Provided a kitchen storage system with stackable canisters comprises a plurality of canisters that further includes a lid. The lid has an attachment mechanism that is altogether hidden and embedded inside the lid and a lid handle, allowing each canister's lid handle to fit on top. Each of the plurality of canisters also includes a base detachably connected to side walls, the base including a hole to allow for the lid handle attached to the lid of each of the canisters below, to fit inside the hole, when the hole and the lid handle are aligned, each of the canisters being placed flat on top of the lid, the lid handle acts as a stopper to prevent each of the canisters above from sliding, moving, or falling off when force is being exerted by a user or when the canisters are being placed on an uneven surface.

A canister including a lid and storage canister. The lid incorporates a gasket that is overmolded onto the lid during its manufacture. The gasket is exposed on both the upper and lower surfaces of the lid in order to provide a non-slip surface at the top portion of the lid and a sealing surface at the bottom of the lid for sealing a storage canister.

An apparatus, system and method for storing and picking product in a plastic tote are disclosed. In one form, the tote is a plastic receptacle with a generally planar bottom and upstanding walls extending from the bottom and defining a receptacle opening on a side opposite the bottom, the upstanding walls forming a front wall, opposing side walls and a rear wall, with the walls extending from the bottom at an obtuse angle so that the receptacle tapers from a larger cross-section at the receptacle opening to a smaller cross-section at the bottom, and with at least one upstanding wall defining a first male or female mating structure for aligning with a second female or male mating structure of a second plastic receptacle when nested with the second plastic receptacle. Related systems and methods are also disclosed including without limitation pick and pack systems and methods.

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.

The present disclosure relates to storage boxes commonly used to organize and store items such as school-related supplies that may be carried by a student. The storage boxes generally include a lid and a base. The base optionally includes a divider which provides for two or more storage portions within an interior of the base, while also acting as a functional grip on the outside of the box. A latch mechanism is provided which securely latches the lid and base together in a closed configuration.

A base is provided with a plate-shaped body and two pairs of opposite protrusion edges surrounding the periphery of the plate-shaped body. The two pairs of opposite side plates are hinged to the protrusion edges of the base and are foldable relative to the base. Connecting parts are arranged at the bottom of the side plate, and corresponding base hinging parts are arranged on the protrusion edge of the base, where the connecting parts are hinged to the base hinging parts respectively, thus hinging the side plate to the base. At least one pair of the two pairs of opposite protrusion edges are provided with first closed cavities extending along the length direction of the protrusion edges, and/or the plate-shaped body is provided with second closed cavities, where the second closed cavities protrude from the main surface of the plate-shaped body.

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 stackable tote and lid combination has a lid with a main body and a rim. The rim has a wall with corner bodies, where the wall is spaced apart from a major surface. Each corner body has an upper surface with three outer side surfaces. Each first outer side surface is attached to a respective second outer side surface and each second outer side surface is attached to a respective third outer side surface. Each first, second, and third outer side surface is positioned between and connected to the upper surface of the respective corner body and the major surface of the main body. As a result, each first, second, and third outer side surface of respective corner bodies is configured to abut a hollow body of the stackable tote at three respective internal contact areas, and to removably hold the stackable tote.

An exemplary system is provided for holding canning jars of varying sizes, and generally includes a first tray and a second tray. The first tray includes a first plurality of wells, including a first tray first well. The first tray first well includes a first engagement feature on an exterior surface thereof, and the first engagement feature has a first geometry. The second tray includes a second plurality of wells, including a second tray first well. The second tray first well includes a second engagement feature on an exterior surface thereof, and the second engagement feature has a second geometry configured to mate with the first geometry. Each well of the first plurality of wells has a greater diameter than each well of the second plurality of wells

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.