Cooling apparatus of internal combustion engine

What is claimed is: 1. A cooling apparatus of an internal combustion engine, comprising: a head water passage formed in a cylinder head of the internal combustion engine, through which cooling water for cooling the cylinder head flows; a block water passage formed in a cylinder block of the internal combustion engine, through which the cooling water for cooling the cylinder block flows; a pump for supplying the cooling water to the head and block water passages; a flow rate changing valve for changing a cylinder head water flow rate proportion and a cylinder block water flow rate proportion, the cylinder head water flow rate proportion being a proportion of a flow rate of the cooling water supplied to the head water passage relative to a total water flow rate which is a sum of the flow rate of the cooling water supplied to the head water passage and the flow rate of the cooling water supplied to the block water passage, and the cylinder block water flow rate proportion being a proportion of the flow rate of the cooling water supplied to the block water passage relative to the total water flow rate; and an electronic control unit for controlling an activation of the flow rate changing valve on the basis of an engine output corresponding to an output of the internal combustion engine, wherein the electronic control unit is configured to: control the activation of the flow rate changing valve such that the block water flow rate proportion is relatively larger when the engine output is relatively larger in a range of the engine output equal to or larger than a predetermined engine output, as compared to the block water flow rate proportion when the engine output is relatively smaller in the range of the engine output equal to or larger than the predetermined engine output, and control the activation of the flow rate changing valve such that the block water flow rate proportion is relatively smaller when the engine output is relatively larger in a range of the engine output smaller than the predetermined engine output, as compared to the block water flow rate proportion when the engine output is relatively smaller in the range of the engine output smaller than the predetermined engine output. 2. The cooling apparatus according to claim 1 , wherein the electronic control unit is configured to control the activation of the flow rate changing valve such that the head water flow rate proportion is equal to or larger than the block water flow rate proportion when the engine output is smaller than the predetermined engine output. 3. The cooling apparatus according to claim 1 , wherein the electronic control unit is configured to control an activation of the pump such that a flow rate of the cooling water discharged from the pump increases as the engine output increases. 4. The cooling apparatus according to claim 3 , wherein the electronic control unit is configured to control the activation of the flow rate changing valve such that an increasing amount of the block water flow rate in response to a predetermined increasing amount of the engine output in a range of the engine output smaller than the predetermined engine output, is smaller than the increasing amount of the block water flow rate in response to the predetermined increasing amount of the engine output in a range of the engine output equal to or larger than the predetermined engine output. 5. The cooling apparatus according to claim 1 , wherein the electronic control unit is configured to: control the activation of the pump such that the flow rate of the cooling water discharged from the pump increases as the engine output increases; and the predetermined engine output is set to a value of the engine output in which an operation state of the pump corresponds to an operation state in which the cooling water having the flow rate capable of maintaining the temperature of the cylinder block equal to or lower than a predetermined block temperature, cannot be supplied to the block water passage. 6. The cooling apparatus according to claim 5 , wherein the predetermined block temperature is set to the temperature of the cylinder block at which a friction resistance of a movable part provided in the cylinder block increases as the temperature of the cylinder block increases and is equal to or smaller than a predetermined friction resistance. 7. The cooling apparatus according to claim 1 , wherein the electronic control unit is configured to control the activation of the pump such that the flow rate of the cooling water discharged from the pump increases as the engine output increases, and the predetermined engine output is set to a value of the engine output at which the flow rate of the cooling water discharged from the pump corresponds to an upper limit of the flow rate of the cooling water discharged from the pump. 8. The cooling apparatus according to claim 1 , wherein the pump is an electric pump driven by electric power and the predetermined engine output is set to a value of the engine output at which the flow rate of the cooling water discharged from the pump corresponds to an upper limit of the flow rate of the cooling water discharged from the pump. 9. The cooling apparatus according to claim 1 , wherein the pump is driven by rotation of a crank shaft of the internal combustion engine and the predetermined engine output is set to a value of the engine output when a speed of rotation of the internal combustion engine corresponds to a speed at which the flow rate of the cooling water discharged from the pump corresponds to an upper limit of the flow rate of the cooling water discharged from the pump.