Sliding transport of rolled product with adaptation of friction

The invention claimed is: 1. A control method for a pinch roll that delivers a plurality of rolled products on a cooling bed, comprising: using the pinch roll to deliver each rolled product; for each rolled product, using a control device to open the pinch roll at a respective trigger time and at a respective transport speed of the rolled product; for each rolled product, after opening the pinch roll, using a measuring device to iteratively detect a position or a derivation in time of the position of the rolled product; for each rolled product, providing to the control device the position detected or the derivation in time detected; for each rolled product, using the control device to update a coefficient of friction between the rolled product and the cooling bed, the coefficient of friction being updated in dependency on the position detected or the derivation in time detected; and for a next rolled product to be delivered by the pinch roll, using the updated coefficient of friction to determine at least one of the respective trigger time and the respective transport speed for the next rolled product, the at least one of the respective trigger time and the respective transport speed being determined based on a model that depends on the updated coefficient of friction between the rolled product and the cooling bed. 2. The control method according to claim 1 , wherein the rolled products are bar-shaped rolled products. 3. The control method according to claim 2 , wherein the measuring device detects the position or the derivation in time without contacting the rolled product. 4. The control method according to claim 3 , wherein the measuring device is an optical measuring device. 5. The control method according to claim 4 , wherein the measuring device is a laser gauge meter. 6. The control method according to claim 1 , wherein the measuring device detects the position or the derivation in time without contacting the rolled product. 7. The control method according to claim 6 , wherein the measuring device is an optical measuring device. 8. The control method according to claim 7 , wherein the measuring device is a laser gauge meter. 9. The control method according to claim 1 , further comprising: for each rolled product, detecting a final position of the product; and for each rolled product, providing the final position to the control device, wherein in addition to the position detected or the derivation in time detected, the control device updates the coefficient of friction for each rolled product in dependency on the final position. 10. The control method according to claim 1 , further comprising: for each rolled product, detecting a final position of the rolled product; and for each rolled product, providing the final position to the control device, wherein in addition to the position detected or the derivation in time detected, the control device updates the coefficient of friction for each rolled product in dependency on the final position. 11. The control method according to claim 1 , wherein the control device determines both the respective trigger time and the respective transport speed based on the model. 12. A control device comprising: at least one processor, configured to execute the instructions stored in the memory to: open a pinch roll that delivers a plurality of rolled products on a cooling bed, the pinch roll being opened for each rolled product, the pinch roll being opened at a respective trigger time and at a respective transport speed of the rolled product; iteratively detect, for each rolled product, a position of the rolled product or a derivation in time of the position of the rolled product, the position or the derivation in time being detected for each rolled product after opening the pinch roll; determine, for each rolled product, an updated coefficient of friction between the rolled product and the cooling bed, the coefficient of friction being updated in dependency on the position detected or the derivation in time detected; and use the updated coefficient of friction for a next rolled product to be delivered by the pinch roll, to determine at least one of the respective trigger time and the respective transport speed for the next rolled product, the at least one of the respective trigger time and the respective transport speed being determined based on a model that depends on the updated coefficient of friction between the rolled product and the cooling bed. 13. A transport device for transporting rolled products, comprising: a pinch roll that delivers a plurality of rolled products on a cooling bed; a measuring device to iteratively detect, for each rolled product, a position or a derivation in time of the position of the rolled product, the position or the derivation in time of the position being detected after opening the pinch roll; and a control device comprising: at least one processor, configured to: open the pinch roll for each rolled product, the pinch roll being opened at a respective trigger time and at a respective transport speed of the rolled product; determine, for each rolled product, an updated coefficient of friction between the rolled product and the cooling bed, the coefficient of friction being updated in dependency on a position of the rolled product or a derivation in time of the position of the respective rolled product; and use the updated coefficient of friction for a next rolled product to be delivered by the pinch roll, to determine at least one of the respective trigger time and the respective transport speed for the next rolled product, the at least one of the respective trigger time and the respective transport speed being determined based on a model that depends on the updated coefficient of friction between the rolled product and the cooling bed. 14. The transport device according to claim 13 , wherein the control device determines both the respective trigger time and the respective transport speed based on the model. 15. The control device according to claim 12 , wherein the control device determines both the respective trigger time and the respective transport speed based on the model.