Temperature control device for surface-treated objects such as vehicle parts

What is claimed is: 1. A temperature control apparatus for surface-treated objects, comprising: a) a temperature control space in which a temperature of a surface-treated object can be controlled, b) a high boiler exhaust air stream comprising high-boiling organic compounds from the temperature control space, c) a combustion device for thermal after-treatment of the high boiler exhaust air stream, wherein d) an apparatus for pyrolysis of the high boiler exhaust air stream is provided, and e) a low boiler exhaust air stream comprising low-boiling organic compounds having a boiling point below 200° C., wherein the low boiler exhaust air stream can be fed to the combustion device for thermal after-treatment. 2. The temperature control apparatus as claimed in claim 1 , wherein the apparatus for pyrolysis is arranged between the temperature control space and the combustion device. 3. The temperature control apparatus as claimed in claim 1 , wherein the high boiler exhaust air stream which can be fed to the apparatus for pyrolysis comprises organic compounds having a boiling point equal to or above 150° C. 4. The temperature control apparatus as claimed in claim 3 , wherein the high boiler exhaust air stream is taken from the temperature control space at a temperature above 200° C. 5. The temperature control apparatus as claimed in claim 1 , wherein the high boiler exhaust air stream and the low boiler exhaust air stream can be taken off from the temperature control space at different process stages. 6. The temperature control apparatus as claimed in claim 1 , wherein the combustion device is a regenerative after-combustion device. 7. The temperature control apparatus as claimed in claim 1 , wherein the apparatus for pyrolysis has a preheating region and a reaction region. 8. The temperature control apparatus as claimed in claim 7 , wherein the apparatus for pyrolysis has a longitudinal axis along which the high boiler exhaust air stream flows during the pyrolysis and the apparatus for pyrolysis has an air duct which is designed for the high boiler exhaust air stream to be able to flow tangentially to this longitudinal axis into the apparatus for pyrolysis. 9. The temperature control apparatus as claimed in claim 7 , wherein the preheating region is at least in sections configured as a hollow cylinder. 10. The temperature control apparatus as claimed in claim 9 , wherein the reaction region is arranged at least partly within the hollow cylinder. 11. The temperature control apparatus as claimed in claim 7 , wherein a displacement body for influencing the flow velocity of the high boiler exhaust air stream is arranged within the reaction region. 12. The temperature control apparatus as claimed in claim 7 , wherein the reaction region can be heated by means of a burner. 13. The temperature control apparatus as claimed in claim 12 , wherein the burner is designed for heating the high boiler exhaust gas stream by at least 50 K. 14. A process for controlling the temperature of a surface-treated object, comprising a temperature control apparatus as claimed in claim 1 . 15. A temperature control apparatus for surface-treated objects, comprising: a) a temperature control space in which a temperature of a surface-treated object can be controlled, b) a high boiler exhaust air stream comprising high-boiling organic compounds from the temperature control space, c) a combustion device for thermal after-treatment of the high boiler exhaust air stream, wherein d) an apparatus for pyrolysis of the high boiler exhaust air stream is provided, wherein the apparatus for pyrolysis has a preheating region and a reaction region. 16. The temperature control apparatus as claimed in claim 15 , wherein the apparatus for pyrolysis is arranged between the temperature control space and the combustion device. 17. The temperature control apparatus as claimed in claim 15 , wherein the high boiler exhaust air stream which can be fed to the apparatus for pyrolysis comprises organic compounds having a boiling point equal to or above 150° C. 18. The temperature control apparatus as claimed in claim 17 , wherein the high boiler exhaust air stream is taken from the temperature control space at a temperature above 200° C. 19. The temperature control apparatus as claimed in claim 15 , having a low boiler exhaust air stream comprising low-boiling organic compounds having a boiling point below 200° C., wherein the low boiler exhaust air stream can be fed to the combustion device for thermal after-treatment, wherein the high boiler exhaust air stream and the low boiler exhaust air stream can be taken off from the temperature control space at different process stages. 20. The temperature control apparatus as claimed in claim 15 , wherein the combustion device is a regenerative after-combustion device. 21. The temperature control apparatus as claimed in claim 15 , wherein the apparatus for pyrolysis has a longitudinal axis along which the high boiler exhaust air stream flows during the pyrolysis and the apparatus for pyrolysis has an air duct which is designed for the high boiler exhaust air stream to be able to flow tangentially to this longitudinal axis into the apparatus for pyrolysis. 22. The temperature control apparatus as claimed in claim 15 , wherein the preheating region is at least in sections configured as a hollow cylinder. 23. The temperature control apparatus as claimed in claim 22 , wherein the reaction region is arranged at least partly within the hollow cylinder. 24. The temperature control apparatus as claimed in claim 15 , wherein a displacement body for influencing the flow velocity of the high boiler exhaust air stream is arranged within the reaction region. 25. The temperature control apparatus as claimed in claim 15 , wherein the reaction region can be heated by means of a burner. 26. The temperature control apparatus as claimed in claim 25 , wherein the burner is designed for heating the high boiler exhaust gas stream by at least 50 K. 27. A process for controlling the temperature of a surface-treated object, comprising a temperature control apparatus as claimed in claim 15 .