Device and method for detecting filter clogging

The invention claimed is: 1. A device for detecting filter soiling of a filter system having at least an air filter installed in an air duct and an electrically controlled fan having a fan motor for producing an air flow in the air duct, wherein the device comprises: at least a motor controller for controlling the fan motor by means of pulse width modulation (PWM) control, and an evaluating apparatus for determining an actual rotational speed (n i ) of the fan in accordance with an actual degree of modulation (T i ) of a motor current for achieving the actual rotational speed (n i ), wherein, in the evaluating apparatus, setpoint value pairs (n setpoint , T setpoint ) for a setpoint rotational speed (n setpoint ) at a setpoint degree of modulation (T setpoint ) are also stored, the evaluating apparatus including a comparator which is configured to compare the actual value pairs (n i , T i ) with the setpoint value pairs (n setpoint , T setpoint ) and to obtain a degree of filter soiling of the air filter therefrom as well as from an intermediate circuit voltage and an intermediate circuit current. 2. A detection method with the device according to claim 1 , wherein the degree of filter soiling is obtained from a power consumption of the fan motor without using sensors in that an actual power consumption, which can be determined by the actual value pairs (n i , T i ), is compared to a defined setpoint power consumption of an unsoiled filter system in the comparison, which can be determined by the setpoint value pairs (n setpoint , T setpoint ), wherein the intermediate circuit voltage and the intermediate circuit current are recorded and used in the evaluation of the degree of filter soiling. 3. The detection method according to claim 2 , having the following steps: a. determining the actual rotational speed (n i ) of the fan, b. determining the actual degree of modulation (T i ) of the motor current in order to achieve the actual rotational speed (n i ), c. comparing the actual value pairs (n i , T i ) with stored setpoint value pairs (n setpoint , T setpoint ), and d. determining whether a deviation of the actual value pairs (n i , T i ) from the setpoint value pairs (n setpoint , T setpoint ) is within or outside the maximum predefined deviation. 4. The detection method according to claim 3 , wherein the evaluation of the degree of filter soiling takes place from the power consumption of the fan and by means of a stored fan characteristic curve. 5. The detection method according to claim 2 , wherein a reporting of a soiled air filter is output as a signal when the maximum deviation of the actual values from the setpoint values is exceeded. 6. The detection method according to claim 2 , wherein the direction of rotation of the fan is reversed for a defined time as compared to a forward rotational direction and, in doing so, the actual degree of modulation, the actual rotational speed, and the intermediate circuit current and the intermediate circuit voltage are continuously recorded. 7. The detection method according to claim 2 , wherein a jump in rotational speed is initiated by way of a motor controller with the fan, and a response in a PWM signal to the jump is recorded and evaluated. 8. A detection method for determining filter soiling of a filter system having at least an air filter installed in an air duct and an electrically controlled fan for producing an air flow in the air duct, wherein a motor controller and an evaluating apparatus are provided, having the following steps: a. determining an actual rotational speed (n i ) of the fan, b. determining an actual degree of modulation (T i ) of the motor current in order to achieve the actual rotational speed (n i ), c. comparing the actual value pairs (n i , T i ) with stored setpoint value pairs (n setpoint , T setpoint ), d. determining whether a deviation of the actual value pairs (n i , T i ) from the setpoint value pairs n setpoint , T setpoint ) exceeds a maximum predefined deviation, e. recording an intermediate circuit voltage and an intermediate circuit current, and f. evaluating the deviation of the actual value pairs (n i , T i ) from the setpoint value pairs (n setpoint , T setpoint ) as well as evaluating the intermediate circuit voltage and the intermediate circuit current to obtain a degree of filter soiling. 9. The detection method according to claim 8 , wherein a reporting of a soiled air filter is output as a signal when the maximum deviation of the actual values from the setpoint values is exceeded. 10. The detection method according to claim 8 , wherein the direction of rotation of the fan is reversed for a defined time as compared to a forward rotational direction and, in doing so, the actual degree of modulation, the actual rotational speed, and the intermediate circuit current and the intermediate circuit voltage are continuously recorded. 11. The detection method according to claim 8 , wherein a jump in rotational speed is initiated by way of a motor controller with the fan, and a response in a PWM signal to the jump is recorded and evaluated. 12. The detection method according to claim 8 , wherein the degree of filter soiling is obtained from a power consumption of the fan motor without using sensors in that an actual power consumption, which can be determined by the actual value pairs (n i , T i ), is compared to a defined setpoint power consumption of an unsoiled filter system in the comparison, which can be determined by the setpoint value pairs (n setpoint , T setpoint ).