A reinforced sidewall for a container carton for shipment and display of products. The reinforced sidewall includes an interior sidewall, an outer sidewall, and a bottom panel that are interconnected for reinforcement of the container sidewall. Some embodiments include a shoulder structure for supporting a container placed atop the container that is automatically deployed when the outer sidewall and the interior sidewall are moved to an upright position relative to the bottom panel. Other embodiments include a shoulder brace that is automatically deployed to support the shoulder in a cantilevered relation with the interior sidewall. A stab tab is also configured to automatically protrude from the top surface of the shoulder. The stab tab is configured to be received in a recess in a superjacent container for indexed stacking of the containers.

A retail-ready container includes internal corner supports. The container is erected from a preassembly formed from a combination including a primary blank and a secondary blank. The primary blank includes a side panel, a bottom panel, and a top panel. The secondary blank is selectively adhered to the side panel of the primary substrate. Each of the side panel and the secondary blank include a plurality of sections connected by respective fold lines. Fold lines of the side panel are laterally offset from fold lines of the secondary blank so that unfolding of the preassembly yields the container with internal corner supports.

A retail-ready container includes internal corner supports. The container is erected from a preassembly formed from a combination including a primary blank and a secondary blank. The primary blank includes a side panel, a bottom panel, and a top panel. The secondary blank is selectively adhered to the side panel of the primary substrate. Each of the side panel and the secondary blank include a plurality of sections connected by respective fold lines. Fold lines of the side panel are laterally offset from fold lines of the secondary blank so that unfolding of the preassembly yields the container with internal corner supports.

Techniques and/or systems are disclosed for a container including a plurality of panels and a plurality of flaps integrally formed in a blank. The plurality of panels includes a front panel, a top panel adjacent the front panel, a back panel adjacent the top panel, a bottom panel adjacent the back panel, and a support panel adjacent the bottom panel, wherein adjacent panels are connected with one another. The plurality of flaps are configured to cooperate with each other to enclose the container at its ends. A first line of weakness is formed in the front and top panels and defines a first severable portion of the container. A second line of weakness is formed in the support panel and defines a second severable portion of the container, the support panel being fixedly attached to the front panel such that the first and second severable portions are generally aligned.

A packaging container for transporting multiple beverage articles is provided. The packaging container includes an outer carton and first and second insert trays. The first insert tray includes a base panel having one or more openings for receiving a lower portion of beverage article. The second insert tray includes a base panel having or more openings for receiving an intermediate portion of a beverage article and a top wall having one or more openings for receiving an upper portion of a beverage article. The openings in the first insert tray and the second insert tray are vertically aligned when the first and second insert trays are positioned within the outer carton to secure multiple beverage articles in a separated arrangement.

Unitary blank for forming a cup sleeve is provided having a central body portion, a first side body portion, and a second side body portion, a central flap extending from the central body portion, a first flap extending from the first side body portion, the first flap including a first tab, and a second flap extending from the second side body portion, the second flap including a second tab. In addition, at least a selected surface area of the blank has a pattern of raised features. Raised pattern areas of inner fold-over flaps can overlay corresponding raised pattern areas of sleeve outer body panels thereby increasing a size or volume of air gap pockets created between inner flaps and outer body panels. A multi-layer cup sleeve and a method for forming a cup sleeve are also provided.

A carrier for packaging one or more articles, includes outer walls (12, 16, 18, 22a, 22b, 24a, 24b) which define an interior of the carrier. An intermediate wall (30a, 30b) at least partially segregates the interior of the carrier in a first direction. A partition structure (50a, 52a) divides the interior of the carrier in a second transverse direction. The partition structure is struck, at least in part, from one (16) of the outer walls. The partition structure is configured and arranged to be automatically erected in the interior of the carrier in response to unfolding a flat collapsed folded blank when the carrier is erected.

A carrier for packaging one or more articles, includes outer walls (12, 16, 18, 22a, 22b, 24a, 24b) which define an interior of the carrier. An intermediate wall (30a, 30b) at least partially segregates the interior of the carrier in a first direction. A partition structure (50a, 52a) divides the interior of the carrier in a second transverse direction. The partition structure is struck, at least in part, from one (16) of the outer walls. The partition structure is configured and arranged to be automatically erected in the interior of the carrier in response to unfolding a flat collapsed folded blank when the carrier is erected.

A composite package, in particular a beverage carton package for liquid foodstuffs is depicted and described which consists at least partially of a package laminate, having a package base body including package edges, an at least partially angular package base and package gable wherein the package base body defines, in an idealised manner, a package front side, package rear side and at least two lateral package sides attaching to the package rear side as well as a package laminate and a package sleeve blank for manufacturing such a composite package. In order to improve grip and ergonomy for an easy to manufacture package, provision is made for the package front side to have a positive arching at least in sections which in each case passes into a lateral package side for a grip panel to be formed at least in sections in the region of the package rear side.

A system and method for producing a board product made from paper products that have a pre-scored facing in addition to a medium (sometimes called fluting). Conventional corrugated board may feature a cross-corrugated medium and one or more facing that have no score lines that are impressed (at least prior to assembly with the corrugated medium). Such a conventional board product may be inferior because any score lines that are impressed will damage the underlying corrugated medium in some manner. A breakdown in the strength of the underlying medium leads to poor precision when the eventual board product is scored, cut, and folded. A lack of precision in folding a board product leads to gap variation and fishtailing as any articulated portion of the board product may not maintain a precise plane of articulation when folded.