Electrically commutated motor and freezer comprising the same

The invention claimed is: 1. An electrically commutated motor for a fan system, the fan system comprising an evaporation fan comprising a first temperature unit, a second temperature unit, a plurality of fan blades, and a fan housing having an air inlet and an air outlet, wherein the first temperature detecting unit is disposed in the vicinity of the air inlet of the fan housing for detecting a first temperature T 1 of the air, and the second temperature detecting unit is disposed in the vicinity of the air outlet of the fan housing for detecting a second temperature T 2 of the air; the electrically commutated motor comprising: A) a motor controller, the motor controller comprising a control circuit board comprising a microprocessor, an insulated gate bipolar transistor module, and an operation parameter detecting unit; and B) a motor body, the motor body comprising: a stator assembly, a rotor assembly, and a housing assembly; the stator assembly comprising a stator core and coil windings wound on the stator core; the rotor assembly comprising a rotor core and permanent magnets embedded in the rotor core; wherein: the electrically commutated motor is adapted to be disposed inside the fan housing, and an output shaft of the electrically commutated motor is adapted to support and drive the plurality of fan blades; the stator assembly and the rotor assembly are mounted inside the housing assembly; the microprocessor, the insulated gate bipolar transistor module, and the operation parameter detecting unit are arranged on the control circuit board; the operation parameter detecting unit is configured to input operation data of the electrically commutated motor to the microprocessor; an output terminal of the microprocessor is connected to an input terminal of the insulated gate bipolar transistor module, and an output terminal of the insulated gate bipolar transistor module is connected to the coil windings wound on the stator core; the microprocessor of the motor controller is adapted to be connected to the first temperature detecting unit and the second temperature detecting unit; the electrically commutated motor is adapted to be spatially separated from the first temperature detecting unit and the second temperature detecting unit; and the microprocessor is adapted to determine a rotational speed of the electrically commutated motor based on a difference between the first temperature T 1 and the second temperature T 2 ; and in operation, when the difference between the first temperature T 1 and the second temperature T 2 is smaller than or equal to a preset value T 0 , a first gear at a rotational speed S 1 is selected by the microprocessor and the electrically commutated motor is controlled to run constantly in the first gear at the rotational speed S 1 ; and when the difference between the first temperature T 1 and the second temperature T 2 is larger than the preset value T 0 , a second gear at a second rotational speed S 2 is selected by the microprocessor and the electrically commutated motor is controlled to run constantly in the second gear at the second rotational speed S 2 . 2. A freezer, comprising: a compressor, a coil evaporator, and an evaporator fan; the evaporator fan comprising: a fan housing comprising an air inlet and an air outlet, a first temperature unit, a second temperature unit, an electrically commutated motor, and a plurality of fan blades; the electrically commutated motor comprising: A) a motor controller, the motor controller comprising a control circuit board comprising a microprocessor, an insulated gate bipolar transistor module, and an operation parameter detecting unit; and B) a motor body, the motor body comprising: a stator assembly, a rotor assembly, and a housing assembly; the stator assembly comprising a stator core and coil windings wound on the stator core; the rotor assembly comprising a rotor core and permanent magnets embedded in the rotor core; wherein: the compressor supplies a cooling medium to the coil evaporator; the air inlet and the air outlet of the fan housing are respectively disposed at two sides thereof; the coil evaporator is mounted on the fan housing at the side on which the air inlet is arranged; the electrically commutated motor is disposed inside the fan housing; the fan blades are installed on an output shaft of the electrically commutated motor; and the electrically commutated motor and the fan blades are disposed between the coil evaporator and the air outlet; the stator assembly and the rotor assembly are mounted inside the housing assembly; the microprocessor, the insulated gate bipolar transistor module, and the operation parameter detecting unit are arranged on the control circuit board; the operation parameter detecting unit is configured to input operation data of the electrically commutated motor to the microprocessor; an output terminal of the microprocessor is connected to an input terminal of the insulated gate bipolar transistor module, and an output terminal of the insulated gate bipolar transistor module is connected to the coil windings wound on the stator core; the microprocessor of the motor controller is connected to the first temperature detecting unit and the second temperature detecting unit; the first temperature detecting unit and the second temperature detecting unit are disposed outside the electrically commutated motor; the first temperature detecting unit is disposed in the vicinity of the air inlet of the fan housing for detecting a first temperature T 1 of the air; the second temperature detecting unit is disposed in the vicinity of the air outlet of the fan housing for detecting a second temperature T 2 of the air; the microprocessor is adapted to determine a rotational speed of the electrically commutated motor based on a difference between the first temperature T 1 and the second temperature T 2 ; and in operation, when the difference between the first temperature T 1 and the second temperature T 2 is smaller than or equal to a preset value T 0 , a first gear at a rotational speed S 1 is selected by the microprocessor and the electrically commutated motor is controlled to run constantly in the first gear at the rotational speed S 1 ; when the difference between the first temperature T 1 and the second temperature T 2 is larger than the preset value T 0 , a second gear at a second rotational speed S 2 is selected by the microprocessor and the electrically commutated motor is controlled to run constantly in the second gear at the second rotational speed S 2 ; and the second gear at the second rotational speed S 2 is larger than the first gear at the first rotational speed S 1 . 3. The freezer of claim 2 , wherein the electrically commutated motor runs constantly in the second gear at the rotational speed S 2 in the initial starting state under the control of the microprocessor. 4. The freezer of claim 2 , wherein the first gear at the rotational speed S 1 is 800 rpm, and the second gear at the rotational speed S 2 is 1550 rpm. 5. The freezer of claim 3 , wherein the first gear at the rotational speed S 1 is 800 rpm, and the second gear at the rotational speed S 2 is 1550 rpm. 6. The freezer of claim 2 , wherein the preset value T 0 ranges at between 1 and 50° C. 7. The freezer of claim 3 , wherein the preset value T 0 ranges at between 1 and 50° C. 8. The freezer of claim 2 , wherein a control box is installed in a middle part of the fan housing; and the motor controller of the electrically commutated motor is in electric connection with the control box. 9. The freezer of claim 3 , wherein a control box is installed in a middle part of the fan housing; and the motor controller of the electrically commutat