A valve assembly in a product channel comprises a regulating valve, a filling valve, and an elongated actuation element that is common to both. A filling-valve element that interacts with a filling-valve seat to open and close the filling valve. The regulating valve comprises an actuation element-side regulating valve element that interacts with a regulating-valve seat to control a product quantity to be filled. Both the regulating and filling valve elements are arranged on the actuation element. A driven actuator changes a position of the actuation element relative to the regulating valve seat and the filling valve seat as part of a filling operation.

Systems and methods using container holders configured to provide a stable support for containers held therein in order to efficiently cool the containers after a hot-fill or elevated temperature operation. The container holders can allow a fluid to pass from an inner volume of the container holder to outside the container holder through side apertures and/or an open bottom end of the container holder. Groups of containers and container holders also may be cooled. Groups of containers in container holders can be processed through the cooling operation at a speed different from a speed for holderless containers.

Systems and methods using container holders configured to provide a stable support for containers held therein in order to efficiently cool the containers after a hot-fill or elevated temperature operation. The container holders can allow a fluid to pass from an inner volume of the container holder to outside the container holder through side apertures and/or an open bottom end of the container holder. Groups of containers and container holders also may be cooled. Groups of containers in container holders can be processed through the cooling operation at a speed different from a speed for holderless containers.

A valve assembly in a product channel comprises a regulating valve, a filling valve, and an elongated actuation element that is common to both. A filling-valve element that interacts with a filling-valve seat to open and close the filling valve. The regulating valve comprises an actuation element-side regulating valve element that interacts with a regulating-valve seat to control a product quantity to be filled. Both the regulating and filling valve elements are arranged on the actuation element. A driven actuator changes a position of the actuation element relative to the regulating valve seat and the filling valve seat as part of a filling operation.

One embodiment of the present invention provides an apparatus for processing sealed plastic containers having a first headspace pressure. The apparatus may include: an open entry port or tunnel for continuously receiving containers; a sanitizer configured to sanitize outside surfaces of the received containers; a perforator configured to perforate or open a cap or seal of the containers within the apparatus; a sealer configured to seal the perforation or opening formed in the cap or seal of the containers; an open exit port of tunnel for continuously exiting the processed containers; and a conveyor system configured to transporting or convey the containers from the open entry port or tunnel, through and within the apparatus, to the open exit port or tunnel and away from the sanitized environment of the apparatus. The apparatus may be further configured to maintain a sanitized environment within the apparatus, perforator, and/or sealer.

One embodiment of the present invention provides an apparatus for processing sealed plastic containers having a first headspace pressure. The apparatus may include: an open entry port or tunnel for continuously receiving containers; a sanitizer configured to sanitize outside surfaces of the received containers; a perforator configured to perforate or open a cap or seal of the containers within the apparatus; a sealer configured to seal the perforation or opening formed in the cap or seal of the containers; an open exit port of tunnel for continuously exiting the processed containers; and a conveyor system configured to transporting or convey the containers from the open entry port or tunnel, through and within the apparatus, to the open exit port or tunnel and away from the sanitized environment of the apparatus. The apparatus may be further configured to maintain a sanitized environment within the apparatus, perforator, and/or sealer.

A device for manufacturing and filling beverage containers (12) having thin walls and/or at least partially unstable shapes under the influence of heat is described, in which the containers (12) are manufactured by blow molding of preforms (10), then filled with a hot liquid filling product (16), next pressurized by a compressed gas (18), and then sealed. The preforms (10) and the containers (12) molded therefrom are pressurized during blow molding at a blow molding temperature, which is essentially below 110 C.

A device for manufacturing and filling beverage containers (12) having thin walls and/or at least partially unstable shapes under the influence of heat is described, in which the containers (12) are manufactured by blow molding of preforms (10), then filled with a hot liquid filling product (16), next pressurized by a compressed gas (18), and then sealed. The preforms (10) and the containers (12) molded therefrom are pressurized during blow molding at a blow molding temperature, which is essentially below 110 C.

A method and system of transferring matter through a sealed container during a bottling process are provided. The method includes accessing a headspace of the filled and sealed container by creating at least one opening. An inert gas is provided within the headspace while allowing O.sub.2 to exit from the headspace until substantially all of the O.sub.2 has been flushed out of the headspace. The headspace is then pressurized by continuing to direct the inert gas into the headspace after it has been flushed of O.sub.2. The at least one opening of the container is then sealed while the headspace is under pressure. The filled and sealed container can be a hot-filled container.

A method and system of transferring matter through a sealed container during a bottling process are provided. The method includes accessing a headspace of the filled and sealed container by creating at least one opening. An inert gas is provided within the headspace while allowing O.sub.2 to exit from the headspace until substantially all of the O.sub.2 has been flushed out of the headspace. The headspace is then pressurized by continuing to direct the inert gas into the headspace after it has been flushed of O.sub.2. The at least one opening of the container is then sealed while the headspace is under pressure. The filled and sealed container can be a hot-filled container.