There is provided herein a lid for a vacuum storage container, which contains a lid body having a top side and an opposing bottom side, the lid comprising one or both of (1) a vacuum pressure-indicating nipple having an upper length portion having a first color corresponding to a pressurized position, and a lower length portion having a second color corresponding to an unpressurized position, and (2) a pressure-release valve having a vacuum-sealed position and a vacuum-release position, and a collar on the bottom side of the lid body having an open end, the pressure-release valve extending from the top side of the lid body into the collar on the bottom side, and a sheath covering the open end of the collar on the bottom side, which sheath reduces a vacuum loss when the pressure-release valve is in the vacuum-sealed position while permitting a release of vacuum when the pressure-release valve is in the vacuum-release position.

A tray for containing a product includes a base, a lateral wall emerging from the base to define a containing seat adapted to receive the product. The lateral wall comprises at least one movable portion configurable between a first stable position, wherein the movable portion is placed in continuity with respect to the lateral wall, and a second stable position, wherein the movable portion protrudes from the lateral wall and defines an access passing through the lateral wall itself. Moreover, the present invention refers to a process and an associated apparatus of making said tray. Further, the present invention refers to a vacuum package using the above described tray and to a plastic film sealingly applied on the tray and closing the access, and also to a process and a packaging apparatus for making said package.

A vacuum canister includes a canister body and a cover body, wherein the cover body has a cover seat with an opening facing upwards, a through rod is disposed on a bottom wall of the cover seat, a valve seat is disposed at a lower opening end of the through rod, and a check valve is disposed on the valve seat. The cover seat is provided with an air extracting device including an inner barrel and an outer barrel. An opening end of the outer barrel is sleeved on the inner barrel. A through hole is axially opened in the inner barrel. The through rod passes through the through hole. The air extracting device includes a pressing handle sleeved on the outer barrel, wherein a lower end of the pressing handle abuts the push block. A limiting block is disposed on an outer circumferential wall of the pressing handle.

The present disclosure relates to a vacuum preservation device, comprising a drawer including a drawer panel at the front end of the drawer, and a handle assembly. The handle assembly is coupled to the drawer panel, wherein the handle assembly includes a door body sealing assembly and a handle. A preservation container body comprises a preservation container body fixing part and a preservation container body sliding part. An electric push rod is coupled to the preservation container body and is coupled to the preservation container body sliding part and to the preservation container body fixing part.

A system, apparatus, and method of storing food including a storage container having a base; a resilient liner nesting in the base, and a lid that interlockingly engages with the liner and/or base to close off access to foodstuffs retained in a compartment defined by the liner. A valve assembly in the lid is actuated by a pump to evacuate air from the liner's compartment and create a vacuum or near-vacuum condition therein. Apertures defined in the wall of the base allow air to flow into a compartment of the base as the resilient liner shrinks around the food. The closed storage container may be placed in a freezer to freeze the food therein. For defrosting, the base of the closed storage container is placed in a volume of water, some of which flows through the apertures in the base's wall and comes into direct contact with the liner.

A transportation system for semiconductor substrates includes a tray, lid and packaging bag. The tray includes a bottom and circumferential sidewalls. The tray has an opening on a top side and is configured to receive semiconductor substrates through the opening, the substrates being stacked onto each other in the tray in parallel to the tray bottom. The lid includes a cover plate and at least two arms extending from the plate. The arms are configured to be inserted into the tray between the tray sidewalls and the semiconductor substrates. The cover plate is configured to cover the tray opening when the lid is fully mounted to the tray. The packaging bag is configured to enclose the tray with the substrates stacked therein and lid arranged thereon, and to be evacuated of air and sealed such that the tray and lid arranged in the bag are vacuum sealed inside the bag.

Modular containers are formed in a collapsible fashion by flexible or rigid bodies and panels. A size of a modular container may be selected by inflating the modular container to a desired pressure or volume, coupling two or more bodies of the modular containers together, or mating the bodies of the modular containers to common bases or surfaces. The modular containers may be accessed via one or more openings in vertical or horizontal surfaces of such modular containers in order to load items into such modular containers or to unload the items therefrom. The modular containers may be assembled or collapsed manually or automatically, and transported to one or more locations separately or in stacks.

A vacuum container for containing perishable items in controlled, reduced pressure, atmospheric conditions is provided. The vacuum container includes a section of generally cylindrical pipe open at both ends and formed of a plastic material. A first end cap is detachably secured to one end of the pipe to form a vacuum resistant seal between the first end cap and the pipe. A second end cap detachably secured to the other end of the pipe to form a vacuum resistant seal between the second end cap and the other end of the pipe. Preferably, the pipe and end caps are all formed of a plastic material capable of withstanding the pressures created when a high vacuum is formed in the chamber.

The present invention is directed to a child resistant double seam container lid including an adapter ring for securely affixing to the double seam top rim of conventional double seamed containers that will be difficult for children to open, yet readily openable by adults. More particularly, a one-piece, two-piece, and three-piece child resistant double seam affixable container lid is provided having a first piece lid portion first, a second piece adapter ring locking member second piece and optionally a third piece securing unit piece, with rotational alignment indicators, and optional additional integral features such as a liquid measuring cup feature, a liquid tight lid feature, a threaded lid portion, a replaceable double seam container lid portion and a double seam container lid locking member adapter ring securely affixable to the double seam container.

A pump mechanism for vacuum sealing an airtight cavity formed by a container and a lid, including a bore having a first one-way seal allowing air from the airtight cavity to enter the bore and blocking air inside the bore from returning to the airtight cavity and a second one-way seal allowing air inside the bore to leave the bore without returning to the airtight cavity and blocking air outside of the bore from entering the bore, a piston disposed inside the bore, and a chamber of air enclosed by the bore, the first and second one-way seals, and the piston, wherein actuation of the piston in a first direction causes air to evacuate the airtight cavity and enter the chamber through the first one-way seal, and wherein actuation of the piston in a second direction causes air to exit the chamber through the second one-way seal.