Oxidation furnace

1 - 14 . (canceled) 15 . An oxidation furnace for an oxidative treatment of fibres, comprising: a) a housing which, apart from passage regions for the fibres, is gas-tight; b) a process chamber situated in an interior of the housing; c) an atmosphere device by which a hot working atmosphere is generated and blown into the process chamber; d) deflecting rollers arranged outside the process chamber in deflecting regions to guide the fibres side by side as a fibre carpet through the process chamber in a serpentine manner, wherein the fibre carpet spans a plane between opposing deflecting rollers; and e) a fibre cooling device arranged to cool in a targeted manner, outgoing fibre carpets of outgoing fibres which have left the process chamber and are on a path to a deflecting roller the fibre carpets reach the deflecting roller. 16 . The oxidation furnace according to claim 15 , wherein the outgoing fibres are exposed by the fibre cooling device to a cooling gas which has a lower temperature than the outgoing fibres. 17 . The oxidation furnace according to claim 15 , wherein the fibre cooling device comprises an intake system with which a cooling gas is taken in so that the cooling gas flows to the outgoing fibre carpets. 18 . The oxidation furnace according to claim 17 , wherein the intake system comprises a plurality of intake devices each having a suction side with at least one intake opening, wherein at least one intake device faces each outgoing fibre carpet. 19 . The oxidation furnace according to claim 18 , wherein the intake system for each outgoing fibre carpet comprises at least one intake device above and at least one intake device below a common outgoing fibre carpet, wherein the suction sides thereof are in each case opposite one another and face a common outgoing fibre carpet. 20 . The oxidation furnace according to claim 18 , wherein the intake devices are intake boxes which are connected by way of at least one intake line to at least one negative pressure source. 21 . The oxidation furnace according to claim 19 , wherein the deflecting regions are situated outside the housing and the intake devices are arranged in the deflecting regions. 22 . The oxidation furnace according to claim 18 , further comprising a conveyor system, by which cooling gas which has been taken in and heated by the outgoing fibres is transported away and fed to a further use. 23 . The oxidation furnace according to claim 22 , wherein the cooling gas which has been taken in and heated by the outgoing fibres is conveyed to the atmosphere device. 24 . The oxidation furnace according to claim 23 , wherein the atmosphere device comprises at least one heating unit to which the cooling air which has been taken in and heated by the outgoing fibres is fed as combustion air. 25 . The oxidation furnace according to claim 15 , wherein the fibre cooling device comprises a blowing system with which outgoing fibres blown with cooling gas in a targeted manner. 26 . The oxidation furnace according to claim 25 , wherein the blowing system comprises a plurality of blowing devices each having a blowing side with at least one blowing opening, wherein at least one blowing device faces each outgoing fibre carpet. 27 . The oxidation furnace according to claim 26 , wherein the blowing system for each outgoing fibre carpet comprises at least one blowing device above and at least one blowing device below a common outgoing fibre carpet, wherein blowing sides of the blowing devices are in each case opposite one another and face a common outgoing fibre carpet. 28 . The oxidation furnace according to claim 26 , wherein the blowing devices are blowing boxes which are connected by at least one blowing line to a cooling gas source.