Method for producing rolling stock by means of a combined continuous casting and rolling system, control device for a combined continuous casting and rolling system, and combined continuous casting and rolling system

What is claimed is: 1. A method for producing rolling stock using a combined continuous casting and rolling system comprising a casting device for casting metal and a roll train having at least one roll stand for hot forming the rolling stock, the method comprising: casting the metal and rolling the cast metal using a casting machine to form a hot rolling stock having two different thicknesses for different sections of the hot rolling stock in a longitudinal direction, continuously feeding the hot rolling stock having two different thicknesses in the longitudinal direction from the casting machine to a looper including a pair of S-rolls rotating about a pivot point between the pair of S-rolls, rotation of the pair of S-rolls compensating for mass flow fluctuations caused by thickness changes in the hot rolling stock as an accumulator and then to the roll train, and rolling the hot rolling stock with the roll train according to two predetermined target thicknesses for different sections of the hot rolling stock in a longitudinal direction, wherein the predetermined target thicknesses have at least two different target thicknesses for different sections in a longitudinal direction of the rolling stock exiting the roll train, the thicknesses being defined such that at least one of a first target thickness and a second target thickness is set at least twice, and wherein the combined continuous casting and rolling system is operated such that an infeed rate of the rolling stock to the at least one roll stand is set to less than 7 meters per second and the rolling stock extends continuously between the casting device and the roll train. 2. The method of claim 1 , wherein the predetermined thicknesses define, in addition to the at least two different target thicknesses, associated target roll forces or target roll gap openings. 3. The method of claim 1 , wherein the thicknesses define recurring changes in thickness in the longitudinal direction of the rolling stock. 4. The method of claim 1 , comprising operating the casting device such that the casting device has predetermined actual thicknesses for the rolling stock that matches the target thicknesses before it enters the roll train. 5. The method of claim 1 , comprising detecting a rolled thickness of the rolling stock by a thickness measuring device following the roll train in the mass flow direction, and setting at least one final control element for the at least one roll stand as a function of the detected thickness and the predetermined thicknesses. 6. The method of claim 1 , comprising using a flatness measuring device following the roll train in the mass flow direction to detect a flatness of the rolling stock, and setting a bending cylinder for the roll train as a function of the detected flatness and predetermined thicknesses. 7. The method of claim 1 , the roll train comprising at least one roll stand having a set of work rolls that have a diameter of less than 800 millimeters, the roll train setting the thicknesses. 8. The method of claim 7 , wherein the infeed rate is set and the at least one roll stand designed such that a ratio of an infeed rate of the rolling stock into the at least one roll stand to a maximum adjustment rate of work rolls of the at least one roll stand for influencing the thickness of the rolling stock is less than 3500. 9. The method of claim 1 , wherein the casting device comprises a twin-roll casting machine or a direct strip casting machine. 10. The method of claim 1 , wherein the combined continuous casting and rolling system is operated such that an infeed rate of the rolling stock to the at least one roll stand is set to less than 5 meters per second. 11. The method of claim 1 , wherein the combined continuous casting and rolling system is operated such that an infeed rate of the rolling stock to the at least one roll stand is set to between 1 meters per second and 4 meters per second. 12. The method of claim 1 , wherein the infeed rate is set and the at least one roll stand designed such that the ratio of the infeed rate of the rolling stock into the at least one roll stand to a maximum adjustment rate of work rolls of the at least one roll stand for influencing the thickness of the rolling stock is less than 2000. 13. The method of claim 1 , wherein the infeed rate is set and the at least one roll stand designed such that the ratio of the infeed rate of the rolling stock into the at least one roll stand to a maximum adjustment rate of work rolls of the at least one roll stand for influencing the thickness of the rolling stock is between 200 and 1500. 14. A method for processing stock with a combined continuous casting and rolling system having a casting device and a roll train with at least one roll stand for hot forming the stock, the method comprising: casting the stock according to a specified thickness progression; feeding the cast stock to the roll train, wherein the stock extends continuously between the casting device and the roll train; compensating for mass flow fluctuations caused by thickness changes in the hot rolling stock with a looper including a pair of S-rolls rotating about a pivot point between the pair of S-rolls, rotation of the pair of S-rolls adjusting the length of strip fed to the roll train; and hot rolling the stock according to a progression of predetermined target thicknesses; wherein the progression includes at least two different target thicknesses for different sections along a length of the stock, such that the target thickness is set at least twice; and an infeed rate of the stock to the roll stand is less than 7 meters per second.