Carbonated ice maker and refrigerator including the same

What is claimed is: 1 . A refrigerator comprising: a cabinet that defines a refrigerating compartment and a freezing compartment; and an ice maker located at the freezing compartment and configured to generate carbonated ice, the ice maker comprising: a reservoir configured to store carbonated water that includes dissolved gas, a water line connected to the reservoir and configured to supply non-carbonated water to the reservoir, a gas line connected to the reservoir and configured to, based on the reservoir receiving the non-carbonated water, supply pressurized gas to the reservoir to thereby produce the carbonated water that is stored in the reservoir, a heating element configured to heat the reservoir to a temperature above freezing, and an ice tray configured to receive the carbonated water from the reservoir and to generate the carbonated ice. 2 . The refrigerator of claim 1 , wherein the pressurized gas comprises carbon dioxide. 3 . The refrigerator of claim 1 , wherein the ice maker further comprises: a reservoir housing that defines a reservoir groove configured to accommodate the reservoir and a cartridge groove configured to accommodate a gas cartridge that includes the pressurized gas. 4 . The refrigerator of claim 3 , wherein the ice maker further comprises: a feed line that is connected to the reservoir housing and extends to the ice tray, the feed line being configured to supply the carbonated water to the ice tray, and wherein the heating element is spaced apart from the feed line and configured to provide heat to the feed line. 5 . The refrigerator of claim 4 , wherein the heating element comprises a heating pad that is attached to an outer surface of the reservoir, the heating pad facing a wall of the reservoir housing that faces the ice tray, and wherein at least a portion of the feed line is disposed inside the reservoir housing and extends along the wall and the heating pad. 6 . The refrigerator of claim 4 , wherein the reservoir comprises a vent port configured to discharge undissolved gas from the reservoir. 7 . The refrigerator of claim 6 , further comprising: a valve assembly disposed at the reservoir housing and configured to control (i) supply of the non-carbonated water to the reservoir through the water line, (ii) supply of the pressurized gas to the reservoir through the gas line, (iii) supply of the carbonated water to the ice tray through the feed line, and (iv) discharge of the undissolved gas from the reservoir. 8 . The refrigerator of claim 7 , wherein the vent port is inserted into the valve assembly, and wherein the valve assembly comprises: a reservoir fill valve connected to the water line, a gas dispense valve connected to the gas cartridge and the gas line and configured to open the gas cartridge or the gas line based on the reservoir receiving the non-carbonated water and the temperature of the reservoir being greater than or equal to a threshold temperature, a reservoir vent valve connected to the vent port and configured to open the vent port to release the undissolved gas in the reservoir, and a tray fill valve connected to the feed line and configured to open the feed line based on a pressure of the undissolved gas discharged from the reservoir through the vent port. 9 . The refrigerator of claim 3 , wherein the reservoir groove of the reservoir housing is recessed downward relative to an upper surface the reservoir housing facing a ceiling of the freezing compartment, wherein the reservoir groove is an insulated space that is defined between the ceiling of the freezing compartment and the reservoir housing, the insulated space being surrounded by the reservoir housing, and wherein the heating element is configured to provide heat to the insulated space. 10 . The refrigerator of claim 9 , wherein the cartridge groove is recessed upward relative to a lower surface the reservoir housing that is spaced apart from the ceiling of the freezing compartment, and wherein the reservoir housing is configured to accommodate an upper portion of the gas cartridge in a state in which a lower portion of the gas cartridge is exposed to the freezing compartment. 11 . The refrigerator of claim 1 , wherein the ice tray defines a plurality of ice cells configured to receive the carbonated water and to form the carbonated ice in a cylindrical shape. 12 . The refrigerator of claim 11 , wherein the ice tray is made of silicone. 13 . The refrigerator of claim 11 , wherein the ice maker further comprises an ejector panel that extends downward relative to a bottom surface of the ice tray, the ejector panel comprising a plurality of pins that extend toward the reservoir, wherein the ice tray is configured to rotate toward the ejector panel, and wherein the plurality of pins are configured to push the bottom surface of the ice tray based on the ice tray rotating toward the ejector panel to thereby release the carbonated ice from the ice tray. 14 . The refrigerator of claim 11 , wherein a volume of the reservoir corresponds to a volume of the plurality of ice cells. 15 . The refrigerator of claim 3 , wherein the reservoir housing extends in a direction toward a rear surface of the cabinet and is configured to receive the gas cartridge in the direction toward the rear surface of the cabinet, the reservoir housing being configured to hold the gas cartridge in a state in which a front end of the gas cartridge protrudes outside the reservoir housing toward a door of the freezing compartment. 16 . The refrigerator of claim 1 , wherein a carbonation ratio of a gas weight of the dissolved gas with respect to a liquid volume of the carbonated water stored in the reservoir is greater than or equal to 2.5 g/L. 17 . The refrigerator of claim 16 , wherein the heating element is configured to control an amount of heat supplied to the reservoir to control the carbonation ratio by maintaining a temperature of the reservoir to be greater than a freezing temperature of the carbonated water. 18 . The refrigerator of claim 3 , wherein the reservoir housing defines an upper opening that faces a ceiling of the freezing compartment, and wherein at least a portion of the heating element is exposed to the upper opening and faces the ceiling of the freezing compartment. 19 . The refrigerator of claim 18 , wherein the reservoir housing further defines a front opening configured to receive the reservoir, and wherein the ice maker further comprises a front cover configured to cover a front side of the reservoir that is received in the reservoir housing. 20 . The refrigerator of claim 19 , wherein the front cover is configured to be positioned rearward relative to a front end of the gas cartridge.