One embodiment of the present invention provides a method for processing plastic containers within an open aseptic converter chamber comprising a sanitized environment, a supply line, a sanitizer device, a perforator device, a sealing device, and a conveyer. During operation, the method includes: providing and filling a container with heated or heatable liquid including water; sealing the container with a seal or cap; cooling the container to create a first headspace pressure; enclosing the container within the chamber; creating an opening in the seal or cap within a sanitized environment of the perforator device; increasing the first headspace pressure to a second headspace pressure by introduction of a sanitized fluid; resealing the container within a sanitized environment of the sealing device; and, transporting or conveying the sealed container away from the chamber.

The present invention provides a vacuum sealed, container suitable for containing preserved pickled food. In a preferred approach, the container includes at least one foil wall formed from a flexible foil and defining a chamber; pickled food within the chamber; and brine, in which the food is immersed, and which fills the chamber when the chamber is sealed. Preferably, the ratio of brine to pickled food by mass is in the range 1:2.5 to :5. The claimed containers can reduce the mess associated with eating pickled foods from traditional containers, and can assist in improving the shelf life of such foods.

Described is a method for cleaning a tunnel-shaped container-processing machine, in particular a tunnel pasteurizer, and a container-processing machine designed accordingly, in particular a tunnel pasteuriser, for beverage bottles or similar containers. Since hydroxyl radicals are produced mechanically in process water for the container-processing machine the tunnel pasteuriser and/or are introduced into same, and organic impurities present in the container-processing machine in the tunnel pasteuriser are also mineralized by the hydroxyl radicals in the process water, microorganisms based thereon can be removed more easily and in addition their nutrient basis removed from them.

A closure apparatus for openings for access to industrial machines includes a door which can move, by virtue of the action of a respective actuator which includes a motorized shaft which supports at least two mutually opposite pulleys for winding flexible elements connected to respective substantially upper and external portions of the door. The actuator includes substantially at an intermediate section of the shaft, at least one third idle pulley for winding at least one third flexible element connected to a substantially upper and central portion of the door. The third pulley is provided with at least one position sensor for detecting an unrolling of the third flexible element.

Embodiments of a cell traverse for an aseptic region of a filling machine for filling packages with flowable products are provided. The cell traverse includes a frame structure with at least one first lateral longitudinal structure, at least one second lateral longitudinal structure opposite the first longitudinal structure, and a plurality of transverse elements arranged between the first and second longitudinal structures and connecting the longitudinal structures. Between the longitudinal structures and the transverse elements there are a plurality of cells of the cell traverse for receiving packages to be filled. At least some of the transverse elements are connected exclusively in an form-fit and/or force-fit manner to the longitudinal structures.

An apparatus for processing medical instruments includes an enclosure having an entrance door and an exit door. The enclosure is arranged so that a cassette containing dirty instruments is deposited into the enclosure through the entrance door, the dirty instruments are cleaned, sterilized, and packaged inside the enclosure, and the clean, sterilized, packaged instruments are removed from the enclosure through the exit door. The enclosure includes a plurality of stations therein, such as a jet washing and drying station, a packaging station, and an autoclave station. Each station has sidewalls and a bottom surface, and includes at least one slot that is sized and shaped to hold only one cassette. Each slot in each station has a wire frame so that the cassette, when positioned in the slot, does not contact the sidewalls or bottom surface of the station. A robotic arm automatically moves the instrument cassettes between stations.

In combination a spouted pouch to be filled with a flowable product by a filling machine, a plug, and a cap. The interference fit plug is releasably mounted over the top end of the neck of the spout body and hermetically seals the product passage of the spout body. The plug is adapted to be removed by the filling machine and to be replaced by pressing the plug onto the neck after filling of the pouch. The plug removal, filling, and replacing of the plug are preferably performed in an aseptic environment. The cap is after the filling of the pouch and the replacing of the plug onto the neck. The capping is preferably performed by a capping machine in a non-aseptic environment.

Disclosed herein is a fluid transfer assembly for dispensing flowable material from a container, the fluid transfer assembly having a spout, a screw cap body, and an aseptic plug, wherein the aseptic plug is configured to form an aseptic seal with the screw cap body.

Embodiments of a cell traverse for an aseptic region of a filling machine for filling packages with flowable products are provided. The cell traverse includes a frame structure with a first lateral longitudinal structure and a second lateral longitudinal structure opposite the first longitudinal structure. Also included are a plurality of transverse elements arranged between the first and second longitudinal structures and connecting the longitudinal structures. Between the longitudinal structures and the transverse elements a plurality of cells of the cell traverse are formed for receiving packages to be filled. The cell traverse also includes insert elements, which each have the frame structure, in particular at least one longitudinal structure and/or at least one transverse element, and at least some of the insert elements are detachably connected to the frame structure of the cell traverse.

Disclosed herein is a fluid transfer assembly for dispensing flowable material from a container, the fluid transfer assembly having a spout, a screw cap body, and an aseptic plug, wherein the aseptic plug is configured to form an aseptic seal with the screw cap body.