An apparatus having a nozzle, a fluid flow conduit, a fluid flow discharge opening, a fluid flow discharge opening area, a fluid flow valve, a vacuum, a vacuum conduit, a vacuum opening, a vacuum valve, and a vacuum opening area wherein the vacuum opening is spatially proximate to the fluid flow discharge opening, the vacuum opening area to the fluid flow discharge opening area has a ratio of less than or equal to 1, and the fluid flow valve and vacuum valve are coupled.

The invention relates to a method for forming package bodies open at one end from package sleeves open at both ends for the manufacture of filled packages. In order to allow packages with a cross section which is neither square nor rectangular to be formed more simply and reliably, the package sleeves are kept ready for further processing in a stack, folded flat along at least two folded edges running in the longitudinal direction of the package sleeve, the flat-folded package sleeves are transferred in succession from the stack to a forming station, the package sleeves are unfolded in a forming station and the unfolded package sleeves are, in the forming station, pushed onto a mandrel in order to close, in particular seal, a longitudinal end of the package sleeve.

The invention relates to a method for forming package bodies open at one end from package sleeves open at both ends for the manufacture of filled packages. In order to allow packages with a cross section which is neither square nor rectangular to be formed more simply and reliably, the package sleeves are kept ready for further processing in a stack, folded flat along at least two folded edges running in the longitudinal direction of the package sleeve, the flat-folded package sleeves are transferred in succession from the stack to a forming station, the package sleeves are unfolded in a forming station and the unfolded package sleeves are, in the forming station, pushed onto a mandrel in order to close, in particular seal, a longitudinal end of the package sleeve.

A method and apparatus are represented and described for gripping and holding dispensing elements, having a flange and a screw cap, for subsequent application onto packages, wherein the dispensing elements are linearly supplied to the apparatus in an aligned position and wherein each dispensing element is gripped individually by gripper jaws of a gripping device and is applied by means of its flange onto a package. In order that an applicator with smaller structural height can, even in the case of higher speeds, also reliably provide packages comprising an oblique gable with a dispensing elements, the following steps are provided: raising each gripping device into a start position above the supplied dispensing elements, lowering each gripping device with opened gripper jaws from their highest position to a dispensing element provided therebelow, wherein the transport speed of the gripping device and the transport belt are synchronised, pulling a dispensing element with opened gripper jaws to a flat delivery region, gripping a dispensing element by closing the gripper jaws, lowering each gripping device with gripped dispensing element to a package transported therebelow in an application position, pressing the dispensing element onto the package for a predefined time, and releasing the applied dispensing element and raising each gripping device to receive a newly-supplied dispensing element.

A method and apparatus are represented and described for gripping and holding dispensing elements, having a flange and a screw cap, for subsequent application onto packages, wherein the dispensing elements are linearly supplied to the apparatus in an aligned position and wherein each dispensing element is gripped individually by gripper jaws of a gripping device and is applied by means of its flange onto a package. In order that an applicator with smaller structural height can, even in the case of higher speeds, also reliably provide packages comprising an oblique gable with a dispensing elements, the following steps are provided: raising each gripping device into a start position above the supplied dispensing elements, lowering each gripping device with opened gripper jaws from their highest position to a dispensing element provided therebelow, wherein the transport speed of the gripping device and the transport belt are synchronised, pulling a dispensing element with opened gripper jaws to a flat delivery region, gripping a dispensing element by closing the gripper jaws, lowering each gripping device with gripped dispensing element to a package transported therebelow in an application position, pressing the dispensing element onto the package for a predefined time, and releasing the applied dispensing element and raising each gripping device to receive a newly-supplied dispensing element.

The technology described herein generally relates to particular form of folded package. The package packages loose particles into a conical container and secures the filling with a folded distal end. More specifically, loose plant matter, such as crumbled dried leaves, are supplied as filling and the package may further be provided with a fluid core.

The technology described herein generally relates to particular form of folded package. The package packages loose particles into a conical container and secures the filling with a folded distal end. More specifically, loose plant matter, such as crumbled dried leaves, are supplied as filling and the package may further be provided with a fluid core.

A container for the preparation of a beverage and a machine for the filling of containers for the preparation of the beverage. The container includes an outer cup, an inner cup nesting inside the outer cup, and a filter disposed between a sidewall of the outer cup and a sidewall of the inner cup and covering a bottom opening of the inner cup. The machine includes a first zone configured to dispense a container from a stack of containers, a second zone configured to fill the container with a beverage substrate, a third zone configured to seal the container and dispense a filled container, and a carriage configured to transport the container between the first and second zones, and between the second and third zones.

A container body decorator (10) has a controller (300) with a software stored in a memory. A plurality of ink-jet printing heads (108) is in communication with the controller (300). A segmented image transfer blanket (116) has a circumferential configuration with an inner surface opposite a printing surface. A printing site (124) is located along the segmented image transfer blanket (116). A container body handling module (200) delivers container bodies to the printing site (124).

A container body decorator (10) has a controller (300) with a software stored in a memory. A plurality of ink-jet printing heads (108) is in communication with the controller (300). A segmented image transfer blanket (116) has a circumferential configuration with an inner surface opposite a printing surface. A printing site (124) is located along the segmented image transfer blanket (116). A container body handling module (200) delivers container bodies to the printing site (124).