Gas sensing system for an air conditioner unit

What is claimed is: 1. An air conditioner unit defining a vertical, a lateral, and a transverse direction, the air conditioner unit comprising: a cabinet; a bulkhead positioned within the cabinet and defining an indoor portion and an outdoor portion; a refrigeration loop comprising an outdoor heat exchanger positioned within the outdoor portion and an indoor heat exchanger positioned within the indoor portion; a compressor operably coupled to the refrigeration loop and being configured for urging a flow of refrigerant through the outdoor heat exchanger and the indoor heat exchanger; a housing positioned within the indoor portion and defining a sensor enclosure, the housing comprising a plurality of vent apertures to allow leaked refrigerant to pass into the sensor enclosure, wherein the sensor enclosure is defined at least in part by the bulkhead, and wherein the plurality of vent apertures comprise bulkhead apertures defined through the bulkhead to provide fluid communication between the outdoor portion and the sensor enclosure; and a gas sensor positioned within the sensor enclosure for measuring a gas concentration of the leaked refrigerant within the sensor enclosure. 2. The air conditioner appliance of claim 1 , wherein the bulkhead apertures define a total flow area, and wherein the total flow area is between about 0.5 and 1.5 square inches. 3. The air conditioner of claim 2 , wherein the total flow area is about 1 square inch. 4. The air conditioner unit of claim 1 , wherein the sensor enclosure is defined at least in part by an end wall that defines a heat exchanger housing for containing the indoor heat exchanger, wherein the plurality of vent apertures comprise indoor apertures defined through the end wall to provide fluid communication between the heat exchanger housing and the sensor enclosure. 5. The air conditioner unit of claim 1 , wherein the housing comprises a plurality of walls, and wherein at least one of the plurality of walls comprises two of the plurality of vent apertures. 6. The air conditioner unit of claim 1 , further comprising: a plurality of filters, wherein each of the plurality of vent apertures is covered by at least one of the plurality of filters. 7. The air conditioner unit of claim 6 , wherein each of the plurality of filters has a Minimum Efficiency Reporting Value (MERV) rating of at least 4. 8. The air conditioner unit of claim 1 , further comprising a controller operably coupled to the compressor and the gas sensor, wherein the controller is configured for: measuring the gas concentration of the leaked refrigerant within the sensor enclosure using the gas sensor; determining that a gas leak has occurred when the gas concentration exceeds a predetermined threshold; and implementing corrective action when the gas leak is detected. 9. The air conditioner unit of claim 8 , wherein implementing corrective action comprises stopping operation of the compressor. 10. The air conditioner unit of claim 8 , wherein determining that the gas leak has occurred comprises: obtaining an average gas concentration percentage over a predetermined test period; and determining that the average gas concentration percentage exceeds a predetermined threshold. 11. The air conditioner unit of claim 8 , wherein the controller is positioned within the sensor enclosure. 12. The air conditioner unit of claim 1 , wherein the refrigerant is R-32 gas. 13. The air conditioner unit of claim 1 , wherein the housing is formed from an electrically insulating material. 14. A gas sensing system for an air conditioner unit, the air conditioner unit comprising a bulkhead positioned within a cabinet and defining an indoor portion and an outdoor portion, and a sealed system comprising a compressor for circulating refrigerant, the gas sensing system comprising: a housing positioned within the indoor portion and defining a sensor enclosure, the housing comprising a plurality of vent apertures to allow leaked refrigerant to pass into the sensor enclosure, wherein the sensor enclosure is defined at least in part by the bulkhead, and wherein the plurality of vent apertures comprise bulkhead apertures defined through the bulkhead to provide fluid communication between the outdoor portion and the sensor enclosure; and a gas sensor positioned within the sensor enclosure for measuring a gas concentration of the leaked refrigerant within the sensor enclosure. 15. The gas sensing system of claim 14 , wherein the sensor enclosure is defined at least in part by an end wall that defines a heat exchanger housing for containing the indoor heat exchanger, wherein the plurality of vent apertures comprise indoor apertures defined through the end wall to provide fluid communication between the heat exchanger housing and the sensor enclosure. 16. The gas sensing system of claim 14 , further comprising: a plurality of filters, wherein each of the plurality of vent apertures is covered by at least one of the plurality of filters. 17. The gas sensing system of claim 14 , further comprising a controller operably coupled to the sealed system, wherein the controller is configured for: measuring the gas concentration of the leaked refrigerant within the sensor enclosure using the gas sensor; determining that a gas leak has occurred when the gas concentration exceeds a predetermined threshold; and implementing corrective action when the gas leak is detected. 18. The gas sensing system of claim 17 , wherein implementing corrective action comprises stopping operation of the compressor. 19. An air conditioner unit defining a vertical, a lateral, and a transverse direction, the air conditioner unit comprising: a cabinet; a bulkhead positioned within the cabinet and defining an indoor portion and an outdoor portion; a refrigeration loop comprising an outdoor heat exchanger positioned within the outdoor portion and an indoor heat exchanger positioned within the indoor portion; a compressor operably coupled to the refrigeration loop and being configured for urging a flow of refrigerant through the outdoor heat exchanger and the indoor heat exchanger; a housing positioned within the indoor portion and defining a sensor enclosure, the housing comprising a plurality of vent apertures to allow leaked refrigerant to pass into the sensor enclosure, wherein the sensor enclosure is defined at least in part by an end wall that defines a heat exchanger housing for containing the indoor heat exchanger, wherein the plurality of vent apertures comprise indoor apertures defined through the end wall to provide fluid communication between the heat exchanger housing and the sensor enclosure; and a gas sensor positioned within the sensor enclosure for measuring a gas concentration of the leaked refrigerant within the sensor enclosure. 20. The air conditioner unit of claim 19 , wherein the sensor enclosure is defined at least in part by the bulkhead, and wherein the plurality of vent apertures comprise bulkhead apertures defined through the bulkhead to provide fluid communication between the outdoor portion and the sensor enclosure.