Module for a coating apparatus for granular bodies

What is claimed is: 1. A module for a coating apparatus for granular bodies ( 1 ), the module comprising: a rotatable, hollow cylindrical drum ( 2 ) that is an accommodation unit for accommodating the granular bodies ( 1 ), wherein within the drum ( 2 ) at least one moveable separating element ( 8 ) is disposed on an end side of the drum ( 2 ) such that transfer of the granular bodies ( 1 ) into the drum ( 2 ) and/or out of the drum ( 2 ) is achievable in a defined manner by a movement of the at least one moveable separating element ( 8 ); wherein the at least one moveable separating element ( 8 ) is movable from a closed position to an open position, wherein, in the closed position, a closed subregion of an underside of the at least one moveable separating element ( 8 ) lies radially flush against an inner wall of the drum ( 2 ) or is arranged radially offset at a distance from the inner wall of the drum ( 2 ) via a gap measuring less than an external diameter of each of the granular bodies ( 1 ), and in the open position, the closed subregion on the underside is spaced apart from the inner wall of the drum ( 2 ) and, in this said open position of the at least one moveable separating element ( 8 ), there is an opening in the lower region between the underside of the respective at least one moveable separating element ( 8 ) and the inner wall of the drum ( 2 ), through which said opening the granular bodies ( 1 ) are arranged to pass, and wherein the at least one moveable separating element ( 8 ) is configured to rotate about an axis of rotation ( 54 ) to bring the at least one moveable separating element ( 8 ) from the closed position into the open position, and the at least one moveable separating element ( 8 ) is configured so as to leave a clear space above the closed subregion, and on the end sides of the drum ( 2 ) there are elements ( 6 , 7 ) to which a second drum ( 2 ) of at least one second module ( 3 , 5 ) is connectable in order to form the coating apparatus, and/or to which a closure element ( 59 ) is connectable. 2. The module as claimed in claim 1 , characterized in that the at least one moveable separating element ( 8 ) is rotatable with orthogonal alignment relative to a longitudinal axis ( 55 ) in the drum ( 2 ) about the axis of rotation ( 54 ) arranged eccentrically in the drum ( 2 ) and at a distance from the center of the circle defined by the radius of the curved shape of the underside of the at least one moveable separating element ( 8 ) and aligned parallel to the axis of rotation ( 54 ) or the longitudinal axis ( 55 ) of the drum ( 2 ). 3. The module as claimed in claim 1 , characterized in that the axis of rotation ( 54 ) of the at least one moveable separating element ( 8 ) is arranged at a distance from a longitudinal axis ( 55 ) of the drum in an opposite direction in relation to a direction of rotation ( 12 ) of the drum ( 2 ) and alongside the axis of rotation ( 54 ) or the longitudinal axis ( 55 ) of the drum ( 2 ). 4. The module as claimed in claim 1 , characterized in that two support bars ( 21 , 22 ) which are oriented parallel to a longitudinal axis ( 55 ) of the drum ( 2 ) can be disposed in the drum ( 2 ) and can be secured to at least one coater door housing ( 13 , 14 ) on which the nozzle arms ( 18 , 19 ) with spray nozzles and/or a sensor module ( 20 ) for determining the layer thickness of a coating applied to surfaces of granular bodies ( 1 ) is/are arranged so as to be moveable. 5. A system comprising: a first module ( 4 ) for a coating apparatus for granular bodies ( 1 ), the first module ( 4 ) comprising: a rotatable, hollow cylindrical drum ( 2 ) that is an accommodation unit for accommodating the granular bodies ( 1 ), wherein within the drum ( 2 ) at least one moveable separating element ( 8 ) is disposed on an end side of the drum ( 2 ) such that transfer of the granular bodies ( 1 ) into the drum ( 2 ) and/or out of the drum ( 2 ) is achievable in a defined manner by a movement of the at least one moveable separating element ( 8 ); wherein the at least one moveable separating element ( 8 ) is movable from a closed position to an open position, wherein, in the closed position, a closed subregion of an underside of the at least one moveable separating element ( 8 ) lies radially flush against an inner wall of the drum ( 2 ) or is arranged radially offset at a distance from the inner wall of the drum ( 2 ) via a gap measuring less than an external diameter of each of the granular bodies ( 1 ), and in the open position, the closed subregion on the underside is spaced apart from the inner wall of the drum ( 2 ) and, in this said open position of the at least one moveable separating element ( 8 ), there is an opening in the lower region between the underside of the respective at least one moveable separating element ( 8 ) and the inner wall of the drum ( 2 ), through which said opening the granular bodies ( 1 ) are arranged to pass, and wherein the at least one moveable separating element ( 8 ) is configured to rotate about an axis of rotation ( 54 ) to bring the at least one moveable separating element ( 8 ) from the closed position into the open position, and the at least one moveable separating element ( 8 ) is configured so as to leave a clear space above the closed subregion, and on the end sides of the drum ( 2 ) there are elements ( 6 , 7 ) to which a second drum ( 2 ) of at least one second module ( 3 , 5 ) is connectable in order to form the coating apparatus, and/or to which a closure element ( 59 ) is connectable, wherein the at least one second module ( 3 , 5 ) is coupled to the first module ( 4 ), wherein the first module ( 4 ) or the at least one second module ( 3 , 5 ) defines a cycle zone (I, II, III), wherein a spray arm ( 18 , 19 ) for forming the coatings on surfaces of the granular bodies ( 1 ) is disposed in the cycle zone (I, II, III). 6. The system as claimed in claim 5 , characterized in that a sensor module ( 20 ) for optical determination of the layer thickness is disposed in the first module ( 4 ), and said first module ( 4 ) is disposed following the at least one second module ( 3 , 5 ) in which the spray arm ( 18 , 19 ) disposed, and the first module ( 4 ) and the at least one second module ( 3 , 5 ) are connected to each other and form the coating apparatus. 7. The system as claimed in claim 5 , characterized in that the first module ( 4 ) having therein a sensor module ( 20 ) is disposed between two of the at least one second modules ( 3 , 5 ) in which a spray apparatus with the spray arm ( 18 , 19 ) is in each case disposed, and the first module ( 4 ) and the two of the at least one second modules ( 3 , 5 ) are connected to one another and form the coating apparatus. 8. The module as claimed in claim 1 , characterized in that a device ( 50 ) for supplying the granular bodies ( 1 ) is disposed on a coater door ( 13 , 14 ), which is fastened to an end side of the drum ( 2 ) of the at least one second module ( 3 , 5 ), said device ( 50 ) being in the form of a chute. 9. The module as claimed in claim 1 , characterized in that a tilting or pivoting apparatus is disposed on the drum ( 2 ), by means of which the drum ( 2 ) can be tilted at various angles, such that, under the action of gravity, on implementation of a tilt, granular bodies ( 1 ) are movable out of the module when the at least one moveable separating element ( 8 ) is open, wherein the tilting or pivoting apparatus is disposed beneath the drum ( 2 ) and has a pivot bearing with at least one drive for the tilting or pivoting. 10. The module as claimed in claim 1 , wherein the elements ( 6 , 7 ) are flange connections. 11. The module as claimed in claim 1 , w