Methods of making flexible containers that include structural support frames, including methods for sealing such containers.

A method and device for sealing gas in a gas compartment-equipped bag, in which pressurized gas discharge outlets are provided in the distal ends of a horn and an anvil of an ultrasonic sealing device, and such horn and anvil used for ultrasonic sealing are also used as gas-discharging nozzles. The distal ends of the horn and the anvil are placed against a cutout of a gas compartment of a bag, a gas is discharged into the gas compartment from the discharge outlets, the films surrounding the cutout are being clamped by the horn and the anvil while gas discharging is in progress, and then the gas compartment is ultrasonically sealed by the horn and the anvil to trap the gas inside.

Disclosed is a device and a method for pressure-packaging a container to be processed, which is sealed by a stopper, the device including a cap with a needle, a fluid injector, and a heating cannula, the cap being designed to be applied to the stopper in a tight manner, the needle being able to move so as to pierce a hole through the stopper, the cannula being able to move so as to close the hole by the melting of the material of the stopper, the needle and the cannula being arranged such that the axes of movement thereof are secant at a point located in the stopper, the end of the cannula being convex.

Embodiments of the present invention relate to domed metal containers, and more specifically to pressurized metallic food containers with liquid nitrogen wells and various closure mechanisms. In some embodiments, the metallic food containers are thin-walled aluminum and are pressurized using liquid nitrogen to maintain strength and integrity. The container can have a nitrogen well to receive liquid nitrogen and keep the liquid nitrogen away from the food stuff packaged in the container. In various embodiments, the metallic food container comprises a domed bottom portion shaped and sized to nest with a food stuff packaged in the container. In some embodiments, the container is sealed with a tear away lid, a screw-on lid, or a metallic end closure double seamed to the container.

A cushion package can be formed around an object. The object can be removed from and reinserted into the cushion package. The cushion package includes a cushion material (104) having a longitudinal length and two longitudinal edges (110). The two longitudinal edges (110) of the cushion material are folded into an overlapping position to form a tube of the cushion material. The cushion package includes first and second transverse seals (148,150) in the tube of the cushion material. The first and second transverse seals (148,150) respectively form first and second ends of the cushion package. Each of the first transverse seal and the second transverse seal (148,150) seals the cushion material with the two longitudinal edges (110) in the overlapping position. The two longitudinal edges (110) of the cushion material are uncoupled between the first transverse seal and the second transverse seal (148,150).

The present invention discloses a new method of packing and preserving fruits in liquid (fruit juice, syrup, water, etc). The method comprises packaging fruits, where the fruit is filled into a specifically formulated plastic container, topped with liquid, dosed with inert gases to enforce can integrity, seamed with metal can ends, and thermally processed to eliminate viable microorganisms. The process is unique in that by adjusting thermal processing parameters and manipulating the seam specifications, replacing the metal cans by a flexible and sustainable plastic can, becomes a practical alternative.

A cushion package can be formed around an object. The object can be removed from and reinserted into the cushion package. The cushion package includes a cushion material (104) having a longitudinal length and two longitudinal edges (110). The two longitudinal edges (110) of the cushion material are folded into an overlapping position to form a tube of the cushion material. The cushion package includes first and second transverse seals (148,150) in the tube of the cushion material. The first and second transverse seals (148,150) respectively form first and second ends of the cushion package. Each of the first transverse seal and the second transverse seal (148,150) seals the cushion material with the two longitudinal edges (110) in the overlapping position. The two longitudinal edges (110) of the cushion material are uncoupled between the first transverse seal and the second transverse seal (148,150).

In methods of making disposable, flexible containers for fluent products, methods of sealing the flexible containers when such containers include expansion materials, are disclosed. The methods include forming a partially completed container blank that has layers of flexible materials. The layered structure includes a first space for a fluent product, and a second space for an expansion material. The methods of sealing the flexible containers include adding an expansion material into the second space and pressing parts of at least some of the layers together to close off the second space.

An apparatus and a method are provided for a container filling and sealing production line to produce a target final pressure of liquid contents within containers during variable production line speeds. The container filling and sealing production line comprises a bottle filler that receives containers fabricated by manufacturing equipment and fills the containers with liquid contents. A cryogen dosing system adds a volume of a cryogen to the liquid contents. A bottle sealer seals the containers and entraps the cryogen and liquid contents, such that vaporization of the cryogen imparts the target final pressure of liquid contents within the containers. A communication line enables the bottle filler to pass information to the cryogen dosing system about upcoming changes in production speed such that the cryogen dosing system accordingly adjusts the volume of the cryogen.

In some embodiments, a sealing and pressure dosing apparatus may be provided. The sealing and pressure dosing apparatus may include a sealing machine having one or more of a driven turret, a sealing head, a pressure sealing member, and a pressure sealing chamber. The sealing and pressure dosing apparatus may also include a pressure dosing system which may be integrated with the sealing machine.