Heating device

The invention claimed is: 1. A heater, in particular for mobile use, having: a combustion chamber for converting fuel with combustion air in order to release heat, a heat exchanger for transferring at least some of the heat released to a heating medium to be heated, a fuel delivery device for feeding fuel to the combustion chamber, a combustion air blower for feeding combustion air to the combustion chamber, a heating medium blower for delivering the heating medium, a common drive for the combustion air blower and the heating medium blower, at least one sensor for monitoring a mass flow of the heating medium, a controller, which controls the fuel delivery device and the common drive, characterized in that the controller is designed to vary the ratio between the quantity of heating medium and the quantity of fuel fed to the combustion chamber and the ratio between the quantity of fuel fed to the combustion chamber and the quantity of combustion air fed to the combustion chamber in dependence of the mass flow of the heating medium, and wherein the controller is designed to increase the rotational speed of the common drive while the delivery rate of the fuel delivery device remains the same, if the mass flow of the heating medium is too low. 2. The heater as claimed in claim 1 , characterized in that the controller is designed to vary the rotational speed of the common drive within a rotational speed range (KF) predetermined for the delivery rate of the fuel delivery device. 3. The heater as claimed in claim 2 , characterized in that the controller is designed to operate the common drive at a rotational speed which corresponds to a lower limit (UG) of the rotational speed range (KF), and to increase the rotational speed only if the mass flow of the heating medium is too low. 4. The heater as claimed in claim 2 , characterized in that the controller is designed to reduce the delivery rate of the fuel delivery device if the mass flow of the heating medium is too low and the rotational speed of the common drive corresponds to an upper limit (OG) of the rotational speed range (KF). 5. The heater as claimed in claim 1 , characterized in that the at least one sensor for monitoring the mass flow of the heating medium is a temperature sensor for detecting the temperature of the heated heating medium. 6. The heater as claimed in claim 1 , characterized in that a temperature sensor for detecting the temperature of the heating medium is provided upstream of the heat exchanger. 7. The heater as claimed in claim 1 , characterized in that the heater is designed as an air heater, in which the heat released is transferred in the heat exchanger to air as the heating medium to be heated.