A packaging machine includes an imager that images a packaging pack punched by a punching device, and a control device. The control device includes a position shift amount calculator that calculates, on the basis of a packaging pack image of the packaging pack captured by the imager, a punching position shift amount of a punching position of a pack film, a punching position correction amount calculator that calculates, from the punching position shift amount, a punching position correction amount with respect to the punching position of the pack film, a slit position controller that adjusts, on the basis of the punching position correction amount, a rotation angle of a film feeding roller, and a film guide position controller that adjusts, on the basis of the punching position correction amount, the position of a film guide.

An inspection device includes: X-ray irradiators that irradiates, with a predetermined X-ray from a first film-side, inspection ranges that respectively correspond to positions of packaging sheets to be separated from the packaging film; an imaging device that is disposed on a second film-side and opposed to the X-ray irradiators across the packaging film, that comprises an X-ray detector comprising detection elements arrayed along the film width direction and detecting the X-ray transmitted through the packaging film, and that successively outputs X-ray transmission image data obtained every time the packaging film is conveyed by a predetermined amount; and a controller that inspects the packaging sheet based on the X-ray transmission image data obtained by the imaging device,

Provided is packaging machine with a sealing station that includes a mold with an upper tool and a lower tool facing each other and suitable for cooperating with one another in an operative position of the mold, between which there is delimited an inner area of a perimeter contour. The lower tool includes a cavity facing the upper tool, and an injection opening adjacent to a first side of the cavity and communicated with the inner area. The upper tool includes a sealing tool and an actuator device facing a point of an actuation region of the lower tool defined between the first side and the perimeter contour and being closer to the lower tool than the sealing tool.

Described is a method for making single-use capsules for beverages including the steps of: providing an upper flange having at least one hole; providing a support having at least one seat for housing a rigid cup-shaped body; inserting a rigid cup-shaped body in said housing seat, said rigid cup-shaped body having an inner space and an open upper opening; providing a piece of filter material above the upper flange; actuating a first step of feeding, by means of a pushing element, a central portion of said piece of filter material towards said hole, up to an intermediate position; upon reaching said intermediate position of the pushing element, performing a main locking of said piece of filter material relative to said upper flange and making a main cut of the piece of filter material along a predetermined main closed cutting line, extending substantially circularly about said central portion, to define a filter for infusion of beverages.

The disclosure relates to a thermoforming machine comprising a transverse cutting station. The transverse cutting station has a punching device for separating one or more film sections from a lower film and/or an upper film by means of a punching tool comprising a punch and a die. The punching device comprises a chamber configured to at least temporarily receive the film sections, and a suction device to convey the film sections out of the transverse cutting station. The suction device is fluidically connected to a compressed gas source.

A heat sealing machine and method form blister packages. A backing material web extends between a nesting tray assembly and a seal and cut tooling assembly and a blister tray is resident within a blister nest of the nesting tray assembly. The backing material web is clamped between a clamping gasket support shoulder of the nesting tray assembly and a clamping shoulder of the seal and cut tooling assembly, and between a sealing gasket support shoulder of the nesting tray assembly and a heat seal shoulder of a heater assembly. A knife of the seal and cut tooling assembly extends between the clamping gasket support shoulder and the sealing gasket support shoulder to cut a backing sheet from the backing material web that is heat sealed to an attachment surface of the blister tray to form the blister package.

A blister packing machine includes: a conveyor that conveys a belt-like container film having a pocket portion forming area and an expected mounting part; a preheating device that preheats the container film conveyed by the conveyor; a pocket portion forming device that forms a pocket portion in the container film softened by the preheating device; and a tension applier that applies a tension along a width direction of the container film to at least the pocket portion forming area. The pocket portion forming device forms the pocket portion while the tension applier applies the tension to the container film, the container film has an edge area between an edge in the width direction and the expected mounting part, and the tension applier includes a projection that applies the tension to the container film by pressing the edge area to form a protruding portion in the container film.

A blister packing machine includes: a conveyor that conveys a belt-like container film having a pocket portion forming area and an expected mounting part; a preheating device that preheats the container film conveyed by the conveyor; a pocket portion forming device that forms a pocket portion in the container film softened by the preheating device; and a tension applier that applies a tension along a width direction of the container film to at least the pocket portion forming area. The pocket portion forming device forms the pocket portion while the tension applier applies the tension to the container film, the container film has an edge area between an edge in the width direction and the expected mounting part, and the tension applier includes a projection that applies the tension to the container film by pressing the edge area to form a protruding portion in the container film.

An apparatus (100) for manufacturing pods (M) for beverage extraction machines is described, comprising: movement means to advance a belt (110) of waterproof material in a predetermined rectilinear direction (A), a plurality of forming plates (125) arranged below the belt and provided with at least one cavity (135), movement means to advance said forming plates in a synchronized manner with the belt, and a plurality of operational devices (165, 200, 300, 400, 500) arranged in succession along the belt; wherein said operational devices comprise for example one device for pressing down a portion of the belt into the cavity of the forming plate, a device for releasing a dose of a powder substance inside a cap (C1), a device for compacting the dose, a device for applying a second cap (C2), a device for sealing the second cap to the belt.

A packaging machine and method for producing a packaging with a packaging machine, in which a lower material web is unrolled from a supply roll and transported along the packaging machine and at the same time a material to be packaged is placed on the lower material web and, to complete the packaging, an upper film is sealed to the lower material web in a sealing station, the packaging is cut from the upper and lower material webs, the cutting of the lower material web takes place partially upstream and partially downstream of the sealing station and/or partially upstream and partially in the sealing station.