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.

An apparatus for printing on spherically symmetrical objects configured to secure a plurality of spherically symmetrical objects between detents at once comprising a driving assembly, followed by a baseplate driving end, followed by a spherically symmetrical object, followed by several ball-cup assemblies enclosing the spherically symmetrical objects, followed by a ball-release assembly, enclosed by a baseplate holder end, mounted to a baseplate with a quick release system supporting. The apparatus is developed to interface with a rotary rack to allow for the rotation of the spherically symmetrical objects by way of converting the linear motion of a flatbed printer to rotational motion in the detents to which the spherically symmetrical objects are held. Additionally, a spring of appropriate stiffness is used to form a rigid rod of the respective spherically symmetrical objects within the confines of the cupping assemblies allowing for incremental printing, and release, of enclosed objects.

An apparatus for printing on spherically symmetrical objects configured to secure a plurality of spherically symmetrical objects between detents at once comprising a driving assembly, followed by a baseplate driving end, followed by a spherically symmetrical object, followed by several ball-cup assemblies enclosing the spherically symmetrical objects, followed by a ball-release assembly, enclosed by a baseplate holder end, mounted to a baseplate with a quick release system supporting. The apparatus is developed to interface with a rotary rack to allow for the rotation of the spherically symmetrical objects by way of converting the linear motion of a flatbed printer to rotational motion in the detents to which the spherically symmetrical objects are held. Additionally, a spring of appropriate stiffness is used to form a rigid rod of the respective spherically symmetrical objects within the confines of the cupping assemblies allowing for incremental printing, and release, of enclosed objects.

A method and system for printing multiple-color at multiple positions on a golf ball is disclosed herein. A printing station of the system and method is capable of printing as many as twenty different colors in a single cycle. The printing station preferably has a four stamping stations, four curing stations and four reorientation stations.

A method and system for printing multiple-color at multiple positions on a golf ball is disclosed herein. A printing station of the system and method is capable of printing as many as twenty different colors in a single cycle. The printing station preferably has a four stamping stations, four curing stations and four reorientation stations.

The present invention relates to a method for providing a multi-layered, hollow, chocolate figure with a print in edible colour preparation, comprising providing one half of a hollow, chocolate figure with one or more types of edible colour preparation by means of an elastic pad, characterised in that the printing takes place at a pressure of between 8 and 12 bar and wherein the figure is situated in a mould-half during printing.

A method for printing a marking on a golf ball includes arranging ink in an etching pattern on a printing plate, matching a reference position on the plate to a reference position on the golf ball, transferring the ink from the printing plate to a pad, and transferring the ink from the pad to the golf ball such that the golf ball includes the marking. The pattern includes an etch corresponding to the marking, wherein the etch differs from the marking in a manner dependent on the position of the marking on the golf ball. The marking that results on the golf ball is a linear marking, and a centerline of the linear marking lies entirely within a marking plane that is not a centerline plane of the golf ball, and wherein the edges of the marking are parallel with the marking plane.

A method for printing a marking on a golf ball includes arranging ink in an etching pattern on a printing plate, matching a reference position on the plate to a reference position on the golf ball, transferring the ink from the printing plate to a pad, and transferring the ink from the pad to the golf ball such that the golf ball includes the marking. The pattern includes an etch corresponding to the marking, wherein the etch differs from the marking in a manner dependent on the position of the marking on the golf ball. The marking that results on the golf ball is a linear marking, and a centerline of the linear marking lies entirely within a marking plane that is not a centerline plane of the golf ball, and wherein the edges of the marking are parallel with the marking plane.

A positioning system for positioning a plurality of rotatable objects for processing includes a base plate that is configured to be positioned on a support surface of a processing machine. The base plate defines a plurality of alignment members to align the base plate to the support surface. The positioning system further includes at least three elongate cylindrical members that are arranged in parallel to one another and rotatably supported in alignment with the base plate. The cylindrical members are configured to support the rotatable objects. The positioning system also includes a rotation mechanism configured to cooperate with the cylindrical members and rotate the cylindrical members in synchrony so as to rotate the plurality of rotatable objects in synchrony. The positioning system further includes a rotational control mechanism configured to cooperate with the rotation mechanism to control rotation of the cylindrical members.