A dosing apparatus for a machine for producing unit dose articles including first and second dosing units each having: a nozzle support body carrying a plurality of nozzles, and a movement control unit configured for moving the respective nozzle support body along a closed-loop path, wherein the movement control units of the first and second dosing units are configured for moving the respective nozzle support bodies independently of each other along the closed-loop path.

A multilayered, flexible, and generally flat pouch for transporting and dispensing chocolate, including first and second elongated generally rectangular multilayered portions sealed together to yield a deformable generally rectangular fluid-tight sachet defining an internal volume and separating the internal volume from an external environment. The sachet further defines a top end, an oppositely disposed bottom end, and first and second sides extending therebetween. An untempered chocolate portion is contained within the internal volume. A tear notch is formed through at least one side and disposed adjacent the top end and a weakened tear strip extends between the second side and the bottom end. The sachet is substantially fluid-tight, and first and second elongated generally rectangular multilayered portions each further comprise an outer layer, an inner high-slip layer, a printable binding layer disposed between the inner and outer layers, and a metal vapor barrier layer disposed between the inner and outer layers. When actuated, the first weakened tear strip produces a corner pour spout through which molten chocolate may be extracted from the sachet. When actuated, the second weakened tear strip produces a central aperture through which molten chocolate may be extracted from the sachet.

A packaging machine is provided for producing single and multiple compartment film wrapped pouches. Multiple linear motors allow aspects of the forming, filling, cutting and discharging to run at different speeds. The pouches are formed, filled and discharged from platens that are secured to movers that proceed through the packaging process by following magnetic fields created by independently controlled linear motors. Overall, cycle time is decreased as a result of speeding up parts of the process, including the platen return process, possible because there is no mechanical connection and not a single conveyor moving the platens while the other parts of the process may be simultaneously slowed down or even temporarily stopped. Changeover of platens, to accommodate different products, such as single compartment pouch to multiple compartment pouches, is also simplified because platens are simply connected to the movers and are thus easily removed and replaced.

The disclosure relates to a deep-drawing apparatus for deep-drawing a continuously fed film web, an associated packaging machine, and a corresponding method. A cyclically sequenced forming station, which runs along from a start position to an end position and runs back from there to the start position is provided, wherein individual format plates are sequentially firstly connected up to a forming vacuum device and then with a following holding vacuum channel. The forming vacuum device is part of the cyclically moved forming station. The holding vacuum channel includes two interlocking telescopic channel portions, a first telescopic channel portion being part of the cyclically moved forming station, and a second telescopic channel portion being mounted statically relative to the fixed machine frame.

A method of forming bundles of glass articles is provided. The method includes transporting individual glass articles to an insert building station using a conveying system. The glass articles are individually located within article receiving slots of a layer separation insert using the conveying system. Each slot of the layer separation insert receives a single glass article forming a glass article layer of side-by-side glass articles. Multiple glass article layers including layer separation inserts are stacked using the conveying system forming a bundle. The layer separation inserts provide a barrier between adjacent glass articles of each of the glass article layers to inhibit glass-to-glass contact.

The container for easily dispensing contents with an open top end, a closed bottom surface, and sloped side walls. The closed bottom surface being substantially spherical in shape and connected to the side walls by a flexible hinge. When pressure or force is applied to the bottom surface's spherical shape, that bottom surface flexes or bends from a first stable convex position to a second stable concave position. The transition from the convex to concave position can dislodge contents within the container for consumption without the need of a spoon or other devices.

The container for easily dispensing contents with an open top end, a closed bottom surface, and sloped side walls. The closed bottom surface being substantially spherical in shape and connected to the side walls by a flexible hinge. When pressure or force is applied to the bottom surface's spherical shape, that bottom surface flexes or bends from a first stable convex position to a second stable concave position. The transition from the convex to concave position can dislodge contents within the container for consumption without the need of a spoon or other devices.

The invention concerns a method of blowing and filling a container (120) from a preform, the method comprising: —placing a preform within a mold (140), —stretching the preform —injecting a liquid into the preform after the stretching has started so as to cause expansion of the preform within the mold, thereby obtaining a blown and filled container (120), —capping the blown and filled container (120).

Automatic packaging machine (3) for filling a bag (1) made of heat-sealable material, having an open upper end (2) with a dose of loose product; the packaging machine (3) has: a packaging conveyor (4); a pick-up head (7), which is supported by the packaging conveyor (4) to advance along a packaging path (P1); an input station (S1) where the empty bag (1) is grabbed by the pick-up head (7); an output station (S2) where the full, sealed bag (1) leaves the pick-up head (7); a filling device (18) that is mounted on the packaging conveyor (4) to move together with the pick-up head (7) along the entire packaging path (P1) and is adapted to supply the dose of product inside the bag (1) through the upper open end (2); and a sealing device (19) that is mounted on the packaging conveyor (4) to move together with the pick-up head (7) along the entire packaging path (P1) and is adapted to seal the full bag (1) through a heat-seal in correspondence with the open upper end (2).

A can, and device and method for producing same, includes two circular end elements forming a base and lid. The can further includes a sleeve which has fold lines forming edges, the can sleeve having a circular cross-sectional area at both ends and a polygonal-sectional area in its central region. The polygonal cross-sectional area in the central region is at most decagonal.