Supply and exhaust ventilation device

The invention claimed is: 1. A supply and exhaust ventilation device comprising: a main body provided with an indoor-side inlet, an indoor-side outlet, an outdoor-side inlet, and an outdoor-side outlet, and the supply and exhaust ventilation device comprising, in the main body: a supply air path which communicates outdoor air from the outdoor-side inlet to the indoor-side outlet; an exhaust air path which communicates indoor air from the indoor-side inlet to the outdoor-side outlet; a heat exchange element which is disposed on a crossover part of the supply air path and the exhaust air path and exchanges heat of the outdoor air and heat of the indoor air; an air supply fan disposed in the supply air path and an air exhaust fan disposed in the exhaust air path; an air supply motor which drives the air supply fan; and an air exhaust motor which drives the air exhaust fan, wherein the exhaust air path comprises: a heat exchange exhaust air path which exhausts air via the heat exchange element; a normal ventilation air path which exhausts air not via the heat exchange element; and a damper which switches between the heat exchange exhaust air path and the normal ventilation air path, the indoor-side inlet is provided with an indoor temperature sensor which detects an indoor temperature, the outdoor-side inlet is provided with an outdoor temperature sensor which detects an outdoor temperature, the supply and exhaust ventilation device further comprises a controller which controls the air supply motor, the air exhaust motor, and the damper, the controller comprises a damper controller which drives the damper, when the damper controller determines that the indoor temperature detected by the indoor temperature sensor and the outdoor temperature detected by the outdoor temperature sensor are both in a predetermined temperature range based on a discomfort index, the damper controller causes the damper to switch the exhaust air path to the normal ventilation air path, and when the damper controller determines that one of the indoor temperature and the outdoor temperature is out of the predetermined temperature range, the damper controller causes the damper to switch the exhaust air path to the heat exchange exhaust air path, and wherein the indoor-side inlet comprises an indoor humidity sensor which detects indoor humidity, the controller further comprises: an indoor dew-point temperature calculator which calculates an indoor dew-point temperature from the indoor temperature and the indoor humidity; and a dew condensation determination unit which compares the indoor dew-point temperature with the outdoor temperature and determines, when the outdoor temperature is lower than the indoor dew-point temperature, that dew condensation is to occur, and the controller controls, when the outdoor temperature is in a predetermined range and when the dew condensation determination unit determines that dew condensation is to occur, the air supply motor and the air exhaust motor such that the volume of the supply airflow and the volume of the exhaust airflow are equalized. 2. The supply and exhaust ventilation device according to claim 1 , wherein, when the controller determines that the indoor temperature and the outdoor temperature are both in the predetermined temperature range, the controller operates the air exhaust fan and the air supply fan such that a volume of an exhaust airflow exhausted from indoors through the indoor-side inlet is smaller than a volume of a supply airflow supplied indoors through the indoor-side outlet. 3. The supply and exhaust ventilation device according to claim 1 , wherein the predetermined temperature range is a range from 20° C. to 23° C. 4. The supply and exhaust ventilation device according to claim 1 , wherein the predetermined temperature range is a temperature range corresponding to a range which gives a comfortable feeling based on the discomfort index. 5. The supply and exhaust ventilation device according to claim 1 , wherein, when operation of the supply and exhaust ventilation device is stopped, the controller stops the air supply motor after stopping the air exhaust motor. 6. The supply and exhaust ventilation device according to claim 1 , wherein, when operation of the supply and exhaust ventilation device is started, the controller starts the air exhaust motor after starting the air supply motor. 7. A supply and exhaust ventilation device comprising: a main body provided with an indoor-side inlet, an indoor-side outlet, an outdoor-side inlet, and an outdoor-side outlet; and the supply and exhaust ventilation device comprising, in the main body: a supply air path which communicates outdoor air from the outdoor-side inlet to the indoor-side outlet; an exhaust air path which communicates indoor air from the indoor-side inlet to the outdoor-side outlet; a heat exchange element which is disposed on a crossover part of the supply air path and the exhaust air path and exchanges heat of the outdoor air and heat of the indoor air; an air supply fan disposed in the supply air path and an air exhaust fan disposed in the exhaust air path; an air supply motor which drives the air supply fan; and an air exhaust motor which drives the air exhaust fan, wherein the exhaust air path comprises: a heat exchange exhaust air path which exhausts air via the heat exchange element; a normal ventilation air path which exhausts air not via the heat exchange element; and a damper which switches between the heat exchange exhaust air path and the normal ventilation air path, the indoor-side inlet is provided with an indoor temperature sensor which detects an indoor temperature and an indoor humidity sensor which detects indoor humidity, the outdoor-side inlet is provided with an outdoor temperature sensor which detects an outdoor temperature and an outdoor humidity sensor which detects outdoor humidity, the supply and exhaust ventilation device further comprises a controller which controls the air supply motor, the air exhaust motor, and the damper, the controller comprises: a damper controller which drives the damper; a heat quantity calculator which calculates an indoor enthalpy from detection results of the indoor temperature sensor and the indoor humidity sensor, and calculates an outdoor enthalpy from detection results of the outdoor temperature sensor and the outdoor humidity sensor; and a comparator which compares the indoor enthalpy with the outdoor enthalpy, when the damper controller determines that the indoor temperature and the outdoor temperature are both in a predetermined temperature range based on a discomfort index, the damper controller causes the damper to switch the exhaust air path to the normal ventilation air path, and when the damper controller determines that one of the indoor temperature and the outdoor temperature is out of the predetermined temperature range, the damper controller causes the damper to switch between the heat exchange exhaust air path and the normal ventilation air path, based on an output result of the comparator, and wherein the controller further comprises: an indoor dew-point temperature calculator which calculates an indoor dew-point temperature from the indoor temperature and the indoor humidity; and a dew condensation determination unit which compares the indoor dew-point temperature with the outdoor temperature and determines, when the outdoor temperature is lower than the indoor dew-point temperature, that dew condensation is to occur, and the controller controls, when the outdoor temperature is in a predetermined range and when the dew condensation determination unit determines that dew condensation is to occur, the air supply motor and the air exhaust motor such that