A one-piece molded container comprising a lid and a container body is provided. The container body and lid are connected by a living hinge. The container body has interior protrusions extending from a bottom portion in an interior of the container body to limit nesting of the containers. The container body has a recess on a bottom portion on an exterior portion of the container and a dual-prong lid-locking mechanism, the lid-locking mechanism including a first prong, a second prong being a tamper-evident tearaway portion, and a protrusion extending downwardly from an interior portion of the lid.

Disclosed is a packaging container comprising a container body having a bottom end and a top end. The container body comprises a tubular container wall. The packaging container is closed at the bottom end by a base disc which is attached to the inner surface of the container body at the bottom end of the container body. The packaging container comprises a top end closure including a lid. The container body comprises a laminate body sheet material comprising a carton layer and a thermoplastic welding layer being arranged on an inner surface of the container body. The base disc comprises a laminate base sheet material comprising a carton layer and an inner thermoplastic welding layer being arranged on a surface of the base disc which is facing towards the interior of the container body.

A container made of metal and open on an upper face side includes a bottom portion and a body portion. In one example, the body portion of the container is formed into a shape in which, given 100% as a total height of the container, a line connecting an outer peripheral face at a height of 10% to an outer peripheral face at a height of 90% from a lowermost portion spreads outward at an angle of from 2° to 15°. When two of such a container are stacked, a projecting portion of the container above projecting upward has a height of 20 mm or less from an upper end of a container below.

Described herein is a container with a removable sidewall configured to generally extend the height of a bottom portion of the container, wherein the removable sidewall is removed as the contents of the container are used. Accordingly, a user of the device is provided easier access to the bottom of the container. The container includes an upper portion and a lower portion secured in a removable coupling and including a lid. The lid is configured for securing to both a top of the upper portion and an upper portion of the lower portion.

A structure of a storage box includes a main body, a stacking assembly, and a forward opening. The main body has an upper and front-facing opening and a recess on the rear. The stacking assembly is attached to the main body, covers the upper and front-facing opening, and has an upper cover and a front cover, the upper cover fitted to the front cover with a snap and having a convex portion, the shape of the convex portion identical to the shape of the recess. The forward opening is a part of the upper and front-facing opening of the main body and is covered by the front cover. When two or more storage boxes are stacked, the convex portion of the second storage box embeds the recess of the first storage box, preventing the entire structure from tilting forward when the front cover of the storage box above is opened.

A system and method palletize containers having electrical terminals for charging electronic devices packaged therein. First, a stacking pattern is determined on the basis of the sizes, shapes, and locations of electrical terminals on both the pallets and the containers to be stacked. These data may be read, for example, with a computer vision system that uses an articulating robotic arm, and may be encoded in a two-dimensional barcode on each pallet and/or container. Next, the robotic arm stacks the container so that its terminals make electrical contact with terminals on the pallet, or on a previously-stacked layer of containers. Then, the placement is tested to ensure that a good electrical connection exists vertically through the entire stack. Once the pallet is finalized, all electronic devices carried thereon may be simultaneously charged during transit or storage.

A system and method palletize containers having electrical terminals for charging electronic devices packaged therein. First, a stacking pattern is determined on the basis of the sizes, shapes, and locations of electrical terminals on both the pallets and the containers to be stacked. These data may be read, for example, with a computer vision system that uses an articulating robotic arm, and may be encoded in a two-dimensional barcode on each pallet and/or container. Next, the robotic arm stacks the container so that its terminals make electrical contact with terminals on the pallet, or on a previously-stacked layer of containers. Then, the placement is tested to ensure that a good electrical connection exists vertically through the entire stack. Once the pallet is finalized, all electronic devices carried thereon may be simultaneously charged during transit or storage.

A container assembly for receiving and storing a fluid includes a hollow container body and a hollow support trunk. The container body has an internal chamber for receiving and storing a fluid. The container body includes a front wall and an opposing back wall at least partially defining the internal chamber. The front wall includes an opening therethrough to allow the fluid to be received in the internal chamber. The support trunk is coupled to the opening in the front wall. The support trunk extends through the internal chamber and includes a distal end engaging the back wall. The support trunk provides support to the front wall and channels the fluid from the opening to the internal chamber.

A hollow container or box formed from a roof, a first side (i.e., or first upper and lower sides), a second side (i.e., for second upper and lower sides), a rear side (i.e., or rear upper and lower sides), a door (i.e., or upper and lower door), and a base placing the container or box in a fully assembled position. Unique side and end access doors are provided. Each of the sides are releasably coupled or hingedly connected to one another and the adjacent sides are hingedly coupled to the base. Upon releasing the sides from one another and rotating each relative to one another in a particular order along various axis rotation, the container or box is transitioned from a fully assembled position into a flat, parallel orientation, fully collapsed position.

The systems described in this disclosure can be used with a storage system to provide a platform for items and/or papers such as blueprints. A container includes a top panel that is pivotal relative to the container. The container may include additional panels that are pivotal with respect to the top panel and that rotate away from the top panel to extend the platform provided by the top panel.