A corrugated paperboard wraparound blank for forming a shipping case is provided, including five wall panels and four sets of end flaps connected via fold lines, at least two sets of stacking tabs, and at least two corresponding sets of receiving slots for receiving the stacking tabs. The wraparound blank is formed of a heavier material than a conventional blank, which would typically be difficult for automatic packaging equipment to form into a case, but the fold lines are creased with optional perforations or scoring. An optional modification aiding folding is presented for conventional case packers. The heavier fiberboard better supports and protects an inner product, such as cartons or paper bottles of liquids and reduces damage to the cap and neck. The heavier material in combination with the stacking tabs allows an increase in stacking height, thereby reducing transportation costs.

A protective sleeve, adapted to receive at least a first light bulb, includes parallel first and second panels, wherein at least the second panel includes a plurality of apertures. The package also includes a pair of sidewalls generally perpendicular to and connecting the panels, wherein the first panel, second panel and sidewalls together define an interior space. A second sleeve is adapted to receive at least a second light bulb. When the sleeve and the second sleeve are received together into the outer shell in an inverted orientation relative to each other sleeve, the respective second panels of the sleeve are adjacent each other, and the bulb portion of each of first and second light bulbs positioned with the sleeve intrudes into an interior space of the adjacent sleeve through at least one of the plurality of apertures of each of the sleeves.

Embodiments of a reusable stackable shipping box are provided herein. The reusable stackable shipping box may be reused and cleaned without causing harm to the integrity of the box. In addition, the box is slightly tapered in shape such that the box may be stacked upon and within other boxes for ease in shipping and organization.

A paperboard carton is formed by folding and interconnecting an even number of body pieces to establish at least a bottom wall, first and second spaced main face walls, opposing side walls and a top wall, which collectively define an interior cavity for containing edible products, with the first and second main face walls and the opposing side walls being spaced by each of the bottom wall and the top wall, each of said body pieces being formed of paperboard, and at least two of the body pieces having predominate fiber orientations which are directionally distinct from one another, thereby establishing a compression strength for each carton which enables similarly configured cartons to be directly stacked upon each other for shipping purposes.

A fastener assembly can include a latch of a first flap and a hole of a second flap. The latch and hole can be configured to be mated together to releasably fasten the first and second flaps to one another when the first and second flaps are in an overlapping configuration. The latch can be inwardly spaced apart from each outer peripheral edge of the first flap, and the hole can be inwardly spaced apart from each outer peripheral edge of the second flap. The fastener assembly can be a variable fastener assembly configured to be in a variety of predetermined fastened configurations for securing the first and second flaps to one another in a variety of predetermined overlapping configurations.

An example blank for a break pack container is described. The blank includes first and second fold lines extending across at least a portion of a sheet of cardboard material. The blank includes wall portions bounded by the first and second fold lines, one of the wall portions including a first perforated section or cutout formed between the first and second fold lines. The blank includes a first top flap extending from the first fold line, the first top flap including first and second opposing ends, the first end of the first top flap including a first side flap connected to the first top flap by a third fold line. The first side flap is configured to be folded over a wall portion and inserted into the first perforated section or cutout when the sheet of cardboard material is folded into the assembled configuration.

A packaging kit is composed of a sheet member. A target object to be packaged is to be placed on the sheet member. The sheet member includes a placement surface, a standing side, and a tongue piece. The placement surface allows the target object to be placed thereon. The standing side is elongated from the placement surface. The standing side is raised relative to the placement surface. The tongue piece includes a protrusion edge. The placement surface and the standing side are provided with the tongue piece. The tongue piece is located on a side of at least one side edge of the standing side.

A protective sleeve, adapted to receive at least a first light bulb, includes parallel first and second panels, wherein at least the second panel includes a plurality of apertures. The package also includes a pair of sidewalls generally perpendicular to and connecting the panels, wherein the first panel, second panel and sidewalls together define an interior space. A second sleeve is adapted to receive at least a second light bulb. When the sleeve and the second sleeve are received together into the outer shell in an inverted orientation relative to each other sleeve, the respective second panels of the sleeve are adjacent each other, and the bulb portion of each of first and second light bulbs positioned with the sleeve intrudes into an interior space of the adjacent sleeve through at least one of the plurality of apertures of each of the sleeves.

A self-contained continuous PDQ package system is provided for shipment and display of products. The PDQ package includes four adjacent sections of preferably corrugated material each with an inner facing and an outer facing surface, with a cut out within the bottom flap panel. Within the cut out, there is a section where an adhesive is placed adhering the inner facing portion of body panel and the inner facing of a section of bottom of the outer panel flap and adjacent mid-section panel. The self-contained continuous PDQ package system also provides an erectable reinforced shoulder to facilitate display of products in a stack of cartons.

A container formed from a blank and a method for constructing the container are described. The container includes a bottom wall, two end walls, each end wall including at least an end panel extending from an end edge of the bottom wall, and two side walls. The container further includes an upper reinforcing assembly at least partially extending from each end panel, and a side reinforcing assembly extending from opposing side edges of each end panel.