According to aspects of this disclosure there is provided a method for processing plastic containers comprising: i. Providing a container suitable for hot-filling; ii. Filling the container with heated or heatable liquid including water; iii. Sealing the container with a seal or cap to close the container; iv. Cooling the liquid in the sealed container to create a first headspace pressure within the container; v. Enclosing the cooled and sealed container within an open aseptic converter chamber, wherein the converter chamber comprises: 1. A sanitized environment; 2. Means for maintaining the sanitization of the container within the converter chamber; 3. Means for perforating or opening the cap or seal of the container within the converter chamber; 4. Means for sealing the opening or perforation within the converter chamber; and 5. Means for transporting or conveying multiple containers within the converter chamber. vi. Creating an opening in the seal or cap of the container within a sanitized environment of a perforator means or device for creating an opening in the seal or cap; vii. Increasing the first headspace pressure to a second headspace pressure within the container by the introduction of a sanitized fluid to the headspace of the container; viii. Resealing the container within a sanitized environment of a sealing means or device; ix. Transporting or conveying the sealed container from the sanitized environment of the converter chamber.

According to aspects of this disclosure there is provided a method for processing plastic containers comprising: i. Providing a container suitable for hot-filling; ii. Filling the container with heated or heatable liquid including water; iii. Sealing the container with a seal or cap to close the container; iv. Cooling the liquid in the sealed container to create a first headspace pressure within the container; v. Enclosing the cooled and sealed container within an open aseptic converter chamber, wherein the converter chamber comprises: 1. A sanitized environment; 2. Means for maintaining the sanitization of the container within the converter chamber; 3. Means for perforating or opening the cap or seal of the container within the converter chamber; 4. Means for sealing the opening or perforation within the converter chamber; and 5. Means for transporting or conveying multiple containers within the converter chamber. vi. Creating an opening in the seal or cap of the container within a sanitized environment of a perforator means or device for creating an opening in the seal or cap; vii. Increasing the first headspace pressure to a second headspace pressure within the container by the introduction of a sanitized fluid to the headspace of the container; viii. Resealing the container within a sanitized environment of a sealing means or device; ix. Transporting or conveying the sealed container from the sanitized environment of the converter chamber.

An apparatus for hot or warm filling comprising a compression machine configured to apply an axial compression force to a collapsible thermoplastic container for liquids. The compression machine includes a lower body having a surface designed to be a resting surface for the base of the container; at least one upper body designed to contact a portion of the container above the peripheral groove, so that the container can be held in an upright position by the at least one lower body and the at least one upper body; actuating means for actuating the at least one lower body and/or the at least one upper body in order to apply said axial compression force, acting along a direction parallel to the longitudinal axis of the container, in order to make the proximal straight side to come into contact with the distal straight side, thus reducing the internal volume of the container.

An apparatus for hot or warm filling comprising a compression machine configured to apply an axial compression force to a collapsible thermoplastic container for liquids. The compression machine includes a lower body having a surface designed to be a resting surface for the base of the container; at least one upper body designed to contact a portion of the container above the peripheral groove, so that the container can be held in an upright position by the at least one lower body and the at least one upper body; actuating means for actuating the at least one lower body and/or the at least one upper body in order to apply said axial compression force, acting along a direction parallel to the longitudinal axis of the container, in order to make the proximal straight side to come into contact with the distal straight side, thus reducing the internal volume of the container.

Plastic container that is to be filled with a hot product includes a threaded neck portion, a base portion including a standing surface and a moveable element, and a body portion including a dome portion, first and second label stop portions, a supplemental vacuum panel and a sidewall relatively free of structural geometry that surrounds an interior of the body portion. During cooling, the hot product is contracted so as to create an induced vacuum. The supplemental vacuum panel is configured and operative to remove a first portion of an induced vacuum, and the moveable element is configured and operative to move from a first position to a second position to remove a second portion of the vacuum, wherein the first portion of the vacuum and the second portion of the vacuum constitute substantially the entire vacuum.

Plastic container that is to be filled with a hot product includes a threaded neck portion, a base portion including a standing surface and a moveable element, and a body portion including a dome portion, first and second label stop portions, a supplemental vacuum panel and a sidewall relatively free of structural geometry that surrounds an interior of the body portion. During cooling, the hot product is contracted so as to create an induced vacuum. The supplemental vacuum panel is configured and operative to remove a first portion of an induced vacuum, and the moveable element is configured and operative to move from a first position to a second position to remove a second portion of the vacuum, wherein the first portion of the vacuum and the second portion of the vacuum constitute substantially the entire vacuum.

A sealing and pressure dosing apparatus, and container filling method, including a capping machine (102) which receives containers (1). Closures (80) are applied to the containers (1) immediately following the raising of pressure within the containers (1) by a pressure dosing system in a pressure sealing chamber (84). Preferably a cooling system is integrated with the capping machine.

A sealing and pressure dosing apparatus, and container filling method, including a capping machine (102) which receives containers (1). Closures (80) are applied to the containers (1) immediately following the raising of pressure within the containers (1) by a pressure dosing system in a pressure sealing chamber (84). Preferably a cooling system is integrated with the capping machine.

One embodiment of the present invention provides a system for processing containers. The system may include 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 or tunnel for continuously exiting the processed containers; and a conveyor system configured to transport or convey the containers. The system may further include a production line including a filler for filling empty blow-moulded containers with a heated liquid to pasteurize inside surfaces of the containers and a capper for sealing the filled blow moulded containers.

One embodiment of the present invention provides a system for processing containers. The system may include 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 or tunnel for continuously exiting the processed containers; and a conveyor system configured to transport or convey the containers. The system may further include a production line including a filler for filling empty blow-moulded containers with a heated liquid to pasteurize inside surfaces of the containers and a capper for sealing the filled blow moulded containers.