Condenser tumble dryer comprising a temperature sensor, and method for the operation thereof

The invention claimed is: 1. A condenser tumble dryer with a drum for articles to be dried, a drive motor for the drum, a process air duct, a process air blower, a heating and cooling system for process air, a temperature sensor and a control facility, wherein the temperature sensor is arranged for the simultaneous measurement of thermal radiation from at least two components of the condenser tumble dryer which are to be monitored, at least one of the two components including at least one component of the heating and cooling system; the temperature sensor has an infrared telescope with a sensor array and an imaging lens for generating an image of a respective measurement point of each of the components to be monitored on a thermopile array; and the control facility is set up to evaluate the thermal radiation measured in each instance by the infrared telescope for the components to be monitored, for the monitoring and control of the condenser tumble dryer. 2. The condenser tumble dryer as claimed in claim 1 , wherein the components which are to be monitored are selected from the group further include an outer surface of the drum, the process air duct, different components of the heating and cooling system, the process air blower and the drive motor. 3. The condenser tumble dryer as claimed in claim 1 , wherein each said measurement point comprises a coating, which has a predetermined thermal radiation emission coefficient. 4. The condenser tumble dryer as claimed in claim 1 , wherein the infrared telescope contains the thermopile array. 5. The condenser tumble dryer as claimed in claim 4 , wherein a respective thermopile of the thermopile array is assigned to each component to be monitored so that the thermal radiation from the respective component to be monitored is measured by the respective assigned thermopile. 6. The condenser tumble dryer as claimed in claim 1 , wherein the heating and cooling system for process air contains a heat pump with an evaporator, a compressor, a condenser and a throttle unit. 7. The condenser tumble dryer as claimed in claim 6 , wherein the components to be monitored comprise the evaporator, the compressor, the condenser and/or the throttle unit. 8. The condenser tumble dryer as claimed in claim 7 , wherein the components to be monitored comprise the condenser and the compressor. 9. The condenser tumble dryer as claimed in claim 6 , wherein the compressor is a variable-output compressor. 10. The condenser tumble dryer as claimed in claim 1 , wherein the components to be monitored comprise the outer drum surface. 11. The condenser tumble dryer as claimed in claim 1 , wherein the control facility is set up to take into account different emission coefficients of the components to be monitored. 12. The condenser tumble dryer as claimed in claim 1 , wherein respective maximum permissible values for the thermal radiation from the components to be monitored are stored in the control facility and the control facility is set up to deactivate the condenser tumble dryer if a maximum permissible value for the thermal radiation from the components to be monitored is exceeded and/or to display that the maximum permissible value is exceeded on a display apparatus of the condenser tumble dryer. 13. The method as claims in claim 1 , wherein the temperature sensor is fixed at only a single location within the tumble dryer. 14. A method for operating a condenser tumble dryer with a drum for articles to be dried, a drive motor for the drum, a process air duct, a process air blower, a heating and cooling system for the process air, a temperature sensor and a control facility, wherein the temperature sensor is arranged for the simultaneous measurement of thermal radiation from at least two components of the condenser tumble dryer which are to be monitored, at least one of the two components including at least one component of the heating and cooling system; the temperature sensor has an infrared telescope with a sensor array and an imaging lens for generating an image of a respective measurement point of each of the components to be monitored on a thermopile array; and the thermal radiation from the at least two components to be monitored is measured by means of the infrared telescope and evaluated by the control facility in respect of the respective temperature of the components which are to be monitored and used for monitoring and control during operation of the condenser tumble dryer. 15. The method as claimed in claim 14 , wherein the components which are to be monitored comprise the components of the heating and cooling system, wherein the components, the thermal radiation from which is measured, comprise an evaporator, the compressor, the condenser and/or the throttle unit of a heat pump and the condenser tumble dryer is controlled in such a manner that the temperature of a coolant of the heat pump is within a predetermined range. 16. The method as claimed in claim 15 , wherein the condenser tumble dryer is controlled in such a manner that the output of the compressor, which is a variable-output compressor, is varied such that the temperature of the coolant is within a predetermined range.