Intercooler cooling apparatus and method for controlling transmission fluid and air conditioner refrigerant temperature

What is claimed is: 1. An intercooler cooling apparatus cooling an intercooler installed between a compressor of a turbocharger and an engine, capable of adjusting an oil temperature, comprising: a water tank that surrounds a part of an outer side of the intercooler, in which cooling water discharged from the engine flows into a first side to exchange heat with the intercooler and the cooling water is discharged through a second side; and an automatic transmission fluid (ATF) warmer installed in the water tank, in which oil of a transmission is circulated. 2. The intercooler cooling apparatus of claim 1 , wherein a portion of the cooling water discharged from a radiator cooling the cooling water discharged from the engine flows into the water tank and the cooling water discharged from the water tank flows into the radiator. 3. The intercooler cooling apparatus of claim 2 , wherein an auxiliary cooling line is installed to circulate the cooling water in the radiator and the water tank, and a cooling water pump configured to circulate the cooling water is installed in the auxiliary cooling line. 4. The intercooler cooling apparatus of claim 3 , wherein when the engine operates and the cooling water pump does not operate, air passing through the intercooler heats the cooling water filled in the water tank and the cooling water filled in the water tank heats transmission oil filled in the ATF warmer. 5. The intercooler cooling apparatus of claim 1 , further comprising: a fluid tank that surrounds a part of an outer side of the intercooler and charged with a heat-exchange fluid therein, in which refrigerant of an air conditioner passes through the first side to exchange heat with the intercooler. 6. The intercooler cooling apparatus of claim 5 , wherein the refrigerant discharged from a receiver dryer configured to store the refrigerant passes through the fluid tank and thereafter, flows into the receiver dryer again. 7. The intercooler cooling apparatus of claim 6 , wherein a refrigerant line is provided to allow the refrigerant to pass through the fluid tank from the receiver dryer and circulate to the receiver dryer again, and a refrigerant pump configured to circulate the refrigerant is installed in the refrigerant line. 8. The intercooler cooling apparatus of claim 5 , wherein the fluid tank is disposed spaced apart from the water tank in the intercooler and cooled by the air flowing into an engine room in which the engine is installed at a portion where the water tank and the fluid tank are spaced apart from each other in the intercooler. 9. The intercooler cooling apparatus of claim 5 , wherein a heat exchange fluid filled in the fluid tank is the cooling water or the oil, and the refrigerant of the refrigerant line passing through the fluid tank exchange heat with the air passing through the intercooler through the heat exchange fluid. 10. The intercooler cooling apparatus of claim 5 , wherein the water tank is installed adjacent to an inlet of the intercooler and the fluid tank is installed adjacent to an outlet of the intercooler. 11. The intercooler cooling apparatus of claim 10 , wherein the water tank and the fluid tank are disposed spaced apart from each other in a flow direction of the air passing through the intercooler. 12. A method for controlling an intercooler cooling apparatus capable of controlling an oil temperature, which includes a water tank that surrounds a part of an outer side of the intercooler, in which cooling water discharged from the engine flows into a first side to exchange heat with the intercooler and the cooling water is discharged through a second side, a fluid tank in which a heat exchange fluid filled in the fluid tank exchanges heat with air flowing through the intercooler while refrigerant of an air conditioner passes through the fluid tank at a location spaced apart from the water tank in the intercooler, and an automatic transmission fluid (ATF) warmer installed in the water tank, in which oil of a transmission is circulated, the method comprising: measuring, by a plurality of sensors, an oil temperature of the transmission, a temperature of the cooling water, and an outlet temperature of the intercooler; comparing, by the controller, whether the temperature of the oil of the transmission is greater than a preset oil heating reference temperature by which the transmission oil needs to be heated; operating, by the controller, a cooling water pump when the temperature of the oil of the transmission is greater than the oil heating reference temperature; comparing, by the controller, whether the outlet temperature of the intercooler is greater than a preset refrigerant circulation reference temperature by circulating the refrigerant of the air conditioner; and operating, by the controller, a refrigerant pump when the outlet temperature of the intercooler is greater than the refrigerant circulation reference temperature. 13. The method of claim 12 , further comprising: when the temperature of the oil of the transmission is less than the oil heating reference temperature, comparing, by the controller, the temperature of the oil of the transmission with the temperature of the cooling water flowing into the water tank. 14. The method of claim 13 , further comprising: when the temperature of the oil of the transmission is less than the temperature of the cooling water flowing into the water tank, preventing, by the controller, the cooling water pump from operating; and performing, by the controller, the intercooler outlet temperature comparison. 15. The method of claim 14 , wherein the air passing through the intercooler heats the cooling water filled in the water tank and the cooling water filled in the water tank heats the transmission oil filled in the ATF warmer. 16. The method of claim 13 , wherein when the temperature of the oil of the transmission is greater than the temperature of the cooling water flowing into the water tank, the cooling water pump is operated. 17. The method of claim 12 , further comprising: determining, by the controller, whether an engine of a vehicle is turned off; and in response to determining that the engine of the vehicle is not turned off, measuring, by a controller, an oil temperature of the transmission, a temperature of the cooling water, and an outlet temperature of the intercooler t. 18. The method of claim 12 , wherein when the outlet temperature of the intercooler is less than the refrigerant circulation reference temperature, the refrigerant pump is prevented from operating. 19. The method of claim 18 , further comprising: determining, by the controller, whether the engine of the vehicle is turned off; and in response to determining that the engine of the vehicle is not turned off, measuring, by a controller, an oil temperature of the transmission, a temperature of the cooling water, and an outlet temperature of the intercooler.