A method comprises the steps of: positioning a plurality of objects, having different dimensions to each other, on an infeed conveyor; delivering to an intermediate conveyor a flow of objects coming from the infeed conveyor and movable along an advancement direction; feeding a packaging unit with the objects coming from the intermediate conveyor, the packaging unit producing a plurality of packages, starting from a web of packaging material, each package containing one object.

The method further comprises the step of checking if, in the flow of objects which advance along the intermediate conveyor, there are empty positions in which an object is missing. If an empty position is detected, there is provided filling the empty position by accelerating the objects which follow the empty position relative to the objects which precede the empty position. The intermediate conveyor comprises a plurality of conveyor belts arranged in sequence along the advancement direction. If the number of objects arriving on the intermediate conveyor in the unit of time is greater than or equal to a predetermined value, the production speed of the packaging unit is adjusted in such a way as to keep in the intermediate conveyor a predetermined average filling level.

The disclosure relates to a method for inserting products into trays at a loading station for a tray sealer, where a tray of several trays loaded with product by way of a gripper unit to a target value at the loading station and provided therein on a tray conveyor is pushed directly onto a discharge belt of the loading station by way of a tray pusher formed on the gripper unit. The disclosure furthermore relates to a loading station for a tray sealer.

The disclosure relates to a method for inserting products into trays at a loading station for a tray sealer, where a tray of several trays loaded with product by way of a gripper unit to a target value at the loading station and provided therein on a tray conveyor is pushed directly onto a discharge belt of the loading station by way of a tray pusher formed on the gripper unit. The disclosure furthermore relates to a loading station for a tray sealer.

A system comprising a staging area and a packing area. The staging area may include a plurality of staging bins and a shuttle moveable along the plurality of staging bins. A staging bin of the plurality of staging bins may be configured to selectively retain a component of an order therein. Such staging bin may be configured to selectively release the component to the shuttle. The packing area may include a slide, a scanner, and a wrap seal conveyor. The shuttle may be configured to release the component onto the slide, and the scanner may be operable to scan and verify the component during placement of the component onto the wrap seal conveyor.

A system comprising a staging area and a packing area. The staging area may include a plurality of staging bins and a shuttle moveable along the plurality of staging bins. A staging bin of the plurality of staging bins may be configured to selectively retain a component of an order therein. Such staging bin may be configured to selectively release the component to the shuttle. The packing area may include a slide, a scanner, and a wrap seal conveyor. The shuttle may be configured to release the component onto the slide, and the scanner may be operable to scan and verify the component during placement of the component onto the wrap seal conveyor.

A rectangular blank has sides X and Y, where a and b are side dimensions, h is height, and r is width, or width reduced by height h, of the periphery region R of the finished packaging. The method includes: producing folding lines B in the blank parallel to side Y at these distances from the latter: B.sub.1: a.sub.1=h; B.sub.2: a.sub.2=h+a; B.sub.3: a.sub.3=2h+a; severing of two severing lines T, each starting from opposite sides X, along one of the folding lines B, or the extension thereof; selecting the distance between two end points E.sub.T of the severing lines T which are closer to an axis of symmetry S.sub.1 parallel to the side X, such that the distance corresponds to a side B″ of the finished packaging or length of a side M of a packaging insert.

Presented and described are a device for separately applying additive packaging material, preferably wrapped straws, supplied as an additive packaging material continuous belt, to packages, in particular cardboard composite packages, having a separating organ for separating the additive packaging material of the additive packaging material continuous belt, a supply means for supplying the additive packaging material continuous belt to the separating organ and for relaying the additive packaging material separated by the separating organ, an application means for applying the separated additive packaging materials to the packages and a transport means for transporting the packages along a package transport path to the application means. So that the separation and application of the additive packaging materials can be carried out quickly, with high quality and reliably, it is provided that a transfer means is provided for picking up the additive packaging material relayed from the supply means and for accelerating the transferred additive packaging material to a speed adapted to the application means.

Cross Seal Devices and related methods are provided. A cross seal device for forming ends of packages being formed in a packaging forming system can include an anvil configured to extend transverse to a product pathway of a packaging forming system along which top and bottom sheet materials travel. The cross seal device can also include a track positioned above the anvil transverse to the product pathway. Further, the cross seal device can include a carriage configured to operate along the track. The carriage can include one or more rollers configured to engage the anvil to form a pressure contact between the anvil and the roller so that the top and bottom sheet materials are joined together.

Cross Seal Devices and related methods are provided. A cross seal device for forming ends of packages being formed in a packaging forming system can include an anvil configured to extend transverse to a product pathway of a packaging forming system along which top and bottom sheet materials travel. The cross seal device can also include a track positioned above the anvil transverse to the product pathway. Further, the cross seal device can include a carriage configured to operate along the track. The carriage can include one or more rollers configured to engage the anvil to form a pressure contact between the anvil and the roller so that the top and bottom sheet materials are joined together.

A plant for automated packaging of items in cardboard boxes includes a forming station of open sheet boxes starting from a cardboard web, an item introduction system, a box closing station, and a feeding system. A cutting and creasing system at the forming station produces a longitudinal elongate element defining the bottom and top walls and a first pair of side walls of the box, and transverse panels providing the second pair of side walls. A first gluing system bonds the transverse panels to the elongate element by applying hot-melt strips on the side edges of the elongate element, and a pair of suction-cup manipulators applies the transverse panels on the elongate element at the glue strips to obtain a cross-shaped blank. The closing station includes a folding and automatic gluing system that folds and bonds the side walls and the top wall of the box to produce finished packages.