A holder includes a container and a curvilinear formed semi-rigid sheet coupled to curvilinear slots of opposing sides of the container to primarily move inside of the container as guided by the curvilinear slots to provide a self-adjusting container depth through spring tensioning to accommodate various thicknesses of portable electronic devices contained thereby.

Disclosed herein are modular container systems having child-resistant containers, tray inserts and tray frames. Also disclosed are methods using the modular container systems and methods of storing substances in containers. The containers have a container base and a container cap and provide for child-resistant containers. A user can releasably remove the container cap from container base with a squeeze and lift sequence. For example, the user squeezes opposite sides of the container base, which releases a locking mechanism and allows for removal of the cap by lifting or pulling the container cap off from the container base. The components of the modular container system are modular and stackable. The modular system allow for organized, efficient, accessible and storage of the child-resistant containers. The modular container system also allows for easy counting, sorting and processing of the containers.

Disclosed herein are modular container systems having child-resistant containers, tray inserts and tray frames. Also disclosed are methods using the modular container systems and methods of storing substances in containers. The containers have a container base and a container cap and provide for child-resistant containers. A user can releasably remove the container cap from container base with a squeeze and lift sequence. For example, the user squeezes opposite sides of the container base, which releases a locking mechanism and allows for removal of the cap by lifting or pulling the container cap off from the container base. The components of the modular container system are modular and stackable. The modular system allow for organized, efficient, accessible and storage of the child-resistant containers. The modular container system also allows for easy counting, sorting and processing of the containers.

A separating layer for the transport of pharmaceutical secondary packagings and to a transport system for transporting pharmaceutical secondary packagings which comprises the separating layer are provided. The separating layer is a polymer layer having a planar section extending in an axial direction along a longitudinal axis and an elevation extending normal to the longitudinal axis. The separating layer has in the axial direction a normal spring force that is 0.2 to 5 N.

A shipping insert for shipping bottles, comprising: a bottom tray; a center divider; and a top tray. The bottom tray may include a plurality of base receptacles that engage with and removably hold a plurality of bottles. The center divider may include one or more supporting side extensions, one or more top center supports, and a plurality of openings. The center divider may engage and align with said bottom tray, such that said center divider is centered on said bottom tray and remains substantially in place when said plurality of bottles are loaded or unloaded into said shipping insert. The top tray may have a plurality of neck receptacles, one or more side walls, and one or more raised segments. The raised segments and side walls may have one or more shoulders. When the insert is assembled, the plurality of neck receptacles may engage bottle necks, the shoulders may engage bottle shoulders of the bottles, and the neck receptacles, are in alignment with the openings of the center divider and said base receptacles of said bottom tray.

A shipping insert for shipping bottles, comprising: a bottom tray; a center divider; and a top tray. The bottom tray may include a plurality of base receptacles that engage with and removably hold a plurality of bottles. The center divider may include one or more supporting side extensions, one or more top center supports, and a plurality of openings. The center divider may engage and align with said bottom tray, such that said center divider is centered on said bottom tray and remains substantially in place when said plurality of bottles are loaded or unloaded into said shipping insert. The top tray may have a plurality of neck receptacles, one or more side walls, and one or more raised segments. The raised segments and side walls may have one or more shoulders. When the insert is assembled, the plurality of neck receptacles may engage bottle necks, the shoulders may engage bottle shoulders of the bottles, and the neck receptacles, are in alignment with the openings of the center divider and said base receptacles of said bottom tray.

Disclosed are systems and methods for an improved bottle packaging system and shipping container, and more particularly to a container wherein conical top inserts and improved bottom inserts are employed to stabilize the bottle(s) and to provide impact resistant cushioning during shipment of liquids and the like. For a 4-bottle (quad) pack embodiment the improved insert designs include a fiber-molded bottom insert placed on the bottom of the carton for receiving the bottoms of a plurality of bottles and conical top insert fitting over the caps, necks and shoulders of bottles placed into the carton.

A milk crate stabilizer system is described. The stabilizer system may include at least one row of milk crates, each milk crate comprising a floor, four sidewalls extending from the floor and defining an interior, and an open top, and a milk crate stabilizer comprising a plate located above the at least one row of milk crates, and a plurality of groups of four pegs extending downwardly from the plate. The pegs may contact the sidewalls of adjacent milk crates and removably join the adjacent milk crates. The bottoms of the pegs may be narrower than the tops of the pegs to facilitate placement into the corners of the milk crates.

A milk crate stabilizer system is described. The stabilizer system may include at least one row of milk crates, each milk crate comprising a floor, four sidewalls extending from the floor and defining an interior, and an open top, and a milk crate stabilizer comprising a plate located above the at least one row of milk crates, and a plurality of groups of four pegs extending downwardly from the plate. The pegs may contact the sidewalls of adjacent milk crates and removably join the adjacent milk crates. The bottoms of the pegs may be narrower than the tops of the pegs to facilitate placement into the corners of the milk crates.

A supporting structure for concurrently supporting a plurality of containers for substances for pharmaceutical, medical or cosmetic applications, comprises a plurality of receptacles. The receptacles are arranged in a regular arrangement, are formed by circumferential side-walls, and an upper side of the supporting structure is formed as a plate-shaped carrier. The receptacles are polygonal in shape when viewed in a plan view. A side-wall is formed as a common partition wall between respective two directly adjacent receptacles of the plurality of receptacles. The receptacles can be directly adjacent to each other, which enables optimum packing density, especially with a hexagonal basic shape of the receptacles. Due to the shared partition wall, filigree, double-walled structures can be effectively avoided, which considerably simplifies production by injection molding from a plastic material. Thereby, also a very high inherent stiffness of the supporting structure can be achieved.