Method and apparatus for producing flat metal products

The invention claimed is: 1. A method for the production of flat metal products in endless and/or semi-endless mode, the method comprising: continuously feeding a metal product to a rolling mill including at least first through fourth rolling stands, in which the rolling stands include roughing stands and subsequently finishing stands; and performing a flying gauge change of the metal product exiting from the rolling mill without interrupting the rolling process, without modifying a rotation speed of rollers of at least the first rolling stand and without modifying a gap between the rollers of at least the first rolling stand, during the flying gauge change of the metal product. 2. The method as in claim 1 , wherein the flying gauge change is applied also without modifying the speed of material fed to the rolling mill. 3. The method as in claim 1 , wherein performing the flying gauge change comprises employing a number of rolling stands starting from a last one of the finishing stands of the at least first through fourth rolling stands the number of rolling stands employed being calculated by taking into account a distribution of a rolling force of each stand of the at least first through fourth rolling stands, so that a new distribution of forces due to the thickness change does not cause the value of the rolling force of any stand of the at least first through fourth rolling stands required to perform the flying gauge change to exceed an acceptable tolerance range. 4. The method as in claim 3 , wherein in the event the new distribution of rolling forces due to the flying change determines the exit from an acceptable tolerance range, then at least a new rolling stand located upstream of those already provided will be involved in the thickness change process. 5. The method of claim 1 , wherein the flying gauge change comprises a change of thickness. 6. The method as in claim 5 , wherein the change of thickness comprises applying a new set-up of parameters to transition from an initial thickness to a subsequent thickness. 7. The method of claim 6 , wherein the new set-up of parameters includes the gap between rollers, the rotation speed of the rollers, and inter-stand tension, to all of the rolling stands involved in the flying gauge change. 8. The method as in claim 7 , wherein the application of the new set-up of gap between the rollers, speed of the rollers and inter-stand tension to the rolling stands involved in the flying gauge change occurs in the following manner: a first step in which the new target thickness and a new rotation speed reference for the rollers of the rolling stands, are applied, and a second step in which a new inter-stand tension is applied by means of loopers or tensioners. 9. The method as in claim 8 , wherein when a section of the metal product affected by the thickness change reaches a specific stand (n th stand) of the at least first through fourth rolling stands, the gap of that specific stand is modified from the current gap to a new gap calculated to produce the subsequent thickness with an unmodified inter-stand tension, and the speed of that specific stand is increased, or decreased, as a function of the new thickness in order to maintain constant mass-flow (thickness×speed). 10. The method as in claim 9 , wherein the inter-stand tension is modified when the section involved in the thickness change reaches a subsequent stand (n+1 th ) of the at least first through fourth rolling stands and is engaged with both the specific stand (n th stand) and the subsequent stand (n+1 th ), and the gap and the speed of the specific stand (n th stand) are adjusted along with the modification of the inter-stand tension, thereby completing the transition to the new set-up for the specific stand (n th stand). 11. The method as in claim 6 , wherein the transition from the initial thickness to the subsequent thickness occurs by simultaneously applying a new set-up to at least one of the rolling stands other than the first rolling stand. 12. The method as in claim 6 , wherein the new set-up of respective parameters are conducted in a progressively increasing or decreasing manner.