A device is illustrated and described for altering the jet shape of pourable products, in particular of foodstuffs, including an entry region for the entry of the pourable products, an exit region for the exit of the pourable products, and several ducts for conveying the pourable products, wherein each duct has at least one inlet associated with the entry region and at least one outlet associated with the exit region. The use of this device for the filling of foodstuffs and a method for the production of this device are also illustrated and described. In order to achieve that the shape and the velocity profile of the filling jet can be adjusted simply and gently, it is proposed that at least one of the ducts is curved, at least in sections.

A device is illustrated and described for altering the jet shape of pourable products, in particular of foodstuffs, including an entry region for the entry of the pourable products, an exit region for the exit of the pourable products, and several ducts for conveying the pourable products, wherein each duct has at least one inlet associated with the entry region and at least one outlet associated with the exit region. The use of this device for the filling of foodstuffs and a method for the production of this device are also illustrated and described. In order to achieve that the shape and the velocity profile of the filling jet can be adjusted simply and gently, it is proposed that at least one of the ducts is curved, at least in sections.

The present invention relates to a filler machine and method. The filler machine and method allow efficient and/or accurate filling of containers such as bottles, and have particular application to filling bottles or similar containers with carbonated beverages.

The present invention relates to a filler machine and method. The filler machine and method allow efficient and/or accurate filling of containers such as bottles, and have particular application to filling bottles or similar containers with carbonated beverages.

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 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.

The invention relates to a dosing device having an inlet for a liquid to be delivered to a container as a dose, in particular a beverage. The device comprises a valve seat, a sealing element interacting with the valve seat and an outlet for the dose of the liquid. In order to reduce foam build-up upon delivering the liquid into the container, according to the invention the sealing element can be moved to a first and a second opening position, wherein, in the second opening position, the flow cross-section area between the valve seat and the sealing element is larger than in the first opening position. In addition, the invention relates to a dosing method comprising the supplying of a liquid to a valve which is moved to a first and second opening position.

The invention relates to a dosing device having an inlet for a liquid to be delivered to a container as a dose, in particular a beverage. The device comprises a valve seat, a sealing element interacting with the valve seat and an outlet for the dose of the liquid. In order to reduce foam build-up upon delivering the liquid into the container, according to the invention the sealing element can be moved to a first and a second opening position, wherein, in the second opening position, the flow cross-section area between the valve seat and the sealing element is larger than in the first opening position. In addition, the invention relates to a dosing method comprising the supplying of a liquid to a valve which is moved to a first and second opening position.

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.

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.