Method and system for compensating for electrode burn-off in an arc furnance

1 . A method to compensate for the burn-off of an electrode in an electric arc furnace, having the steps: detecting (S 1 ) at least an upper electrode end and a holding position (H 1 ) of the electrode held by a holding apparatus with the aid of a sensor apparatus; determining (S 2 ) a first distance (D 2 ) on the basis of the data generated during the detection, the first distance (D 2 ) being determined between an upper electrode end and the first holding position (H 1 ), a second holding position (H 2 ) is determined on the basis of at least the first distance (D 2 ), a predetermined connecting position (V) at which two segments (E 1 , E 2 ) of the electrode are connected to one another, and a predetermined connecting region (B), verifying that the electrode is being supported on a supporting apparatus, and repositioning (S 4 ) the holding apparatus relative to the electrode from the first holding position (H 1 ) to the second holding position (H 2 ) which has been determined. 2 . The method as claimed in claim 1 , wherein, a first distance (D 2 ) between an upper electrode end and a marking applied on the electrode is determined on the basis of the data generated during the detection, and the determination of the second holding position (H 2 ) is based thereon. 3 . The method as claimed in claim 1 , wherein, the data generated during the detection contain a profile (A) of a horizontal distance (D 1 ) between the electrode and/or the holding apparatus on the one hand, and the sensor apparatus on the other hand, and the second holding position (H 2 ) is determined on the basis of the profile (A). 4 . The method as claimed in claim 1 , wherein, a pressure signal or an optical sensor device is used to verify that the electrode is being supported on the supporting apparatus before the holding apparatus is repositioned from the first holding position (H 1 ) to the second holding position (H 2 ). 5 . The method as claimed in claim 1 , wherein, a residual length of the electrode is determined on the basis of the data generated during the detection and is output (S 3 ). 6 . The method as claimed in claim 7 , wherein, the residual length is determined on the basis of a second distance between the first holding position (H 1 ) and the supporting apparatus. 7 . The method as claimed in claim 7 , wherein, the residual length of the electrode which has been determined is checked after each melting cycle in the electric arc furnace and the second holding position (H 2 ) is determined as a function of a result of the check. 8 . The method as claimed in claim 1 , wherein, the electrode is displaced vertically with the aid of the holding apparatus in order to detect at least a part of the electrode. 9 . The method as claimed in claim 1 , wherein, the sensor apparatus is displaced vertically with the aid of a supporting apparatus in order to detect the at least one part of the electrode. 10 . The method as claimed in claim 1 , wherein, at least a part of the electrode is detected several times in succession and the second holding position (H 2 ) is determined on the basis of averaging the data thereby respectively generated. 11 . The method as claimed in claim 1 , wherein, a measure of the reliability of the data generated during the detection is determined during the detection of at least a part of the electrode. 12 . The method as claimed in claim 1 , wherein, the sensor apparatus has a camera or a laser sensor, with which at least a part of the electrode is detected. 13 . The method as claimed in claim 1 , wherein, a number of a plurality of electrodes are held with the aid of the holding apparatus, and the sensor apparatus has a corresponding number of laser sensors with which at least a part of one of the electrodes is respectively detected. 14 . A system to compensate for the burn-off of an electrode in an electric arc furnace, having: a holding apparatus, which is adapted to hold the electrode at a first holding position (H 1 ); a sensor apparatus, which is adapted to detect at least a region from an upper electrode end as far as the first holding position (H 1 ); a processing apparatus, which is adapted to verify that the electrode is being supported on a supporting apparatus, the processing apparatus furthermore being adapted to determine a second holding position (H 2 ) on the basis of the data generated during the detection, at least the upper electrode end and the first holding position (H 1 ) being contained in the generated data, as well as of a predetermined connecting position (V) at which two segments (E 1 , E 2 ) of the electrode are connected to one another, and of a predetermined connecting region (B); and a control apparatus, which is adapted to induce repositioning of the holding apparatus relative to the electrode from the first holding position (H 1 ) to the second holding position (H 2 ) which has been determined. 15 . A system to compensate for the burn-off of an electrode in an electric arc furnace as claimed in claim 14 , wherein, a number of a plurality of electrodes are held with the aid of the holding apparatus, and the sensor apparatus has a corresponding number of laser sensors and/or cameras. 16 . A system to compensate for the burn-off of an electrode in an electric arc furnace as claimed in claim 14 , wherein, the sensor apparatus has a camera or a laser sensor. 17 . A system to compensate for the burn-off of an electrode in an electric arc furnace as claimed in claim 14 , wherein, the processing apparatus is adapted to verify with the aid of a signal of a pressure measuring apparatus or by data of the sensor device that the electrode is being supported on the supporting apparatus, before the holding apparatus is repositioned from the first holding position (H 1 ) to the second holding position (H 2 ).