Cylinder for aligning magnetic or magnetizable particles contained in coating agent on a substrate and machine for generating optically variable image elements

The invention claimed is: 1. A cylinder ( 26 ) for aligning magnetic or magnetizable particles (P) contained in coating agent ( 06 ) on a substrate ( 02 ), which comprises, in a region of the outer circumference thereof in a matrix-like manner, a number of n×m (where n and m are integers >1) magnetic elements ( 24 ) that provide magnetic fields, and which are arranged in n rows extending in an axially parallel manner and in m columns extending in the circumferential direction, at least two or all magnetic elements ( 24 ) that are provided one behind the other in the same column being mounted as a group at or on a shared carrier element ( 31 ) and being variable with respect to their axial position in or at the cylinder ( 26 ) by way of the carrier element, collectively and independently of the magnetic elements ( 24 ) of an adjoining column, characterized in that the at least two or all magnetic elements ( 24 ) of the same column are arranged at respective magnetic element carriers ( 37 ) which, in turn, are mounted at the shared carrier element ( 31 ) so as to be positionable at the shared carrier element ( 31 ) independently of one another in the circumferential direction and/or so as to be detachable from the carrier element ( 31 ), the at least two or all magnetic elements ( 24 ) of the same column being mounted on the respective magnetic element carrier ( 37 ) so as to be adjustable relative thereto in the axial direction within an adjustment range. 2. The cylinder according to claim 1 , characterized in that a plurality of or all magnetic elements ( 24 ) of a plurality of or all columns are adjustable on a respective magnetic element carrier ( 37 ) in the axial direction within an adjustment range. 3. The cylinder according to claim 1 , characterized in that a plurality of or all magnetic element carriers ( 37 ) of a plurality of or all columns are in each case arranged one behind the other in the circumferential direction as a group on a shared carrier element ( 31 ) that is variable with respect to the axial position in or at the cylinder ( 26 ). 4. The cylinder according to claim 1 , characterized in that the magnetic elements ( 24 ) that can be adjusted in the axial direction on the respective magnetic element carrier ( 37 ) can be axially adjusted by way of mechanical adjusting means ( 86 , 87 , 89 ) and/or by way of an adjusting means ( 86 , 87 , 89 ) comprising a gear that converts a rotational movement into a linear movement. 5. The cylinder according to claim 4 , characterized in that an eccentric drive is comprised as a gear converting a rotational movement into a linear movement, which converts a rotational movement of an eccentric ( 86 ) into an axially extending linear movement via a contact of the effective surface on the eccentric jacket side with a slide ( 87 ) that is directly or indirectly operatively connected and linearly movably mounted in or at the magnetic element carrier ( 37 ) and directly or indirectly carries the magnetic element ( 24 ). 6. The cylinder according to claim 1 , characterized in that a plurality or all of the magnetic elements ( 24 ) that are arranged at the magnetic element carrier ( 37 ) so as to be movable in the axial direction are mounted at the relevant magnetic element carrier ( 37 ) so as to be adjustable relative thereto also in the circumferential direction within an adjustment range. 7. The cylinder according to claim 1 , characterized in that the respective carrier element ( 31 ) is arranged releasably on a cylinder inner body ( 32 ) comprised by the cylinder ( 26 ) and, in the released state, variable in its axial position, and in that a tensioning device ( 108 ) is provided on the cylinder inner body ( 32 ) when the carrier element ( 31 ) is mounted on the cylinder inner body ( 32 ) in the region between the leading and trailing ends ( 106 ; 107 ) of the ring-segment-like carrier element ( 31 ), by means of which the two ends ( 106 ; 107 ) of the carrier element ( 31 ), which are spaced apart from one another in the circumferential direction, can be acted upon by a force directed towards one another in the circumferential direction via adjusting means ( 109 ) comprised by the tensioning device ( 108 ). 8. The cylinder according to claim 7 , characterized in that the tensioning device ( 108 ) engages at the two ends ( 106 ; 107 ) of the carrier element ( 31 ) and can be varied in its length, effective for the engagement on both sides, in the circumferential direction via the adjusting means ( 109 ) comprised by the tensioning device ( 108 ). 9. The cylinder according to claim 1 , characterized in that a plurality or all of the magnetic elements ( 24 ) arranged one behind the other are each combined with at least one assigned suction element ( 34 ) in respective modular units ( 36 ) as action units ( 36 ) in a plurality or all of the columns of magnetic elements ( 24 ), and as such can be positioned as a whole and in each case independently of all other such action units ( 36 ) on the relevant carrier element ( 31 ) in the circumferential direction and/or can be detached from the cylinder ( 26 ). 10. The cylinder according to claim 1 , characterized in that a plurality or all of the magnetic elements ( 24 ) of a group mounted on a plurality or all carrier elements ( 31 ) can be positioned on the respective carrier element ( 31 ) independently of one another in the circumferential direction, and in that, viewed in the axial direction of the cylinder ( 26 ), at least one clamping element ( 72 ; 73 ) is provided on each side at the respective magnetic element ( 24 ), at the mount ( 28 ) or magnetic element carrier ( 37 ) thereof or at a modular unit ( 36 ) comprising the magnetic element carrier ( 37 ), whose effective ends, in the mounted state, each engage under one of the stop surfaces ( 74 ; 77 ) that extend in the circumferential direction at the two end faces of the ring-like carrier element ( 31 ) and are directed into the interior of the cylinder ( 26 ) and/or counteract a radial removal of the magnetic element ( 24 ), of the mount ( 27 ) or of the magnetic element carrier ( 37 ), or of the modular unit ( 36 ) by cooperation with the respective clamping element ( 72 ; 73 ) situated in the clamping position. 11. A machine ( 01 ) for generating optically variable image elements ( 03 ) on a substrate ( 02 ), comprising a substrate infeed ( 13 ), at least one printing mechanism ( 04 ), by which substrate ( 02 ) guided on a transport path through the machine ( 01 ) is and/or can be printed at least on a first side in a matrix-like manner with multiple-ups ( 09 ) having a number m of columns and a number n of rows, a product receiving system ( 22 ), by which processed substrate ( 02 ) can be combined into bundles, as well as at least one alignment device ( 07 ) provided in the substrate path between the printing mechanism ( 04 ) and the product receiving system ( 22 ) for aligning magnetic or magnetizable particles (P) with a cylinder ( 26 ), characterized by the cylinder ( 26 ) according to claim 1 . 12. A cylinder ( 26 ) for aligning magnetic or magnetizable particles (P) contained in coating agent ( 06 ) on a substrate ( 02 ), which, in the region of the outer circumference thereof, viewed in the axial direction, comprises a number m of columns next to one another, each having a number n of elements ( 24 ) providing magnetic fields, magnetic elements ( 24 ) for short, which are arranged one behind the other in the circumferential direction; a plurality or all of the magnetic elements ( 24 ) of a plurality or all columns being arranged as a respective group at or on a respective ring segment-like carrier element ( 31 ) that is interrupted o