An apparatus for storing one or more battery modules (100) comprising a containment tray (300, 500, 700, 1000) defined by opposing front and back faces (314, 316, 714, 716, 1014, 1016), opposing side faces (318, 718, 1018), and opposing top and bottom surfaces (310, 312, 522, 532, 710, 712 1010, 1011, 1012) oriented perpendicular to the front, back, and side faces, wherein the containment tray has a receiving area (302, 518, 702, 1002) formed in the top surface for receiving one or more battery modules, the receiving area comprising a receiving surface (320, 520, 720, 1020) oriented parallel to and located between the opposing top and bottom surfaces for supporting the one or more battery modules.

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 storage device includes a base, and a number of side panels selectively coupled to the base. Each of the side panels include a protrusion. The base includes a number of voids defined therein. The protrusions, once inserted into the voids, restrict movement of the side panels relative to the base in at least two coordinate directions.

A tool for producing a plastic container in a thermoform process, in particular a plastic deep drawing process, with a positive mold, is described. The container may have a bottom section for forming a container bottom. The container may also have a lateral wall section for forming a circumferential, lateral wall integrally formed with the container bottom from the same material. The container may also have a wall for forming a stacking edge formed as a hollow profile, circumferentially protruding beyond an external contour of the lateral wall of the container. In a molding position for forming the container, the wall is arranged circumferentially protruding around an entire external side of the positive mold. The wall is movable out of the molding position into a demolding position. A method for producing the container by the tool is also provided.

A container system for storage, organizing and dispensing of ribbon or ribbon-like spooled products of varying diameters typically, but not limited to, use in gift decorating or crafting projects, constructed of a plurality of stackable trays of variable depths, a top lid and a bottom cover all secured together by latches, and which contain a system of dowels and dispenser slots fitted with edge guards which are employed in applying a breaking pressure on the spooled products protruding from dispenser slots.

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 tool case, especially a carrying case, for storing and transporting a power tool. A shell structure has a shell and a second shell to form a cavity to accommodate the power tool. The first shell has a first side surface and the second shell has a second side surface. A first handle can be reversibly moved around a rotational axis between a first position for carrying the tool case and a second position, whereby the first handle extends in a first plane when in the first position and the first handle extends in a second plane when in the second position, and the first and second planes are arranged orthogonally to each other. A second handle is provided in the area of the first side surface and extends in a third plane and in the second plane, the third plane running parallel to the first plane and to the first side surface.

The invention relates to a container assembly comprising a container for depuration of mollusks and a drain canal unit. The assembly provides a closed circulation of water via a circulation route that has an entry portion between the floor of the container and the drain canal unit, a circulation channel between the corner of the container and a drain canal unit, and a drain canal within the drain canal unit. Also provided is a drain canal unit for use in stackable containers that provides circulation of water within a container assembly.

A tray assembly for loading a battery cap includes at least one first tray having a top surface, in which first grooves are provided, and a bottom surface, in which second grooves are provided, and at least one second tray having a top surface, in which third grooves are defined, and a bottom surface, in which fourth grooves are defined and disposed above or below the first tray. When the first tray is disposed above the second tray, each of the second grooves and each of the third grooves communicate with each other to provide a communication space. When the first tray is disposed below the second tray, each of the first grooves and each of the fourth grooves communicate with each other to provide a communication space. The battery cap is mounted in an erect state in the communication space provided by the first tray and the second tray.

A mobile smart container system comprises a housing, an access component configured to secure access to a compartment within the housing when in a closed position, a communication interface configured to wirelessly receive a request to access the compartment, a perceivable output device, an electromechanical latch configured to engage with the access component to releasably lock the access component in the closed position, and a processor. The processor receives and authenticates the request to access the compartment and, in response to receiving and authenticating the request, activates the electromechanical latch to unlock the access component to make the compartment accessible, and outputs, upon actuation of the electromechanical latch, an alert via the perceivable output device to identify the smart container system.