A device for filling liquid or pasty food products in prefabricated individual containers which form a sealing rim, the device including carrier elements which are run through the device by a drive in a continuous cycle and which include receiving openings for the individual containers; operating stations into whose operating area the carrier elements move during the continuous cycle through the device; at least one operating station configured as a sealing device which fixes a sealing foil on the sealing rim of each individual container using a sealing tool; a web shaped sealing foil spanning the carrier elements transversal to their width measured transversal to their feed direction wherein the sealing foil is run between the sealing rim of the individual containers and a sealing head; a pulley device which is arranged upstream of the sealing device in the feed direction.

A device for filling liquid to pasty food products into prefabricated individual containers including a support rim, the device including carrier elements which are run by a drive continuously through the device, which carrier elements form receiving openings for the individual containers and include a top side that is oriented away from a direction of gravity and configured to carry the support rim of the individual containers that are inserted into the receiving openings; operating stations in whose operating range the carrier elements move during an endless cycle of the carrier elements in the device; at least one operating station that is configured as a sterilization device which de-germinates the carrier elements and the individual containers; a lifting device forming a portion of the sterilization device and configured to lift individual containers that are seated in the receiving openings and which contact a top side with the support rim.

A device for sterilizing plastic containers includes a transport device for transporting the containers during the sterilization along a predefined transport path, a clean room within which the containers can be transported during sterilization, wherein the clean room is delimited by at least one wall with respect to the environment, and a first external application device for sterilizing at least a section of the outer wall of the containers. The first external application device has a source of charge carriers for generation of charge carriers, and includes a first moving device which moves the containers at least intermittently in the longitudinal direction during their sterilization. The device also includes a rotary device which rotates the containers about their longitudinal direction at least intermittently during the sterilization, wherein the rotary device and the moving device are preferably configured in such a way that a rotation of the containers is enabled during a movement of the containers in their longitudinal direction.

An evacuated bottle system including a bottle defining a hollow interior, the bottle having a neck with a rim defining an opening; a cap assembly supported on the bottle, the cap assembly including a funnel having a first portion and a second portion, the first portion being insertable within the interior of the bottle and the second portion engaging a portion of the bottle to support the funnel above the rim, the funnel defining a bore that fluidly communicates with the hollow interior of the bottle; a self-sealing membrane that covers the bore formed by the funnel to selectively seal the hollow interior of the bottle; a cap attachable to the bottle, the cap including a cover portion that extends at least partially over the self-sealing membrane to restrain movement thereof, the cover portion being axially spaced from the self-sealing membrane to define a gap that permits axial movement of the self-sealing membrane to selectively open the bottle to fluid communication outside of the bottle.

An evacuated bottle system including a bottle defining a hollow interior, the bottle having a neck with a rim defining an opening; a cap assembly supported on the bottle, the cap assembly including a funnel having a first portion and a second portion, the first portion being insertable within the interior of the bottle and the second portion engaging a portion of the bottle to support the funnel above the rim, the funnel defining a bore that fluidly communicates with the hollow interior of the bottle; a self-sealing membrane that covers the bore formed by the funnel to selectively seal the hollow interior of the bottle; a cap attachable to the bottle, the cap including a cover portion that extends at least partially over the self-sealing membrane to restrain movement thereof, the cover portion being axially spaced from the self-sealing membrane to define a gap that permits axial movement of the self-sealing membrane to selectively open the bottle to fluid communication outside of the bottle.

A packaging method for packaging elastomer parts (1), such as stoppers for pharmaceutical containers, the method comprising the following steps: packaging parts (1) in a primary bag (10) made of material that is substantially impermeable to gas; and introducing in said primary bag (10), a nitrogen-based atmosphere, with at least 80% nitrogen; said primary bag (10) being packaged in a secondary bag (20), with a vacuum being applied between said primary bag (10) and said secondary bag (20)

A packaging method for packaging elastomer parts (1), such as stoppers for pharmaceutical containers, the method comprising the following steps: packaging parts (1) in a primary bag (10) made of material that is substantially impermeable to gas; and introducing in said primary bag (10), a nitrogen-based atmosphere, with at least 80% nitrogen; said primary bag (10) being packaged in a secondary bag (20), with a vacuum being applied between said primary bag (10) and said secondary bag (20)

A package for preserving respiring produce contained in the package, in particular vegetables, fruit, herbs, spices and/or flowers, and an associated method are provided. The package defines a package volume for containing a portion of the produce and a package atmosphere, and comprises a packaging material, in particular a polymer film (1A), provided with at least one perforation (3) enabling gas exchange with the atmosphere surrounding the package (1) to form the package into a Controlled Atmosphere Package (CAP). The packaging material has a Water Vapour Transmission Rate (WVTR), a carbon dioxide transmission rate (CO.sub.2TR) and an oxygen transmission rate (O.sub.2TR), wherein the WVTR of the packaging material is in a range of 50-1200 ml/(m.sup.2.Math.24 hrs), the CO.sub.2TR of the packaging material is larger than 1000 ml/(m.sup.2.Math.24 hrs), and a ratio β=CO.sub.2TR/O.sub.2TR of the packaging material is larger than 4.

Disclosed is a system for preventing scaling and deposit formation in a sterile air heat exchanger of a system for aseptic packaging within laminated carton packages, and a process for eliminating hydrogen peroxide residues in aseptic laminated carton packaging systems, characterized in that it comprises providing a supply of water for scrubbing sterile air that has the following properties: (a) maximum conductivity at 20° C. of 2.0 micromhos; and (b) a maximum silica content of 0.1 ppm.

Disclosed is a system for preventing scaling and deposit formation in a sterile air heat exchanger of a system for aseptic packaging within laminated carton packages, and a process for eliminating hydrogen peroxide residues in aseptic laminated carton packaging systems, characterized in that it comprises providing a supply of water for scrubbing sterile air that has the following properties: (a) maximum conductivity at 20° C. of 2.0 micromhos; and (b) a maximum silica content of 0.1 ppm.