A storage holder for receiving a plurality of condiment bottles includes a base seat defining a receiving space having an upper opening, and a plurality of carrying units removably engaged with the base seat and mounted in the receiving space to partition the receiving space into a plurality of receiving compartments which are arranged in a front-rear direction. Each carrying unit is configured for a plurality of the condiment bottles to be mountable thereon and arranged in a left-right direction so as to conveniently store and get access to the condiment bottles.

A packing tray (10) for packaging glass bottles (B), such as a glass wine bottle, the packing tray comprising: a plastic foam or molded fiber sheet (12) comprising a top wall (14) and an array (20) of recessed cell pockets (22) extending from the top wall; the top wall having a peripheral surface (18) surrounding the array of cell pockets and defining a top reference plane TRP; each cell pocket (22) comprising an open ring-shaped recess (24) having an elongated longitudinal axis LA transverse to the TRP and configured to be substantially aligned with a longitudinal axis of a glass bottle disposed upright in the recess; the ring-shaped recess (24) including an upper cell portion (26) of a first diameter (FD) larger than a body diameter (BD) of the glass bottle, and lower ring portion (28) having resilient elements (30) radially disposed and spaced apart about a circumference (C) of the ring-shaped recess (24) and that extend radially inwardly from the first diameter (FD) and configured to engage the body diameter (BD) of the glass bottle and bend under lateral stress (LS) such that the resilient elements provide repeatable shock absorption; the peripheral surface (18) of the packing tray being sized to engage inner walls (42) of an outer shipping carton (40) in which the packing tray and glass bottles in the array of cell pockets are disposed for shipping.

A plastic container (1) has a first base and four side walls (13, 14) projecting perpendicularly upwards with a circumferential edge (15) on the upper edge of said walls and a circumferential rib (16) of the lower end of said walls. According to the invention, the container (1) includes a second base (17), which is arranged on the underside of the first base and encloses same. A flat base surface (18, 20) of the second base (17) extends parallel to the first base and beyond the extent of the first base to the extent of the outer ends of the circumferential rib (16) on the side walls (13, 14). A frame (19) on the second base (17) having a circumferential wall (22) extends to the circumferential rib (16) and encloses the lateral edges of the first base. The plastic container (1) can be placed in high-bay warehouses having narrow, rail-like shelves and can be centered and reliably stacked by means of elongate centering elements on the edge (15) and recesses (26) in the second base (17).

A packing tray (10) for packaging glass bottles (B), such as a glass wine bottle, the packing tray comprising: a plastic foam or molded fiber sheet (12) comprising a top wall (14) and an array (20) of recessed cell pockets (22) extending from the top wall; the top wall having a peripheral surface (18) surrounding the array of cell pockets and defining a top reference plane TRP; each cell pocket (22) comprising an open ring-shaped recess (24) having an elongated longitudinal axis LA transverse to the TRP and configured to be substantially aligned with a longitudinal axis of a glass bottle disposed upright in the recess; the ring-shaped recess (24) including an upper cell portion (26) of a first diameter (FD) larger than a body diameter (BD) of the glass bottle, and lower ring portion (28) having resilient elements (30) radially disposed and spaced apart about a circumference (C) of the ring-shaped recess (24) and that extend radially inwardly from the first diameter (FD) and configured to engage the body diameter (BD) of the glass bottle and bend under lateral stress (LS) such that the resilient elements provide repeatable shock absorption; the peripheral surface (18) of the packing tray being sized to engage inner walls (42) of an outer shipping carton (40) in which the packing tray and glass bottles in the array of cell pockets are disposed for shipping.

A beverage container packing assembly includes a bottom tray defining first compartments. The first compartments are configured to receive a first portion of a beverage container. The beverage container packing assembly includes a center support defining through holes. The through holes are configured to receive a second portion of a beverage container. The center support is configured to accommodate a thermo pack between a first row and a second row of the through holes. The beverage container packing assembly includes a top tray defining second compartments. The second compartments are configured to receive a third portion of a beverage container.

Disclosed is a container apparatus for shipping fragile items, such as beer and wine bottles. The container apparatus can include a housing and a cushioning member positioned within the interior of the housing. The housing can include first and second complementary sections that are releasably attached to each other by a plurality of complementary attachment members. The cushioning member can be made of a shock absorbing material and a bottle can be positioned within a cylindrical cavity formed in the cushioning member, which provides a barrier between the bottle and the housing that can absorb force from an impact to the housing thereby protecting the bottle from damage.

A foldable container blank includes at four side walls, a top panel foldably connected to one of the side walls, a bottom panel foldably connected to one of the side walls, and at least one internal support structure that is connected to one of the side walls. Each internal support structure includes a first portion that is in adjacent relation with the top panel when the container is in a closed condition, and a second portion that is in adjacent relation with the first portion when the container is in a closed condition. In some embodiments, the foldable container blank is integrally formed. A method of forming the foldable container blank and a method of folding a container blank are also provided.

A foldable container blank includes at four side walls, a top panel foldably connected to one of the side walls, a bottom panel foldably connected to one of the side walls, and at least one internal support structure that is connected to one of the side walls. Each internal support structure includes a first portion that is in adjacent relation with the top panel when the container is in a closed condition, and a second portion that is in adjacent relation with the first portion when the container is in a closed condition. In some embodiments, the foldable container blank is integrally formed. A method of forming the foldable container blank and a method of folding a container blank are also provided.

A storage holder for receiving a plurality of condiment bottles includes a base seat defining a receiving space having an upper opening, and a plurality of carrying units removably engaged with the base seat and mounted in the receiving space to partition the receiving space into a plurality of receiving compartments which are arranged in a front-rear direction. Each carrying unit is configured for a plurality of the condiment bottles to be mountable thereon and arranged in a left-right direction so as to conveniently store and get access to the condiment bottles.

Beverage container packing assemblies and methods are disclosed. An assembly includes a bottom tray defining a plurality of first compartments. The first compartments receive a first portion of a beverage container. The bottom tray includes first support columns. The assembly includes a center support defining through holes. The through holes receive a second portion of a beverage container therethrough. The center support includes second support columns configured to stack on the first support columns. The center support is configured to accommodate a thermo pack between a first row and a second row of the through holes. The assembly includes a top tray defining second compartments. The second compartments to receive a third portion of a beverage container therein.