A hydraulic blow molding apparatus having a container forming station with a forming head coupled to a source of liquid blow medium. The container forming station further includes a mold configured to receive a preform and has interior surfaces that define the container shape. The container forming station injects a liquid end product into the preform and expands the preform to simultaneously form and fill a container with the liquid end product. Prior to the container being removed from the container forming station and while it is still full of the liquid end product, a seal is engaged with the container.

Disclosed is a one-piece, short stemmed, blow molded drinking vessel. The vessel includes a stem with a first end and a second end, a partial hollow cavity disposed therein, and a height that allows holding of the stem using a fore finger and a thumb, a bowl with a lip configured on top, and has a continuous bowl surface that laterally stretches between the lip to its maximum predefined diameter, thereafter shrinks to merge with the first end of the stem forming a beverage retaining region, a base with a predefined diameter, the second end of the stem is merged centrally over a top surface of the base, and a removable sealing unit adapted for covering the lip of the bowl in order to ensure the beverage contained within the beverage retaining region doesn't come in contact with air and doesn't spill out during transportation.

The invention relates to a method for reducing the microbiological loading of container products consisting at least partially of at least one plastic material, in which, as part of a first production process, a plastic granulate (29) is fed to an extruder device (19), which melts the granulate (29), which, as part of a further subsequent production process, is forwarded onto a blowmolding, filling and sealing machine for obtaining the respective container product, characterised in that, at least in parts of the first production process, the respective used plastic material undergoes at least one of the following treatment steps: high-energy radiation and/or plasma treatment and/or a gas having a sterilizing effect.

The invention relates to a device for reducing the microbiological contaminants of container products which consist predominantly of plastics materials. In said device a plastics granulate is fed to an extruder assembly (19) which melts the granulate, said granulate being subsequently supplied to a form fill seal machine for producing the relevant container product. The device also comprises a guide assembly (35) for the targeted guidance of the plasticated plastics material from the extruder assembly (19) to said machine. The device is characterised in that at least one guide assembly (35) has at least one flow or channel guide (41) for the melted plastics material, so that microbiological contaminants are guided predominantly into the interior of the wall of the polymeric tube, said interior being enclosed by regions of the plastics material that are less contaminated.

In a production system 100, containers have hollow main bodies 1a having openings at their top parts and caps 1b for closing the openings. The production system 100 includes a conveyor line L for conveying the containers 1, a capper 5 for attaching the caps 1b to the main bodies 1a of the containers 1 on the conveyor line L, a reading apparatus 18 configured to read first information attached to top surfaces of the caps 1b of the containers 1 for identifying the containers 1 on the conveyor line L at one or more predetermined points after the capper 5, and a memory apparatus 52 configured to store linked together the first information of the containers 1, second information attached to the main bodies 1a of the containers 1 for identifying the main bodies 1a, and times at which the containers 1 passed the one or more predetermined points.

Systems and methods for automatic and dynamic temperature adjustment and over-cooling of a rotary Blow-Fill-Seal (BFS) manufacturing device to reduce the fill product temperature such as for filling of BFS vials with cold-temperature vaccines.

A synthetic resin container that is formed in a bottle shape having a mouth and a trunk and that is provided in the trunk with at least one reduced pressure absorbing panel. The trunk has a density of 1.3695 g/cm.sup.3 or more, and a ratio of a crystal orientation in a transverse direction with respect to a total value of a crystal orientation in a machine direction and the crystal orientation in the transverse direction in the trunk is less than 44%.

A machine to shape from a preform and fill with liquid successive containers in successive molds. The machine defines a first closed loop and includes a plurality of holding devices adapted to hold a neck of a preform or of a container. The holding devices are distributed along the first closed loop and the machine further includes a conveyor adapted to convey the holding device along the first closed loop. The first closed loop including a forming area along which each holing device is integrated in a forming station. The first closed loop also including one straight portion extending substantially rectilinearly.

A blow molding device with a mold into which preform is mounted and a blow nozzle that connects to a mouth tube section of the preform. The blow molding device feeds pressurized liquid from the blow nozzle into the preform and includes a blow nozzle displacement unit that raises and lowers the blow nozzle along the axis of the preform. The blow nozzle has a cap attaching unit that fixes and holds a cap, for sealing a bottle, to a mouth tube section of the bottle when the blow nozzle is lowered by operation of the blow nozzle displacement unit.

To sterilize a container during blow molding thereof.

After a preform (1) is put in a molding die (6), the molding die (6) is clamped, and a mist or gas of a sterilizer or a mixture thereof is blasted into the preform (1), a blow molding air is blasted into the preform (1) to expand the preform (1) into a container (2) as a finished product, and the used blow molding air is discharged from the container (2) to remove the sterilizer in the container (2).