Machine for fitting and removing a tyre and method for operating the machine

The invention claimed is: 1. A machine for fitting and removing a tyre from a corresponding rim of a vehicle wheel, comprising: a wheel-holder unit rotating about a first axis; at least one bead breaker tool, movable along a second axis parallel to the first axis; a roller rotating about a fourth axis parallel to the first axis and configured to move by rotation about a fifth axis spaced from the fourth axis, between an active position, wherein it is in contact with a tyre tread of the wheel mounted on the wheel-holder unit, to a position of non-interference relative to the tyre; at least one sensor connected to the roller for detecting a signal representing a force transmitted to the roller by the tyre; a removal tool, which is movable between a first position proximal to the first axis and a second position distal from the first axis, and is movable in a direction parallel to the first axis. 2. The machine according to claim 1 , comprising a second control unit connected to a locking mechanism configured to block the movement of the removal tool towards and away from the first axis, without limiting a movement of the removal tool along the direction parallel to the first axis and the rotation around the sixth axis. 3. The machine according to claim 1 , comprising a locking mechanism configured to block the movement of the removal tool towards and away from the first axis and the movement of the removal tool along the direction parallel to the first axis. 4. The machine according to claim 1 , comprising a protective shell positioned to cover at least one portion of the roller, which is movable relative to the roller and defining a contact element which can be positioned in contact with the tyre of the wheel mounted on the wheel-holder unit. 5. The machine according to claim 1 , comprising: a connecting structure to movably connect the roller to the frame; at least one force sensor connected to the roller for measuring values of a force parameter representing a radial force transmitted to the roller by the tyre; at least one position sensor configured to measure values of a position parameter representing a position of the roller relative to the frame; a processing unit connected to the at least one force sensor and to the at least one position sensor. 6. A method of using a machine for fitting and removing a tyre from a corresponding rim of a vehicle wheel, having: a wheel-holder unit rotating about a first axis; at least one bead breaker tool, movable along a second axis parallel to the first axis; a roller rotating about a fourth axis; at least one sensor connected to the roller for detecting a signal representing a force transmitted to the roller by the tyre; a removal tool, wherein the method comprises the following steps: activating the roller, by rotating it about a fifth axis spaced from the fourth axis, from a non-interference position relative to the tyre to an active position where it is in contact with the tyre tread; activating the removal tool, by moving it from a position of non-interference relative the wheel to an active position, where it is operationally active on the tyre; adjustment of the removal tool, by moving it in a direction parallel to the first axis. 7. The method according to claim 6 , comprising a step of moving, relative to the roller, a protective shell, which is configured for covering at least one portion of the roller and defines a contact element which can be positioned in contact with the tyre of the wheel mounted on the wheel-holder unit. 8. A wheel service machine, comprising: a frame; a wheel-holder unit rotating about a first axis; a roller rotating about an axis parallel to the first axis and movable towards and away from the wheel-holder unit along an operating trajectory such that the axis of the roller remains parallel to the first axis, between a position of non-interference with the tyre of a wheel mounted on the wheel-holder unit and an active position where it applies a predetermined force to the tyre tread; a connecting structure to movably connect the roller to the frame; at least one force sensor connected to the roller for measuring values of a force parameter representing a radial force transmitted to the roller by the tyre; at least one position sensor configured to measure values of a position parameter representing a position of the roller relative to the frame; a processing unit connected to the at least one force sensor and to the at least one position sensor, wherein the processing unit is configured to calculate, as a function of the position parameter, a geometrical parameter representing a distance between the first axis and a surface of the roller in contact with the tyre tread when the roller, is in the active position, and to derive a pair of values comprising a value of the radial force measured by the force sensor when the roller is in the active position and a corresponding value of the geometrical parameter calculated. 9. The wheel service machine according to claim 8 , wherein the position sensor is coupled to the connecting structure at a predetermined position to detect a position of a predetermined zone of the connecting structure and wherein the processing unit holds in its memory information representing a relative position between the predetermined zone and the axis of the roller. 10. The wheel service machine according to claim 8 , wherein the connecting structure comprises an articulated arm connected to the roller in order to move the roller by rotation about a respective axis, spaced from the axis of the roller, and wherein the position sensor is configured to derive a rotation of the articulated arm relative to the frame. 11. The wheel service machine according to claim 8 , wherein the processing unit is programmed to acquire, in addition to the pair of values derived in relation to the predetermined force applied by the roller to the tyre tread, at least one further pair of values comprising a further radial force value and a corresponding further value of the geometrical parameter, and is programmed to calculate at least one value of an elasticity parameter representing an elasticity of the wheel to radial flattening, by comparing said pair of values with said further pair of values. 12. The wheel service machine according to claim 11 , wherein the processing unit is connected to a drive unit of the wheel-holder unit to measure a wheel rotation speed parameter and is programmed to derive, from a geometrical parameter value calculated at a first rotation speed, a modified geometrical parameter value calculated at a second rotation speed, as a function of data of a model representing a trend of the elasticity parameter as a function of the speed parameter. 13. The wheel service machine according to claim 11 , wherein the processing unit is programmed to process a first value of the geometrical parameter, corresponding to a first rotation speed, and a second value of the geometrical parameter, corresponding to a second rotation speed, in order to derive at least one value of a first modelling parameter representing a variation of the geometrical parameter as a function of the rotation speed. 14. The wheel service machine according to claim 8 , wherein the processing unit is connected to a pressure sensor to measure a tyre inflation pressure parameter and is programmed to derive, from a first value of the geometrical parameter calculated at a first inflation pressure, a modified value of the pressure parameter at which the geometrical parameter adopts a predetermined or user set value. 15. The wheel se