Direct printing machine and method for printing containers using direct printing

The invention claimed is: 1. A direct printing machine for printing onto containers, comprising: a conveyor for transporting said containers in container receptacles along a transport path; and several printing stations which are respectively associated with said container receptacles and which are each formed with several separately adjustable direct print heads for printing several partial prints of a direct print onto a container, wherein said printing stations are each associated with their individual inspection device with at least one camera to inspect a position of said partial prints on said container, where said at least one camera is movable by a positioning unit, and where said positioning unit is configured to move said associated container receptacle together with said at least one camera relative to said direct print heads. 2. The direct printing machine according to claim 1 , where said positioning unit comprises a linear motor. 3. The direct printing machine according to claim 2 , where said positioning unit is configured to move said at least one camera parallel and/or transversely to said transport path synchronously or in a constant relationship relative to a transport motion of said conveyor. 4. The direct printing machine according to claim 1 , where said positioning unit is configured to move said at least one camera longitudinally, radially, and/or tangentially relative to an axis of rotation of said container receptacle. 5. The direct printing machine of claim 4 , where said positioning unit is configured to move said at least one camera synchronously or in a constant relationship relative to a motion of said container receptacle. 6. The direct printing machine according to claim 1 , where said at least one camera comprises a line sensor, and said positioning unit and/or said container receptacle are configured to move said at least one camera and/or said container such that a relative motion transverse to said line sensor between said at least one camera and a container surface is substantially constant during inspection. 7. The direct printing machine according to claim 1 , where said direct print heads and said at least one camera are located on mutually opposite sides of said transport path. 8. The direct printing machine according to claim 1 , where said conveyor is a carousel with said transport path, where said transport path is a circular transport path, and where said direct print heads are disposed on said transport path on an outside and said at least one camera on an inside or vice versa, respectively. 9. The direct printing machine according to claim 1 , where said inspection device comprises a protective housing for said at least one camera. 10. The direct printing machine according to claim 1 , where said inspection device comprises a laser module for triangulating 3D points on a surface of said container. 11. The direct printing machine according to claim 1 , where said inspection device comprises an illumination device that is a ring light around a lens of said at least one camera and/or a luminescent screen for illuminating through said container. 12. The direct printing machine according to claim 11 , where said illumination device comprises a bright and/or dark field illumination unit. 13. The direct printing machine according to claim 1 , where said container receptacles are each formed with a rotary position sensor. 14. A method for printing a direct print onto containers, comprising: transporting said containers in container receptacles of a conveyor along a transport path; and applying a print by printing stations associated with said container receptacles, where several partial prints of a direct print are applied to a container in a printing station by several adjustable direct print heads, and wherein a position of said partial prints on said container is inspected by an individual inspection device with at least one camera associated with said printing station, where, prior to printing, said inspection device aids in aligning said containers relative to said printing station. 15. The method according to claim 14 , where said at least one camera is moved during inspection in a manner synchronized to a container motion, so that a container surface in a camera image moves at a constant speed or is still. 16. The method according to claim 14 , where a starting point of one or more subsequent partial prints in a circumferential and/or a longitudinal direction of said containers is determined by way of a position of the partial prints already printed onto said containers. 17. The method according to claim 14 , where printing distances of said adjustable direct print heads are determined by way of inspecting said partial prints. 18. A direct printing machine for printing onto containers, comprising: a conveyor for transporting said containers in container receptacles along a transport path; and several printing stations which are respectively associated with said container receptacles and which are each formed with several separately adjustable direct print heads for printing several partial prints of a direct print onto a container, wherein said printing stations are each associated with their individual inspection device with at least one camera to inspect a position of said partial prints on said container, where said at least one camera is movable by a positioning unit, and where said positioning unit is configured to move said direct print heads together with said at least one camera relative to said associated container receptacle. 19. The direct printing machine according to claim 18 , where said positioning unit is configured to move said at least one camera longitudinally, radially, and/or tangentially relative to an axis of rotation of said container receptacle. 20. The direct printing machine according to claim 19 , where said positioning unit is configured to move said at least one camera synchronously or in a constant relationship relative to a motion of said container receptacle.