In an installation for the treatment of containers comprising at least one filling station and a packing station for processing film or packaging material blanks and having work components acting upon the packaging material and forming packages, at least one measuring device for dimensional deviations of filled containers and a control unit for automatically adjusting at least one installation station depending on a dimensional deviation detected, work components in the packing station (P) acting upon the packaging material when the filled containers are packed are automatically adjustable by way of the control unit. In a method for packing filled containers, work components of the packing station acting upon packaging material are adjusted automatically depending on dimensional deviations measured in order to form packages of different dimensions with at least substantially the same packing density.

A system for preserving and capping tubes includes a compressed air reservoir for storing compressed air, a preservative reservoir containing a supply of a preservative, a nozzle in fluid communication with the compressed air reservoir and the preservative reservoir for injecting the preservative into the interior of a tube, and a capping device configured to insert a cap onto the end of the tube.

A system for preserving and capping tubes includes a compressed air reservoir for storing compressed air, a preservative reservoir containing a supply of a preservative, a nozzle in fluid communication with the compressed air reservoir and the preservative reservoir for injecting the preservative into the interior of a tube, and a capping device configured to insert a cap onto the end of the tube.

An apparatus for lidding an open container includes a housing, a feed mechanism, and a sealing assembly. The housing is configured to support a roll of a film lidding material. The feed mechanism is configured to communicate a portion of the film lidding material from the housing toward a dispense location. The sealing assembly is attached to the housing and configured to present the film lidding material for interaction with an open end of a container disposed underneath and proximate thereto. The sealing assembly is movable relative to the housing between a first position vertically above the open end of the container and a second position suitable for establishing contact between the film lidding material and the open end and enabling sealing of the film lidding material around the open end. The sealing assembly is configured for substantially vertical translation between the first position and the second position.

A process for collation shrink wrapping an object that may include a number of individual product containers, preferably substantially identical product containers. The process may include the steps of (i) obtaining a collation shrink film that may include a multimodal linear low density polyethylene (LLDPE), the film being a stretched film that is uniaxially oriented in the machine direction (MD) in a draw ratio of at least 1:3, (ii) wrapping the object in the film, and (iii) heating the object wrapped in the film in order to collation shrink the film around the object.

A process for collation shrink wrapping an object that may include a number of individual product containers, preferably substantially identical product containers. The process may include the steps of (i) obtaining a collation shrink film that may include a multimodal linear low density polyethylene (LLDPE), the film being a stretched film that is uniaxially oriented in the machine direction (MD) in a draw ratio of at least 1:3, (ii) wrapping the object in the film, and (iii) heating the object wrapped in the film in order to collation shrink the film around the object.

The present disclosure relates to a container sleeving device, system and method for arranging sleeves on a plurality of containers, wherein the sleeves are made of tubular foil material made to pass over the circumferential outer surface of a spreading element, the container sleeving device comprising:a spreading element configured to spread open the tubular foil material passing from a proximal spreading element portion (31) towards a distal spreading element portion (34);a cutting unit (25) for cutting the spread-open tubular foil material to form a sleeve;a sleeve discharge unit (28) configured to accelerate the sleeve to move over the outer surface of the distal spreading element portion so as to discharge the sleeve towards a container; wherein the distal spreading element portion and/or the proximal spreading element portion has one or more pressure regulating openings configured to regulate the pressure close to the outer surface of the distal spreading element portion and/or of the proximal spreading element portion.

Method for making a bundle (10) of the type comprising a plurality of containers (11) positioned along at least one row and wound in a heat-shrunk film (12) due to a heat-treatment effect; said method comprising the steps of: a) arranging a heat-shrinkable film (12) around said containers (11) ordered along at least one row in order to obtain an open tunnel (13) along the transverse direction (20) with respect to the longitudinal direction of advancement (20), said open tunnel (13) identifying along said transverse direction (20) lateral over-edge portions (14) with respect to said containers (11); b) handling said over-edge portions (14); c) supplying said containers (11) and said heat-shrinkable film (12) to a heat-treatment device, so that said over-edge portions (14) are compacted to said containers for heat-shrinking; in which said step of handling said over-edge portions comprises the step of making said over-edge portions (14) at least partially adhere to said containers (11).

A method for packaging groups of articles to form packaging units, includes sheathing a packaging unit with a film as it moves in a running direction on a transporting path by simultaneously forming a film cover and flaps projecting beyond the packaging unit along a direction perpendicular to the running direction, and positioning the flaps against the packaging unit as the packaging unit moves through a folding unit, fixing the flaps, and forming a film wrapper that is closed on all sides of the packaging unit. A preliminary-fixing step, which includes positioning the flaps in relation to one another, and initially fixing the flaps by generating heat, and exposing the flaps to the heat, follows. This is followed by a definitive-fixing step that includes exposing the packaging unit, as a whole, to generated heat.

Disclosed is object a method for operating a retraction device of an automatic bundler that is designed to be used in a facility for processing products that are delivered in the form of bundles that each group multiple products held together with a retractable film; with the retraction device being equipped with a retraction furnace including at least one heating unit that is designed to heat the air of the furnace and at least one air circulation unit that is designed to distribute the hot air in the furnace; with the operating method including a production mode during which the bundler is adjusted to be able to produce output and a superficial standby mode that helps save energy. The superficial standby mode includes the reduction in speed of at least one air circulation unit, compared to production mode, to a non-zero value. Also disclosed is a corresponding device.