A method of degasification of a carbonated beverage-filled container in an apparatus for blowing and filling containers, the apparatus including a mold enclosing a blown and carbonated beverage-filled container. The container includes a dispensing opening, an injection head that is movable along a longitudinal axis, passing by the dispensing opening of the container, between a sealing position in which the injection head is in a sealing engagement with the dispensing opening and a non-sealing position in which the injection head spaced from the dispensing opening. The method includes the steps of moving the injection head away from the sealing position to a first non-sealing position, moving the injection head from the first non-sealing position back to the sealing position, and after moving the injection head back, moving the injection head away from the sealing position to a second non-sealing position that is different from the first non-sealing position.

A method for treating containers in which, at a treatment station, the containers are provided on container outer surfaces thereof with a print that including a colorant. The colorant can be dye or ink. The method includes, at a treatment station, processing the colorant by irradiating the containers with non-thermal energy radiation. Processing the colorant includes drying or curing it. The method also includes decontaminating a region of the containers with the same radiation, either by disinfecting or sterilizing it. The region includes either or both a container opening and a container inner surface.

An apparatus for shaping plastic preforms into plastic containers is disclosed. Said apparatus comprises a conveying device on which a plurality of blowing stations are arranged. Each of said blowing stations encompasses a blow mold, within which a plastic preform can be shaped into a plastic container. The apparatus further comprises a clean chamber, within which the plastic preforms can be conveyed. According to the invention, the zone of the conveying device in which the blowing stations are arranged is located in the clean chamber, and at least one additional zone of the conveying device is located outside the clean chamber.

A device for handling containers and/or packagings, includes a first handling unit which handles the containers and/or packagings in a first predetermined manner, and a second handling unit which handles the containers and/or packagings in a second predetermined manner, a transport unit for transporting the containers and/or packagings, and a monitoring unit for monitoring the device. The monitoring unit includes an unmanned and remote-controlled flying device and a control unit for wirelessly controlling the flying device, wherein the flying device has an image capturing unit, and wherein the device has a delimiting unit which delimits a flying region of the flying device.

An apparatus for producing plastic bottles includes a molding machine to receive and mold the preforms into bottles; a labeling machine to label the bottles; a filler to fill the bottles; a packer to package the bottles; and a distributor arranged at an outfeed of the labeling machine or the filler to transfer the bottles to the packer. No buffers are positioned between at least one of the molding machine, the labeling machine, and the filler and at least one of the packer and the distributor to bloc-synchronize the at least one of the molding machine, the labeling machine, and the filler with the at least one of the packer and the distributer. The at least one of the molding machine, the labeling machine, and the filler being spaced a distance from the at least one of the packer and the distributor via one or more transfer starwheels.

A synchronization system for a container-processing plant, including a container-forming machine configured to form a container, the container-forming machine having a first rotating wheel for rotating the container about a first rotation axis; a container-filling machine operatively coupled to the container-forming machine and configured to fill the container, the container-filling machine having a second rotating wheel for rotating the container about a second rotation axis; and at least one electric motor configured to cause the first rotating wheel and the second rotating wheel to rotate, the synchronization system comprising: a position sensor provided in the container-forming machine and configured to detect a rotating position of the first rotating wheel and to generate a position detection signal; at least one control unit configured to: receive information associated with the position detection signal; synchronize the rotation of the second rotating wheel to the rotation of the first rotating wheel based on the information associated with the position detection signal; and synchronize the rotation of the container-forming machine and container-filling machine from a zero speed up to a full operating speed of the container forming machine at which processing operations are designed to be performed.

A plastic container comprises an upper portion including a finish defining an opening into the container, a lower portion including a base defining a standing surface, a sidewall extending between the upper portion and the lower portion, the sidewall defining a longitudinal axis, and at least one substantially transversely-oriented pressure panel located in the lower portion. The pressure panel is movable between an outwardly-inclined position and an inwardly-inclined position to compensate for a change of pressure inside the container. The standing surface defines a standing plane, and the entire pressure panel is located between the standing plane and the upper portion of the container when the pressure panel is in the outwardly-inclined position.

In one embodiment, a method of processing a plastic container having a longitudinal axis is disclosed. The method includes: blow-molding a plastic container having an upper portion including a finish, a sidewall, a lower portion including a base defining a standing surface, and a substantially transversely-oriented pressure panel having an inner annular wall and a central push-up portion located in the base, wherein a base mold portion is displaced longitudinally with respect to first and second side mold portions to form the pressure panel set above the standing surface; introducing heated liquid contents into the plastic container with the pressure panel located in an outwardly-inclined position entirely between the standing surface and the upper portion; capping the plastic container; and, moving the pressure panel to an inwardly-inclined position entirely between the standing surface and the upper portion.

A method for decontaminating a tube of which a first open end forms an inner neck towards the inside of the tube and an outer neck towards the outside of the tube, the method including: initially raising the temperature of the tube, then subjecting the tube to ultraviolet radiation, that includes emitting ultraviolet radiation by radiation emission apparatus, and subjecting the inside of the tube, the outer neck and the inner neck to the ultraviolet radiation, in which the first end is inserted into a cavity arranged to reflect the ultraviolet radiation emitted by the emission apparatus and to direct this ultraviolet radiation into the tube through the first end, onto the outer neck of the tube and onto the inner neck of the tube.

An apparatus (1) for the production of plastics material liquid containers (10) with a conveying device (2) which conveys the plastics material containers (10) along a pre-set conveying path (P), with a shaping device (4) which shapes plastics material pre-forms into the plastics material containers (10), with a first filling device (12) which is arranged downstream of the shaping device (4) along the conveying path and which fills the plastics material containers (10) with a liquid, and with a cooling device (8) which is arranged between the shaping device (4) and the first filling device (12) and which cools at least one area of the wall of the plastics material containers (10) by acting upon it with a flowable medium. According to the invention the cooling device has a second filling device (8) which fills a liquid into the container, which liquid is used for cooling a base area (10a) of the plastics material container (10).