Bracket for fixing temperature sensor, heat exchanger including the bracket, and water heating apparatus using the heat exchanger for freeze protection

What is claimed is: 1. A heat exchanger comprising: a plurality of tubes through which heating water flows; a housing having an interior space in which the plurality of tubes are disposed and through which a combustion gas passes, the housing including a plurality of flow passage caps connected with distal ends of the plurality of tubes to cause the heating water to flow through the flow passage caps; a temperature sensor brought into close contact with an area between two flow passage caps adjacent to each other among the plurality of flow passage caps to obtain a temperature; and a bracket coupled to the housing to bring the temperature sensor into close contact with the area between the adjacent two flow passage caps, wherein the bracket includes: a coupling part coupled to the housing; a body extending from the coupling part toward a lower direction to bring the temperature sensor into close contact with the area between the flow passage caps of the housing; and a stopper extending from a lower end of the body toward the housing to hinder the temperature sensor from escaping in the lower direction. 2. The heat exchanger of claim 1 , wherein the body extends in a bent structure from the coupling part toward the housing and the lower direction to bring the temperature sensor into close contact with the area between the flow passage caps of the housing. 3. The heat exchanger of claim 2 , wherein the body includes: a first body piece extending downward from the coupling part; a second body piece extending from the first body piece in a downwardly inclined direction toward the housing; and a third body piece extending downward from the second body piece to cover the area between the flow passage caps when the coupling part is coupled to the housing. 4. The heat exchanger of claim 3 , wherein the second body piece has a trapezoidal shape having a gradually decreasing width toward the lower direction. 5. The heat exchanger of claim 3 , wherein the third body piece has a shape downwardly inclined toward the housing to press the temperature sensor toward the housing and bring the temperature sensor into close contact with the housing. 6. The heat exchanger of claim 2 , further comprising: protrusions formed on borders between portions constituting the body to reinforce the body. 7. The heat exchanger of claim 2 , further comprising: a wire hole formed in the body, wherein a wire connected to the temperature sensor passes through the wire hole. 8. The heat exchanger of claim 7 , wherein the body include a first body piece extending downward from the coupling part, and wherein the wire hole is formed in the first body piece. 9. The heat exchanger of claim 1 , wherein the housing includes an odd number of flow passage caps arranged on one side surface thereof along a left/right direction, and wherein the temperature sensor is disposed between a flow passage cap located in the center among the odd number of flow passage caps and a flow passage cap adjacent to the flow passage cap located in the center. 10. A bracket for bringing a temperature sensor into close contact with a housing such that the temperature sensor obtains temperature of the housing configured to surround an interior space of a heat exchanger, the bracket comprising: a coupling part coupled to the housing; a body extending in a bent structure from the coupling part toward an area between flow passage caps to bring the temperature sensor into close contact with the area between the flow passage caps of the housing; and a stopper extending from a lower end of the body toward the housing to hinder the temperature sensor from escaping in the lower direction. 11. A water heating apparatus comprising: a burner configured to cause a combustion reaction; a heat exchanger including tubes through which heating water flows, an interior space in which a combustion gas generated by the combustion reaction exchanges heat with the tubes, and a plurality of flow passage caps connected with distal ends of the tubes to cause the heating water to flow through the flow passage caps; a temperature sensor brought into close contact with an area between two flow passage caps adjacent to each other among the plurality of flow passage caps to obtain a temperature; a bracket coupled to the heat exchanger to bring the temperature sensor into close contact with the heat exchanger; and a processor electrically connected with the temperature sensor and the burner and configured to perform control such that the burner operates when the temperature obtained by the temperature sensor is lower than or equal to a predetermined freezing temperature, wherein the bracket includes: a coupling part coupled to the housing; a body extending from the coupling part toward a lower direction to bring the temperature sensor into close contact with the area between the flow passage caps of the housing; and a stopper extending from a lower end of the body toward the housing to hinder the temperature sensor from escaping in the lower direction.