Method and apparatus for controlling the pressure in the exhaust gas duct of a converter

1 - 12 . (canceled) 13 . A method for controlling pressure in an exhaust gas duct ( 110 ) of a converter ( 100 ) in a steel mill to a defined pressure setpoint by the appropriate adjustment of control variables, characterized by the following steps for determining the pressure setpoint: defining a raw value for the pressure setpoint dependent on a measured degree of openness of an adjustment ring ( 122 ) at a converter mouth ( 120 ), and determining the pressure setpoint by adaptation of the raw value in form of an increase of the raw value when an extent of smoke or flame formation at the mouth ( 120 ) of the converter is reduced, and vice versa. 14 . The method according to claim 13 , characterized in that the extent of smoke and flame formation is determined by analyzing image material that shows the current smoke and flame formation at the mouth ( 120 ) of the converter during a converter operation. 15 . The method according to claim 14 , characterized in that, in the image material analysis, essentially only portions in the infrared spectral range are analyzed, while interference signals in the visible spectral range are suppressed. 16 . The method according to claim 13 , characterized in that the raw value is further adapted so that the raw value is decreased when the quantity of oxygen that is supplied is increased, and vice versa. 17 . The method according to claim 13 , characterized in that the control variables are used either solely for actuating a damper ( 112 ) or for simultaneously actuating the damper ( 112 ) and a suction fan ( 114 ) in the exhaust gas duct of the converter. 18 . An apparatus in a steel mill that has a converter ( 100 ) for melting metallic material ( 300 ), said apparatus comprising: a pressure control loop ( 200 ) for controlling the pressure in the exhaust gas duct ( 110 ) of the converter ( 100 ) to a defined pressure setpoint by the appropriate adjustment of control variables for control elements ( 112 , 114 ) in the exhaust gas duct, wherein a pressure setpoint calculation unit ( 210 ) is assigned to the pressure control loop ( 200 ); characterized in that: a mouth ( 120 ) of the converter is equipped with a variably positionable adjustment ring ( 122 ) for opening and closing the converter mouth ( 120 ) in the transition to an exhaust gas duct ( 110 ); a position measuring device ( 150 ) is provided for detecting an opening position of the adjustment ring at the converter mouth; a conversion device ( 160 ) is provided for converting different detected opening positions to a raw value for the pressure setpoint; an image device ( 130 ) is provided for generating image material that shows the converter mouth ( 120 ) and the area surrounding it during operation of the converter; an image analysis device ( 132 ) is provided for analyzing the image material to determine the extent of smoke and flame formation at the converter mouth ( 120 ); and the pressure setpoint calculation unit ( 210 ) is designed to calculate the pressure setpoint by adapting a defined raw value (R) for the pressure setpoint based on the extent of smoke and flame formation at the mouth ( 120 ) of the converter ( 100 ). 19 . The apparatus according to claim 18 , characterized in that the image capturing device ( 130 ) is a CMOS camera system, preferably with an IR filter. 20 . The apparatus according to claim 18 , characterized in that an oxygen detection device ( 140 ) is provided for detecting the quantity of active oxygen that is supplied to the converter ( 100 ); and the pressure setpoint calculation unit ( 210 ) is further designed to calculate the pressure setpoint by adapting the raw value so that the raw value is decreased when the quantity of oxygen that is supplied is increased, and vice versa.