A storage system for storing objects of plastic material processed in a bottling line (45) comprises: a plurality of drawers (4) configured to contain groups of objects (5); a frame (2) which defines a plurality of compartments (3) configured to house the drawers (4); a conveyor (8) movable in the storage system (1) itself and configured to access the compartments (3) in such a way as to withdraw and place drawers (4) from and into the compartments (4); a loading bay (11) having one or more loading compartments for receiving corresponding drawers (4) and having a loading manipulator (28) configured to place in the drawers (4) the loose objects (5) received from an infeed conveyor (29); an unloading bay (12) having at least one unloading compartment for receiving a corresponding drawer (4) and having an unloading manipulator (41) configured to place onto an outfeed conveyor (43, 44) the loose objects (5) stored in the drawer (4).

Disclosed is a process for treating at least one hollow body made of thermoplastic material, such as a preform or a cap, the treatment process successively including at least the following steps: a first step, consisting in treating at least the inside of the hollow body using hydrogen peroxide; a second step, consisting in heating the hollow body; a third step, consisting in treating the hollow body with plasma in order to reduce the concentration of hydrogen peroxide residues. Also disclosed is a plant for manufacturing containers in which the process is carried out in particular by way of a unit for the plasma treatment of the preforms.

Disclosed is a process for treating at least one hollow body made of thermoplastic material, such as a preform or a cap, the treatment process successively including at least the following steps: a first step, consisting in treating at least the inside of the hollow body using hydrogen peroxide; a second step, consisting in heating the hollow body; a third step, consisting in treating the hollow body with plasma in order to reduce the concentration of hydrogen peroxide residues. Also disclosed is a plant for manufacturing containers in which the process is carried out in particular by way of a unit for the plasma treatment of the preforms.

Provided is a method for heating plastic preforms, wherein the plastic parison are transported along a predetermined transport path and are heated during this transport, wherein at least one first heating section with at least one first heating element as well as at least one second heating section with at least one second heating element is arranged along the transport path, by a first temperature measuring device an actual temperature of the plastic preforms is measured in or before a start region of the transport path, and as a function of this actual temperature of the plastic preforms the at least one first heating element is controlled in such a way that the plastic preforms reach a predetermined target temperature after heating by this at least one first heating element.

Provided is a method for heating plastic preforms, wherein the plastic parison are transported along a predetermined transport path and are heated during this transport, wherein at least one first heating section with at least one first heating element as well as at least one second heating section with at least one second heating element is arranged along the transport path, by a first temperature measuring device an actual temperature of the plastic preforms is measured in or before a start region of the transport path, and as a function of this actual temperature of the plastic preforms the at least one first heating element is controlled in such a way that the plastic preforms reach a predetermined target temperature after heating by this at least one first heating element.

Provided is a method for verifying holding members in a heating station equipped with a device for transporting the preforms. The device includes a plurality of movable supports circulating in a closed circuit and members for individually holding the preforms by their neck, where each of the holding members is borne by a movable support. The method includes setting the movable supports in movement to bring them successively into an acquisition zone, acquiring an image of each individual holding member in the acquisition zone, and automatically verifying the presence of a holding member on each of the images taken.

Provided is a method for verifying holding members in a heating station equipped with a device for transporting the preforms. The device includes a plurality of movable supports circulating in a closed circuit and members for individually holding the preforms by their neck, where each of the holding members is borne by a movable support. The method includes setting the movable supports in movement to bring them successively into an acquisition zone, acquiring an image of each individual holding member in the acquisition zone, and automatically verifying the presence of a holding member on each of the images taken.

Provided are methods for automatically positioning ramps in a station for the heating of preforms. The method includes acquiring an image of a preform traveling along a slot delimited by a pair of ramps, where at least one of the ramps is transversely mobile to vary the width of the slot (56) and where a motorized device transversely moves the at least one mobile ramp and is controlled automatically by an electronic control unit. The method further includes automatically determining the diameter below the neck of the preform by computer processing the image and automatically adjusting the width of the slot by moving the at least one mobile ramp according to the determined diameter below the neck.

Provided are methods for automatically positioning ramps in a station for the heating of preforms. The method includes acquiring an image of a preform traveling along a slot delimited by a pair of ramps, where at least one of the ramps is transversely mobile to vary the width of the slot (56) and where a motorized device transversely moves the at least one mobile ramp and is controlled automatically by an electronic control unit. The method further includes automatically determining the diameter below the neck of the preform by computer processing the image and automatically adjusting the width of the slot by moving the at least one mobile ramp according to the determined diameter below the neck.

A continuous cycle bottling line (1) for containers of thermoplastic material, comprises: a parison (4) moulding unit (3), a thermal conditioning unit (6) for the parisons (4); a blow-moulding unit (10); a filling unit (12) configured to receive the blow-moulded containers (11) from the blow-moulding unit (10) and to fill them with liquid or semi-liquid food products; a moulding unit (13) for making caps (14) of plastic material; a capping unit (15); a storage system (2) which is configured to contain the parisons (4) and the caps (14), which is interconnected with the units making up the line, and which defines inside it a controlled-atmosphere environment; the line defines an integrated system where the connections of the different units with each other and with the storage system (2) are located in a controlled-atmosphere environment.