An arrangement for brewing and dispensing fermented drinks, primarily beers, by portions using concentrates in a personalized, tailor-made manner that is fit for self-service. The arrangement is fitted with a primary alcohol unit and a secondary alcohol unit, which are suitable for adjusting the alcohol content for each portion and contain an alcohol and water mixture of a fermented liquid, and the controlling part is connected to at least one alcohol adjusting part that is suitable for setting the alcohol content of each portion of beverage. A fermented base concentrate and alcohol originating from the fermented beverage, left in and/or extracted from the base concentrate, is used as raw material, and the alcohol content of the beverage is adjusted by adding further alcohol, and the flavour of each portion of beverage is adjusted as desired.

The method relates to a method for filling a container (13, 32) with carbonized liquid filling material and for closing the filled container, in which the filling material is introduced in a filling station (10, 30) by a filling head (11, 33) at defined filling pressure into the container (13, 32), wherein the filling head (11, 33) is firstly moved from an idle position, which permits supplying and inserting a container (13, 32) into the filling station (10, 30), into a working position toward the inserted container, in which an end region (16) of the filling head seals off the opening (14) of the container, the container (13, 32) is then filled, the filling head (11, 33) is moved after completion of the filling phase back out of the working position into an idle position spaced apart from the container (13, 32) and the container (13, 32) is then closed in the filling station (10, 30) using a cap (20) at least enough that filling material can no longer escape, and the container (13, 32) is then removed from the filling station (11, 33), characterized in that before the movement of the filling head (11, 33) from the working position into the idle position spaced apart from the container (13), an overpressure lying between the ambient pressure and the filling pressure is set in a pressure chamber (15) of the filling station (10, 30) surrounding the opening (14) of the inserted container (13, 32), which overpressure is selected in such a way that possible foaming up of the filling material located in the container (13, 32) is minimized enough that filling material does not escape from the container (13, 32) when the filling head (11, 33) is raised out of the working position after the filling procedure.

Techniques regarding multi-hole nozzle architectures and/or manufacturing methods are provided. For example, one or more embodiments described herein can comprise a multi-hole nozzle component for a filling machine, the multi-hole nozzle component having a periphery, an inlet side having a surface, and an outlet side having a surface. The nozzle component can further comprise a plurality of separate passageways extending through the nozzle component from adjacent its inlet side to its outlet side. Also, the passageways can form a plurality of openings in the surface of the outlet side of the nozzle component. Further, each of the separate passageways can have a diameter of from about 1 mm to about 3 mm and a length of from about 5 mm to about 1.5 m.

A filling unit (1) configured to receive container's mouth, and a dispenser (3) for dispensing liquid substance towards the container. The housing (2) comprises a cavity (26) which is delimited by a bottom wall (24), on which the dispenser (3) opens, and by a lateral wall (25) which at least partly has a truncated cone shape. The dispenser (3) has a dispensing duct (31) with a flow modifier (34) to impart a rotational motion so that the liquid substance comes out with a helical flow. When filling a container (90) of the first type, the liquid substance is dispensed directly into container's mouth (91) and flows onto an internal surface of container's lateral wall. When filling a container (95) of a second type, the liquid substance flows onto the lateral wall (25) of the housing (2) and, after having entered container's mouth (96), flows onto an internal surface of container's lateral wall.

A filling machine includes a filling tube passing through a spout endpiece to delimit with the spout endpiece, part of an air return circuit. The filling tube is vertically movable and delimits an exit passage for the liquid. A control circuit is provided for moving the filling tube to a low position and driving an obturation device to open the exit passage, putting the air return circuit, when the exit passage of the filling tube is immersed in the liquid, to atmospheric pressure, moving the filling tube towards its leveling position, putting the air return circuit in communication with a pressurized chamber, and bringing the filling tube to a leveling position.

A multi-hole nozzle component having a periphery, an inlet side and an opposing outlet side. The nozzle component having a plurality of first passageways having a plurality of first openings each first opening having a first opening area, a plurality of second passageways having a plurality of second openings each second opening having a second opening area, and a plurality of third passageways having a plurality third openings each third opening having a third opening area. The plurality of second openings are arranged about the plurality of first openings. The plurality of third openings are arranged about the plurality of first openings. The second opening area is greater than the first opening area and the second opening area is about equal to the third opening area.

A device for filling containers with a liquid includes a filling unit; an elevating mechanism; and optionally a conveyor suitable to support and have the containers advance in succession to the filling unit. The filling unit includes connections connected to a source of the liquid, a source of an inert gas and a suction device; a pipe comprising a first tube and a second tube, and a retainer to hold the containers in the filling unit. The elevating mechanism varies the depth with which the pipe and/or at least one of the tubes is inserted in the container. A method for filling containers with a liquid is also provided, wherein the liquid and an inert gas are injected simultaneously through two separate tubes. The tubes are each connectable/connected to one of the connections connectable/connected to a source of liquid, a source of an inert gas and to a suction device.

A content filling system includes a filling device which fills content L in a container which includes a mouth and a container main body. A bubble detecting device is arranged on a downstream side of the filling device, and automatically detects whether or not there are bubbles produced in the content L filled in the container and discharged from the mouth of the container. A determining unit specifies the container which has discharged the bubbles.

A machine for filling a container having a longitudinal axis is disclosed. The machine comprises a conveying device, and at least one handling unit moved by the conveying device along a path. The at least one handling unit comprises a support device configured to receive and retain the container, and at least one filling device configured to feed a pourable product into the container as the at least one handling unit travels along the path. The machine further comprises an actuator configured to rotate the container about the longitudinal axis while the container is filled with the pourable product by the at least one filling device.

A filling unit (1) for filling containers (90) of a first type, such as bottles, and for filling containers (95) of a second type, such as cans, with a liquid substance (99). The filling unit (1) comprises a housing (2), configured to receive a mouth of the container, and a dispenser (3) for dispensing the liquid substance (99) through a dispensing opening (30) towards the container. The housing (2) comprises a cavity (26) which is delimited by a bottom wall (24), on which the dispenser (3) opens, and by a lateral wall (25) which at least partly has a truncated cone shape. The housing (2) is fitted with a first annular gasket (21) for the mouth (91) of a container (90) of the first type and a second annular gasket (22) for the mouth (96) of a container (95) of the second type. The first annular gasket (21) is smaller in size than the second annular gasket (22) and is positioned on the bottom wall (24) of the housing (2), encircling the dispensing opening (30). The dispenser (3) has a dispensing duct (31) in whose central region a flow modifier (34) is present, configured to impart a rotational motion on the liquid substance (99) passing through the dispensing duct (31), so that the liquid substance (99) comes out of the dispensing opening (30) with a helical flow. When filling a container (90) of the first type, the liquid substance (99) coming out of the dispensing opening (30) is dispensed directly into the mouth (91) of the container (90) and flows onto an internal surface of a lateral wall of the container (90). When filling a container (95) of the second type, the liquid substance (99) coming out of the dispensing opening (30) flows onto the lateral wall (25) of the housing (2) and, after having entered the mouth (96) of the container (95), flows onto an internal surface of a lateral wall of the container (95).