A non-venting one-piece, partially perforated multilayer induction heat seal liner for a container that allows an aroma or scent from a solid substance within the sealed container to permeate through the liner, while preventing leakage and/or physical contact of the substance by the consumer. The liner includes a partial perforation extending completely through a metal foil layer, and leaving an un-perforated thickness in a paper layer. The partial perforation will allow a prospective customer to sniff the scent or aroma released through the partial perforation, while the liner remains secured to the container, extending shelf life of the substance, and preventing leakage, as well as, contamination, damage and/or reduced volume caused by consumers sampling the substance/product within the container.

A method for producing packaging for an item and to a packaging for an item is provided. The method provides for the following: providing a container material consisting of a leaf material from a plant; shaping the container material into a three-dimensional packaging container having a container opening and a container edge surrounding the container opening; producing a sealing edge on a top surface of the container edge, wherein the top surface of the container edge is sanded down by sanding; placing an item in the three-dimensional packaging container through the container opening and sealing the container opening by a sealing film, wherein the sealing film is adhesively bonded to the sealing edge in an adhesive-free manner.

A method for producing a package comprising a formed part having at least one product cavity, and a lidding film covering the at least one product cavity, comprises the steps of: (a) defining a seam; (b) dividing the seam into a plurality of sections; (c) determining a pull-off force for pulling the lidding film from the formed part at least for a first section; and (d) sealing the lidding film to the formed part by means of a sealing device, wherein at least one first sealing temperature is selected for the first section based on the pull-off force determined according to step (c).

A method for producing and inspecting a package comprising at least one product cavity of a formed part sealed by a lidding film comprises the steps of: (a) sealing the lidding film to the formed part along a seam by means of a sealing device, which comprises a sealing contour with a plurality of segments; (b) detecting, by means of the sealing device, a parameter characteristic of the sealing quality of the seam in each segment; and (c) detecting a problem with the sealing according to step (a) based on the parameter detected according to step (b) in each segment.

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.

A mechanical connection connects panels edge sides to one another. Adjacent first and second panels can be locked in the horizontal and vertical direction by a substantially perpendicular joining movement. For vertical locking, a locking edge is arranged on the first panel and a locking element that can be displaced relative to the panels is arranged on the second panel. The locking element can be displaced behind the locking edge by a pivoting movement. A locking projection for displacing behind the locking edge and an arcuate guide arm guided in a guide groove of the second panel are designed to be partially withdrawn from the guide groove with a rotary or pivoting movement of the locking element by a leg. The leg projects from the guide groove of the locking element coming into contact with the first panel when being set down in a region below the locking edge.

A shaker top for dispensing products in a container, including a top unit having a peelable protective cover affixed upon a dispensing liner having at least one perforation, the top unit affixed to a mouth of a container. A method of manufacturing a shaker top with a peelable protective cover, including the steps of affixing a peelable protective cover upon a dispensing liner, assembling a top unit including the peelable protective cover and the dispensing liner, affixing the top unit to a mouth of a container, and covering the container with a cap. A shaker top with a peelable protective cover attached to a container, manufactured by the method of manufacture. A method of using a container having a shaker top with a freshness seal.

A unit for bonding the container with the lid, made of plastic, designated especially for pressurised beverages, having a profiled rim of the container opening and a profiled rim of the lid, characterised in that the profiled rim of the opening (2) of the container (1) comprises a flange (3) formed around the said opening (2), extending outwards away from the side wall of the container, where the flange (3) has a top surface (4), side surface (5) and bottom surface (6) bonded to the external side surface of the container (1), and where formed on the top surface (4) around the opening (2) of the container (1) there is a rib (7) protruding above the surface (4), while the profiled rim of the lid (8) comprises a groove (9) formed on the bottom surface (10) of the lid (8) around its bottom edge, the groove (9) accommodating the said rib (7) which supports the lid (8) without touching on the top surface (4) of the flange (3), where there is an energy director (12, 13) formed on the bottom of the groove (9) or the top surface of the rib (7), which focuses ultrasonic energy in the process of ultrasonic welding of the rib (7) and the lid (8).

A heat sealing machine may include a heater assembly, a heat plate lock assembly supporting a heat plate in proximity to the heater assembly, and a lock mechanism allowing the heat plate lock assembly to alternately open and close. The heat plate may be replaced by a second heat plate by moving the lock mechanism to a retracted position, moving a heat plate lock assembly to move the first heat plate away from the heater assembly, removing the first heat plate from the heat plate lock assembly, inserting the second heat plate into the heat plate lock assembly, moving the heat plate lock assembly to move the second heat plate into engagement with the heater assembly, and moving the lock mechanism to a locked position to maintain the engagement between the second heat plate and the heater assembly.

A method for forming a fiber-reinforced thermoplastic hollow structure may comprise: abutting a first surface of a first flange of a shell and a second surface of a second flange of the shell with a mating component; disposing an end block laterally adjacent to the shell; applying a first load to a sidewall of the shell; applying a second load to the second flange of the shell; and vibrating one of the shell or the mating component while keeping a non-vibrating component stationary, the non-vibrating component including one of the shell or the mating component.