A packaging machine comprising a control unit, a plurality of measuring devices and a plurality of working units for different process. The control unit is functionally connected to the working units and to the measuring devices. The measuring devices may detect actual process values at the respective working units and forwarding these values to the control unit for monitoring the respective working units. The control unit may create a specific program sequence for each of the individual working units and/or a program sequence coordinated with respect to the working units, by comparing the actual process values from the respective measuring devices with associated target process values from a memory. The individual working units may function according to this program sequence, depending on the actual process values detected at these working units, and/or the working units are coordinated with one another based on the actual process values.

A method for producing a container having an upper part, a lower part and a receiving element such as an electronics module includes the following steps: the lower part is created from a first starting material in a first processing region of a processing device; the upper part is created from a second starting material in a second processing region of the processing device; the receiving element is fed into the first processing region of the processing device; the lower part receives the receiving element in the first processing region of the processing device; the upper part is fed from the second processing region into the first processing region of the processing device; and there the upper part and the lower part are joined together to form the container.

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 novel lower tool enables a packaging machine having a molding station with a trough to be used to produce skin packaging having a flat base plate. The lower tool includes a body base and a flat upper surface and is arranged in the molding station of the packaging machine such that the flat upper surface of the lower tool covers the trough. The lower tool fits detachably into a lower tool holder of the packaging machine. During the packaging production, the flat upper surface supports the flat base plate of the packaging. Suction applied via a passage through the flat upper surface is used to hold the flat base plate onto the flat upper surface. The lower tool is a means for converting the packaging machine from producing a first type of packaging having a trough-shaped carrier into producing a second type of packaging that has a flat carrier.

A novel lower tool enables a packaging machine having a molding station with a trough to be used to produce skin packaging having a flat base plate. The lower tool includes a body base and a flat upper surface and is arranged in the molding station of the packaging machine such that the flat upper surface of the lower tool covers the trough. The lower tool fits detachably into a lower tool holder of the packaging machine. During the packaging production, the flat upper surface supports the flat base plate of the packaging. Suction applied via a passage through the flat upper surface is used to hold the flat base plate onto the flat upper surface. The lower tool is a means for converting the packaging machine from producing a first type of packaging having a trough-shaped carrier into producing a second type of packaging that has a flat carrier.

A packaging unit for packaging pharmaceuticals into a pouch includes packaging equipment operable to form the pouch, a track configured to direct the pharmaceuticals toward the packaging equipment, and a receptacle coupled to the track upstream of the packaging equipment to receive the pharmaceuticals from the track. The receptacle includes a plunger. The pouch is formed around the plunger.

The invention relates to a packaging machine and a method for the production of individual packagings. Each package may include a planar product carrier and a top film which encloses a product disposed on the product carrier in a gas-tight manner. The packaging machine may include a sealing station with a tool upper part having an outer frame and at least one sealing tool movably mounted for a sealing operation, and a tool lower part that comprises a belt conveying module with at least one conveyor belt mounted thereon. The tool upper part and the tool lower part are moved toward each other to form a sealing chamber in a closed position of the sealing station. In the closed position, the sealing tool may be lowered within the sealing chamber from a resting position to a sealing position to seal the package.

Packaging apparatus comprises two counter-rotatable sealing dies for pressing together two tissue webs to produce pockets for containing a substance for preparing beverages and to seal around said pockets, and two heating drums for heating the sealing dies and each being positioned inside a respective sealing die, wherein a first heating zone of each heating drum comprises a first plurality of circumferentially distributed infrared heating elements, and a second heating zone of each heating drum comprises a second plurality of circumferentially distributed infrared heating elements.

The thermoforming assembly includes feeding devices for moving a continuous strip-shaped semi-finished product along a forwarding path, along which a forming mould is arranged defining a forming cavity delimited by a base wall, a first pair of respectively opposed side walls, and a second pair of respectively opposed side walls. Heating devices operate on the strip-shaped semi-finished product near the forming mould, and forming devices are operatively associated with the forming mould and configured to conform the strip-shaped semi-finished product against the base wall and the side walls defining the forming cavity. At least one of the side walls belonging to the second pair is a movable wall, positionable towards and away from the other side wall belonging to the second pair, to vary the dimension of the forming cavity.

The disclosure relates to a device for a packaging process, wherein the device is provided in the form of a step-by-step packaging machine, or is configured as a step-by-step packaging line. The device is configured to perform a recipe change from a first packaging recipe to another, second packaging recipe step by step at a plurality of work stations provided on the device. Furthermore, the disclosure relates to a corresponding method.