A printing system for printing on a substantially planar surface of a 3D-object includes a printer for printing on the planar surface of the 3D-object and a controller configured to control printing of the printer. The printing system further includes a mask generation module configured to generate a mask having the shape of the planar surface from a 3D-model of the 3D-object and to provide the controller with the mask to prevent printing outside the planar surface according to the mask.

A mandrel wherein a portion of the mandrel body outer surface is conical; i.e., flared outwardly, is provided. In this configuration, the necked can is drawn against the conical portion of the mandrel body outer surface while a generally cylindrical portion of the mandrel body extends into the can. Further, the space between the cylindrical portion of the mandrel body and the can is pressurized so as to resist deformations in the can during the decorating process. In an exemplary embodiment, the mandrel includes an elongated mandrel body with an outer surface, a proximal, first end, a proximal medial portion, a distal medial portion, and a distal, second end and having an axis of rotation. The mandrel body outer surface includes an elongated conical portion; the mandrel body outer surface conical portion is disposed adjacently about the mandrel body first end.

A mandrel wherein a portion of the mandrel body outer surface is cortical; i.e., flared outwardly, is provided. In this configuration, the necked can is drawn against the conical portion of the mandrel body outer surface while a generally cylindrical portion of the mandrel body extends into the can. Further, the space between the cylindrical portion of the mandrel body and the can is pressurized so as to resist deformations in the can during the decorating process. In an exemplary embodiment, the mandrel includes an elongated mandrel body with an outer surface, a proximal, first end, a proximal medial portion, a distal medial portion, and a distal, second end and having an axis of rotation. The mandrel body outer surface includes an elongated conical portion; the mandrel body outer surface conical portion is disposed adjacently about the mandrel body first end.

A mandrel wherein a portion of the mandrel body outer surface is cortical; i.e., flared outwardly, is provided. In this configuration, the necked can is drawn against the conical portion of the mandrel body outer surface while a generally cylindrical portion of the mandrel body extends into the can. Further, the space between the cylindrical portion of the mandrel body and the can is pressurized so as to resist deformations in the can during the decorating process. In an exemplary embodiment, the mandrel includes an elongated mandrel body with an outer surface, a proximal, first end, a proximal medial portion, a distal medial portion, and a distal, second end and having an axis of rotation. The mandrel body outer surface includes an elongated conical portion; the mandrel body outer surface conical portion is disposed adjacently about the mandrel body first end.

An endless egg conveyor is provided. The conveyor includes an endless element running around a set of rotational wheels and a drive unit defining a conveying direction. The conveyor has an upper run and a lower run and head sections where the direction of movement of the endless element is reversed. The conveyor also includes an egg retaining pocket coupled to the endless element, moving in the conveying direction. The retaining pocket has a central axis and an upper receiving opening to receive an egg with a longitudinal axis of the egg aligned with the central axis. The retaining pocket is coupled to the endless element by a bearing structure allowing rotation of the retaining pocket around a rotational axis extending parallel to the rotational axes of the rotational wheels, allowing the retaining pockets to remain in an upright position in every position in the lane. Adjacent retaining pockets of different lanes define a pocket row, wherein, the conveyor includes carrying elements that carry the pockets of one row. The bearing structure of each pocket row includes a support arm on either lateral side of the conveyor. The support arm is positioned upright with respect to the circulating endless element and connected thereto. The bearing structure of the pocket row includes a spindle connected to the carrying element, which pivotally connects the carrying element to the support arms.

An endless egg conveyor is provided. The conveyor includes an endless element running around a set of rotational wheels and a drive unit defining a conveying direction. The conveyor has an upper run and a lower run and head sections where the direction of movement of the endless element is reversed. The conveyor also includes an egg retaining pocket coupled to the endless element, moving in the conveying direction. The retaining pocket has a central axis and an upper receiving opening to receive an egg with a longitudinal axis of the egg aligned with the central axis. The retaining pocket is coupled to the endless element by a bearing structure allowing rotation of the retaining pocket around a rotational axis extending parallel to the rotational axes of the rotational wheels, allowing the retaining pockets to remain in an upright position in every position in the lane. Adjacent retaining pockets of different lanes define a pocket row, wherein, the conveyor includes carrying elements that carry the pockets of one row. The bearing structure of each pocket row includes a support arm on either lateral side of the conveyor. The support arm is positioned upright with respect to the circulating endless element and connected thereto. The bearing structure of the pocket row includes a spindle connected to the carrying element, which pivotally connects the carrying element to the support arms.

An egg printing system comprises a printer (30, 31, 32) and an endless egg conveyor (1) that is adapted to move the eggs (50) past the printer. The conveyor including an endless element running around a set of rotational wheels and a drive unit defining a conveying direction of the conveyor. The egg conveyor includes a lane of egg retaining pockets (10) coupled to the endless element, said lane of retaining pockets in use moving in the conveying direction. Each retaining pocket has a central axis and an upper receiving opening to receive an egg with a longitudinal axis of the egg generally aligned with said central axis of the pocket. The pocket has a side opening at a side thereof facing in the conveying direction and/or in the opposite direction, leaving a side surface area exposed of the egg that is received in the pocket. The retaining pockets remain in an upright position in every position in the lane. The printer is positioned at one of the head sections of the conveyor with a printing head facing the corresponding lane being directed to said side opening in the pocket to allow printing on said side surface area of the egg.

An egg printing system comprises a printer (30, 31, 32) and an endless egg conveyor (1) that is adapted to move the eggs (50) past the printer. The conveyor including an endless element running around a set of rotational wheels and a drive unit defining a conveying direction of the conveyor. The egg conveyor includes a lane of egg retaining pockets (10) coupled to the endless element, said lane of retaining pockets in use moving in the conveying direction. Each retaining pocket has a central axis and an upper receiving opening to receive an egg with a longitudinal axis of the egg generally aligned with said central axis of the pocket. The pocket has a side opening at a side thereof facing in the conveying direction and/or in the opposite direction, leaving a side surface area exposed of the egg that is received in the pocket. The retaining pockets remain in an upright position in every position in the lane. The printer is positioned at one of the head sections of the conveyor with a printing head facing the corresponding lane being directed to said side opening in the pocket to allow printing on said side surface area of the egg.

Pad printed golf balls comprising a plurality of partially overlapping pad printed areas. The pad printed areas can comprise a surface area occupying at least 20% of a total surface area of the golf ball and a pad printed image occupying a portion of the surface area. Two or more of the pad printed areas can partially overlap in an overlap area where a portion of both a first pad printed image and second pad printed image are located. In some embodiments, an overlap area can have an overlap surface area greater than or equal to 5% of the surface area for a pad printed area.

Pad printed golf balls comprising a plurality of partially overlapping pad printed areas. The pad printed areas can comprise a surface area occupying at least 20% of a total surface area of the golf ball and a pad printed image occupying a portion of the surface area. Two or more of the pad printed areas can partially overlap in an overlap area where a portion of both a first pad printed image and second pad printed image are located. In some embodiments, an overlap area can have an overlap surface area greater than or equal to 5% of the surface area for a pad printed area.