Evaporator header liquid suction heat exchangers

What is claimed is: 1. An evaporator header comprising: a header body comprising one or more walls that define an inner cavity configured to receive a first flow of refrigerant from a plurality of evaporator flow paths; a liquid line portion extending through the inner cavity, the liquid line portion defining a liquid line flow path that is fluidly separated from the inner cavity and being configured to receive a second flow of refrigerant; a plurality of apertures extending through the one or more walls of the header body; and a plurality of flow path connectors, each of the plurality of flow path connectors being configured to facilitate at least some of the first flow of refrigerant from a corresponding evaporator flow path of the plurality of evaporator flow paths, into the inner cavity via a corresponding aperture of the plurality of apertures, and across at least some of the liquid line portion. 2. The evaporator header of claim 1 , wherein during operation, heat from the second flow of refrigerant superheats the first flow of refrigerant, thereby converting the first flow of refrigerant to a vapor state within the inner cavity. 3. The evaporator header of claim 1 further comprising: a liquid line inlet in fluid communication with a first end of the liquid line portion, the liquid line inlet being configured to connect to a first conduit in fluid communication with a condenser; and a liquid line outlet fluid communication with a second end of the liquid line portion, the liquid line outlet being configured to connect to a second conduit in fluid communication with an expansion valve. 4. The evaporator header of claim 3 , wherein: the liquid line inlet is located at a first end of the header body, the liquid line outlet is located at a second end of the header body, the second end being opposite the first end, and the plurality of apertures extend through a sidewall of the one or more walls, the sidewall extending between the first and second ends. 5. The evaporator header of claim 1 further comprising: a suction line outlet aperture configured to output the first flow of refrigerant toward a compressor. 6. The evaporator header of claim 5 further comprising: a suction line outlet connector in fluid communication with the suction line outlet aperture, the suction line outlet connector being configured to connect to a conduit in fluid communication with the compressor. 7. The evaporator header of claim 1 , wherein: a central axis of the liquid line portion is parallel to a central axis of the header body, and a central axis of each flow path connector of the plurality of flow path connectors extends in a generally radial direction with respect to the central axis of the header body. 8. The evaporator header of claim 7 , wherein the liquid line portion and the header body are generally coaxial. 9. The evaporator header of claim 1 , wherein each of the plurality of flow path connectors comprises an adaptor tube having a first end configured to connect to the corresponding evaporator flow path of the plurality of evaporator flow paths. 10. The evaporator header of claim 9 , wherein each adaptor tube further comprises a second end that extends into the inner cavity. 11. The evaporator header of claim 1 further comprising: a valve outlet aperture extending through the header body, the valve outlet aperture being configured to connect a service access valve to the header body. 12. The evaporator header of claim 1 further comprising: an equalizer line aperture extending through the header body, the equalizer line aperture being configured to connect mechanical expansion valve to the header body, thereby enabling superheat adjustment within the evaporator header. 13. An evaporator system comprising: evaporator coils; and an evaporator header comprising: a header body comprising one or more walls that define an inner cavity configured to receive a first flow of refrigerant from the evaporator coils; a liquid line portion extending through the inner cavity, the liquid line portion defining a liquid line flow path that is fluidly separated from the inner cavity and being configured to receive a second flow of refrigerant; a plurality of apertures extending through the one or more walls of the header body; and a plurality of flow path connectors, each of the plurality of flow path connectors being configured to facilitate at least some of the first flow of refrigerant from a corresponding one of the evaporator coils, into the inner cavity via a corresponding aperture of the plurality of apertures, and across at least some of the liquid line portion. 14. The evaporator system of claim 13 further comprises a single housing that includes the evaporator coils and the evaporator header. 15. The evaporator system of claim 13 , wherein the evaporator header further comprises: a liquid line inlet in fluid communication with a first end of the liquid line portion, the liquid line inlet being configured to connect to a first conduit in fluid communication with a condenser; and a liquid line outlet fluid communication with a second end of the liquid line portion, the liquid line outlet being configured to connect to a second conduit in fluid communication with an expansion valve. 16. The evaporator system of claim 15 , wherein: the liquid line inlet is located at a first end of the header body, the liquid line outlet is located at a second end of the header body, the second end being opposite the first end, and the plurality of apertures extend through a sidewall of the one or more walls, the sidewall extending between the first and second ends. 17. The evaporator system of claim 13 , wherein: a central axis of the liquid line portion is parallel to a central axis of the header body, and a central axis of each flow path connector of the plurality of flow path connectors extends in a generally radial direction with respect to the central axis of the header body. 18. The evaporator system of claim 13 , wherein each of the plurality of flow path connectors comprises an adaptor tube having a first end configured to connect to a corresponding one of the evaporator coils. 19. The evaporator system of claim 18 , wherein each adaptor tube further comprises a second end that extends into the inner cavity of the evaporator header. 20. The evaporator system of claim 13 , wherein the evaporator header further comprises: a suction line outlet connector configured to connect to a conduit in fluid communication with a compressor, thereby outputting the first flow of refrigerant toward the compressor.