Abstract: Multicolor image, formed from at least two component images, are printed on non-planar surfaces of edible pieces by maintaining registration of the pieces from one printing station to another. The registration is maintained by firmly securing the pieces to the transporting surface by applying a pressure differential, by a combination of a pressure differential with a resilient surface, or by trapping the pieces between a retaining member and a recess portion.
Type:
Application
Filed:
July 16, 2003
Publication date:
January 22, 2004
Applicants:
Ackley Machine Corporation, Mars Incorported
Inventors:
E. Michael Ackley, Samuel J. Louden, James M. Suttle, Michael E. Webster, Neil A. Willcocks, Michael S. Wozniak
Abstract: A method and apparatus orient, position and spin print indicia on pellet shaped articles, such as pharmaceutical capsules and the like. More specifically, the method and apparatus use a rotating pick-up drum that receives and transports the pellet shaped articles to a rotating positioning drum that is synchronized with the pick-up drum. The positioning drum receives the pellet shaped articles from the pick-up drum and properly aligns the pellet shaped articles so that they may be transferred to a rotating printing drum which is also synchronized with the positioning drum. The printing drum contains a vacuum source that maintains the pellet shaped articles within pockets as the pellet shaped articles are passed through a printing station. The printing station contains a movable printing roller capable of being moved toward and away from the printing drum such that the printing roller accurately spin prints indicia onto the pellet shaped articles.
Abstract: A method and apparatus orient, position and spin print indicia on pellet shaped articles, such as pharmaceutical capsules and the like. More specifically, the method and apparatus use a rotating pick-up drum that receives and transports the pellet shaped articles to a rotating positioning drum that is synchronized with the pick-up drum. The positioning drum receives the pellet shaped articles from the pick-up drum and properly aligns the pellet shaped articles so that they may be transferred to a rotating printing drum which is also synchronized with the positioning drum. The printing drum contains a vacuum source that maintains the pellet shaped articles within pockets as the pellet shaped articles are passed through a printing station. The printing station contains a movable printing roller capable of being moved toward and away from the printing drum such that the printing roller accurately spin prints indicia onto the pellet shaped articles.
Abstract: An apparatus for transporting and processing a plurality of articles includes a transport loop including a plurality of carrier bars and a plurality of pockets formed between adjacent ones of the carrier bars. The articles are laterally, longitudinally and rotationally positioned within the pockets at a predetermined position. The articles may be pharmaceutical tablets or capsules. The carrier bars may follow a curvilinear path including a non-linear path portion and a substantially linear path portion. The pockets between adjacent carrier bars are open and able to receive the articles when the adjacent carrier bars are at the non-linear path portion, and are closed and tightly grasp the articles when the adjacent carrier bars are at the substantially linear path portion. The apparatus can be used to manufacture shaped edible articles having a non-planar portion that receive serially registered component images from first and second printers.
Abstract: A method and apparatus orient, position and spin print indicia on pellet shaped articles, such as pharmaceutical capsules and the like. More specifically, the method and apparatus use a rotating pick-up drum that receives and transports the pellet shaped articles to a rotating positioning drum that is synchronized with the pick-up drum. The positioning drum receives the pellet shaped articles from the pick-up drum and properly aligns the pellet shaped articles so that they may be transferred to a rotating printing drum which is also synchronized with the positioning drum. The printing drum contains a vacuum source that maintains the pellet shaped articles within pockets as the pellet shaped articles are passed through a printing station. The printing station contains a movable printing roller capable of being moved toward and away from the printing drum such that the printing roller accurately spin prints indicia onto the pellet shaped articles.
Abstract: A method and apparatus orient, position and spin print indicia on pellet shaped articles, such as pharmaceutical capsules and the like. More specifically, the method and apparatus use a rotating pick-up drum that receives and transports the pellet shaped articles to a rotating positioning drum that is synchronized with the pick-up drum. The positioning drum receives the pellet shaped articles from the pick-up drum and properly aligns the pellet shaped articles so that they may be transferred to a rotating printing drum which is also synchronized with the positioning drum. The printing drum contains a vacuum source that maintains the pellet shaped articles within pockets as the pellet shaped articles are passed through a printing station. The printing station contains a movable printing roller capable of being moved toward and away from the printing drum such that the printing roller accurately spin prints indicia onto the pellet shaped articles.
Abstract: An apparatus for transporting and processing a plurality of articles includes a transport loop including a plurality of carrier bars and a plurality of pockets formed between adjacent ones of the carrier bars. The articles are laterally, longitudinally and rotationally positioned within the pockets at a predetermined position, and at least a first processing station at a first position along the transport loop performs a first operation on the articles while within the pocket in the predetermined position. The articles may be pharmaceutical tablets or capsules and the first processing station may be a drill that drills a series of holes on the pharmaceuticals to create a mechanical time-release mechanism. A second processing station coordinated with the first processing station may perform a second operation on the articles. The first and second processing stations may be first and second printers that print first and second component images in registration with another to form a composite image.
Abstract: A method and apparatus orient, position and spin print indicia on pellet shaped articles, such as pharmaceutical capsules and the like. More specifically, the method and apparatus use a rotating pick-up drum that receives and transports the pellet shaped articles to a rotating positioning drum that is synchronized with the pick-up drum. The positioning drum receives the pellet shaped articles from the pick-up drum and properly aligns the pellet shaped articles so that they may be transferred to a rotating printing drum which is also synchronized with the positioning drum. The printing drum contains a vacuum source that maintains the pellet shaped articles within pockets as the pellet shaped articles are passed through a printing station. The printing station contains a movable printing roller capable of being moved toward and away from the printing drum such that the printing roller accurately spin prints indicia onto the pellet shaped articles.
Abstract: A pellet-shaped article marking system marks two sides of a pellet-shaped article. A hopper is disposed over a ramp-type conveyor and feeds pellet-shaped articles onto the conveyor. A first marking device marks a first side of the pellet-shaped articles. A pickup drum receives the pellet-shaped articles from the conveyor and transports them to a second marking device so that a non-marked side of the articles faces the second marking device. The second marking device marks the non-marked side of the articles. The pickup drum then discharges the pellet-shaped articles into a bin.
Abstract: An article conveying system includes a conveyor belt including a plurality of carrier bars, a drive mechanism for driving the conveyor belt and a quick-release pin for releasably fastening the carrier bars to the drive mechanism. The quick-release pin includes an upper body portion, an upper body portion recess formed in the upper body portion and a flexible member positioned within the upper body portion recess. The flexible member has a compressed diameter (or dimension) no greater than a diameter of the upper body portion and an uncompressed diameter greater than the diameter of the upper body portion. The conveying system may also include a carrier hold down member that cooperates with a retractable roll capable of urging the carrier bar away from the quick-release pin.