Device for treating water by cdi method

What is claimed is: 1 . A device for treating water by CDI method, the device comprising: a filter unit including first and second filter parts having a water-purifying mode of discharging purified water by purifying raw water and a regeneration mode of regenerating an electrode according to the CDI method; and a control unit for controlling the filter unit, wherein if any one of the first and second filter parts is in the water-purifying mode for a first time, the other one is in the regeneration mode for a second time, and if the water-purifying mode stops in the middle of the first time, the control unit performs a first control of stopping the regeneration mode and then flushing the filter part, which was in the regeneration mode, with the raw water for a third time. 2 . The device of claim 1 , wherein when a voltage of a first polarity is applied to the filter part in the water-purifying mode, the regeneration mode has a first mode applying a voltage of a second polarity which is opposite to the first polarity to the filter part, and a second mode applying a voltage of the first polarity to the filter part after the first mode. 3 . The device of claim 1 , wherein when a voltage of a first polarity is applied to the filter part in the water-purifying mode, the regeneration mode has a first mode applying a voltage of a second polarity which is opposite to the first polarity to the filter part, and a third mode not applying a voltage to the filter part after the first mode. 4 . The device of claim 1 , wherein the third time is shorter than the first time and second time. 5 . The device of claim 1 , wherein when an extract part for extracting the purified water is selected, the control unit performs a control of starting the water-purifying mode and the regeneration mode, and when the extract part is deselected, the control unit performs a control of finishing the water-purifying mode. 6 . The device of claim 5 , wherein when the water-purifying mode is performed for the first time at any one of the filter parts, then the control unit performs a control of performing the regeneration mode at the any one of the filter parts, and the water-purifying mode at the other one. 7 . The device of claim 6 , wherein when the extract part is selected again after the water-purifying mode stops in the middle of the first time, the control unit performs a control of performing again the water-purifying mode for the remaining time among the first time at the filter part, which was in the water-purifying mode, until the extract part is deselected, and performs a control of performing again the regeneration mode for the remaining time among the second time at the filter part, which was in the regeneration mode. 8 . The device of claim 1 , wherein the control unit determines the time for flushing the filter part in the regeneration mode, according to total dissolved solids (TDS) of raw water in the filter part in the regeneration mode at the time when the regeneration mode stops. 9 . The device of claim 1 , wherein when a certain voltage is applied to the filter part in the regeneration mode, the control unit determines the time for flushing the filter part in the regeneration mode, according to the strength of current flowing in the filter part in the regeneration mode at the time when the regeneration mode stops. 10 . The device of claim 1 , wherein the control unit selectively performs any one of the first control and a second control continuously performing the regeneration mode for the remaining time among the second time at the filter part, which is in the regeneration mode, when the water-purifying mode stops in the middle of the first time. 11 . The device of claim 10 , wherein when the water-purifying mode is performed for the first time at any one of the filter parts, then the control unit performs a control of performing the regeneration mode at the any one of the filter parts, and the water-purifying mode at the other one. 12 . The device of claim 11 , wherein when an extract part for extracting the purified water is selected while the second control is performed, the control unit performs a control of performing again the water-purifying mode at the filter part, which was in the water-purifying mode, for the remaining time among the first time, at the time when the water-purifying mode stops, until the extract part is deselected, and performs a control of performing again the regeneration mode at the filter part, which was in the regeneration mode, for the remaining time among the second time. 13 . The device of claim 11 , wherein when an extract part for extracting the purified water is selected while the second control is performed, the control unit performs a control of performing again the water-purifying mode at the filter part, which was in the water-purifying mode, for the remaining time among the second time, at the time when the extract part is selected, until the extract part is deselected, and performs a control of performing again the regeneration mode at the filter part, which was in the regeneration mode, for the remaining time among the second time. 14 . The device of claim 11 , wherein when an extract part for extracting the purified water is selected after the second control is finished, the control unit performs a control of performing again the water-purifying mode at the filter part, which was in the water-purifying mode, for the remaining time among the first time, at the time when the water-purifying mode stops, until the extract part is deselected, and performs a control of performing again the regeneration mode at the filter part, which was in the regeneration mode, for the remaining time among the second time. 15 . The device of claim 11 , wherein when an extract part for extracting the purified water is selected after the second control is finished, the control unit performs a control of performing again the water-purifying mode at the filter part, which was in the water-purifying mode, for the remaining time among the first time, at the time when the water-purifying mode stops, until the extract part is deselected, and performs a control of not performing the regeneration mode at the filter part, which was in the regeneration mode, until the water-purifying mode is performed. 16 . The device of claim 10 , wherein the control unit selects any one of the first control and the second control according to how often an extract part for extracting the purified water is selected.