A carton for holding at least one food product includes a plurality of panels at least partially extending around an interior of the carton, the plurality of panels including a bottom panel, at least one side panel, at least one end panel, and an access panel. The carton further includes a plurality of end flaps foldably connected to a respective panel of the plurality of panels, the plurality of end flaps including a lid flap foldably connected to a respective panel of the plurality of panels for forming a closed end of the carton. The carton further includes leak-resistant features including a downwardly sloping arrangement of the at least one side panel and the at least one end panel toward the bottom panel to form a bottom receptacle for one or more fluids in the interior of the carton.

An article has two configurations including a shipping configuration box and a display configuration box. The article is formed from a folded cardboard blank which includes a sidewall portion, a plurality of top flaps, a plurality of bottom flaps, and a support tab. The sidewall portion is vertically bounded between a top fold line and a bottom fold line. The plurality of bottom flaps are joined to the sidewall portion along the bottom fold line. One of the bottom flaps extends from the bottom fold line to a distal edge which defines a tab fold line. The support tab is joined to the distal edge along the tab fold line. The support tab is configured to fold upwardly along the tab fold line and to engage an edge of a product container to support the product container in an upright orientation for product display.

A flat-shaped composite material is represented and described for manufacturing a package, including: a polymer outer layer, a polymer inner layer, a fibrous support layer, which is arranged between the polymer outer layer and the polymer inner layer. The flat-shaped composite material has a plurality of fold lines, which are arranged and designed such that a closed package can be manufactured by folding the flat-shaped composite material along the fold lines and by connecting seam surfaces of the flat-shaped composite material, and a sleeve surface. The sleeve surface includes a front surface, a first side surface, a second side surface, a first rear surface, a second rear surface, and base surfaces. The base surfaces include triangular base surfaces, quadrangular base surfaces, and gable surfaces. The gable surfaces include triangular gable surfaces and quadrangular gable surfaces. The base surfaces and the gable surfaces are arranged on opposite sides of the sleeve surface. The manufacture of packages with even more complex geometries without impairing the rigidity of the package should be achieved by a third sleeve fold line, which has a plurality of sections, which each adjoin a side surface and a rear surface, and of which at least one section is curved and of which at least one section is straight. A package sleeve made of a composite material and a package manufactured from the composite material or from the package sleeve are also represented and described.

A foldable sealing container is provided with cuts, creases, adhesion of some elements, and a planar collapsed position to permit rapid reconfiguration to an expanded position. A plurality of catching mechanisms comprises friction tabs partially folded along friction tab creases to engage friction tab edges with side panels and hold the bottom side panels substantially perpendicular relative to the bottom panel. The plurality of catching mechanisms holds bottom side panels in a substantially upright position to form leak-proof seals at the lower corners. Engagement of the friction tab catching mechanisms provides enhanced leak resistance, improving storage and transportation of liquids and liquid-containing foods.

A container (10) for transporting and displaying strip pack products (20) generally includes a container housing (30) defining a housing interior for containing strip pack products (20). The container housing has at least one flap (32) pivotable between a closed position at least partially enclosing the housing interior and an open position, wherein the strip pack product (20) is suspended from the at least one flap (32) in the open position.

A pet toy, in combination, including a containment structure having a longitudinal axis and cross section defining an interior volume. The containment structure, which is preferably collapsible, includes a plurality of containment openings along its longitudinal axis exposing the interior volume to a pet during use of the pet toy, and an electronic component in the form of a hollow shell having a shell opening configured therein. A motor having a rotatable shaft extends toward the opening. A power supply for powering the motor and optional microprocessor, the motor, microprocessor and power supply being supported within the interior of the hollow shell. An attractant is affixed to the rotatable shaft and extends through the shell opening, the microprocessor being programmed to control operation of the motor to cause the attractant to rotate intermittently, the electronic component and attractant being visible to a pet during use of the pet toy.

A beverage container to enable the manufacture and packaging of two flavors of juice or other liquid drinks. At present, the preference and favorite flavor of an individual consumer is not accommodated unless two or more products are purchased. This invention provides a cardboard or plastic divider panel that is incorporated into any existing cartons that overcomes these limitations by enabling a carton to be divided into two flavors. Each side of the beverage container has a spout for separate pouring the contents of that particular side.

A box is made by folding a sheet of material. Preferably, the box is formed by applying adhesive and folding using a machine, and a waterproof or water resistant coating is applied so that the box is configured for use as a cooler. The box includes (a) a storage portion, including a bottom panel, a first end panel, a second end panel, a first side panel, and a second side panel; (b) four corner panels; (c) a top panel including tabs; and (d) a latching panel attached to the first side panel and pivotable relative thereto about a fold line, the latching panel including first and second subpanels. The latching panel includes cuts extending between and dividing the first and second subpanels through which the tabs respectively extend when the cooler is in a closed position.

Produce boxes and bags for shipping produce, e.g., bananas, utilize ventilation structures that allow for ventilation therethrough. A method of assembling produce boxes provides for cutouts that serve as ventilation structures in the boxes. When the produce boxes are stacked such as on a shipping pallet, the ventilation structures allow for ventilation of through the stacked boxes. Produce may be packed in a bag, which is closed with a rip cord and inserted into a produce box. The rip cord may be accessed when the box is in a stack such as on a shipping pallet, such that the rip cord may be pulled thereby opening the bag, without removing the box from the stack.

A package made of a composite material is represented and described, including: a package base with two front base corners and with two rear base corners, a package gable with two front gable corners and with two rear gable corners, and a package base body with a front panel, a first side panel, a second side panel and a rear panel. The package base and the package gable are arranged on opposite sides of the package base body. The composite material has a polymer inner layer, a polymer outer layer and a fibrous support layer, which is arranged between the polymer outer layer and the polymer inner layer. In order to enable the manufacture of packages with even more complex geometries without impairing the rigidity of the package, it is proposed that the package base body has at least one stress-relief panel, which is arranged between the front panel and one of the two side panels.