A holding device includes a support mechanism configured to contact and hold the golf ball, a first motion device configured to move the golf ball and at least a portion of the support mechanism in a translational direction along an axis, a second motion device configured to move the golf ball and at least a portion of the support mechanism in a rotational direction around the axis, and a securing mechanism configured to produce a retaining force configured to hold the golf ball to the support mechanism.

A holding device includes a support mechanism configured to contact and hold the golf ball, a first motion device configured to move the golf ball and at least a portion of the support mechanism in a translational direction along an axis, a second motion device configured to move the golf ball and at least a portion of the support mechanism in a rotational direction around the axis, and a securing mechanism configured to produce a retaining force configured to hold the golf ball to the support mechanism.

An endless egg conveyor includes an endless element running around a set of rotational wheels and a drive unit defining a conveying direction of the conveyor. The conveyor has an upper run and a lower run and head sections Where the direction of movement of the endless element between the upper run and the lower run is reversed. The conveyor furthermore includes at least one lane of egg retaining pockets coupled to the endless element, moving in the conveying direction. Each of the retaining pockets has a central axis and an tipper receiving opening to receive an egg with a longitudinal axis of the egg generally aligned with said central axis. The retaining pockets are each 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 said 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 comprises carrying elements that carry the pockets of one row. The bearing structure of each pocket row comprises a support arm on either lateral side of the conveyor. The support arm is positioned upright with respect to the circulating endless element and rigidly connected thereto. The bearing structure of said pocket row comprises at least one spindle rigidly connected to the carrying element which pivotally connects the carrying element to the support arms.

A method for printing an image at multiple positions on a golf ball is disclosed herein. The plurality of locations for the image is preferably ten. The image is preferably a pentagon. The image is alternatively a hexagon or a circle.

A method for printing an image at multiple positions on a golf ball is disclosed herein. The plurality of locations for the image is preferably ten. The image is preferably a pentagon. The image is alternatively a hexagon or a circle.

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 coating apparatus for a substrate with a curved surface includes a platform, a coating assembly, a carrying stage, and a transfer printing assembly. The coating assembly includes a push frame mounted on the platform and a coating wire rod disposed on the push frame. The push frame can push the coating wire rod to scrape a glue on a flat surface of the platform to form a glue layer on the flat surface. The carrying stage can hold the substrate. The transfer printing assembly includes a carrier and an elastic transfer printing head. The carrier is horizontally movable above the platform and the carrying stage. The elastic transfer printing head is disposed on a bottom of the carrier and is vertically movable, and can attach the glue layer on the flat surface and press against the curved surface to transfer the attached glue layer to the curved surface.

A coating apparatus for a substrate with a curved surface includes a platform, a coating assembly, a carrying stage, and a transfer printing assembly. The coating assembly includes a push frame mounted on the platform and a coating wire rod disposed on the push frame. The push frame can push the coating wire rod to scrape a glue on a flat surface of the platform to form a glue layer on the flat surface. The carrying stage can hold the substrate. The transfer printing assembly includes a carrier and an elastic transfer printing head. The carrier is horizontally movable above the platform and the carrying stage. The elastic transfer printing head is disposed on a bottom of the carrier and is vertically movable, and can attach the glue layer on the flat surface and press against the curved surface to transfer the attached glue layer to the curved surface.

A holding device includes a support mechanism configured to contact and hold the golf ball, a first motion device configured to move the golf ball and at least a portion of the support mechanism in a translational direction along an axis, a second motion device configured to move the golf ball and at least a portion of the support mechanism in a rotational direction around the axis, and a securing mechanism configured to produce a retaining force configured to hold the golf ball to the support mechanism.

A holding device includes a support mechanism configured to contact and hold the golf ball, a first motion device configured to move the golf ball and at least a portion of the support mechanism in a translational direction along an axis, a second motion device configured to move the golf ball and at least a portion of the support mechanism in a rotational direction around the axis, and a securing mechanism configured to produce a retaining force configured to hold the golf ball to the support mechanism.