Total heat exchange device and controlling method of the same

What is claimed is: 1. A total heat exchange device, comprising: an exhaust fan which directs air from an indoor exhaust port to an outdoor discharge port through an exhaust air path; an intake fan which directs air from an outdoor suction port to an indoor intake port through an intake air path; and a heat exchange element configured for exchanging heat between the air passing through the exhaust air path and the air passing through the intake air path, wherein the total heat exchange device further comprises: a temperature detector for detecting an outdoor temperature, and a controller which is configured to perform a heat exchange mode in which heat is exchanged between the air passing through the exhaust air path and the air passing through the intake air path, in accordance with the outdoor temperature detected by the temperature detector, and the controller is also configured to perform a defrosting mode in which frost on the heat exchange element is thawed, in accordance with the outdoor temperature detected by the temperature detector, wherein the defrosting mode comprises a strong defrosting mode in which an internal circulation operation and a heat exchange operation are performed, wherein the lower the outdoor temperature is, the less the time of the heat exchange operation in the strong defrosting mode is, and wherein in the internal circulation operation, the air sucked from the indoor exhaust port is discharged out of the heat exchange element through the exhaust air path in the heat exchange element, and then the air is further discharged from the indoor intake port after being discharged from the heat exchanger element through the intake air path in the heat exchange element, the outdoor discharge port and the outdoor suction port are kept closed such that the indoor air is isolated from the outdoor air, and the indoor exhaust port and the indoor intake port are kept opened such that a cycle loop is created to communicate the indoor air and air paths in the heat exchange element; during the internal circulation operation, the controller is configured to close the outdoor suction port, close the outdoor discharge port, switch a damper having an open state in which the intake air path and the exhaust air path are communicated with each other and a closed state in which the intake air path and the exhaust air path are isolated from each other into the open state, open the indoor intake port, open the indoor exhaust port, communicate the intake air path with the exhaust air path on an outdoor side of the heat exchange element, and drive the intake fan for the intake air path and the exhaust fan for the exhaust air path to operate; and wherein in the heat exchange operation, the air is directed from the indoor exhaust port through the exhaust air path to the outdoor discharge port, while the air is directed from the outdoor suction port through the intake air path to the indoor intake port, and the heat exchange is performed between the air passing through the exhaust air path and the air passing through the intake air path; the defrosting mode further comprises a freeze prevention mode in which a stop operation and the heat exchange operation are performed, and wherein, in the stop operation, the fans are stopped, the indoor exhaust port and the outdoor suction port are closed so that air suction from the indoor exhaust port and the outdoor suction port is stopped, and the indoor intake port and the outdoor discharge port are closed so that air discharging from the indoor intake port and the outdoor discharge port is stopped, the heat exchange operation is performed with a minimum air flow rate for a predetermined time, after the stop operation has been performed for a predetermined time. 2. The total heat exchange device according to claim 1 , wherein the heat exchange mode comprises the heat exchange operation. 3. The total heat exchange device according to claim 1 , wherein in the heat exchange operation, the controller is configured to open the outdoor suction port, open the outdoor discharge port, open the indoor suction port, open the indoor exhaust port, and drive the intake fan for the intake air path and the exhaust fan for the exhaust air path to operate. 4. The total heat exchange device according to claim 1 , wherein the total heat exchange device comprises a memory and a threshold comparator, the memory is configured to memorize a temperature threshold A and a temperature threshold B that is smaller than the temperature threshold A; the threshold comparator is configured to perform a comparison of the outdoor temperature detected by the temperature detector to the temperature threshold A and the temperature threshold B, according to the comparison result of the threshold comparator, the controller is further configured to: perform the heat exchange mode when the outdoor temperature is greater than the temperature threshold A, perform the strong defrosting mode when the outdoor temperature is smaller than the temperature threshold A and greater than the temperature threshold B, or perform the freeze prevention mode when the outdoor temperature is smaller than the temperature threshold B. 5. The total heat exchange device according to claim 4 , wherein after the controller has performed the heat exchange mode, the strong defrosting mode or the freeze prevention mode for a predetermined time period, the temperature detector detects the outdoor temperature again, the threshold comparator performs the comparison again, and the controller performs one of the heat exchange mode, the strong defrosting mode and the freeze prevention mode, corresponding to the outdoor temperature detected again. 6. The total heat exchange device according to claim 1 , wherein in the heat exchange operation in the defrosting mode, an amount of the air directed to the indoor intake port is reduced as compared with that in the heat exchange mode. 7. The total heat exchange device according to claim 1 , wherein in the heat exchange operation in the defrosting mode, an amount of the air directed to the indoor intake port is reduced as compared with that in the heat exchange mode.