A wrapping machine for making a composed palletized load made by a plurality of partial palletized loads wrapped with a plastic film, comprises a first operating station to individually and separately wrap the partial palletized loads with the film, a conveyor assembly to move along an advancing direction the partial palletized loads inside, towards and outside from the first operating station, a second operating station to arrange the plurality of partial palletized loads in a grouped configuration, in which they are adjacent and placed side by side, and then joint the plurality of partial palletized loads by an adhesive film in order to make the composed palletized load.

Various embodiments of the present disclosure provide a random case sealer including a pneumatically-controlled top-head-actuating assembly configured to vary the speed of the top-head assembly when ascending (to make room for the case beneath the top-head assembly) and when descending onto the case (to engage the top surface of the case during sealing). The case sealer includes a pressure sensor that monitors the pressure of gas incoming from a gas source delivered to the top-head-actuating assembly via one or more valves. A controller controls the open level and/or the open time of the valves based on the pressure of the incoming gas to ensure the top-head-actuating assembly operates as desired regardless of whether the pressure of the incoming gas is equal to, below, or above a desired pressure. These features result in increased throughput compared to prior art random case sealers without requiring stronger cases or more protective dunnage.

A method for laying multiple conductors in a container may be provided. The method may comprise receiving the multiple conductors at a monitoring station; receiving the multiple conductors at a drive; and receiving the multiple conductors at the container.

A food products packaging automatic plant can have at least a first food products packaging conveying line having a plurality of first connection areas. The plant further comprises a plurality of operative units. Each operative unit has a movable base able to move at the connecting areas; a processing device placed on the movable base and connectable to the conveying line at the connection areas; a plurality of sensors; and a wireless communication device. The plant further includes a maintenance station of the operative units; a preparation station of the operative units; and a control and managing central unit. The control and managing central unit commands the operative units so that they move from and towards the first food products packaging conveying line and from and towards the operative units maintenance and preparation stations.

A system for and method of shipping items is provided. The method includes adhering a package to an inner surface of a shipping case, thereby inhibiting movement of the package relative to the shipping case. The method includes wrapping one or more item with a sacrificial layer, such as shrink wrap, stretch wrap, paper, or the like, thereby creating a tight barrier of the package. The system includes one or more conveyor system and one or more adhesive applicator for automating the methods of the present invention. After adhesive is applied to at least one of a first surface of the package and the inner surface of the shipping case, the package is placed into the shipping case and the shipping case is moved to a closed configuration, thereby defining a void surrounding all but the first surface of the package.

Several blister packs are picked simultaneously from pick positions, where they are arranged next to each other in a first row, moved, and placed simultaneously in several place positions. In the place positions, the blister packs are also arranged next to each other in a second row, which is parallel to the first row of the blister packs in the pick positions. The blister packs are placed in the place positions with a rotation of 180° around their centers in comparison to their orientation in the pick positions. The second row of blister packs in the place positions is laterally offset in the direction of the second row relative to the first row of blister packs in the pick positions.

Disclosed is a method for transferring products, to or from a product collection surface of a product processing line, on which they can accumulate, in which method products are stored in trays. The method includes a loaded tray transfer step, during which a tray, namely the collection tray, is separately moved between the collection surface and a receiving zone, where tray conveyor is provided, as well as a product transfer step, during which products are transferred between the collection surface and the collection tray with a planar sweeping movement, while the collection tray is held flush with the collection surface. Also disclosed is a corresponding device for transferring products.

Disclosed is a method for transferring products, to or from a product collection surface of a product processing line, on which they can accumulate, in which method products are stored in trays. The method includes a loaded tray transfer step, during which a tray, namely the collection tray, is separately moved between the collection surface and a receiving zone, where tray conveyor is provided, as well as a product transfer step, during which products are transferred between the collection surface and the collection tray with a planar sweeping movement, while the collection tray is held flush with the collection surface. Also disclosed is a corresponding device for transferring products.

Blister packs in a first and a second pick position are arranged one behind the other in a longitudinal row, which is parallel to a longitudinal center plane of the transfer unit and which extends in an area of the longitudinal center plane. The first blister pack in the first pick position is picked, moved, and placed in the first place position from above. The second blister pack in the second pick position is also picked, moved, and placed in the second place position from above. The blister packs in the first and second place positions are arranged with a lateral offset relative to the longitudinal center plane, and the blister packs in the first and second place positions are rotated 180° around their centers in comparison to their orientation in the first and second pick positions.

An inventory handling apparatus for transferring inventory items from an inventory bin onto a conveyer includes a rotatable member with a conveyance assembly mounted inside. The conveyance assembly receives an inventory bin into a conveyance channel sized to restrain the inventory bin during inversion of the inventory bin. The inverted inventory bin is moved onto a conveyor and the inventory bin lifted thereby leaving the inventory items on the conveyor.