In a compact system containers are circulated in fixtures. Containers are fed from a bulk hopper by a conveyor into a primary orienting mechanism and then into the loading mechanism which also serves as the final orienting mechanism. Once a fixture is filled with containers, it is indexed into the filling position. The process conveyor ultimately moves the fixtures to the opposite end of the conveyor where a transfer mechanism indexes the fixture through a cap applicator and cap sealer. Caps are fed from a bulk hopper by a conveyor into a primary orienting mechanism and then through a final orienting/escapement mechanism into an applicator chute. Once the caps are applied, the fixture is indexed into a transfer position for downstream processing. Once emptied of containers, the fixtures are indexed onto a return conveyor where they are transported back to the loading and filling end.

Systems and methods are disclosed, which permit filling containers with a product. A filling arm is disposed within a chamber and an optical sensor is configured to sense openings of the containers within the chamber. Locations of the sensed openings are used to guide the filling arm to fill the containers with a product.

A lidding system includes a transfer apparatus configured to transfer a container which is put on the transfer apparatus such that a bottom of the container contacts the transfer apparatus, the container having an opening opposite to the bottom and a side wall extending from the bottom to the opening; a holding apparatus configured to hold the side wall of the container at a lidding position; and a lidding apparatus configured to press a lid against the container held by the holding apparatus to close the opening.

Automated systems, methods for constructing card multipacks, and a card multipack constructing using the same are provided. An automated system for constructing card multipacks includes: a movable conveyor including a plurality of tooling plates, each configured to receive a height adjusting member; a first carrier placing station configured to place a first carrier portion of a carrier on a tooling plate of the plurality of tooling plates; a first card placing station configured to place a first stored value card on the first carrier portion; a first data capture station configured to read a first card bar code of the first stored value card in-line in the automated system; and a software system adapted to verify the first card bar code with a data file.

A continuous motion induction sealer rotary die and vacuum conveyor operates by pulling film thorough a rotary die assembly comprising a die and anvil geared together to rotate against each other cutting film patches from the film and securing them to the anvil surface via a vacuum pressure. The anvil then continues rotating to deposit the film patches onto a vacuum conveyor releasing the anvil vacuum to facilitate the transfer. The vacuum conveyor then conveys the film patches to an induction seal head and directs air pressure under the patch to transfer it to the induction seal head which secures the film patch via vacuum pressure while transferring and sealing the film patch to a container.

A method for controlling the processing of varying shipment sets of one or more item(s) in an automated packaging system for packaging said varying shipment sets in custom-sized boxes made from cardboard blanks, said packaging system comprising a plurality of processing stations performing different operations on said shipment sets, said operations including transporting said shipments sets to and through said stations, said method comprising: acquiring information about one or more physical properties of a shipment set or the item(s) forming the shipment set, determining based on said information if the shipment set needs or allows a specific treatment in or on the transport to and through one or more of said processing stations within said packaging system, and configuring said one or more of said processing stations with instructions for said specific treatment of said shipment set.

A system for assembling a container and closure comprising an expanding collet which has a plurality of pivoting collet segments, each configured to simultaneously pivot radially outward about a pivot point and comprising. The collet comprises a lip that is engagable with the rim of the open end of the container and an angled tip positioned radially inward from the lip and shaped to press a countersink portion of the closure against an interior wall of the container as the collet segments pivot radially outward. As the container and the chuck are brought together, the rim engages with the lips of the collet segments and causes the angled tips of the collet segments to pivot outward toward the interior wall of the container, thereby pushing the countersink portion of the closure against the interior wall of the container.

A device for supplying lids to a can seamer includes a destacking screw for conveying lids that are fed in via a lid feed, for transferring the correctly separated lids to a downstream transport and/or treatment device, and for interrupting the supply of the lids to the downstream transport and/or treatment device in the event of an interruption of production. Methods for supplying lids to a can seamer are also provided.

The present invention relates to an assembly machine adapted to assemble caps (3) onto spouts (2) and a method of assembling caps onto spouts, wherein use is made of such an assembly machine. The assembly machine comprises a spout supply (10), a cap supply (20) and a frame comprising a cap guide arc (30). The frame further comprises a turret assembly (40) comprising a circular spout transporter (41), a cap positioning element (42) provided above the cap guide arc (30) and a cap assembly unit (43) provided above the spout transporter (41). The cap assembly unit (43) is adapted to pick up the cap at a pick-up position (C) and assemble the cap onto the spout at an assembly position (D).

A capping machine in a beverage bottling plant configured to cap beverage bottles with beverage bottle crown caps or beverage bottle screw caps and a capping machine configured to cap containers with container caps. The abstract of the disclosure is submitted herewith as required by 37 C.F.R. 1.72(b). As stated in 37 C.F.R. 1.72(b): A brief abstract of the technical disclosure in the specification must commence on a separate sheet, preferably following the claims, under the heading Abstract of the Disclosure. The purpose of the abstract is to enable the Patent and Trademark Office and the public generally to determine quickly from a cursory inspection the nature and gist of the technical disclosure. The abstract shall not be used for interpreting the scope of the claims. Therefore, any statements made relating to the abstract are not intended to limit the claims in any manner and should not be interpreted as limiting the claims in any manner.