The invention relates to a welding method for material webs which each consists of a multilayer composite having a barrier layer and are connected to each other via a sealing seam. In order to provide a welding method by means of which sealing seams can be produced which, on the one hand, meet the highest demands on strength and, on the other hand, prevent light, in particular UV light, from penetrating into the product to be packaged, according to the invention, the sealing seems are produced by leading two sealing surfaces of two tools together, wherein the material webs are arranged between the sealing surfaces and the sealing seam is produced having two seams lying beside each other, a main seam and a secondary seam and, during the production of the main seam, the two sealing surfaces exert a main welding pressure on the material webs and, during the production of the secondary seam, the two sealing surfaces exert a secondary welding pressure on the material webs, wherein the secondary welding pressure is lower than the main welding pressure, at least in some sections, and, in the secondary processing step, at least one of the two sealing surfaces is structured.

The invention relates to a device comprising a first fixing element, a further fixing element and a folded planar composite; wherein the first fixing element comprises a first fixing surface and the further fixing element comprises a further fixing surface; wherein the folded planar composite is at least partially fixed between the first fixing surface and the further fixing surface; wherein the folded planar composite comprises a first composite region; wherein the first composite region comprises a first layer sequence comprising a first composite layer comprising a first carrier layer, a second composite layer comprising a second carrier layer, a third composite layer comprising a third carrier layer and a fourth composite layer comprising a fourth carrier layer; wherein in the first composite region the second composite layer is joined to the third composite layer and the third composite layer is joined to the fourth composite layer; wherein in the first composite region the third carrier layer is characterised by a smaller layer thickness than in each case one selected from the group consisting of the first carrier layer, the second carrier layer and the fourth carrier layer or a combination of at least two of these; wherein the first fixing surface or the further fixing surface or both comprises a recess comprising a first recess region; wherein the first composite region is located at least partially between the first recess region and the first fixing surface or the further fixing surface.

An assembly may include a shelf-stable pouch for fruits or vegetables. The assembly may comprise a pouch having a closed condition and an open configuration. The closed configuration may be configured to seal portions of at least one of the fruits and vegetables and brine prior to heating the pouch for pasteurization. The open condition may allow for the removal and serving of the portions after pasteurization from heating.

The present disclosure is directed to an inflatable-cushion inflation and sealing device. The device includes an inflation assembly configured for insertion between first and second overlapping film plies. The inflation assembly includes a fluid conduit configured to direct a fluid in between the plies to form one or more cushions. The fluid conduit includes a nozzle. The inflation assembly includes a cutting member. The cutting member includes a blade holder with a blade and a blade guard mounted thereon. The blade guard has a safety position in which the blade is covered and a retracted position in which the blade is exposed. Installation of the blade holder onto the inflation assembly automatically positions the blade in the working position with the blade guard retracted. Removing the tray from the inflation assembly automatically positions the blade in the safety position by covering the blade with the blade guard.

The invention relates to a method and a production line (1) for producing pouches (2). The product line (1) comprises a supply unit (3), a deformation unit (4), a dosing unit (5), a sealing unit (6) and a cutting unit (7).

A container for a food product generally includes a tray and a cover attached to the tray by ultrasonic bonds. The tray includes a bottom having a perimeter and a sidewall extending along the perimeter of the bottom to form a cavity sized to receive the food product. The sidewall defines an opening for the food product to be placed into the cavity. The tray also includes a flange extending from an edge of the sidewall and around the opening. The flange has a single layer first area with a first thickness and a second area comprised of at least two layers with a second thickness. The second thickness is at least twice as thick as the first thickness. The ultrasonic bonds extend along the entire sidewall of the container to form a continuous, hermetic seal between the cover and the tray around the opening.

A package preparation system includes a material conveyable along a longitudinal direction and including two folded layers of polymeric film joined at a fold. The fold extends longitudinally and defines a first side of the material opposite an open second side. A first welding device forms partition welds located between the two folded layers and extending from the fold to a terminus inward of the open side. A second welding device forms first and second seal welds that extend from the fold to the open side and are spaced from each other by a length extending longitudinally and traversing a plurality of the partition welds. The system includes a device comprising a nozzle insertable in the open side, and clamps that traverse the length and temporarily seal the open side around the nozzle while the nozzle inflates interior channels defined between the plurality of partition welds.

A system and method for protecting biological or other material from contamination through the steps of filling, freeze-drying, packaging, storing and use are disclosed. A system can include a flexible container, a membrane configured to transmit air or solvent vapor out of the flexible container, and a membrane frame supporting the membrane and engaged with at least one column member. The at least one column member can be configured to maintain the membrane and the membrane frame a spaced distance from one or more contents received within the flexible container. Upon application of a downward force, the at least one column member can assume a collapsed configuration. A method can include inserting a biological material, for example, into a flexible container, freeze-drying the biological material, moving the freeze-dried biological material to a portion of the flexible container that includes at least one port, and sealing the biological material within the portion.

A laminated package for solid products in powder or grain form, includes a set of stiffening notches, a dispensing mouth with a seal, valves for loading inert gas, in which the lateral folds of the upper face are folded inwards under the front and rear flaps, and the lateral folds of the lower face are folded outward and folded and stuck on the lower face over the front and rear flaps, and a method for forming the package.

Providing a packaging machine and a sealing method in the packaging machine both of which can reliably seal a packaging bag in a good-looking finish without forming large bubbles on a seal inner surface of a bag mouth of the packaging bag and/or creases on a seal part. A packaging machine includes a seal part preheating station for preheating a seal part of a packaging bag after the packaging bag has been filled with an article and steam deaeration has been carried out, a decorative seal applying station provided downstream of the seal part preheating station for applying a decorative seal to a part of the packaging bag above the seal part and an ultrasonic seal applying station provided downstream of the decorative seal applying station for applying an ultrasonic seal to a part of the packaging bag A below the seal part.