A filling system for filling bottles with liquid filling-material includes filling point pairs, each having filling points. Each filling point has a filling element and a container holder. Each filling element comprises a filling element housing, a liquid channel, a delivery opening that delivers liquid filling material to a bottle, a liquid valve that controls delivery through said delivery opening, a gas path control valve, and a lifter device for lifting and lowering said container holder. The lifter device includes a pneumatically operated actuating element. In operation, the actuating element connects to a bottle's interior

The present invention relates to a machine 1 for filling containers with liquids, comprising:a support structure;a rotating carousel provided with a tank;a plurality of valve groups mounted on said carousel for filling containers; and a logic control unit suitable to automatically manage the operation of the filling machine. Each valve group comprises an air return tube which is provided with an open lower end, susceptible to be inserted in a container, and an opposite upper end and can be moved axially between at least one lowered position and a raised position. Each valve group comprises: means for guiding the axial movement of the return air tube between a lower end stop and an upper end stop, wherein said at least one lowered position is between said two end stops; elastic mechanical means suitable to exercise constantly an axial thrust action on the return air tube towards the raised position;means for reversibly blocking the return air tube in any axial position between said lower end stop and said upper end stop; anda cam follower rigidly connected to the tube. The filling machine comprises a cam which is placed peripherally to the rotating carousel at a first angular position 1 with respect to an entry station to be cyclically engaged by the cam follower. The cam is profiled so as to impose on each tube a predetermined axial displacement H towards the lower end stop and has a circumferentially limited operating angle of working . The filling machine 1 comprises means for moving the cam in height. The logic control unit is operatively connected to the means for moving the cam in height and to the reversible blocking means of each return air tube and is programmed:to command the blocking of the blocking means when the individual tube is located within the operating angle of working of the cam to keep the return air tube in the lowered position, andto command the unblocking of the reversible blocking means of each individual air return tube at a second angular position chosen as a function of the filling operating cycle to be performed on the containers.

The present invention relates to a machine 1 for filling containers with liquids, comprising: a support structure; a rotating carousel provided with a tank; a plurality of valve groups mounted on said carousel for filling containers; and a logic control unit suitable to automatically manage the operation of the filling machine. Each valve group comprises an air return tube which is provided with an open lower end, susceptible to be inserted in a container, and an opposite upper end and can be moved axially between at least one lowered position and a raised position. Each valve group comprises: means for guiding the axial movement of the return air tube between a lower end stop and an upper end stop, wherein said at least one lowered position is between said two end stops; elastic mechanical means suitable to exercise constantly an axial thrust action on the return air tube towards the raised position; means for reversibly blocking the return air tube in any axial position between said lower end stop and said upper end stop; and a cam follower rigidly connected to the tube. The filling machine comprises a cam which is placed peripherally to the rotating carousel at a first angular position 1 with respect to an entry station to be cyclically engaged by the cam follower. The cam is profiled so as to impose on each tube a predetermined axial displacement H towards the lower end stop and has a circumferentially limited operating angle of working . The filling machine 1 comprises means for moving the cam in height. The logic control unit is operatively connected to the means for moving the cam in height and to the reversible blocking means of each return air tube and is programmed: to command the blocking of the blocking means when the individual tube is located within the operating angle of working of the cam to keep the return air tube in the lowered position, and to command the unblocking of the reversible blocking means of each individual air return tube at a second angular position chosen as a function of the filling operating cycle to be performed on the containers.

A container-processing machine includes a conveyor that rotates about a vertical machine axis, processing stations disposed around the conveyor, a star that delivers unprocessed containers to the conveyor and removes processed containers from the conveyor, and recesses disposed around a periphery of the star for engaging containers. Container transfer occurs by raising a container from a transfer position into a processing position.

An apparatus for processing containers includes a container-filling system having filling-point pairs in which each filling point has a filling element. Each filling element has a channel formed in a housing, a liquid valve in the channel that controls flow through a dispensing opening. The filling system also has internal and external gas-paths that are internal and external relative to the filling elements. These gas paths connect to each other. A gas-path control-valve controls the external path. Nothing controls the internal path. A stand-alone control module contains part of the external gas-path and the gas-path control-valve.

A processing station of a container-processing machine includes an electromagnetic linear drive that raises and lowers a container carrier. The linear drive includes a tubular guide element having a stack of magnets extending through it. This guide element guides the motion of a guided element that has coils. Current through these coils generates a magnetic field that interacts with the field from the tubular guide's magnets. This interaction yields a force that can raise the carrier.

A container-processing machine includes a transfer star having container-engagement elements disposed along a periphery thereof. The transfer star moves containers past first or second sets of processing stations that are disposed along corresponding diametrically opposed arcuate processing paths.

A filling machine includes a multiple filling-element arranged for installation on a circulating rotor. The multiple-filling element includes individual filling-elements, each of which comprises a filling channel. Each filling channel has a dispensing opening, and an independently controllable liquid valve. The filling-element is formed for installation on an underside of a ring bowl provided on a rotor for holding liquid filling-charge. Other function elements are common to all the individual filling-elements. These function elements include controlled fluid paths.

A method for processing containers includes periodically causing a reversible transporter to periodically transition between rotating in a first direction and rotating in a second direction that is opposite the first direction. When rotating in the first direction, the transporter feeds containers to a first processing region. When rotating in the second direction, the transporter feeds containers to a second processing region. Each processing region has as at least one processing position.

A processing station of a container-processing machine includes an electromagnetic linear drive that raises and lowers a container carrier. The linear drive includes a tubular guide element having a stack of magnets extending through it. This guide element guides the motion of a guided element that has coils. Current through these coils generates a magnetic field that interacts with the field from the tubular guide's magnets. This interaction yields a force that can raise the carrier.