Method of controlling a PE-battery water cooling system for a green vehicle

What is claimed is: 1. A method of controlling a power electronics (PE)-battery water cooling system for a green vehicle, in which the PE-battery water cooling system includes a PE cooling system in which a first electric water pump (EWP), a PE component, a radiator, a reservoir, and a first three-way valve are connected in order, and a battery cooling system in which a second EWP, a battery, a chiller, and a second three-way valve are connected in order, the method comprising: switching the first three-way valve and the second three-way valve forcibly in a direction allowing a coolant to flow between the PE cooling system and the battery cooling system when a failure occurs in the components of the PE cooling system and the battery cooling system; and driving to maximum at least one of the components of the PE cooling system and the battery cooling system still functioning normally, wherein, among the components of the PE cooling system and the battery cooling system, when the chiller of the battery cooling system fails, the first three-way valve and the second three-way valve are forcibly switched by a control signal of a controller in the direction allowing the coolant to flow between the PE cooling system and the battery cooling system, the first EWP and the second EWP are driven simultaneously by a control signal of the controller, and a fan motor of the radiator is driven to maximum by a control signal of the controller, and wherein, among the components of the PE cooling system and the battery cooling system, when the fan motor of the radiator of the PE cooling system fails, the first three-way valve and the second three-way valve are forcibly switched by a control signal of the controller in the direction allowing the coolant to flow between the PE cooling system and the battery cooling system, the first EWP and the second EWP are driven simultaneously by a control signal of the controller, and the chiller is driven to maximum by a control signal of the controller. 2. The method of claim 1 , wherein the first three-way valve and the second three-way valve are forcibly switched by a control signal of a controller in the direction allowing the coolant to flow between the PE cooling system and the battery cooling system such that the PE cooling system and the battery cooling system are switched from a separate cooling mode to an integrated cooling mode for a cooperative cooling control that enables an exchange of the coolant. 3. The method of claim 1 , wherein, among the components of the PE cooling system and the battery cooling system, when the first EWP of the PE cooling system fails during driving of the vehicle, the first three-way valve and the second three-way valve are forcibly switched by a control signal of a controller in the direction allowing the coolant to flow between the PE cooling system and the battery cooling system, and the second EWP of the battery cooling system is driven to maximum by a control signal of the controller. 4. The method of claim 3 , wherein, with the second EWP driven to maximum, a fan motor of the radiator and the chiller are driven to maximum by a control signal of the controller. 5. The method of claim 1 , wherein, among the components of the PE cooling system and the battery cooling system, when the second EWP of the battery cooling system fails during driving of the vehicle, the first three-way valve and the second three-way valve are forcibly switched by a control signal of a controller in the direction allowing the coolant to flow between the PE cooling system and the battery cooling system, and the first EWP of the PE cooling system is driven to maximum by a control signal of the controller. 6. The method of claim 5 , wherein, with the first EWP driven to maximum, a fan motor of the radiator and the chiller are driven to maximum by a control signal of the controller. 7. The method of claim 1 , wherein, among the components of the PE cooling system and the battery cooling system, when the second EWP of the battery cooling system fails during charging of the battery, the first three-way valve and the second three-way valve are forcibly switched by a control signal of a controller in the direction allowing the coolant to flow between the PE cooling system and the battery cooling system, and the first EWP of the PE cooling system is driven to maximum by a control signal of the controller. 8. The method of claim 7 , wherein, with the first EWP driven to maximum, a fan motor of the radiator and the chiller are driven to maximum by a control signal of the controller.