Method for determining the position of mutual contact between a printing roller and at least one counter roller

The invention claimed is: 1. A method for determining the position of mutual contact between a printing roller ( 40 ) and at least one counter roller ( 30 ; 50 ), wherein the printing roller ( 40 ) and the counter roller ( 30 ; 50 ) to be placed in contact with said printing roller ( 40 ) are both arranged in a flexographic printing press ( 10 ), wherein the printing roller ( 40 ) is arranged between two counter rollers ( 30 ; 50 ), of which one counter roller ( 30 ) is in the form of a central drum ( 30 ) and the other counter roller ( 50 ) is in the form of an inking roller ( 50 ), wherein the printing roller ( 40 ) and both of the counter rollers ( 30 ; 50 ) to be placed in contact with said printing roller ( 40 ) each have a first electric motor ( 31 ; 41 ; 51 ) and can be moved in rotation, each by means of its respective first electric motor ( 31 ; 41 ; 51 ), wherein each of these first electric motors ( 31 ; 41 ; 51 ) has a first encoder ( 32 ; 42 ; 52 ), wherein at least the printing roller ( 40 ) and the inking roller ( 50 ) each have a second electric motor ( 43 ; 53 ) and can be moved translationally, each by means of its respective second electric motor ( 43 ; 53 ), in the direction (D) of a mutual approach between the printing roller ( 40 ) and the counter roller ( 30 ; 50 ) to be placed in contact with said printing roller ( 40 ), wherein each of these second electric motors ( 43 ; 53 ) has a second encoder ( 44 ; 54 ), and wherein the method comprises the following steps: (a) moving the counter roller ( 30 ; 50 ) that is to be placed in contact with the printing roller ( 40 ) in rotation by means of its respective first electric motor ( 31 ; 51 ) while the printing roller ( 40 ), which is arranged spaced from said counter roller ( 30 ; 50 ), is left in a predetermined angular position and not rotating; (b) moving the non-rotating printing roller ( 40 ) translationally in the direction D toward the counter roller ( 30 ; 50 ) that is to be placed in contact with the printing roller ( 40 ), by means of the corresponding second electric motor ( 43 ; 53 ); (c) detecting at least one non-zero value of a parameter by means of the first encoder ( 42 ) of the corresponding first electric motor ( 41 ) of the printing roller ( 40 ), wherein this parameter indicates an idling rotation induced by the mutual contact between the counter roller ( 30 ; 50 ) that has been placed in contact with the printing roller ( 40 ) and the printing roller ( 40 ); (d) determining the position of mutual contact between the printing roller ( 40 ) and the counter roller ( 30 ; 50 ) that has been placed in contact with the printing roller ( 40 ), based on the value of the detected parameter; characterized by the following steps: (e) changing the previous angular position of the printing roller ( 40 ) by a non-zero angle; (f) repeating steps (a) to (d) and determining the corresponding position of mutual contact between the printing roller ( 40 ) and the counter roller ( 30 ; 50 ) that has been placed in contact with said printing roller ( 40 ) for the angular position of the printing roller ( 40 ) that was changed in step (e); (g) calculating an average position of mutual contact between the printing roller ( 40 ) and the counter roller ( 30 ; 50 ) that has been placed in contact with said printing roller ( 40 ), on the basis of every position of mutual contact between the printing roller ( 40 ) and the counter roller ( 30 ; 50 ) that has been placed in contact with said printing roller ( 40 ), determined for a specific angular position of the printing roller ( 40 ), wherein the position of mutual contact between the printing roller ( 40 ) and the counter roller ( 30 ; 50 ) that has been placed in contact with said printing roller ( 40 ) is determined for each axial end of the printing roller ( 40 ) independently of the other end, and the average position of mutual contact between the printing roller ( 40 ) and the counter roller ( 30 ; 50 ) that has been placed in contact with said printing roller ( 40 ) is calculated for each axial end of the printing roller ( 40 ) independently of the other end. 2. The method according to claim 1 , characterized in that each of the specified angular positions of the printing roller ( 40 ) is defined on the basis of a location in the relief of a cliche which is arranged on the lateral surface of the printing roller ( 40 ). 3. The method according to claim 1 , characterized in that the determination of the position of mutual contact between the printing roller ( 40 ) and the counter roller ( 30 ; 50 ) to be placed in contact with said printing roller ( 40 ), which is carried out in step (d), comprises the following steps: (d1) comparing the value of the detected parameter with a previously defined range of values for that parameter; (d2) measuring the distance traveled by the printing roller ( 40 ) or by the counter roller ( 30 ; 50 ) to be placed in contact with said printing roller ( 40 ) in its respective translational movement up to the position of mutual contact between the printing roller ( 40 ) and the counter roller ( 30 ; 50 ) that has been placed in contact with said printing roller ( 40 ), by means of the second encoder ( 44 ; 54 ) of the second electric motor ( 43 ; 53 ) which drives the relevant translational movement; (d3) determining the position of mutual contact between the printing roller ( 40 ) and the counter roller ( 30 ; 50 ) that has been placed in contact with said printing roller ( 40 ), based on the distance measured in step (d2), if the value of the detected parameter is within the previously defined value range for that parameter. 4. The method according to claim 1 , characterized in that as the parameter to be detected according to step (c), an angular momentum of the printing roller ( 40 ) is detected, wherein this angular momentum is imparted to the printing roller ( 40 ) by the respective counter roller ( 30 ; 50 ). 5. The method according to claim 1 , characterized in that the position of mutual contact between the printing roller ( 40 ) and the counter roller ( 30 ; 50 ) to be placed in contact with said printing roller ( 40 ) is determined by means of the respective second encoder ( 44 , 54 ) of each second electric motor ( 43 , 53 ), each independently of the other, when the printing roller ( 40 ) and the counter roller ( 30 ; 50 ) to be placed in contact with said printing roller ( 40 ) are moved translationally, each by its respective second electric motor ( 43 ; 53 ). 6. The method according to claim 1 , characterized in that the calculated position of mutual contact between the printing roller ( 40 ) and the counter roller ( 30 ; 50 ) that has been placed in contact with said printing roller ( 40 ) is used in a printing process carried out by the flexographic printing press ( 10 ). 7. A flexographic printing press ( 10 ) comprising at least one printing roller ( 40 ) arranged between two counter rollers ( 30 ; 50 ), the one counter roller ( 30 ) being in the form of a central drum ( 30 ) and the other counter roller ( 50 ) being in the form of an inking roller ( 50 ), wherein the printing roller ( 40 ) and both of the counter rollers ( 30 ; 50 ) to be placed in contact with said printing roller ( 40 ) each have a first electric motor ( 31 ; 41 ; 51 ) and can be rotated, each by means of its respective first electric motor ( 31 ; 41 ; 51 ), wherein each of these first electric motors ( 31 ; 41 ; 51 ) has a first encoder ( 32 ; 42 ; 52 ), wherein at least the printing roller ( 40 ) and the inking roller ( 50 ) each have a second electric motor ( 43 ; 53 ) and can be moved translationally, each by means of its respective second electric motor ( 43 ; 53 ), in the direction (D) of a mu