exchange fin comprises: a first passage that extends in a longitudinal direction of the heat exchange fin and that allows flow of refrigerant in the longitudinal direction; and a second passage that is offset from the first passage in a width direction transverse to the longitudinal direction, that overlaps with at least a portion of the first passage, and that allows flow of refrigerant to be branched from the first passage, and wherein the first passage and the second passage are arranged in the longitudinal direction of the heat exchange fin. 13. The refrigerator according to claim 12 , wherein the first passage includes a plurality of first passages arranged in the longitudinal direction, and wherein the second passage includes a plurality of second passages that are alternately disposed with the plurality of first passages along the longitudinal direction, and wherein lengths of the plurality of first passages are different from lengths of the plurality of second passages. 14. The refrigerator according to claim 1 , wherein the cryogenic compartment is configured to be located inside of the storage space. 15. The refrigerator according to claim 14 , further comprising a grille panel assembly that is located in the storage space at a front side of the evaporator and that covers at least a portion of the evaporator, wherein the thermoelectric module assembly is configured to couple to the grille panel assembly, and wherein the cold sink is configured to face toward the cryogenic compartment, and the heat sink is configured to face toward the evaporator based on the thermoelectric module assembly coupling to the grille panel assembly. 16. The refrigerator according to claim 15 , wherein the thermoelectr