Condensed water treatment device for internal combustion engine

The invention claimed is: 1. A condensed water treatment device for an internal combustion engine, the condensed water treatment device being applied to the internal combustion engine comprising: a selective-reduction type NOx catalyst which is provided on an exhaust passage to reduce NOx and purify exhaust gas by ammonia; and an additive supplying valve which supplies an additive which is ammonia or a precursor of ammonia to the exhaust passage at an upstream side of the NOx catalyst, the condensed water treatment device comprising: a condensed water tank which stores condensed water generated in an exhaust system of the internal combustion engine; a drainage passage which connects the condensed water tank and the exhaust passage; a switching valve which switches a state of the drainage passage between close and open; and a computer, by executing a computer program, functioning as a drainage controlling device which is configured to control the switching valve, so that the condensed water is drained to the exhaust passage via the drainage passage while the additive is being supplied to the exhaust passage via the additive supplying valve, wherein the drainage controlling device is configured to: obtain a storage water quantity of the condensed water tank; determine whether the storage water quantity obtained is larger than a predetermined threshold value; and in a case of determining that the storage water quantity is larger than the predetermined threshold value, control the switching valve so that the drainage passage is opened when the additive is supplied to the exhaust passage. 2. The condensed water treatment device according to claim 1 , wherein a connecting position where the drainage passage and the exhaust passage are connected with each other is positioned at a downstream side of the additive supplying valve. 3. The condensed water treatment device according to claim 1 , a connecting position where the drainage passage and the exhaust passage are connected with each other is positioned at an upstream side of the NOx catalyst, the drainage controlling device, which the computer by executing the computer program functions as, is configured to calculate a drainage quantity of the condensed water according to temperature of the NOx catalyst. 4. The condensed water treatment device according to claim 3 , wherein the drainage controlling device, which the computer by executing the computer program functions as, is configured to calculate the drainage quantity within a limitation which does not exceed an upper limit set so as to become larger as the temperature of the NOx catalyst is higher. 5. The condensed water treatment device according to claim 1 , wherein the computer, by executing the computer program, further functions as an additive quantity increasing device which is configured to increase supply quantity of the additive to the exhaust passage so that the supply quantity of the additive to the exhaust passage increases more in drainage time of the condensed water to the exhaust passage in comparison with the supply quantity in non-drainage time of the condensed water to the exhaust passage. 6. The condensed water treatment device according to claim 5 , wherein the additive quantity increasing device, which the computer by executing the computer program functions as, is configured to increase the supply quantity of the additive based on drainage quantity of the condensed water drained to the exhaust passage and pH of the condensed water stored in the condensed water tank. 7. The condensed water treatment device according to claim 5 , further comprising an additive holding portion which is connected to the additive supplying valve to hold the additive, wherein the additive quantity increasing device, which the computer by executing the computer program functions as, is configured to inhibit increase of supply quantity of the additive in a case where holding quantity of the additive in the additive holding position is equal to, or less than a predetermined value, and the predetermined value is set so as to become smaller as pH of the condensed water stored in the condensed water tank is smaller. 8. The condensed water treatment device according to claim 7 , wherein the internal combustion engine further comprises: an EGR passage which takes out exhaust gas from the exhaust passage at a downstream of the NOx catalyst and leads the exhaust gas to an intake system; an EGR cooler which is provided on the EGR passage; and a back pressure controlling valve which is provided at a downstream side of a connecting position where the drainage passage and the exhaust passage are connected with each other and also at a downstream side of a position where the EGR passage takes out the exhaust gas, and is capable of narrowing down a flow path of the exhaust passage, wherein the condensed water tank stores condensed water generated in the EGR cooler, as the condensed water generated in the exhaust system, and the drainage controlling device, which the computer by executing the computer program functions as, is configured to operate the back pressure controlling valve so that the condensed water is drained to the exhaust passage in a state that the flow path of the exhaust passage is narrowed down, in a case where the increase of the supply quantity of the additive is inhibited. 9. The condensed water treatment device according to claim 8 , wherein the internal combustion engine further comprises an EGR valve provided on the EGR passage, and the drainage controlling device, which the computer by executing the computer program functions as, is configured to operate the EGR valve so that the EGR passage is closed.