A modular container system has an interior dividable into compartments of variable size and includes a base having a bottom and sidewalls extending from the bottom to define an interior volume. At least one opposing pair of the sidewalls have regions arranged opposite each other, each of the regions including protrusions to form pairs of opposing protrusions, each of the regions further including indents positioned in correspondence with the protrusions. At least one barrier extends between the opposing protrusions to divide the interior volume of the base into a plurality of compartments. The barrier has an elongate body and a tab portion extending from each end of the body. Each tab portion is bendable to orient an underside of each tab portion to face a respective protrusion, a longitudinal end of each said tab portion engaging with a corresponding indent, to form a press-fit coupling.

A vaporizer accessory case and kit is provided. The device includes a container having a base and a plurality of perimeter sidewalk defining an interior volume. A lid is removably securable to the plurality of perimeter sidewalk, such that the lid encloses the interior volume. An insert is disposed within the interior volume, wherein the insert includes a plurality of divided slots. Each of the plurality of divided slots is dimensioned to removably secure t least one vaporizer accessory therein. In some embodiments, a plurality of sanitary mouthpiece covers is further provided, the plurality of sanitary mouthpiece covers including a first open end opposite a second open end, wherein the second open end is removably securable to a vaporizer mouthpiece.

A container assembly includes a first component, a second component, and a third component. Each component has an outer wall, a side wall extending upward from the outer wall, and a lip extending outward around a perimeter of the side wall. Each of the lips of the components are releasably lockable with another lip to form a modular container assembly.

A tamper-resistant air-permeable container includes a cover having a bottom that is formed with a first wall having primary troughs and primary blocks and formed with a retaining engagement portion; and a box including a receiving space and having a second wall that is provided with a first step part lower than the second wall and a second step part lower than the first step part to define forming therebetween a retaining engagement groove. The second wall is formed with secondary troughs, each including a curved section, such that each of the secondary troughs has a curved configuration. When the cover is combined with the box, the retaining engagement portions of the cover are fit into and retained in the retaining engagement groove. The primary troughs and the secondary troughs form passages in communication with the receiving space.

A coupling device is disclosed for coupling a container to a closure. The container has a container sidewall extending between a first container end and a second container end. A container undercut is defined in an outer surface of the container sidewall. The closure has a closure sidewall extending between a first closure end and a second closure end. A closure outer sidewall is located radially outward from the closure sidewall and defines a slot between the closure sidewall and the closure outer sidewall. The second container end is received within the slot of the closure. A major projection and a major depression are located between the second container end and the slot of the closure cooperating for securing the closure to the container. A minor projection and a minor depression located between the container sidewall and the closure sidewall for cooperating for additionally securing the closure to the container.

A container lid and base assembly includes lid and base stacking features, as well as base chamfers that align with vents provided in the lid. When a plurality of the container assemblies is stacked, the lid and base stacking features nest with each other, while the chamfers align with corresponding vents in the stacked assemblies so that none of the vents is blocked by a next-higher container assembly. The stacking features can be centrally located, and the vents can be peripherally located. A plurality of the container assemblies can have differing sizes and/or shapes, while including mutually compatible stacking features, thereby enabling container assemblies of differing sizes to be stacked without blocking any of the vents thereof. The vents can be holes or “C” vents. The lid and/or base can be manufacturable by thermoforming. The lid and base can be separate, or joined by a hinge.

A packaging system for strawberries includes a box having a tray and two short sidewalls and two long sidewalls extending from the tray to form a cavity. The two short sidewalls have a plurality of slots that open up to the cavity. Containers are disposed within the cavity. Each container has a top lid, a base portion, and a hinged spine connecting the top lid to the base portion. The top lid and the base portion include a plurality of recessed vents, and the top lid and the base portion are configured to be removably attached to one another by a coupling mechanism, in which the top lid and the base portion form windows to allow air therethough while removably attached. The recessed vents of and the windows are configured to align with the slots in the two short sidewalls of the box to improve a precooling process of strawberries.

A cup with hole apparatus and method comprising the parts and the steps to create a beverage cup that is inexpensive to purchase, ship, and use within a standard restaurant. One of these parts is a container that, when not assembled with other parts, cannot contain liquid due to multiple openings of different sizes. At least one of these openings is relatively smaller than the rest, and is only suitable to be used for drinking purposes. The other relatively larger openings can be used for filling purposes. A single-use beverage cup is created when: 1. A removable part is used to plug the relatively smaller opening; 2. The resulting container is filled via one of the relatively larger openings; 3. Once filled, permanent parts are used to plug all of the unplugged openings; 4. A drinker dislodges the removable part to drink from the smaller opening; and 5. Refilling the cup via the unplugged smaller opening is difficult.

Disclosed herein are containers. Also disclosed are methods using the containers and methods of storing substances in containers. The containers have a glass base and a plastic cap and provide for child-resistant containers. A user can releasably remove the cap from base. For example, the user squeezes opposite corners of the container cap, which releases a locking mechanism and allows for removal of the cap by lifting or pulling the container cap off from the container base.

A container assembly configured to maintain a predetermined humidity for storing a product therein. The container assembly includes a container having a body with a body wall and a mouth opening into a storage cavity and a cap having a top wall. The cap is selectively mountable over the mouth of the container to substantially enclose the storage cavity in a mounted configuration. A sidewall extends substantially perpendicularly from one of the body wall and the top wall. The sidewall defines an opening and a compartment and has an opening edge adjacent the opening. A moisture control material is positioned within the compartment. A sealing membrane has a peripheral portion. The peripheral portion is secured to the sidewall proximate the opening edge. The sealing membrane is configured to allow moisture flow therethrough to maintain the predetermined humidity in the storage cavity.