Method for controlling water pump of vehicle and system thereof

What is claimed is: 1. A system for controlling a water pump of a vehicle moving a coolant circulating through a cooling load generating heat and a radiator discharging the heat to an outside, the system comprising: a first temperature sensor for detecting a temperature of a coolant exhausted from the cooling load; a second temperature sensor for detecting a temperature of the coolant to be supplied to the cooling load; an atmospheric pressure sensor for detecting an atmospheric pressure; a water pump driver for driving according to a rotation speed command; and a controller for controlling the water pump driver based on signals received from the first temperature sensor, the second temperature sensor, and the atmospheric pressure sensor, wherein the controller calculates the rotation speed command from a temperature difference between an input terminal and an output terminal of the cooling load, calculates a reference altitude based on the atmospheric pressure, sets a water pump suction pressure from a map with respect to the water pump suction pressure according to the rotation speed command in the reference altitude, and reduces the rotation speed command when the water pump suction pressure is less than a preset control reference pressure. 2. A system for controlling a water pump of a vehicle moving a coolant circulating through a cooling load generating heat and a radiator discharging the heat to an outside, the system comprising: a first temperature sensor for detecting a temperature of a coolant exhausted from the cooling load; a second temperature sensor for detecting a temperature of the coolant to be supplied to the cooling load; an air supplier pressure sensor for detecting an air pressure supplied from the air supplier; an air supplier flow rate sensor for detecting an air flow rate supplied from the air supplier; a water pump driver for driving the water pump according to a rotation speed command; and a controller for controlling the water pump driver based on signals received from the first temperature sensor, the second temperature sensor, the air supplier pressure sensor, and the air supplier flow rate sensor, wherein the controller calculates the rotation speed command from a temperature difference between an input terminal and an output terminal of the cooling load, calculates an atmospheric pressure based on the air pressure and the flow rate of the air, calculates a reference altitude based on the atmospheric pressure, sets a water pump suction pressure from a map with respect to the water pump suction pressure according to the rotation speed command in the reference altitude, and reduces the rotation speed command when the water pump suction pressure is less than a preset control reference pressure. 3. The system of claim 1 , further comprising a water pump temperature sensor for detecting a water pump suction temperature, wherein the controller calculates a saturation vapor pressure in a suction side of the water pump based on the temperature in the water pump suction side and sets the control reference pressure according to the calculated saturation vapor pressure in the suction side of the water pump. 4. The system of claim 2 , further comprising a water pump temperature sensor for detecting a water pump suction temperature, wherein the controller calculates a saturation vapor pressure in a suction side of the water pump based on the temperature in the water pump suction side and sets the control reference pressure according to the calculated saturation vapor pressure in the suction side of the water pump. 5. A method for controlling a water pump of a vehicle moving a coolant circulating through a cooling load generating heat and a radiator discharging the heat to an outside, the method comprising: calculating, by a controller, a rotation speed command based on a control reference temperature of the coolant; detecting, by the controller, an atmospheric pressure using an atmospheric pressure sensor; calculating, by the controller, a reference altitude based on the detected atmospheric pressure; setting, by the controller, a water pump suction pressure from a map with respect to the water pump suction pressure according to the rotation speed command in the calculated reference altitude; and comparing, by the controller, the set water pump suction pressure with a control reference pressure to control the rotation speed command, wherein the step of comparing the set water pump suction pressure includes: reducing, by the controller, the rotation speed command if the set water pump suction pressure is less than the control reference pressure. 6. A method for controlling a water pump of a vehicle moving a coolant circulating through a cooling load generating heat and a radiator discharging the heat to an outside, the method comprising: calculating, by a controller, a rotation speed command based on a control reference temperature of the coolant; detecting, by the controller, an air pressure and an air flow rate supplied from an air supplier; calculating, by the controller, an atmospheric pressure based on the detected air pressure and the air flow rate; calculating, by the controller, a reference altitude based on the calculated atmospheric pressure; setting, by the controller, a water pump suction pressure from a map with respect to the water pump suction pressure according to the rotation speed command in the calculated reference altitude; and comparing, by the controller, the set water pump suction pressure with a control reference pressure to control the rotation speed command, wherein the step of comparing the set water pump suction pressure include: reducing, by the controller, the rotation speed command if the set water pump suction pressure is less than the control reference pressure. 7. The method of claim 5 , further comprising: detecting, by the controller, a water pump suction temperature using a water pump temperature sensor; and calculating, by the controller, a saturation vapor pressure in a suction side of the water pump based on the detected water pump suction temperature, wherein the control reference pressure is set according to the calculated saturation vapor pressure in the suction side of the water pump. 8. The method of claim 5 , further comprising detecting, by the controller, a temperature sensing value difference between an input terminal and an output terminal of the cooling load, wherein the control reference temperature is set as the detected temperature sensing value difference. 9. The method of claim 6 , further comprising: detecting, by the controller, a water pump suction temperature using a water pump temperature sensor; and calculating, by the controller, a saturation vapor pressure in a suction side of the water pump based on the detected water pump suction temperature, wherein the control reference pressure is set according to the calculated saturation vapor pressure in the suction side of the water pump. 10. The method of claim 6 , further comprising detecting, by the controller, a temperature sensing value difference between an input terminal and an output terminal of the cooling load, wherein the control reference temperature is set as the detected temperature sensing value difference.