Method for measuring and aligning a rotary cylindrical apparatus

The invention claimed is: 1. A method of measuring and aligning a rotating apparatus, wherein the rotating apparatus includes a shell and at least one support ring around the shell, wherein the support ring is seated on support rollers, the method comprises: measuring measurement points on the shell of the rotating apparatus, directly from the surface thereof, in the axial direction on both sides of the support ring and along the circular measuring lines each at substantially equal distances from the support ring, calculating circular regressions from the measured measurement points for each of the circular measuring lines, determining a center point for each of the circular regressions, determining a line segment extending between the center points of the circular regressions, determining coordinates for a center point of the line segment, which center point corresponds to a center point of rotation of the shell, calculating a reference straight line as a center line of the shell, calculating a distance from the center point of the line segment to the reference straight line, and aligning the shell of the apparatus to be straight by transferring the determined center points of the line segments between the circular regressions to the calculated reference line. 2. The method according to claim 1 further comprising measuring the support rollers by creating circular measuring lines around the surface of each of the support rollers both on the upper side and the lower side, wherein the upper side being a side from which material to be treated is fed to the rotary apparatus and the lower side a side from which the material is discharged from the rotary apparatus, measuring measurement points along the circular measuring lines and on the surfaces of the support rollers, calculating circular regressions from the measurement points for the circular measuring lines of the support rollers, determining a center point for each of the circular regressions, and defining a line segment between the center points and a center point. 3. The method according to claim 1 wherein a vertical declination angles of the axis of the support rollers are measured and compared to a declination angle of the shell. 4. The method according to claim 1 wherein after the alignment a transfer of a control measurement is performed. 5. The method according to claim 1 wherein the declination angle of the center line of the rotary apparatus obtained from the reference line is compared to a designated declination angle. 6. The method according to claim 1 wherein the measuring is carried out using a device that is capable of measuring the measurement point directly from the surface of the rotary apparatus without a target sign. 7. The method according to claim 1 wherein the measurement points are measured on the shell from at least one side of the shell. 8. The method according to claim 1 wherein the measurement points are measured on the shell of the rotary apparatus is measured in the radial direction from at least two sides of the shell. 9. The method according to claim 1 wherein at least one axial thrust roller is measured by creating a circular measuring line around the surface of each at least one axial roller and measuring measurement points, circular regressions are calculated from the measurement points, center points are defined for the circular regressions, which center points illustrate the center point of the at least one axial thrust roller, and the axial thrust rollers are aligned to the same straight line with the shell of the rotary apparatus by transferring the point of rotation of the at least one axial roller, which is calculated from the circular regressions, as seen from above to the regression straight line illustrating the shell. 10. A method for measuring a rotationally symmetrical apparatus including a shell, support rings each mounted around the shell and at a different axial position along the length of the shell, and wherein support rollers support each of the support rings, the method comprising: for each support ring, measuring a first set of spatial dimensions between a reference position and each position of a first circular array of positions on the surface of the shell while the shell rotates, wherein the first circular array is an axial distance from a first side of the support ring; for each support ring, measuring a second set of spatial dimensions between a reference position and each position of a second array of circular positions on the surface of the shell while the shell rotates, wherein the second circular array is the axial distance from a second side of the support ring; for each of the first and second sets of spatial dimensions, calculating a circular regression based on the measured spatial dimensions; for each of the first and second sets of spatial dimensions, determining a center point for the calculated circular regression; for each support ring, calculating a ring center point based on a line segment extending through the center point for the first set of spatial dimensions and the center point of the second set of spatial dimension; determining an axial line for the rotationally symmetrical apparatus based on a regression line analysis of the ring center points; determining a spatial offset between the axial line and each of the circular regressions; adjusting one or more of the support rollers to reduce the spatial offset. 11. A method of measuring and aligning a rotating apparatus including a cylindrical shell and a support ring surrounding the cylindrical shell, the method comprises: measuring spatial positions of points on a first circle around the shell, wherein the first circle is a certain axial distance from the support ring; measuring spatial positions of points on a second circle around the shell, wherein the second circle is the certain axial distance from the support ring and on a side of the support ring opposite to the first circle; calculating a first circular regression based on the measured spatial positions of the first circle and a second circular regression based on the measured spatial positions of the second circle, and determining a center point for each of the first and second circular regressions; determining a spatial position of a line segment extending between the center points of the first and second circular regressions, determining coordinates for a center point of the line segment, which center point corresponds to a center point of rotation of the shell, determining a reference straight line corresponding to a center line of the shell, calculating a distance from the center point of the line segment to the reference straight line, and adjusting support rollers support the shell based on the distance between the center point and the reference straight line.