An insert made of corrugated paper is easily assembled, uses no glue, allows shipping of glass, such as stemware, in any orientation, reduces packing material and reduces shipping costs. In addition, customers receiving the glass can easily unpack the glass and reuse the insert for storing the glass, as the insert can be opened and closed without ripping. The insert has multiple cutouts matching a profile of a bowl of the glass. U-shaped channels are formed by folding the insert along scored lines. The U-shaped channels maintain the glass away from a side of a box in which the insert is placed. The edges of the corrugated paper along the multiple cutouts envelope the bowl of the glass and remove weight and any potential shock that can be transmitted to the glass.

A retention packaging assembly includes a frame and two sheet assemblies. The frame includes a central panel, end panels, and two sets of wing panels. Each set of wing panels includes wing panels that are foldably coupled to the central panel and to one of the two end panels. The sheet assemblies include a sheet that is attached at its ends to slot panels. The slot panels of each of the sheet assemblies are selectively couplable to one of the set of wing panels. After an object is placed on a front of the central panel, the sheets of the sheet assemblies are located over the sides of the object. The sets of wing panels can then be folded to a back of the frame to cause the sheets to retain the sides of the object to the central panel.

A box bracket assembly including a box and an insert for protecting and holding a bottle securely within the box. The insert includes vertical support panels having apertures for holding the bottle. Support aperture edges hold the bottle in place centrally in an inner cavity between the support panels. The support apertures are formed in two parallel support panels. Support panels may be linked by a base. Extending from the sides of the support panels are brackets which fold along a bracket hinge to form a 90 angle with the support panels. Once folded and inserted into the box, the sides of the brackets are parallel and in contact with the sides of the box and the edges of the brackets contact the perpendicular sides of the box, such that the insert and the bottle are immobilized within the box.

A packaging structure for at least one article includes a pair of generally rectangular support structures with front, side, rear, and interior walls. The walls divide the rectangular support structure into a plurality of triangular sections. The front and interior walls contain a least one opening configured to correspond with the configuration of the article to hold and secure the article in place. The packaging structure is created from a rectangular blank made of foldable material that has a plurality of spaced vertical fold lines, panels, and aligned openings each configured to correspond with the configuration of the article. The packaging structure is formed by folding the blank along the fold lines and securing the blank in the folded condition. The blanks are formed first within computer aided design software by determining the dimensions and profile of a packaging structure, forming openings for an article in a packaging structure, unfolding the packaging structure within the design software into a flat pattern to form a master blank, and using the master blank to create cutting dies for forming additional blanks.

A retention packaging assembly includes a frame and two sheet assemblies. The frame includes a central panel, end panels, and two sets of wing panels. Each set of wing panels includes wing panels that are foldably coupled to the central panel and to one of the two end panels. The sheet assemblies include a sheet that is attached at its ends to slot panels. The slot panels of each of the sheet assemblies are selectively couplable to one of the set of wing panels. After an object is placed on a front of the central panel, the sheets of the sheet assemblies are located over the sides of the object. The sets of wing panels can then be folded to a back of the frame to cause the sheets to retain the sides of the object to the central panel.

A buffering member (1) is interposed between a packaging box (4) having a bottom plate (41) and side plates (42a), (42b) stood along peripheral edges of the bottom plate (41) and a first packed article (5). The buffering member (1) includes a placement section (10) on which the first packed article (5) is to be placed and a pair of leg pieces (31), (35) to be connected to a pair of opposing edges of the placement section (10) via folding lines (32), (36). The pair of leg pieces (31), (32) are folded downward along the folding line (32), (36) with an obtuse angle with respect to the placement section (10) and then lower edges (31b), (35b) of the pair of leg pieces (31), (35) are engaged with boundaries between the bottom plate (41) and the side plates (42a) of the packaging box (4).

A packaging structure for at least one article includes a pair of generally rectangular support structures with front, side, rear, and interior walls. The walls divide the rectangular support structure into a plurality of triangular sections. The front and interior walls contain a least one opening configured to correspond with the configuration of the article to hold and secure the article in place. The packaging structure is created from a rectangular blank made of foldable material that has a plurality of spaced vertical fold lines, panels, and aligned openings each configured to correspond with the configuration of the article. The packaging structure is formed by folding the blank along the fold lines and securing the blank in the folded condition. The blanks are formed first within computer aided design software by determining the dimensions and profile of a packaging structure, forming openings for an article in a packaging structure, unfolding the packaging structure within the design software into a flat pattern to form a master blank, and using the master blank to create cutting dies for forming additional blanks.

A packaging structure for at least one article includes a pair of generally rectangular support structures with front, side, rear, and interior walls. The walls divide the rectangular support structure into a plurality of triangular sections. The front and interior walls contain a least one opening configured to correspond with the configuration of the article to hold and secure the article in place. The packaging structure is created from a rectangular blank made of foldable material that has a plurality of spaced vertical fold lines, panels, and aligned openings each configured to correspond with the configuration of the article. The packaging structure is formed by folding the blank along the fold lines and securing the blank in the folded condition. The blanks are formed first within computer aided design software by determining the dimensions and profile of a packaging structure, forming openings for an article in a packaging structure, unfolding the packaging structure within the design software into a flat pattern to form a master blank, and using the master blank to create cutting dies for forming additional blanks.

A packaging structure for at least one article includes a pair of generally rectangular support structures with front, side, rear, and interior walls. The walls divide the rectangular support structure into a plurality of triangular sections. The front and interior walls contain a least one opening configured to correspond with the configuration of the article to hold and secure the article in place. The packaging structure is created from a rectangular blank made of foldable material that has a plurality of spaced vertical fold lines, panels, and aligned openings each configured to correspond with the configuration of the article. The packaging structure is formed by folding the blank along the fold lines and securing the blank in the folded condition. The blanks are formed first within computer aided design software by determining the dimensions and profile of a packaging structure, forming openings for an article in a packaging structure, unfolding the packaging structure within the design software into a flat pattern to form a master blank, and using the master blank to create cutting dies for forming additional blanks.

A buffering member (1) is interposed between a packaging box (4) having a bottom plate (41) and side plates (42a), (42b) stood along peripheral edges of the bottom plate (41) and a first packed article (5). The buffering member (1) includes a placement section (10) on which the first packed article (5) is to be placed and a pair of leg pieces (31), (35) to be connected to a pair of opposing edges of the placement section (10) via folding lines (32), (36). The pair of leg pieces (31), (32) are folded downward along the folding line (32), (36) with an obtuse angle with respect to the placement section (10) and then lower edges (31b), (35b) of the pair of leg pieces (31), (35) are engaged with boundaries between the bottom plate (41) and the side plates (42a) of the packaging box (4).