Method and device for repairing a refractory shell of a metallurgical vessel

The invention claimed is: 1. A method for repairing a refractory sleeve in a metallurgical vessel, which is fitted in a refractory lining of the vessel or in a mechanism, comprising: inserting mortar into and then retaining the mortar in a plurality of axially extending mortar spaces of a mortar dispenser that are separated from one another and each having an opening only on a radial outward side and being bound by structure on a radial inward side, on opposed axial ends and on opposed circumferential sides, the mortar being inserted through the open radial outward side; inserting the mortar dispenser into a casting channel of the sleeve after the mortar has been inserted into the mortar spaces and while the mortar is retained in the mortar spaces; and then rotating the mortar dispenser to cause the mortar that has been inserted into all of the mortar spaces and is retained in all of the mortar spaces of the mortar dispenser to be centrifuged at the same time out of the mortar spaces and applied to a length of an inner wall of the sleeve corresponding to a length between the structure on the opposed axial ends of the mortar dispenser, the mortar being conveyed outward from the mortar dispenser into a cavity formed between the mortar dispenser and the inner wall of the sleeve. 2. The method according to claim 1 , further comprising rotating the mortar dispenser, when applying the mortar to the inner wall of the sleeve, with a rotation speed such that a sufficient amount of the mortar is conveyed or sprayed onto the inner wall of the sleeve to fill the cavity. 3. The method according to claim 1 , further comprising, after the mortar dispenser is inserted into the casting channel of the sleeve, rotating the mortar dispenser in the casting channel for a certain time after spraying during the application of the mortar. 4. The method according to claim 3 , wherein the mortar dispenser is rotated in the casting channel of the sleeve for a specific amount of time dependent upon composition of the mortar. 5. The method according to claim 1 , wherein upon removing the rotating mortar dispenser from the casting channel, an amount of the mortar sprayed onto the inner wall of the channel is wiped away helically by the mortar dispenser. 6. The method according to claim 1 , further comprising setting the rotational speed of the mortar dispenser dependently upon composition of the mortar and structure and composition of the inner wall. 7. The method according to claim 1 , wherein the mortar is applied to the sleeve at a sleeve temperature of over 300° C. 8. The method according to claim 1 , further comprising, in order to repair the sleeve of a casting ladle with a slide closure adjoining a spout of the ladle, maintaining the sleeve automatically by a robot in a maintenance station of a casting facility, the mortar being applied to the sleeve during maintenance of the slide closure in the maintenance station, the mortar dispenser being automatically positioned and driven in order to manipulate the slide closure. 9. An apparatus for implementing the method according to claim 1 , wherein the mortar dispenser is formed by a cylindrical section of pipe rotating about a longitudinal axis with the mortar spaces lying on an outside of the section of pipe and being distributed around a circumference of the section of pipe, an amount of mortar being inserted into the mortar spaces corresponding approximately to the cavity formed between the mortar dispenser and the inner wall of the sleeve. 10. The apparatus according to claim 9 , wherein the section of pipe of the mortar dispenser is formed with longitudinally directed blades, the structure on the opposed circumferential sides of the mortar spaces comprising the blades, the length of the blades corresponds to the casting channel length of the sleeve to be repaired, wherein an outside diameter of the section of pipe, defined by the blades, is equal to a target value of a casting channel diameter of the sleeve after the repair. 11. The apparatus according to claim 10 , wherein the blades are slightly convexly curved in the direction of rotation of the section of pipe. 12. The apparatus according to claim 10 , wherein the mortar spaces between the blades are fillable with mortar mass individually or together by a mortar feed device disposed in an extension of the section of pipe. 13. The apparatus according to claim 11 , wherein the mortar spaces between the blades are fillable with mortar mass individually or together by a mortar feed device disposed in an extension of the section of pipe. 14. The method according to claim 2 , further comprising, upon removing the rotating mortar dispenser from the casting channel, wiping away the mortar mass sprayed onto the inner wall helically by the mortar dispenser. 15. The method according to claim 1 , wherein the mortar dispenser is formed by a section of pipe with the mortar spaces lying on an outside of the section of pipe, the section of pipe includes blades extending axially between first and second end flanges to define an elongate space between each adjacent pair of the blades and the first and second end flanges, the elongate spaces constituting the mortar spaces, the structure on the opposed circumferential sides of the mortar spaces comprising the blades and the structure on the opposed axial ends of the mortar spaces comprising the first and second end flanges, the step of inserting mortar into the mortar spaces of the section of pipe of the mortar dispenser comprising filling the mortar spaces through the open radial outward side of each of the mortar spaces until the mortar in the mortar spaces is flush with an outer circumference of the blades. 16. The method according to claim 1 , wherein the mortar dispenser is formed by a section of pipe with the mortar spaces lying on an outside of the section of pipe, the section of pipe includes blades extending axially between first and second end flanges to define an elongate space between each adjacent pair of the blades and the first and second end flanges, the elongate spaces constituting the mortar spaces, the structure on the opposed circumferential sides of the mortar spaces comprising the blades and the structure on the opposed axial ends of the mortar spaces comprising the first and second end flanges. 17. The method according to claim 1 , wherein the structure on the opposed axial ends of the mortar spaces comprises first and second end flanges of the mortar dispenser spaced apart from one another in an axial direction of the mortar dispenser, the structure on the opposed circumferential sides of the mortar spaces comprises longitudinally extending blades, and the structure on the radial inward side of the mortar spaces comprises a solid portion of a pipe of the mortar dispenser, the mortar, after being inserted into the mortar spaces through the open radial outward side, being retained in the mortar spaces by the first and second end flanges, the blades, and the solid portion of the pipe. 18. The method according to claim 1 , wherein the step of inserting mortar into the mortar spaces of the section of pipe of the mortar dispenser comprises manually pouring the mortar into the mortar spaces of the section of pipe through the open radial outward side of each of the mortar spaces. 19. The method according to claim 17 , wherein the blades have a length between the first and second end flanges that corresponds to the length of the inner wall of the sleeve, the mortar dispenser being rotated to cause the mortar in all of the mortar s