A double-wall vacuum-insulated food container with complementary lid is disclosed. The body of the container has a base and an upwardly-extending side wall terminating in an upper free edge. The container also has an inner portion and a complementary outer portion with a gap between. The interior of the container defines a plurality of independently sealed compartments. The lid sealingly fits onto the upper free edge of the container. The lid includes a central member and a surrounding frame with a sealing ring. The sealing ring serves as an interface between a lower peripheral edge of the frame and the upper free edge of the container. The frame has fastening members which complementary features disposed about the upper free edge of the container.

A door sealing system for a container having a container door is provided. The container can be part of a vacuum system, for example as mounted on a trailer. The sealing system is hydraulically actuated and includes a mechanical lock. A corresponding vacuum system and method of operation are also provided.

A container intended for vacuum-storage of foods, including a tube for passing air, which is open at the two ends thereof; a cover for closing the container, the cover including means for connecting with the tube of the container, a channel for passing air extending between a first opening defined by the connection means and a second opening, a member for closing a channel, such as a valve, and a mechanism for opening an air passage between the first opening and another opening, such as the second opening.

Provided is an automatic air-extracting sealing box cover, comprising a bottom cover and a top cover that are mutually detachably connected, wherein the bottom cover and the bottom cover are connected to form a device chamber, and an automatic air extracting apparatus is mounted in the device chamber; the automatic air-extracting apparatus comprises a power source, a pressure sensor, an air pump, and a controller; the power source is connected to power source input ends of the pressure sensor, the air pump and the controller; an air extracting opening of the air pump and a probe of the pressure sensor project out of a lower surface of the bottom cover; an output end of the pressure sensor is connected to a collection circuit, and an output end of the collection circuit is connected to an input end of the controller; a control signal output end of the controller is connected an on/off control end of the air pump.

The disclosure provides a vacuum storage tank, comprising a vacuum storage tank body. The vacuum storage tank body is provided with a storage cavity and a pressure release channel in communication with the storage cavity. The pressure release channel is provided with a pressure release structure, the pressure release structure includes a pressure release cylinder, and the pressure release cylinder is placed in the pressure release channel. The pressure release cylinder includes a manipulation part and a sealing member for blocking a port of the pressure release channel, and the manipulation part extends from an outer wall of the vacuum storage tank body. A reset retaining structure is arranged between the pressure release cylinder and the vacuum storage tank body to control the pressure release cylinder so that the sealing member keeps blocking the port of the pressure release channel.

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 invention includes an inner holder, an outer can, a first check valve and a second check valve. The inner holder includes a storage space. The outer can includes a slidable variable space for the inner holder to slide therein and an air channel for the slidable variable space to communicate with an exterior. The inner holder includes an air hole for the storage space to communicate with the slidable variable space. The first check valve is provided on the air hole and has an airflow direction towards the slidable variable space. The second check valve is provided on the air channel and has an airflow direction towards the exterior. The outer can is slidably moved outwards relative to the inner holder to suck out the air in the storage space and then slidably moved inwards relative to the inner holder to discharge air to the exterior.

A closure includes an overcap having an annular skirt, and an annular wall extending inwardly from the skirt. A lid is carried by the overcap radially within the annular skirt, and includes a hub, and an annular margin extending radially outwardly with respect to the hub, and having upper and lower surfaces. An annular container seal extends circumferentially continuously around the annular margin. One or more vents may extend through the annular margin between the upper and lower surfaces thereof at one or more discrete circumferential locations radially inward with respect to the container seal. One or more vent seals may be disposed at the one or more vents between the lid and the overcap.

A sheet metal lid has a rim portion removably secured and sealed to a container and the lid includes a vent button having a top wall portion surrounded by a side wall portion and an outwardly projecting flange portion. The flange portion of the button has a short arcuate score or shear line extending substantially into the sheet metal, and additional score lines extend into the flange portion at lesser depths to protect a coating on the inner surface of the lid. A resilient sealant material may be bonded to the inner surface of the vent button, and the opposing sheet metal portions of the score line form a small gap for releasing a vacuum or pressure from the container in response to a controlled downward pressure on the top wall portion of the vent button.

System for transporting objects under controlled atmosphere comprising tubular sections connected together in a leak tight manner by their first ends, each tubular section, each section comprising a guide track for a trolley, each guide track comprising a first and a second end, the first ends of the guide tracks being opposite and separated from each other by a given distance. The transport system also comprises a spanning element rotationally hinged on a first end of the guide tracks around an axis orthogonal to a direction of displacement of said guide track. The spanning element is moveable between a raised position and a spanning position in which the guide tracks are connected enabling the passage of the trolley.