Electric device including an electric fan and a control unit for controlling the electric fan

The invention claimed is: 1. An electric device having a casing with an air-inlet and an air-outlet, and a central processing unit (CPU) disposed inside the casing, the electric device comprising: a first temperature sensor for detecting the temperature inside the casing; a second temperature sensor for detecting the temperature outside the casing; an electric fan; and a control unit for rotating the electric fan at a time of a low-temperature startup in which the temperature detected by the first temperature sensor is lower than a preset first threshold value, and the temperature detected by the second temperature sensor is higher than the temperature detected by the first temperature sensor, wherein the electric fan, the CPU, and the air-outlet are arranged in the order of the electric fan, the CPU, and the air-outlet; wherein the second temperature sensor comprises a third temperature sensor installed at the air-inlet and a fourth temperature sensor installed at the air-outlet; and wherein the control unit selects the temperature sensor detecting a higher temperature at the time of the low-temperature startup between the third temperature sensor and the fourth temperature sensor and, when the temperature detected by the selected temperature sensor is higher than the temperature detected by the first temperature sensor, rotates the electric fan in the direction of invoking an airflow from the air-inlet through the inside of the casing toward the air-outlet if the selected temperature sensor is the third temperature sensor, but rotates the electric fan in the direction of invoking an airflow from the air-outlet through the inside of the casing toward the air-inlet if the selected temperature sensor is the fourth temperature sensor. 2. The electric device according to claim 1 , wherein the control unit rotates the electric fan at the time of the low-temperature startup in the direction of invoking an airflow from the air-outlet through the inside of the casing toward the air-inlet. 3. The electric device according to claim 2 , wherein the second temperature sensor is installed at the air-outlet. 4. The electric device according to claim 1 , wherein the control unit rotates the electric fan at the time of the low-temperature startup in the direction of invoking an airflow from the air-inlet through the inside of the casing toward the air-outlet. 5. The electric device according to claim 4 , wherein the second temperature sensor is installed at the air-inlet. 6. The electric device according to claim 1 , wherein the control unit rotates the electric fan in the direction of invoking an airflow from the air-inlet through the inside of the casing toward the air-outlet after the temperature detected by the first temperature sensor reaches a temperature higher than the first threshold value. 7. The electric device according to claim 1 , wherein the the control unit makes the CPU operate on a clock having a lower frequency than usual until the temperature detected by the first temperature sensor exceeds the first threshold value. 8. The electric device according to claim 7 , wherein the control unit causes the CPU made to operate on the clock having the lower frequency to carry out a self-test. 9. The electric device according to claim 1 , wherein the control unit is housed inside the casing. 10. The electric device according to claim 1 , wherein the electric fan is housed inside the casing. 11. The electric device according to claim 1 , wherein the central processing unit (CPU) is housed inside the casing and adjacent to the first temperature sensor. 12. The electric device according to claim 1 , wherein the electric device further comprising an electric component; the electric component is housed inside the casing; and the electric component, the electric fan, and the CPU are arranged in the order of the electric component, the electric fan, and the CPU. 13. The electric device according to claim 1 , wherein the air-inlet is on the front side of the casing and the air-outlet is on the back side of the casing. 14. An activation method to be carried out by an electric device having a casing with an air-inlet and an air-outlet, a central processing unit (CPU) disposed inside the casing, a first temperature sensor for detecting a temperature inside the casing, a second temperature sensor for detecting a temperature outside the casing, an electric fan, and a control unit, the activation method comprising: rotating the electric fan by the control unit at a time of a low-temperature startup in which the temperature detected by the first temperature sensor is lower than a preset first threshold value, and the temperature detected by the second temperature sensor is higher than the temperature detected by the first temperature sensor, wherein the electric fan, the CPU, and the air-outlet are arranged in the order of the electric fan, the CPU, and the air-outlet; wherein the second temperature sensor comprises a third temperature sensor installed at the air-inlet and a fourth temperature sensor installed at the air-outlet; and wherein the control unit selects the temperature sensor detecting a higher temperature at the time of the low-temperature startup between the third temperature sensor and the fourth temperature sensor and, when the temperature detected by the selected temperature sensor is higher than the temperature detected by the first temperature sensor, rotates the electric fan in the direction of invoking an airflow from the air-inlet through the inside of the casing toward the air-outlet if the selected temperature sensor is the third temperature sensor, but rotates the electric fan in the direction of invoking an airflow from the air-outlet through the inside of the casing toward the air-inlet if the selected temperature sensor is the fourth temperature sensor. 15. The activation method according to claim 14 , wherein the control unit rotates the electric fan at the time of the low-temperature startup in the direction of invoking an airflow from the air-outlet through the inside of the casing toward the air-inlet. 16. The activation method according to claim 15 , wherein the second temperature sensor detects the temperature at the air-outlet. 17. The activation method according to claim 14 , wherein the control unit rotates the electric fan at the time of the low-temperature startup in the direction of invoking an airflow from the air-inlet through the inside of the casing toward the air-outlet. 18. The activation method according to claim 17 , wherein the second temperature sensor detects the temperature at the air-inlet. 19. The activation method according to claim 14 , wherein the control unit rotates the electric fan in the direction of invoking an airflow from the air-inlet through the inside of the casing toward the air-outlet after the temperature detected by the first temperature sensor reaches a temperature higher than the first threshold value. 20. The activation method according to claim 14 , wherein the control unit makes the CPU operate on a clock having a lower frequency than usual until the temperature detected by the first temperature sensor exceeds the first threshold value. 21. The activation method according to claim 20 , wherein the control unit causes the CPU made to operate on the clock having the lower frequency to carry out a self-test. 22. A non-transitory computer-readable medium storing a program comprising instructions for causing a computer of