A packaging laminate that includes a barrier film having a PECVD barrier coating of diamond-like carbon is disclosed, along with a method of manufacturing such films, and laminated packaging materials comprising such films, in particular intended for liquid food packaging are disclosed. Packaging containers that include the laminated packaging material or being made from the laminated packaging material, in particular to a packaging container intended for liquid food packaging are also disclosed.

Laminated barrier films that include a PECVD barrier coating of diamond-like carbon are disclosed, along with a method of manufacturing such films, and edge-covering strips made from such films, in particular intended for liquid carton packaging are disclosed. Packaging containers that include the edge-covering strip and in particular to a packaging container intended for liquid food packaging are also disclosed.

A method for quality control of a packaging system is provided. The method comprises receiving a first record of packaging quality parameter data related to a first packaging quality parameter for a package being assessed, determining a second packaging quality parameter based on said first record, requesting a second record of packaging quality parameter data related to said second packaging quality parameter, and receiving said second record.

A method for quality control of a packaging system is provided. The method comprises receiving a record of packaging identification data, wherein the record of packaging identification data being related to a package. Next, identifying and receiving a record of machine data using said record of packaging identification data, wherein said record of machine data being related to a machine set up used when producing said package. Thereafter, identifying a packaging quality parameter to be checked based on said record of machine data, and requesting a record of packaging quality data related to said packaging quality parameter.

A stretching unit for clamping and stretching a tubular film in a flow-wrapper, the stretching unit includes: a gripping head; two coupling rods attached to a moving means; two gripping fingers, each of the gripping fingers is attached to the gripping head and to one of the coupling rods; the gripping fingers are moved from a remote position to a clamping position by a relative linear movement between the gripping head and the moving means parallel to a center axis of the moving means.

A vertical bag-making/filling/packaging machine (1) includes: a top folding portion (20) which forms a first fold (F1) by folding a side of a band-shaped film (F) into a Z-shape; a bottom folding portion (30) which forms a second fold (F5) by folding a center of the film (F) into an M-shape; a top seal portion (40) which forms a top gusset (G3) and a spout portion (G7) protruding from the top gusset (G3) by heat-welding the first fold (F1) and side edges (E1 and E2) of the film (F) so as to make the film (F) into a tube shape; and a bottom-seal portion (50) which forms a bottom gusset (G4) by heat-welding the second fold (F5).

According to one embodiment a packaging method is provided in which a film is fed to a vertical forming tube, whereby the film is formed into a tubular shape, the ends of the tubular-shaped film are longitudinally sealed to one another by applying pressure on said ends, the product to be packaged is introduced into the forming tube and the film formed downstream of the forming tube is transversely sealed and cut. Furthermore, in the method, the ends of the film are pressed to one another with a force that keeps both ends static, the drop of the product upstream of the transverse seal is stopped or limited, and by maintaining said pressure and said stop or limitation, an airflow is generated inside the forming tube.

Certain implementations provide a form-fill-seal machine that can efficiently seal a packaging material. The transverse sealing unit may have first members to sandwich the packaging material and sealing the packaging material in a transverse direction, and second members for squeezing the packaging material while sandwiching the packaging material with a prescribed gap left therebetween. The control unit may cause the packaging material to be squeezed by the second members by causing the transverse sealing unit located at a reference position to descend faster than the packaging material being conveyed downward. The control unit may cause the transverse sealing unit to ascend while the packaging material is being sealed by the first members. The control unit may cause the transverse sealing unit to move such that the first members are separated from the packaging material.

An improved induction sealing device (300) is presented. The device (300) comprises a main body (302), a magnetic field concentrator (306) held in said main body (302) and a conductive element (304). One or several protrusions (314a, 314b) of said magnetic field concentrator (306) cooperate with one or several indentations or openings (312a, 312b) in said main body (302) such that said magnetic field concentrator (306) and said main body (302) is securely bonded together.

A method of expanding a structural support volume of a flexible container can include dispensing a cryogenic fluid into at least one structural support volume and sealing the at least one structural support volume such that it has a closed volume prior to complete conversion of the cryogenic fluid into a gas and expansion of the structural support volume to a pressurized state. The flexible container includes a product volume and at least a portion of the structural support volume extends into the product volume when the structural support volume is expanded.