A coupling unit for coupling a component for a container includes a coupling equipment. The coupling equipment includes: a frame, a housing constrained to the frame, a gripping device rotatably constrained with respect to the frame and including a retaining element to selectively retain the component, and a coupling device constrained to the gripping device with respect to the frame, the coupling device including a coupling element to constrain a portion of the component to a coupling surface of the container at a coupling position. The gripping device and the coupling device can move along an arc with a curved trajectory to a removal position where the retaining element is oriented to receive at least one component to be retained, and to a coupling position where the retaining element and the coupling element bring an abutment surface of the container and a couplable portion of the component into contact.

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 packaging container for holding contents such as fresh food. The container comprises a tray having a flange, a pre-formed scaling ring and a flexible film for sealing in the contents of the tray. The sealing ring is made from fiber, filament or tape (“FFT”) that is shaped into a shape that matches the shape of the tray flange. The sealing ring is adhered to the tray flange by heat welding or other means and the flexible film is adhered to the sealing ring.

A conveyor for a packaging apparatus comprising a conveyor having a conveyor belt (2) with a rotatable portion (12) comprising a plurality of sub-elements (17). Each one of the sub-elements (17) comprises first annular features and second annular features. The first annular features of a sub-element mate with the second annular features of an adjacent sub-element forming a coupling seat where a pin is inserted to rotatably connect the two adjacent sub-elements. The rotatable portion (12) carries driving pieces which are put into motion by a control mechanism such that upon displacement of the conveyor belt (2) a corresponding rotation by 90° or multiples thereof is imparted to the rotatable portion (12). A packaging apparatus using the above conveyor belt is also described.

A tray for receiving sausages is provided. The tray includes cells which are adapted to substantially match the shape of sausages or other soft materials. The tray may be vacuum sealed to cause a relatively uniform top surface suitable for stacking. The tray may be sealed without pre-freezing the sausages and without causing significant deformation to said sausages upon thawing. The tray may be loaded in an automated manner without the use of robotic arms placing individual sausages into the tray.

Embodiments herein include a system for joining components. The system can include a rotating base platform, a plurality of receptacles mounted to the base platform, and a rotating sonotrode platform. A plurality of sonotrodes are mounted to the sonotrode platform. Each sonotrode can correspond to a receptacle. Each sonotrode can move in a reciprocating motion between a release position distant from a corresponding receptacle and a compressing position proximal to the corresponding receptacle. The compressing position occurs at a first angular position of the sonotrode platform. Each sonotrode is energized at the compressing position.

A system for assembling a container and closure comprising an expanding collet which has a plurality of pivoting collet segments, each configured to simultaneously pivot radially outward about a pivot point and comprising. The collet comprises a lip that is engagable with the rim of the open end of the container and an angled tip positioned radially inward from the lip and shaped to press a countersink portion of the closure against an interior wall of the container as the collet segments pivot radially outward. As the container and the chuck are brought together, the rim engages with the lips of the collet segments and causes the angled tips of the collet segments to pivot outward toward the interior wall of the container, thereby pushing the countersink portion of the closure against the interior wall of the container.

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.

A method for producing a package which has a formed part with a product cavity, and a lidding film covering the product cavity. According to the method, a seam is defined, the seam is divided into sections, a pull-off force for pulling the lidding film from the formed part at least for a first section is determined, and the lidding film is sealed to the formed part. The sealing temperature for the first section is selected based on the pull-off force.

The present disclosure relates to an attachment unit for attaching a container element to a container body. The attachment unit comprises a retaining device adapted to retain the container body while the container element is being attached to the container body and an applicator for positioning the container element in the container body. The retaining device comprises at least one through-going positioning cavity being adapted to receive a portion of the container body. The applicator is aligned with the positioning cavity, such that the container element is displaceable by means of the applicator into the container body by moving at least partly through the positioning cavity of the retaining device. The attachment unit comprises an internal housing arranged to provide and maintain a protective gas atmosphere above the positioning cavity of the retaining device. The internal housing is adapted to at least partly enclose the applicator.