A blank for forming a carrier for holding at least one article includes a plurality of panels that includes a first main panel foldably connected to a second main panel. The first main panel includes a top panel portion foldably connected to at least one top side panel portion, and the second main panel comprises a bottom panel portion foldably connected to at least one bottom side panel portion. The blank further includes at least one handle feature for forming a handle.

Stock material units that may be used in a dunnage conversion machine. For example, stock material units include sheet material that may be fed into the dunnage conversion machine and may be converted thereby into dunnage.

Stock material units that may be used in a dunnage conversion machine. For example, stock material units include sheet material that may be fed into the dunnage conversion machine and may be converted thereby into dunnage.

The present invention provides a package wrapping that utilizes a film having a pair of spaced apart perforations defining a perforation zone there between, a carton label having a pair of spaced apart tabs defining a notch that extends across and makes visible a portion of the perforation zone when the label overlays the film, and an adhesive extending across a portion of the perforation zone and one of the spaced apart tabs wherein the carton label is not adhered to the film.

A method includes obtaining a container sized to fit multiple high voltage light emitting diode (LED) lightbulbs, adding multiple loose high voltage LED lightbulbs to the container to fill the container, and sealing the container, such that the container contains a higher density of high voltage LED light bulbs than a same sized container can hold protective packaged equivalent watt incandescent bulbs.

The present invention relates to a package for vertical receiving, which, when receiving various kinds of objects to be received, such as clothes, in a drawer, etc., packages and receives the objects to be received such that the objects to be received are stood using the same standard, thereby maximizing the receiving efficiency, easily identifying an object to be received even when searching for the object to be received in order to use the object to be received, and not dispersing the objects to be received, which are received uniformly. The package for vertical receiving comprises: a rear part (110), and front parts (120, 130) which stand an object to be received, such as clothes, by surrounding the object to be received with a predetermined width and a predetermined thickness; hinge parts (140, 150) formed between the rear part (110) and the front parts (120, 130) to fold and unfold the front parts (120, 130); hardened reinforcement sheets (160) formed on the rear part (110) and the front parts (120, 130) so that the package (100) maintains a self-standing state; and fixing holes (170) formed on the rear part (110) or the front parts (120) and configured to surround and fix the object to be received.

The present invention relates to a package for vertical receiving, which, when receiving various kinds of objects to be received, such as clothes, in a drawer, etc., packages and receives the objects to be received such that the objects to be received are stood using the same standard, thereby maximizing the receiving efficiency, easily identifying an object to be received even when searching for the object to be received in order to use the object to be received, and not dispersing the objects to be received, which are received uniformly. The package for vertical receiving comprises: a rear part (110), and front parts (120, 130) which stand an object to be received, such as clothes, by surrounding the object to be received with a predetermined width and a predetermined thickness; hinge parts (140, 150) formed between the rear part (110) and the front parts (120, 130) to fold and unfold the front parts (120, 130); hardened reinforcement sheets (160) formed on the rear part (110) and the front parts (120, 130) so that the package (100) maintains a self-standing state; and fixing holes (170) formed on the rear part (110) or the front parts (120) and configured to surround and fix the object to be received.

This document describes an assembly structure for corrugated packaging. The assembly structure is made from a single flat piece of fiberboard, including a center panel, two partial side panels, and two tabbed side panels. The center panel forms the bottom (or top) of the packaging. Tabbed side panels form two sides of the packaging, and the partial side panels, combined with the tabs or the tabbed side panels form the other two sides. The assembly structure can be made from corrugated fiberboard. The flutes of the corrugated fiberboard run in a direction that causes, when the panels are folded, the flutes of the two tabbed side panels to be vertical, providing strength in the stacking direction. While the flutes in the partial panels are horizontal, when the tabs of the tabbed side panels are folded to mate with the partial side panels, the flutes of the tabs are also vertical.

This document describes an assembly structure for corrugated packaging. The assembly structure is made from a single flat piece of fiberboard, including a center panel, two partial side panels, and two tabbed side panels. The center panel forms the bottom (or top) of the packaging. Tabbed side panels form two sides of the packaging, and the partial side panels, combined with the tabs or the tabbed side panels form the other two sides. The assembly structure can be made from corrugated fiberboard. The flutes of the corrugated fiberboard run in a direction that causes, when the panels are folded, the flutes of the two tabbed side panels to be vertical, providing strength in the stacking direction. While the flutes in the partial panels are horizontal, when the tabs of the tabbed side panels are folded to mate with the partial side panels, the flutes of the tabs are also vertical.

Stock material units that may be used in a dunnage conversion machine. For example, stock material units include sheet material that may be fed into the dunnage conversion machine and may be converted thereby into dunnage.