A child resistant container can include a container body, a closed base, an open top, an exterior and a cap assembly configured to couple to the container body for closing the container. A cap assembly can include an inner cap configured to couple to a container body and an outer cap coupled to the inner cap. A first coupler can be coupled to the inner cap and a second coupler can be coupled to the outer cap and configured to optionally engage the first coupler. An outer cap can be configured to rotate relative to an inner cap when the outer cap is in one or more positions and to engage the inner cap when the outer cap is in one or more other positions. A child resistant container can be made from recyclable metal.

A metal child resistant container with a screw lid that comprises a main body, an inner cap that screws on to the main body forming an air tight seal, and an outer cap that is located over the inner cap. The outer cap prevents the user from directly interacting with the inner cap and requires the user to apply pressure to the outer cap. The inner cap has indentions that match with similar indentions stamped in or attached to the outer cap. When pressure is applied to the outer cap the inner cap and outer cap mover as one allowing the container to the open and closed.

Storage containers and lids for such containers are provided. The lid has a first lid face and a second lid face. The second lid face has a rim configured to attach the lid to a storage bin. On the first lid face and extending to the second lid face is a plurality of apertures to provide airflow through the lid. A seal material extends from the second lid face that is configured to make the airflow path selectively sealable at a continuous wall and closed surface of a corresponding storage bin.

A bottle-within-a-bottle technology is presented herein, where the outer container is vacuum sealed to protect against oxygen, heat, light, moisture etc. and to extend the shelf-life of probiotics, dietary supplements, or any other live (life) products within the inner packaging. This invention is an innovative method of packaging for live or sensitive products. The vacuum sealing technique is used to obtain the beneficial effects of live products. Vacuum-sealing enhances the shelf-life of beneficial microorganisms which must survive for the good gut health of the consumer. The bottle-within-a-bottle technology does not need to change industry standards. The bottle-within-a-bottle technology conceals the deformed container, which is inevitable with direct vacuuming. The bottle-within-a-bottle technology prevents powder leakage of capsules due to air pressure changes.

The present invention is an improved sealed clear cans with aluminum lids, and plastic screw cover to store hookah flavored tobacco. Sealed clear plastic cans helps to maintain the freshness and quality of the flavored hookah tobacco for an extended period.

The present disclosure is related to articles (e.g., containers, battery packs, etc.) including a lithium material (e.g., one or more lithium-containing batteries) housed therein. The articles include sulfur hexafluoride located within an interior compartment of the article to provide an inert atmosphere within the interior compartment. The present disclosure is also related to methods of inerting such articles (e.g., containers, battery packs, etc.) with sulfur hexafluoride. Additionally, the present disclosure is related to conveyed (e.g., pumped, blown, etc.) looped cooling apparatuses and systems.

Packaging of respiring biological materials, particularly bananas and other fruits, in sealed containers. The containers preferably include a gas-permeable membrane comprising (1) a microporous film, and (2) a polymeric coating on the microporous film. Using appropriate containers and appropriate controlled atmospheres around the container, the respiring materials can be stored and/or ripened under controlled conditions. Bananas can be ripened while they are being transported, or in conventional ripening rooms without opening the containers in which they have been transported. The ripe bananas are less dehydrated and remain in a satisfactory ripened state for longer periods of time. The gas-permeable membrane can preferably take the form of either a curtain or cartridge and the R ratio of the membrane may be optimized by adjusting the differential pressure across the membrane.

A pack comprising a supporting tray (3), a protective film (4) fixed to the supporting tray (3), and a food product (2) placed on the supporting tray (3) and covered by the protective film (4), wherein the supporting tray (3) is constituted of a flat sheet of multi-layer material and comprises at least one paper-based lower layer and one plastic material upper layer, wherein the protective film (4) is sealed to the upper layer of the flat sheet and together with it delimits an inner space (6) of the pack (1) in which the food product (2) is inserted, and wherein a protective atmosphere is present in the inner space (6).

A packaged assembly of a hermetically sealed container and cigarette, and method of forming the assembly. The container is hermetically sealed for airtight conditions for freshness, whereby an interior space is either filled with an inert gas or is evacuated down to a pressure close to 0 atm to remove substantially all air (oxygen) from within. The container may be clear glass to afford good visibility of the cigarette within an interior space thereof. However, a relatively large label may be affixed to the exterior of the container to occlude most of the light from reaching the cigarette.

One embodiment of an apparatus with mobile reusable airtight container assembly (10) which utilizes pressurized inert gas or CO2 gas for long term preservation of the freshness of roasted coffee beans or grounds in terms of aroma and taste, utilizes a system of an electronic controller (250), pressure switch (170), gas delivery valve (180), check valve (50) and vent valve (160) to create a pressurized environment of inert gas or CO2 gas and low residual oxygen and moisture concentrations within the airtight container assembly (10). An airtight lid (20) with pressure seal (220) covers the airtight container assembly (10) and creates a reusable system whereby the user can remove a portion of the roasted coffee beans or grounds as often as needed in order to brew coffee without degrading the long term freshness of the roasted coffee beans or grounds stored within the airtight container assembly (10). A two stage opening mechanism (40) prevents uncontrolled opening of the airtight lid (20) while the airtight container assembly (10) is pressurized. The check valve (50) enables the mobile aspect whereby the airtight container assembly (10) can be removed from and replaced back on a control system (260) as many times as desired by the user, while maintaining the optimum storage condition of pressurized inert gas or CO2 gas with low residual oxygen and moisture concentrations.