The present invention relates generally to a container that may be sealed and reclosed with a threaded closure. More specifically, the present invention relates to methods of manufacturing a metallic container having an opening with inwardly facing threads that are formed after a threaded closure is inserted at least partially into the opening. The container opening may be selectively sealed and reclosed with the threaded closure which releasably engages the container threads.

The present invention relates generally to a container that may be sealed and reclosed with a threaded closure. More specifically, the present invention relates to methods of manufacturing a metallic container having an opening with inwardly facing threads that are formed after a threaded closure is inserted at least partially into the opening. The container opening may be selectively sealed and reclosed with the threaded closure which releasably engages the container threads.

A system for evacuating and sealing containers filled with product, for example, food product, includes an enclosed, sealed housing wherein the pressure level and the atmospheric content can be controlled. A vacuum shroud is positioned in registry with a container entrance opening in the housing, the shroud connectible to a vacuum source and to a source of replaceable gas to replace the ambient air to be removed from the container. The shroud is advanceable to seal the container entrance opening and is retractable from the container entrance opening. A container transport system inserts the container through the housing entrance opening and into the shroud. Thereupon, a sealing system seals the housing from the ambient after the container has been inserted into the shroud. After the air in the container has been replaced with an inert gas and then the shroud retracted, a closure subsystem applies a cover to the evacuated container. Thereafter, an out feed subsystem removes the closed container from the housing while maintaining the atmospheric content and pressure level within the housing.

A beverage brewing cartridge includes a base including a sidewall having first and second open ends and a cover sealed to a rim of the first open end, and a plug configured to be inserted into the second open end. The cartridge is configured to hold beverage brewing material when the plug is inserted. The cover is configured to be breached to allow pressurized liquid to enter the cartridge to brew a beverage. The plug includes weakened areas configured to open after the pressurized liquid enters the cartridge to allow the beverage to flow from the cartridge. A method of constructing the cartridge includes placing the base in a holder, inserting a portion of brewing material into the base through the second open sidewall end, tamping the brewing material in the base through the second open sidewall end, and inserting the plug into the second open sidewall end.

A food package for sliced food products to be maintained with a fluffed appearance, the package including a rigid base member forming a compartment for receiving the food product and a rigid lid sealed to the compartment. Advantageously, the base member includes a bottom wall and side wall portions that are configured to engage the food product to hold the slices in a fluffed arrangement thereof. Preferably, one or more tapered side wall portions hold the food product upwardly toward the lid and inwardly toward a center of the package. In preferred embodiments, the base member and lid provide a rigid-rigid construction of the food package. In preferred embodiments, the food package is also configured to stand-up in a vertical display orientation and does not require the food product be contained within a sealed pouch within the compartment.

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 seamer assembly includes a frame, a first servo assembly, a second servo assembly, a first support element, a second support element, a first die, and a second die. The first servo assembly is coupled to the frame. The first servo assembly includes a chuck that is configured to be rotated by the first servo assembly. The second servo assembly is coupled to the frame. The first support element is configured to support a can subassembly that includes a can body and a lid relative to the frame where at least one of the first support element, the first servo assembly and second servo assembly move relative to the other of the first support element, the first servo assembly and second servo assembly. The second support element is coupled to the second servo assembly. The first die is coupled to the second support element. The second die is coupled to the second support element. The first support element is configured to support a can subassembly such that the chuck is received in a first chuck position. The first servo assembly is configured to selectively rotate the can subassembly when the chuck is received in the first chuck position. The second servo assembly is configured to selectively reposition the second support element such that the first die and the second die are correspondingly repositioned.

An assembling apparatus efficiently performs a recovery operation and a parts size change operation. A filling line (the assembling apparatus) has parts supply units that supply parts, assembling units that mount one of the parts to another part, and a conveying unit that individually moves carriers 12 capable of storing parts constituting an assembly. The parts supply units are provided at positions away from the assembling units, the assembling units are accommodated in an isolator having an interior maintained in an aseptic state, and gloves to perform an operation on the assembling units are provided on a side surface of the isolator. The supply units store the parts in one of the carriers, the carrier then moves into the isolator, and the assembling units take the part from the carrier, and mounts the part to the other part stored in the same carrier.

The present application is directed to Seed Preservation and Storage Containers and a process for preserving and long term storing of a wide variety of crop seeds, plant seeds, heirloom seeds, flowering plant seeds, tree seeds, and grains including corn, beans, peas and rice. Each long term storage and preservation container will be labeled with the container seed contents information on QR codes or Bar codes, or the like, in and on containers, and the seed packets stored within the containers. By using a method of preservation and storage for an extended period of time, seed containers will be processed resulting in an ultimate climate condition to prevent the seeds within the seed containers from molding, rotting or prematurely germinating for many years. Contents of the seed containers will be readily revealed by scanning the outside labels on the containers and on the individual seed packet labels within the containers.

Disclosed is a device for filling a receptacle, comprising at least one filling station (48) for filling at least one receptacle (36), and at least one receptacle holder (38) for conveying the receptacle (36) relative to the filling station (48), characterized in that at least one driving surface (13) and at least one mover (20) which can be coupled to the driving surface (13) especially in a magnetic manner are provided, the mover (20) being arranged so as to be movable and/or rotatable on the driving surface (13) in at least two degrees of freedom, and in that the receptacle holder (38) is disposed on the mover (20).